GERM Reservoir Database
Development and Maintenance by the EarthRef.org Database Team

GERM Database Search Results        
Reservoir Z Element Value Median SD Low High N Unit Info Reference Source(s)
Amphibolites 47 Ag 48         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 13 Al 13.77         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 33 As 1.27         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 79 Au 8.21         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 5 B 9.2         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 56 Ba 213         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 4 Be 0.3         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 83 Bi 0.18         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 6 C 0.46         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 20 Ca 9.07         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 48 Cd 114         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 58 Ce 23.7         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 17 Cl 296         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 27 Co 57         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 24 Cr 217         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 55 Cs 0.94         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 29 Cu 92         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 63 Eu 1.28         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites   Eu/Eu* 0.82         189   Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 9 F 659         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 26 Fe 11.883         189 wt%ox Average of 165 subsamples and 24 composites. Fe2O3 = 3.46 and FeO = 8.77 are recalculated as FeO(t). Gao et al. 1998
Amphibolites 31 Ga 18         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 32 Ge 1.28         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 1 H 2.67         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 72 Hf 2.6         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 80 Hg 4.9         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 19 K 0.89         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 57 La 14         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites   La[n]/Yb[n] 3.85         189   Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 3 Li 9.5         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 71 Lu 0.55         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 12 Mg 6.68         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 25 Mn 0.37         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 42 Mo 0.29         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 11 Na 2.46         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 41 Nb 8.7         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 60 Nd 13.5         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 28 Ni 103         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 15 P 0.16         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 82 Pb 12.7         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 46 Pd 5.78         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 78 Pt 6.95         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 37 Rb 46         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 51 Sb 0.09         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 21 Sc 43.2         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 34 Se 235         189 ppb Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 14 Si 49.85         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 62 Sm 4.37         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 50 Sn 1.13         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 38 Sr 258         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 73 Ta 0.41         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 65 Tb 0.92         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 90 Th 1         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 22 Ti 1.2         189 wt%ox Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 81 Tl 0.21         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 92 U 0.36         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 23 V 255         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 74 W 0.53         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 39 Y 15.6         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 70 Yb 2.46         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 30 Zn 125         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Amphibolites 40 Zr 108         189 ppm Average of 165 subsamples and 24 composites. Gao et al. 1998
Arenaceous Rocks 47 Ag 76         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 47 Ag 56         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 13 Al 10.55         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 13 Al 12.93         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 33 As 5.95         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 33 As 2.84         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 79 Au 2.12         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 79 Au 1.36         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 5 B 29         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 5 B 38         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 56 Ba 588         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 56 Ba 645         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 4 Be 1.18         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 4 Be 1.78         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 83 Bi 0.19         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 83 Bi 0.18         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 6 C 0.29         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 6 C 1.22         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 20 Ca 1.98         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 20 Ca 1.02         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 48 Cd 86         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 48 Cd 77         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 58 Ce 60.2         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 58 Ce 62.1         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 17 Cl 180         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 17 Cl 68         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 27 Co 16         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 27 Co 8.7         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 24 Cr 161         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 24 Cr 43         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 55 Cs 4.36         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 55 Cs 5.75         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 29 Cu 46         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 29 Cu 21         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 63 Eu 1.2         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 63 Eu 1.02         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks   Eu/Eu* 0.65         2754   Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks   Eu/Eu* 0.7         121   Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 9 F 489         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 9 F 482         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 26 Fe 3.431         2754 wt%ox Average of 2628 subsamples and 126 composites. Fe2O3 = 1.99 and FeO = 1.64 are recalculated as FeO(t). Gao et al. 1998
Arenaceous Rocks 26 Fe 4.701         121 wt%ox Average of 110 subsamples and 11 composites. Fe2O3 = 1.39 and FeO = 3.45 are recalculated as FeO(t). Gao et al. 1998
Arenaceous Rocks 31 Ga 17.3         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 31 Ga 14.1         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 32 Ge 1.66         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 32 Ge 1.6         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 1 H 1.97         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 1 H 2.18         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 72 Hf 6.13         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 72 Hf 6.02         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 80 Hg 5.9         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 80 Hg 26         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 19 K 2.87         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 19 K 2.54         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 57 La 31.1         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 57 La 34.1         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks   La[n]/Yb[n] 9.08         121   Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks   La[n]/Yb[n] 9.82         2754   Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 3 Li 27.6         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 3 Li 19.7         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 71 Lu 0.34         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 71 Lu 0.42         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 12 Mg 2.01         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 12 Mg 1.38         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 25 Mn 0.09         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 25 Mn 0.07         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 42 Mo 0.71         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 42 Mo 0.46         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 11 Na 1.71         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 11 Na 1.64         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 41 Nb 11.5         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 41 Nb 13.5         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 60 Nd 27.3         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 60 Nd 28.9         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 28 Ni 19         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 28 Ni 44         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 15 P 0.09         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 15 P 0.12         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 82 Pb 18         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 82 Pb 25.8         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 46 Pd 1.62         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 46 Pd 0.74         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 78 Pt 1.62         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 78 Pt 0.59         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 37 Rb 104         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 37 Rb 86         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 51 Sb 0.41         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 51 Sb 0.08         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 21 Sc 14.8         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 21 Sc 9.2         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 34 Se 269         2754 ppb Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 34 Se 130         121 ppb Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 14 Si 70.69         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 14 Si 73.8         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 62 Sm 4.89         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 62 Sm 5.16         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 50 Sn 2.28         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 50 Sn 1.79         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 38 Sr 140         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 38 Sr 133         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 73 Ta 0.81         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 73 Ta 0.88         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 65 Tb 0.74         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 65 Tb 0.87         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 90 Th 10.7         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 90 Th 11.21         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 22 Ti 0.69         121 wt%ox Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 22 Ti 0.52         2754 wt%ox Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 81 Tl 0.66         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 81 Tl 0.58         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 92 U 2.28         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 92 U 1.94         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 23 V 71         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 23 V 102         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 74 W 1.09         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 74 W 0.91         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 39 Y 18         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 39 Y 20.9         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 70 Yb 2.54         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 70 Yb 2.14         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 30 Zn 90         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Arenaceous Rocks 30 Zn 49         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 40 Zr 209         2754 ppm Average of 2628 subsamples and 126 composites. Gao et al. 1998
Arenaceous Rocks 40 Zr 213         121 ppm Average of 110 subsamples and 11 composites. Gao et al. 1998
Carbonates 47 Ag 69         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 47 Ag 48         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 13 Al 1.76         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 13 Al 2.22         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 33 As 0.72         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 33 As 4.75         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 79 Au 0.41         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 79 Au 1.31         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 5 B 21         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 5 B 7.9         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 56 Ba 178         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 56 Ba 374         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 4 Be 0.46         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 4 Be 0.68         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 83 Bi 0.05         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 83 Bi 0.08         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 6 C 36.37         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 6 C 35.08         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 20 Ca 31.13         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 20 Ca 34.45         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 48 Cd 130         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 48 Cd 105         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 58 Ce 12.6         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 58 Ce 25.9         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 17 Cl 99         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 17 Cl 123         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 27 Co 2.1         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 27 Co 3         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 24 Cr 9         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 24 Cr 8         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 55 Cs 0.95         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 55 Cs 0.96         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 29 Cu 5.9         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 29 Cu 8         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 63 Eu 0.25         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 63 Eu 0.34         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates   Eu/Eu* 0.87         50   Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates   Eu/Eu* 0.71         2038   Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 9 F 454         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 9 F 464         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 26 Fe 0.854         50 wt%ox Average of 45 subsamples and 5 composites. Fe2O3 = 0.16 and FeO = 0.71 are recalculated as FeO(t). Gao et al. 1998
Carbonates 26 Fe 0.818         2038 wt%ox Average of 1922 subsamples and 116 composites. Fe2O3 = 0.42 and FeO = 0.44 are recalculated as FeO(t). Gao et al. 1998
Carbonates 31 Ga 2.8         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 31 Ga 2.3         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 32 Ge 0.33         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 32 Ge 0.52         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 1 H 0.93         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 1 H 1.2         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 72 Hf 0.76         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 72 Hf 0.79         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 80 Hg 5.3         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 80 Hg 25         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 19 K 0.62         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 19 K 0.72         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 57 La 13.8         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 57 La 6         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates   La[n]/Yb[n] 12.42         50   Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates   La[n]/Yb[n] 15.99         2038   Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 3 Li 14         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 3 Li 7.9         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 71 Lu 0.05         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 71 Lu 0.08         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 12 Mg 10.58         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 12 Mg 14.89         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 25 Mn 0.05         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 25 Mn 0.06         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 42 Mo 0.5         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 42 Mo 0.56         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 11 Na 0.17         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 11 Na 0.37         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 41 Nb 4.1         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 41 Nb 5.3         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 60 Nd 5.6         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 60 Nd 11.5         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 28 Ni 6         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 28 Ni 6         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 15 P 0.08         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 15 P 0.05         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 82 Pb 9.4         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 82 Pb 13.3         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 46 Pd 0.32         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 46 Pd 0.15         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 78 Pt 0.21         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 78 Pt 0.31         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 37 Rb 21         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 37 Rb 17         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 51 Sb 0.41         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 51 Sb 0.09         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 21 Sc 2         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 21 Sc 1.3         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 34 Se 42         50 ppb Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 34 Se 126         2038 ppb Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 14 Si 13         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 14 Si 13.66         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 62 Sm 0.95         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 62 Sm 1.5         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 50 Sn 0.3         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 50 Sn 0.75         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 38 Sr 245         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 38 Sr 218         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 73 Ta 0.4         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 73 Ta 0.14         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 65 Tb 0.22         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 65 Tb 0.12         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 90 Th 1.57         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 90 Th 1.99         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 22 Ti 0.06         50 wt%ox Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 22 Ti 0.1         2038 wt%ox Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 81 Tl 0.14         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 81 Tl 0.37         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 92 U 1.1         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 92 U 1.05         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 23 V 20         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 23 V 14         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 74 W 0.3         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 74 W 1.72         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 39 Y 6.5         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 39 Y 3.9         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 70 Yb 0.58         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 70 Yb 0.32         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 30 Zn 22         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Carbonates 30 Zn 25         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 40 Zr 29         50 ppm Average of 45 subsamples and 5 composites. Gao et al. 1998
Carbonates 40 Zr 31         2038 ppm Average of 1922 subsamples and 116 composites. Gao et al. 1998
Central East China Craton 47 Ag 51           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 47 Ag 47           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 47 Ag 52           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 47 Ag 50           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 47 Ag 55           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 47 Ag 48           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 47 Ag 50           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 47 Ag 55           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 47 Ag 55           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 13 Al 13.89           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 13 Al 14.01           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 13 Al 13.65           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 13 Al 15.22           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 13 Al 12.12           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 13 Al 13.58           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 13 Al 13.41           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 13 Al 13.63           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 13 Al 13.64           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 13 Al 14.85           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 13 Al 12.94           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 33 As 3.2           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 33 As 3.1           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 33 As 4.3           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 33 As 3.1           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 33 As 4.4           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 33 As 2           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 33 As 4           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 33 As 3.4           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 33 As 1.6           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 79 Au 1.58           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 79 Au 0.66           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 79 Au 1.24           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 79 Au 1.2           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 79 Au 1.18           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 79 Au 1.21           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 79 Au 1.19           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 79 Au 1.88           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 79 Au 1.35           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 5 B 28           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 5 B 18           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 5 B 8           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 5 B 17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 5 B 18           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 5 B 9.6           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 5 B 20           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 5 B 7.6           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 5 B 23           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 56 Ba 614           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 56 Ba 626           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 56 Ba 472           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 56 Ba 627           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 56 Ba 509           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 56 Ba 661           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 56 Ba 601           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 56 Ba 613           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 56 Ba 661           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 56 Ba 654           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 56 Ba 678           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ba/Rb 8.6             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Ba/Rb 8.9             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ba/Rb 9.6             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Ba/Rb 8.3             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ba/Rb 9.2             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ba/Rb 9.9             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Ba/Rb 8.94             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ba/Rb 9.05             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Ba/Th 76             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ba/Th 97             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Ba/Th 86             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Ba/Th 84             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ba/Th 97             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Ba/Th 87             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ba/Th 97             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ba/Th 86             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 4 Be 1.88           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 4 Be 2.29           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 4 Be 0.63           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 4 Be 1.72           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 4 Be 1.95           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 4 Be 1.78           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 4 Be 1.06           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 4 Be 1.94           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 4 Be 1.5           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 83 Bi 0.29           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 83 Bi 0.27           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 83 Bi 0.38           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 83 Bi 0.23           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 83 Bi 0.28           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 83 Bi 0.5           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 83 Bi 0.2           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 83 Bi 0.17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 83 Bi 0.25           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 6 C 0.83           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 6 C 0.95           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 6 C 0.27           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 6 C 1.84           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 6 C 0.55           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 6 C 3.14           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 6 C 0.93           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 6 C 0.44           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 6 C 0.51           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 6 C 5.48           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 20 Ca 4.22           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 20 Ca 7.41           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 20 Ca 4.88           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 20 Ca 6.51           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 20 Ca 3.31           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 20 Ca 5.89           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 20 Ca 6.02           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 20 Ca 6.02           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 20 Ca 4.99           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 20 Ca 4.71           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 20 Ca 4           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 48 Cd 83           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 48 Cd 61           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 48 Cd 75           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 48 Cd 75           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 48 Cd 60           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 48 Cd 102           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 48 Cd 79           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 48 Cd 97           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 48 Cd 75           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 58 Ce 66.4           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 58 Ce 60           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 58 Ce 57.6           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 58 Ce 46           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 58 Ce 63.7           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 58 Ce 60.3           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 58 Ce 58.7           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 58 Ce 52.8           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 58 Ce 60.3           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 58 Ce 63.7           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 58 Ce 52.4           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton   Ce/Sb 713             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Ce/Sb 222             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ce/Sb 215             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Ce/Sb 258             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Ce/Sb 271             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ce/Sb 569             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Ce/Sb 649             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 17 Cl 182           ppm Compostional estimate of the entire Central East China province. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 17 Cl 142           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 17 Cl 149           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 17 Cl 171           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 17 Cl 174           ppm Compostional estimate of the entire Central East China province. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 17 Cl 179           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 17 Cl 216           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 17 Cl 134           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton   Cl/Li 9.8             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Cl/Li 11.3             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Cl/Li 10.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Cl/Li 16.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Cl/Li 14             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Cl/Li 7             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 27 Co 19           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 27 Co 22           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 27 Co 31           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 27 Co 18           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 27 Co 16           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 27 Co 24           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 27 Co 18           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 27 Co 24           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 27 Co 30           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 27 Co 17           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 27 Co 36           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 24 Cr 123           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 24 Cr 83           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 24 Cr 107           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 24 Cr 86           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 24 Cr 71           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 24 Cr 92           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 24 Cr 80           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 24 Cr 141           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 24 Cr 69           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 24 Cr 165           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 24 Cr 119           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 55 Cs 1.96           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 55 Cs 2.97           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 55 Cs 1.05           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 55 Cs 2.36           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 55 Cs 3.55           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 55 Cs 3.02           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 55 Cs 3.53           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 55 Cs 2.79           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 55 Cs 2.73           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 55 Cs 2.58           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 55 Cs 2.71           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 29 Cu 37           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 29 Cu 32           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 29 Cu 32           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 29 Cu 38           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 29 Cu 29           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 29 Cu 34           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 29 Cu 34           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 29 Cu 34           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 29 Cu 37           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 29 Cu 50           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 29 Cu 42           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton   Cu/Au 26000             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Cu/Au 30000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Cu/Au 48000             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Cu/Au 32000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Cu/Au 29000             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Cu/Au 22000             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Cu/Au 31000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Er/Ag 50.5             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Er/Ag 54.6             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Er/Ag 52.1             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Er/Ag 51.4             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Er/Ag 53.5             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Er/Ag 65.7             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Er/Ag 49             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 63 Eu 1.55           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 63 Eu 1.2           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 63 Eu 1.27           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 63 Eu 1.21           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 63 Eu 1.22           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 63 Eu 1.19           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 63 Eu 1.16           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 63 Eu 1.39           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 63 Eu 1.26           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 63 Eu 1.15           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 63 Eu 1.08           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton   Eu/Eu* 0.76             Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.88             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Eu/Eu* 0.81             Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.78             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.97             Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton   Eu/Eu* 0.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Eu/Eu* 0.8             Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Eu/Eu* 0.73             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.78             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Eu/Eu* 0.77             Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 9 F 602           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 9 F 524           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 9 F 561           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 9 F 675           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 9 F 628           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 9 F 703           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 9 F 548           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 9 F 564           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 9 F 526           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   F/Nd 19.7             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   F/Nd 18.4             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   F/Nd 28.1             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   F/Nd 20             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   F/Nd 21.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   F/Nd 22.2             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 26 Fe 5.291           wt%ox Compostional estimate of the entire Central East China province. Fe2O3 = 2.29 and FeO = 3.23 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 9.022           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Fe2O3 = 3.87 and FeO = 5.54 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 5.507           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.43 and FeO = 3.32 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 5.93           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 26 Fe 6.507           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Fe2O3 = 2.13 and FeO = 4.59 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 7.33           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 26 Fe 8.206           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Fe2O3 = 3.83 and FeO = 4.76 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 6.521           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Fe2O3 = 2.98 and FeO = 3.84 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 4.599           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Fe2O3 = 2.01 and FeO = 2.79 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 5.135           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.35 and FeO = 3.02 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 26 Fe 5.198           wt%ox Compostional estimate of the entire Central East China province. Fe2O3 = 2.71 and FeO = 2.76 are recalculated as FeO(t). Gao et al. 1998
Central East China Craton 31 Ga 19           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 31 Ga 18           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 31 Ga 16           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 31 Ga 20           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 31 Ga 18           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 31 Ga 17           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 31 Ga 18           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 31 Ga 17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 31 Ga 19           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 31 Ga 18           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 31 Ga 17           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 32 Ge 1.18           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 32 Ge 1.26           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 32 Ge 1.18           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 32 Ge 1.27           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 32 Ge 1.1           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 32 Ge 1.34           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 32 Ge 1.13           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 32 Ge 1.24           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 32 Ge 1.25           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 1 H 2.11           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 1 H 1.94           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 1 H 1.36           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 1 H 2.07           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 1 H 1.78           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 1 H 1.92           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 1 H 1.77           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 1 H 1.66           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 1 H 2.01           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 1 H 1.88           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 72 Hf 4.71           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 72 Hf 4.79           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 72 Hf 5.12           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 72 Hf 4.07           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 72 Hf 3.43           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 72 Hf 4.63           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 72 Hf 4.7           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 72 Hf 4.44           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 72 Hf 4.91           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 72 Hf 4.45           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 72 Hf 4.22           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 80 Hg 9           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 80 Hg 7.9           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 80 Hg 12.3           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 80 Hg 5.1           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 80 Hg 6.3           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 80 Hg 6.7           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 80 Hg 9.4           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 80 Hg 11.5           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 80 Hg 9.2           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 19 K 2.58           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 19 K 2.22           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 19 K 1.87           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 19 K 2.41           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 19 K 1.51           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 19 K 2.15           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 19 K 2.26           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 19 K 2.15           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 19 K 2.39           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 19 K 1.7           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 19 K 2.27           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   K/Pb 1200             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   K/Pb 1200             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   K/Pb 1200             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   K/Pb 1400             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   K/Pb 1100             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   K/Pb 1200             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   K/Pb 1200             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   K/Pb 1300             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   K/U 16300             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   K/U 16400             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   K/U 13800             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   K/U 15800             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   K/U 15900             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   K/U 15800             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   K/U 16900             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   K/U 19600             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 57 La 31           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 57 La 25.7           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 57 La 30.3           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 57 La 28.8           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 57 La 32           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 57 La 33.6           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 57 La 34.8           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 57 La 31.6           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 57 La 24.9           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 57 La 35.3           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 57 La 30.8           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/As 17.7             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La/As 10             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/As 18.7             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   La/As 17.4             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/As 10.3             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La/As 7.9             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/As 10             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/B 1.8             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/B 3.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   La/B 3.7             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/B 1.2             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/B 1.7             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/B 3.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La/B 1.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La/Nb 3.07             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/Nb 2.85             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La/Nb 2.95             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   La/Nb 3.17             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   La/Nb 2.88             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/Nb 2.85             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La/Nb 3.58             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La/Nb 2.86             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 8.48             Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 9.6             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.42             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 9.52             Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.5             Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.8             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.09             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 8.5             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.08             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 10.96             Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   La[n]/Yb[n] 12.36             Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 3 Li 17           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 3 Li 17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 3 Li 15           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 3 Li 13           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 3 Li 18           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 3 Li 11.7           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 3 Li 16           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 3 Li 12           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 3 Li 16           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 3 Li 20           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 3 Li 17           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 71 Lu 0.31           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 71 Lu 0.33           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 71 Lu 0.35           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 71 Lu 0.35           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 71 Lu 0.32           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 71 Lu 0.34           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 71 Lu 0.3           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 71 Lu 0.32           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 71 Lu 0.38           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 71 Lu 0.27           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 71 Lu 0.31           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Lu/Hf 0.091             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Lu/Hf 0.071             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Lu/Hf 0.067             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Lu/Hf 0.07             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Lu/Hf 0.067             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Lu/Hf 0.068             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Lu/Hf 0.079             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Lu/Hf 0.067             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 12 Mg 3.38           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 12 Mg 3.73           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 12 Mg 3.67           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 12 Mg 3.02           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 12 Mg 4.33           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 12 Mg 3.6           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 12 Mg 5.05           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 12 Mg 3.86           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 12 Mg 3.42           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 12 Mg 3.5           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 12 Mg 2.52           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 25 Mn 0.13           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 25 Mn 0.1           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 25 Mn 0.11           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 25 Mn 0.1           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 25 Mn 0.15           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 25 Mn 0.12           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 25 Mn 0.09           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 25 Mn 0.13           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 25 Mn 0.1           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 25 Mn 0.1           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 25 Mn 0.12           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 42 Mo 0.6           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 42 Mo 0.59           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 42 Mo 0.62           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 42 Mo 0.69           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 42 Mo 0.45           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 42 Mo 0.54           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 42 Mo 0.78           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 42 Mo 0.66           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 42 Mo 0.65           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 42 Mo 0.64           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 11 Na 3.04           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 11 Na 2.94           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 11 Na 2.91           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 11 Na 3.02           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 11 Na 2.86           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 11 Na 2.57           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 11 Na 2.92           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 11 Na 2.75           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 11 Na 3.37           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 11 Na 2.96           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 11 Na 3.31           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 41 Nb 11           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 41 Nb 10           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 41 Nb 10           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 41 Nb 10           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 41 Nb 10           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 41 Nb 8           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 41 Nb 10           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 41 Nb 10.3           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 41 Nb 12           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 41 Nb 11           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 41 Nb 11           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Nb/Ta 16.7             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Nb/Ta 14.7             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Nb/Ta 16.5             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Nb/Ta 17.5             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Nb/Ta 17.4             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Nb/Ta 19.5             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Nb/Ta 17.3             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Nb/Ta 17.9             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 60 Nd 28.6           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 60 Nd 30.4           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 60 Nd 26.1           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 60 Nd 25           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 60 Nd 28.3           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 60 Nd 27.4           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 60 Nd 21.4           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 60 Nd 26.1           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 60 Nd 26.7           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 60 Nd 26.7           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 60 Nd 26.2           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Nd/W 52.3             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Nd/W 33.6             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Nd/W 43.7             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Nd/W 39.3             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Nd/W 39.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 28 Ni 46           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 28 Ni 38           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 28 Ni 34           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 28 Ni 56           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 28 Ni 35           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 28 Ni 57           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 28 Ni 40           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 28 Ni 73           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 28 Ni 49           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 28 Ni 64           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 28 Ni 41           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 15 P 0.14           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 15 P 0.16           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 15 P 0.16           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 15 P 0.2           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 15 P 0.15           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 15 P 0.14           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 15 P 0.15           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 15 P 0.25           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 15 P 0.18           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 15 P 0.15           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 15 P 0.18           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 82 Pb 16           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 82 Pb 17           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 82 Pb 18           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 82 Pb 15           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 82 Pb 11           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 82 Pb 15           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 82 Pb 16           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 82 Pb 15           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 82 Pb 14           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 82 Pb 10           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 82 Pb 13           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Pb/Bi 85             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Pb/Bi 55             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Pb/Bi 79.1             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Pb/Bi 57             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Pb/Bi 34             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Pb/Bi 30             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 46 Pd 1.34           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 46 Pd 2.74           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 46 Pd 1.51           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 46 Pd 2.78           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 46 Pd 1.54           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 46 Pd 1.74           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 46 Pd 1.46           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 46 Pd 0.76           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 46 Pd 1.8           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 78 Pt 2.87           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 78 Pt 1.5           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 78 Pt 0.85           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 78 Pt 1.64           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 78 Pt 1.41           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 78 Pt 1.81           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 78 Pt 1.62           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 78 Pt 2.96           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 78 Pt 1.87           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 37 Rb 73           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 37 Rb 69           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 37 Rb 56           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 37 Rb 49           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 37 Rb 69           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 37 Rb 73           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 37 Rb 66           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 37 Rb 82           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 37 Rb 67           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 37 Rb 46           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 37 Rb 71           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   Rb/Cs 22             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Cs 24             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Rb/Cs 23             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Cs 21             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Rb/Cs 25             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Cs 25             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Cs 21             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Cs 34             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Sr 0.31             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Sr 0.24             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Sr 0.22             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Rb/Sr 0.26             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Sr 0.22             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Sr 0.14             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Rb/Sr 0.24             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Sr 0.18             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Tl 245             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Tl 146             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Tl 177             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Rb/Tl 142             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Rb/Tl 178             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Tl 174             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Rb/Tl 145             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 16 S 0.04           wt% Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Compostional estimate of the entire Central East China province. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.04           wt% Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.02           wt% Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 16 S 0.02           wt% Compostional estimate of the entire Central East China province. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Weighted average of the southern margin of the North China craton, the entire Qinling belt and the Yangtze craton. Gao et al. 1998
Central East China Craton 16 S 0.03           wt% Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   S/Se 4100             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   S/Se 1700             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   S/Se 3600             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   S/Se 2100             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   S/Se 2100             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   S/Se 3900             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 51 Sb 0.09           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 51 Sb 0.24           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 51 Sb 0.22           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 51 Sb 0.25           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 51 Sb 0.28           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 51 Sb 0.28           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 51 Sb 0.22           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 51 Sb 0.3           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 51 Sb 0.1           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 51 Sb 0.21           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 21 Sc 15           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 21 Sc 15           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 21 Sc 24           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 21 Sc 17           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 21 Sc 13           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 21 Sc 26           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 21 Sc 23           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 21 Sc 18           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 21 Sc 16           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 21 Sc 15           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 21 Sc 19           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 34 Se 133           ppb Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 34 Se 138           ppb Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 34 Se 140           ppb Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 34 Se 166           ppb Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 34 Se 150           ppb Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 34 Se 120           ppb Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 34 Se 64           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 34 Se 110           ppb Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 34 Se 113           ppb Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Se/Cd 1.04             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Se/Cd 1.89             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Se/Cd 1.71             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Se/Cd 1.42             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Se/Cd 1.64             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Se/Cd 1.51             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 14 Si 61.86           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 14 Si 63.7           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 14 Si 61.54           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 14 Si 57.63           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 14 Si 61.82           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 14 Si 58.07           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 14 Si 58.46           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 14 Si 65.46           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 14 Si 62.72           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 14 Si 58.18           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 14 Si 60.41           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Si/Ge 231000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Si/Ge 253000             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Si/Ge 237000             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Si/Ge 326000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Si/Ge 218000             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Si/Ge 229000             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Si/Ge 231000             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 62 Sm 4.84           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 62 Sm 4.74           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 62 Sm 5.03           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 62 Sm 5.09           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 62 Sm 4.91           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 62 Sm 4.57           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 62 Sm 4.65           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 62 Sm 4.61           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 62 Sm 3.9           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 62 Sm 4.73           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 62 Sm 4.45           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   Sm/Mo 8.1             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sm/Mo 10.1             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sm/Mo 8.5             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sm/Mo 6.5             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sm/Mo 7.4             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sm/Mo 7.5             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sm/Mo 7.9             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sm/Nd 0.18             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sm/Nd 0.19             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sm/Nd 0.17             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sm/Nd 0.18             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sm/Nd 0.18             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sm/Nd 0.18             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sm/Nd 0.17             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sm/Nd 0.17             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 50 Sn 1.57           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 50 Sn 1.34           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 50 Sn 1.6           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 50 Sn 1.46           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 50 Sn 1.61           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 50 Sn 1.09           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 50 Sn 1.48           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 50 Sn 1.51           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 50 Sn 1.73           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 50 Sn 1.3           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sn/Sm 0.41             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sn/Sm 0.34             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sn/Sm 0.27             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sn/Sm 0.34             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sn/Sm 0.29             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sn/Sm 0.31             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sn/Sm 0.32             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 38 Sr 419           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 38 Sr 283           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 38 Sr 285           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 38 Sr 266           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 38 Sr 273           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 38 Sr 331           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 38 Sr 288           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 38 Sr 343           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 38 Sr 308           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 38 Sr 298           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 38 Sr 286           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sr/Nd 8.7             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sr/Nd 12.3             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sr/Nd 11.7             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sr/Nd 11.4             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sr/Nd 10.4             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sr/Nd 16             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sr/Nd 10.8             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sr/Nd 10             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sr/Sm 65.1             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Sr/Sm 59             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sr/Sm 59.8             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sr/Sm 70             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Sr/Sm 66.3             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Sr/Sm 58.2             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sr/Sm 52.3             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Sr/Sm 87.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 73 Ta 0.68           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 73 Ta 0.6           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 73 Ta 0.63           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 73 Ta 0.53           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 73 Ta 0.52           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 73 Ta 0.55           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 73 Ta 0.58           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 73 Ta 0.62           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 73 Ta 0.74           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 73 Ta 0.63           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 73 Ta 0.55           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 65 Tb 0.82           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 65 Tb 0.76           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 65 Tb 0.74           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 65 Tb 0.77           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 65 Tb 0.65           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 65 Tb 0.77           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 65 Tb 0.69           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 65 Tb 0.73           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 65 Tb 0.82           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 65 Tb 0.79           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 65 Tb 0.86           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 90 Th 7.27           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 90 Th 7.26           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 90 Th 4.88           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 90 Th 5.23           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 90 Th 6.96           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 90 Th 7.76           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 90 Th 7.08           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 90 Th 8.95           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 90 Th 6.84           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 90 Th 3.11           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 90 Th 7.71           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton   Th/U 6.18             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Th/U 6.72             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Th/U 6.6             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Th/U 6.05             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Th/U 6.18             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Th/U 5.76             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Th/U 6.72             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Th/U 6.06             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 22 Ti 1.01           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 22 Ti 0.77           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 22 Ti 0.73           wt%ox Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 22 Ti 0.77           wt%ox Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 22 Ti 0.63           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 22 Ti 0.69           wt%ox Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 22 Ti 0.57           wt%ox Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 22 Ti 0.65           wt%ox Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 22 Ti 0.63           wt%ox Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 22 Ti 0.67           wt%ox Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 22 Ti 0.92           wt%ox Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 81 Tl 0.27           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 81 Tl 0.42           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 81 Tl 4.38           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 81 Tl 0.47           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 81 Tl 0.38           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 81 Tl 0.41           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 81 Tl 0.39           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 81 Tl 0.34           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 81 Tl 0.52           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 81 Tl 0.25           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 92 U 1.26           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 92 U 1.13           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 92 U 0.86           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 92 U 0.74           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 92 U 1.19           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 92 U 1.08           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 92 U 1.39           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 92 U 0.63           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 92 U 1.02           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 92 U 1.55           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 92 U 1.17           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   U/Pb 0.072             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   U/Pb 0.079             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   U/Pb 0.077             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   U/Pb 0.07             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   U/Pb 0.087             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   U/Pb 0.066             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   U/Pb 0.074             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   U/Pb 0.079             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 23 V 102           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 23 V 117           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 23 V 185           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 23 V 154           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 23 V 98           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 23 V 120           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 23 V 87           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 23 V 160           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 23 V 95           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 23 V 98           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 23 V 128           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 74 W 0.73           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 74 W 0.51           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 74 W 0.69           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 74 W 0.54           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 74 W 0.82           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 74 W 0.6           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 74 W 0.5           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 74 W 0.91           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 74 W 0.69           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 39 Y 16.6           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 39 Y 17.8           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 39 Y 17.1           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 39 Y 15.5           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 39 Y 16.2           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 39 Y 16.7           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 39 Y 15.5           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 39 Y 17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 39 Y 16.5           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 39 Y 17.4           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 39 Y 17.5           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 70 Yb 2.03           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 70 Yb 2.16           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 70 Yb 2.29           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 70 Yb 1.67           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 70 Yb 2           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 70 Yb 2.25           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 70 Yb 1.91           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 70 Yb 2.17           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 70 Yb 2.05           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 70 Yb 2.26           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 70 Yb 1.93           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 30 Zn 69           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 30 Zn 95           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 30 Zn 70           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 30 Zn 72           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 30 Zn 63           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 30 Zn 82           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 30 Zn 74           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 30 Zn 81           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 30 Zn 102           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 30 Zn 69           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 30 Zn 81           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 40 Zr 163           ppm Compostional estimate of the entire Central East China province. Includes sedimentary carbonates. Gao et al. 1998
Central East China Craton 40 Zr 175           ppm Compostional estimate of the entire Central East China province. Average composition of granulite terrains. Gao et al. 1998
Central East China Craton 40 Zr 129           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton 40 Zr 169           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton 40 Zr 162           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 40 Zr 163           ppm Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
Central East China Craton 40 Zr 175           ppm Average composition for Central East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton 40 Zr 181           ppm Compostional estimate of the entire Central East China province. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 40 Zr 188           ppm Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton 40 Zr 158           ppm Compostional estimate of the entire Central East China province. Calculated according to 70% intermediate granulite plus 15% mafic granulite plus 15% metapelite from central East China (Appendix 1; for detailed explanation see text). Gao et al. 1998
Central East China Craton 40 Zr 173           ppm Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Zr/Hf 37             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Zr/Hf 38             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Zr/Hf 37             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   Zr/Hf 37             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   Zr/Hf 37             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Zr/Hf 38             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   Zr/Hf 36             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   Zr/Hf 37             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   ¿-Pb 5             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   ¿-Pb 4.4             Compostional estimate of the entire Central East China province. Gao et al. 1998
Central East China Craton   ¿-Pb 4.8             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   ¿-Pb 4.3             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Central East China Craton   ¿-Pb 4             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Central East China Craton   ¿-Pb 5.7             Compostional estimate of the entire Central East China province. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Central East China Craton   ¿-Pb 4.9             Compostional estimate of the entire Central East China province. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith using the median values of Rudnick & Fountain (1995). Gao et al. 1998
Diorite 47 Ag 53         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 13 Al 16.62         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 33 As 1.53         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 79 Au 0.47         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 5 B 6.6         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 56 Ba 848         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 4 Be 1.2         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 83 Bi 0.11         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 6 C 0.42         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 20 Ca 5.33         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 48 Cd 89         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 58 Ce 67.4         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 17 Cl 144         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 27 Co 22.5         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 24 Cr 76         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 55 Cs 2.37         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 29 Cu 21         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 63 Eu 1.64         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite   Eu/Eu* 1.04         260   Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 9 F 631         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 26 Fe 6.356         260 wt%ox Average of 243 subsamples and 17 composites. Fe2O3 = 2.44 and FeO = 4.16 are recalculated as FeO(t). Gao et al. 1998
Diorite 31 Ga 21.3         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 32 Ge 1.03         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 1 H 1.75         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 72 Hf 6.42         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 80 Hg 12         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 19 K 2.08         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 57 La 38.6         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite   La[n]/Yb[n] 12.47         260   Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 3 Li 13.6         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 71 Lu 0.39         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 12 Mg 3.74         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 25 Mn 0.13         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 42 Mo 0.86         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 11 Na 4.38         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 41 Nb 27.7         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 60 Nd 28.6         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 28 Ni 34         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 15 P 0.25         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 82 Pb 19.4         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 46 Pd 0.51         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 78 Pt 0.61         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 37 Rb 64         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 51 Sb 0.17         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 21 Sc 20.6         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 34 Se 65         260 ppb Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 14 Si 57.33         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 62 Sm 5.13         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 50 Sn 1.13         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 38 Sr 610         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 73 Ta 1.46         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 65 Tb 0.7         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 90 Th 12.2         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 22 Ti 0.86         260 wt%ox Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 81 Tl 0.3         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 92 U 2.23         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 23 V 132         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 74 W 0.53         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 39 Y 17.2         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 70 Yb 2.09         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 30 Zn 96         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
Diorite 40 Zr 267         260 ppm Average of 243 subsamples and 17 composites. Gao et al. 1998
East China Craton 47 Ag 52           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 13 Al 13.56           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 13 Al 14.06           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 33 As 3           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 79 Au 1.18           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 5 B 18           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 56 Ba 608           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 56 Ba 593           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 4 Be 1.71           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 83 Bi 0.26           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 6 C 0.97           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 6 C 0.94           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 20 Ca 5.03           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 20 Ca 4.83           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 48 Cd 76           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 58 Ce 59.3           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 58 Ce 56.6           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 17 Cl 179           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 27 Co 24           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 27 Co 22           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 24 Cr 109           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 24 Cr 92           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 55 Cs 2.62           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 55 Cs 2.71           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 29 Cu 39           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 29 Cu 34           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 63 Eu 1.18           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 63 Eu 1.28           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton   Eu/Eu* 0.8             Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton   Eu/Eu* 0.8             Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 9 F 604           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 26 Fe 6.642           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Fe2O3 = 3.07 and FeO = 3.88 are recalculated as FeO(t). Gao et al. 1998
East China Craton 26 Fe 5.96           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 31 Ga 18           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 31 Ga 17           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 32 Ge 1.25           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 1 H 1.74           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 1 H 1.94           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 72 Hf 4.37           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 72 Hf 4.68           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 80 Hg 8.2           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 80 Hg 8.9           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 19 K 2.12           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 19 K 2.2           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 57 La 31.2           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 57 La 29.7           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton   La[n]/Yb[n] 9.32             Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton   La[n]/Yb[n] 9.96             Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 3 Li 16           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 3 Li 16           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 71 Lu 0.31           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 71 Lu 0.36           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 12 Mg 3.77           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 12 Mg 3.48           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 25 Mn 0.12           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 25 Mn 0.11           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 42 Mo 0.64           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 11 Na 2.96           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 11 Na 2.94           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 41 Nb 10           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 41 Nb 11           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 60 Nd 27.2           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 60 Nd 25.7           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 28 Ni 50           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 28 Ni 46           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 15 P 0.16           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 15 P 0.18           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 82 Pb 14           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 82 Pb 15           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 46 Pd 1.73           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 78 Pt 1.79           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 37 Rb 67           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 37 Rb 65           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 16 S 0.03           wt% Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 16 S 0.03           wt% Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 51 Sb 0.22           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 51 Sb 0.21           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 21 Sc 19           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 21 Sc 18           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 34 Se 134           ppb Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 14 Si 61.57           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 14 Si 61.52           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 62 Sm 4.53           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 62 Sm 4.83           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 50 Sn 1.46           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 38 Sr 284           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 38 Sr 298           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 73 Ta 0.63           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 73 Ta 0.61           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 65 Tb 0.82           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 65 Tb 0.74           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 90 Th 6.95           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 90 Th 6.8           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 22 Ti 0.79           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 22 Ti 0.69           wt%ox Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 81 Tl 0.38           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 92 U 1.1           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 92 U 1.15           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 23 V 118           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 23 V 131           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 74 W 0.68           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 39 Y 17.5           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 39 Y 16.6           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 70 Yb 2.01           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 70 Yb 2.26           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 30 Zn 73           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 30 Zn 82           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
East China Craton 40 Zr 161           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average worldwide mafic granulite xenolith (Rudnick & Fountain, 1995). Gao et al. 1998
East China Craton 40 Zr 174           ppm Compostional estimate of East China. Assuming that the lowermost crust is represented by the average mafic granulite from Archean high-grade terrains in Central East China (Appendix 1). Gao et al. 1998
Felsic Granulites 47 Ag 47         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 13 Al 14.91         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 33 As 0.95         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 79 Au 1         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 5 B 2.8         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 56 Ba 572         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 4 Be 0.68         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 83 Bi 1.39         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 6 C 0.25         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 20 Ca 3.88         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 48 Cd 58         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 58 Ce 48.7         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 27 Co 18         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 24 Cr 102         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 55 Cs 0.5         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 29 Cu 29         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 63 Eu 1.21         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites   Eu/Eu* 1.06         137   Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 9 F 413         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 26 Fe 5.394         137 wt%ox Average of 116 subsamples and 21 composites. Fe2O3 = 2.46 and FeO = 3.18 are recalculated as FeO(t). Gao et al. 1998
Felsic Granulites 31 Ga 18.2         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 32 Ge 0.96         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 1 H 1.04         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 72 Hf 4.11         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 80 Hg 6.4         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 19 K 1.84         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 57 La 26.7         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites   La[n]/Yb[n] 12.38         137   Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 3 Li 10.4         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 71 Lu 0.23         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 12 Mg 2.44         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 25 Mn 0.08         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 42 Mo 0.46         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 11 Na 3.62         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 41 Nb 9.2         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 60 Nd 22.4         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 28 Ni 37         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 15 P 0.19         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 82 Pb 11.2         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 46 Pd 1.1         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 78 Pt 1.05         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 37 Rb 45         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 51 Sb 0.12         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 21 Sc 14.7         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 34 Se 84         137 ppb Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 14 Si 65.06         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 62 Sm 3.79         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 50 Sn 1.03         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 38 Sr 416         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 73 Ta 0.4         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 65 Tb 0.49         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 90 Th 2.83         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 22 Ti 0.6         137 wt%ox Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 81 Tl 0.26         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 92 U 0.4         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 23 V 98         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 74 W 0.4         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 39 Y 12.7         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 70 Yb 1.46         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 30 Zn 69         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Granulites 40 Zr 153         137 ppm Average of 116 subsamples and 21 composites. Gao et al. 1998
Felsic Volcanics 47 Ag 72         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 13 Al 13.25         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 33 As 4.53         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 79 Au 0.67         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 5 B 11         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 56 Ba 643         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 4 Be 2.32         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 83 Bi 0.14         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 6 C 0.53         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 20 Ca 2.06         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 48 Cd 64         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 58 Ce 70.7         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 17 Cl 30         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 27 Co 7.6         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 24 Cr 30         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 55 Cs 2.2         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 29 Cu 15         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 63 Eu 1.4         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics   Eu/Eu* 0.73         972   Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 9 F 441         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 26 Fe 3.46         972 wt%ox Average of 895 subsamples and 77 composites. Fe2O3 = 2.4 and FeO = 1.3 are recalculated as FeO(t). Gao et al. 1998
Felsic Volcanics 31 Ga 17.4         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 32 Ge 1.28         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 1 H 1.84         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 72 Hf 6.48         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 80 Hg 7.2         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 19 K 2.8         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 57 La 36.4         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics   La[n]/Yb[n] 7.42         972   Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 3 Li 15.5         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 71 Lu 0.49         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 12 Mg 1.36         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 25 Mn 0.08         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 42 Mo 0.5         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 11 Na 3.76         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 41 Nb 13.5         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 60 Nd 31.7         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 28 Ni 10         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 15 P 0.13         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 82 Pb 17.1         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 46 Pd 0.23         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 78 Pt 0.22         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 37 Rb 69         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 51 Sb 0.3         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 21 Sc 12.3         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 34 Se 66         972 ppb Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 14 Si 69.5         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 62 Sm 5.96         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 50 Sn 1.93         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 38 Sr 201         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 73 Ta 0.88         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 65 Tb 0.94         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 90 Th 7.99         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 22 Ti 0.52         972 wt%ox Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 81 Tl 0.32         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 92 U 1.47         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 23 V 55         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 74 W 0.69         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 39 Y 19.9         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 70 Yb 3.31         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 30 Zn 62         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Felsic Volcanics 40 Zr 237         972 ppm Average of 895 subsamples and 77 composites. Gao et al. 1998
Granites 47 Ag 49         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 47 Ag 55         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 13 Al 12.87         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 13 Al 14.15         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 33 As 0.6         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 33 As 0.77         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 79 Au 2.21         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 79 Au 0.41         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 5 B 6.6         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 5 B 3         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 56 Ba 943         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 56 Ba 998         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 4 Be 3.27         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 4 Be 4.85         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 83 Bi 0.15         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 83 Bi 0.09         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 6 C 0.57         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 6 C 0.33         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 20 Ca 1.43         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 20 Ca 1.46         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 48 Cd 33         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 48 Cd 56         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 58 Ce 140.4         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 58 Ce 87.2         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 17 Cl 174         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 17 Cl 34         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 27 Co 3         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 27 Co 7.1         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 24 Cr 8.8         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 24 Cr 24         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 55 Cs 3.81         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 55 Cs 2.33         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 29 Cu 11         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 29 Cu 6.6         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 63 Eu 0.87         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 63 Eu 1.13         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites   Eu/Eu* 0.56         1226   Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites   Eu/Eu* 0.5         402   Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 9 F 692         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 9 F 533         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 26 Fe 1.864         1226 wt%ox Average of 1140 subsamples and 86 composites. Fe2O3 = 0.96 and FeO = 1.00 are recalculated as FeO(t). Gao et al. 1998
Granites 26 Fe 3.046         402 wt%ox Average of 369 subsamples and 33 composites. Fe2O3 = 0.94 and FeO = 2.20 are recalculated as FeO(t). Gao et al. 1998
Granites 31 Ga 18.3         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 31 Ga 17.9         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 32 Ge 1.45         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 32 Ge 1.02         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 1 H 1.11         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 1 H 0.89         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 72 Hf 5.05         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 72 Hf 9.05         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 80 Hg 7.2         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 80 Hg 4.9         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 19 K 4.16         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 19 K 4.42         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 57 La 75.3         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 57 La 46         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites   La[n]/Yb[n] 21.95         402   Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites   La[n]/Yb[n] 16.11         1226   Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 3 Li 26.2         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 3 Li 15         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 71 Lu 0.35         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 71 Lu 0.34         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 12 Mg 0.62         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 12 Mg 1.06         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 25 Mn 0.03         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 25 Mn 0.04         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 42 Mo 0.6         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 42 Mo 0.94         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 11 Na 2.84         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 11 Na 3.71         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 41 Nb 13.7         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 41 Nb 17.9         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 60 Nd 52.5         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 60 Nd 31.5         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 28 Ni 6.2         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 28 Ni 15         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 15 P 0.1         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 15 P 0.11         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 82 Pb 23.4         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 82 Pb 31.7         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 46 Pd 0.09         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 46 Pd 0.31         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 78 Pt 0.09         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 78 Pt 0.41         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 37 Rb 138         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 37 Rb 163         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 51 Sb 0.13         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 51 Sb 0.12         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 21 Sc 5.4         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 21 Sc 3.9         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 34 Se 36         402 ppb Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 34 Se 54         1226 ppb Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 14 Si 71.98         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 14 Si 71.79         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 62 Sm 7.91         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 62 Sm 5.36         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 50 Sn 1.69         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 50 Sn 1.37         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 38 Sr 335         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 38 Sr 236         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 73 Ta 0.7         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 73 Ta 1.8         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 65 Tb 0.6         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 65 Tb 0.9         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 90 Th 21.2         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 90 Th 20.7         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 22 Ti 0.41         402 wt%ox Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 22 Ti 0.28         1226 wt%ox Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 81 Tl 0.79         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 81 Tl 0.74         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 92 U 2.92         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 92 U 2.11         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 23 V 23         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 23 V 30         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 74 W 0.51         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 74 W 0.39         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 39 Y 21.4         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 39 Y 19.3         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 70 Yb 2.32         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 70 Yb 1.93         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 30 Zn 52         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 30 Zn 42         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Granites 40 Zr 299         402 ppm Average of 369 subsamples and 33 composites. Gao et al. 1998
Granites 40 Zr 178         1226 ppm Average of 1140 subsamples and 86 composites. Gao et al. 1998
Interior North China Craton 47 Ag 60           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 47 Ag 61           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 47 Ag 61           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 47 Ag 61           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 47 Ag 59           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 13 Al 11.85           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 13 Al 13.78           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 13 Al 13.06           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 13 Al 13.96           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 13 Al 13.63           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 33 As 2           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 33 As 4.1           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 33 As 2.1           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 33 As 6.5           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 33 As 5.6           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 79 Au 1.06           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 79 Au 1.12           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 79 Au 1.2           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 79 Au 1.57           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 79 Au 0.89           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 5 B 4.7           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 5 B 17           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 5 B 11           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 5 B 31           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 5 B 29           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 56 Ba 801           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 56 Ba 677           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 56 Ba 574           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 56 Ba 606           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 56 Ba 654           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 4 Be 0.56           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 4 Be 1.15           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 4 Be 1.3           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 4 Be 1.29           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 4 Be 1.42           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 83 Bi 0.66           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 83 Bi 0.4           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 83 Bi 1.43           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 83 Bi 0.29           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 83 Bi 0.38           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 6 C 0.55           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 6 C 0.82           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 6 C 1.76           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 6 C 1.2           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 6 C 5.54           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 20 Ca 4.1           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 20 Ca 6.3           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 20 Ca 5.12           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 20 Ca 7.93           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 20 Ca 6.61           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 48 Cd 91           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 48 Cd 80           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 48 Cd 90           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 48 Cd 67           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 48 Cd 77           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 58 Ce 56.9           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 58 Ce 56.2           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 58 Ce 46.2           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 58 Ce 62.5           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 58 Ce 56.6           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 27 Co 19           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 27 Co 18           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 27 Co 22           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 27 Co 25           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 27 Co 35           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 24 Cr 221           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 24 Cr 131           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 24 Cr 84           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 24 Cr 90           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 24 Cr 99           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 55 Cs 0.52           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 55 Cs 2.76           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 55 Cs 3.07           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 55 Cs 2.3           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 55 Cs 2.7           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 29 Cu 27           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 29 Cu 45           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 29 Cu 32           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 29 Cu 25           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 29 Cu 27           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 63 Eu 1.19           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 63 Eu 1.34           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 63 Eu 1.09           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 63 Eu 1.18           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 63 Eu 1.24           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton   Eu/Eu* 1.01             Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton   Eu/Eu* 0.8             Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton   Eu/Eu* 0.87             Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton   Eu/Eu* 0.79             Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton   Eu/Eu* 0.87             Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 9 F 741           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 9 F 682           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 9 F 731           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 9 F 601           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 9 F 578           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 26 Fe 9.123           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Fe2O3 = 4.06 and FeO = 5.47 are recalculated as FeO(t). Gao et al. 1998
Interior North China Craton 26 Fe 6.662           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 3.27 and FeO = 3.72 are recalculated as FeO(t). Gao et al. 1998
Interior North China Craton 26 Fe 5.067           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Fe2O3 = 2.63 and FeO = 2.70 are recalculated as FeO(t). Gao et al. 1998
Interior North China Craton 26 Fe 5.497           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.92 and FeO = 2.87 are recalculated as FeO(t). Gao et al. 1998
Interior North China Craton 26 Fe 5.814           wt%ox Compostional estimate of the interior of the North China craton. Fe2O3 = 2.95 and FeO = 3.16 are recalculated as FeO(t). Gao et al. 1998
Interior North China Craton 31 Ga 18           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 31 Ga 18           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 31 Ga 15           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 31 Ga 17           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 31 Ga 18           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 32 Ge 1.14           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 32 Ge 1.23           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 32 Ge 1.2           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 32 Ge 1.37           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 32 Ge 0.94           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 1 H 1.26           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 1 H 1.57           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 1 H 1.81           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 1 H 1.49           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 1 H 1.6           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 72 Hf 4.11           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 72 Hf 4.1           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 72 Hf 4.61           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 72 Hf 3.6           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 72 Hf 4.2           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 80 Hg 9.52           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 80 Hg 8.1           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 80 Hg 9.4           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 80 Hg 7.9           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 80 Hg 4.9           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 19 K 1.7           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 19 K 2.46           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 19 K 2.7           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 19 K 2.79           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 19 K 2.46           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 57 La 22.6           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 57 La 27.5           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 57 La 30.1           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 57 La 27.1           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 57 La 27.4           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton   La[n]/Yb[n] 10.01             Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton   La[n]/Yb[n] 10.02             Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton   La[n]/Yb[n] 9.31             Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton   La[n]/Yb[n] 9.83             Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton   La[n]/Yb[n] 10.12             Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 3 Li 14           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 3 Li 8.9           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 3 Li 20           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 3 Li 15           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 3 Li 17           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 71 Lu 0.28           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 71 Lu 0.28           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 71 Lu 0.31           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 71 Lu 0.28           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 71 Lu 0.3           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 12 Mg 2.67           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 12 Mg 3.47           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 12 Mg 3.72           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 12 Mg 4.77           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 12 Mg 3.76           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 25 Mn 0.1           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 25 Mn 0.11           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 25 Mn 0.14           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 42 Mo 0.59           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 42 Mo 0.62           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 42 Mo 0.61           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 42 Mo 0.6           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 42 Mo 0.55           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 11 Na 2.41           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 11 Na 3.22           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 11 Na 2.26           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 11 Na 2.83           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 11 Na 3.03           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 41 Nb 10           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 41 Nb 8.7           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 41 Nb 10           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 41 Nb 12           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 41 Nb 10           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 60 Nd 26.9           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 60 Nd 24.5           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 60 Nd 22.6           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 60 Nd 25.1           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 60 Nd 23.7           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 28 Ni 37           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 28 Ni 49           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 28 Ni 37           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 28 Ni 78           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 28 Ni 34           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 15 P 0.23           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 15 P 0.16           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 15 P 0.17           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 15 P 0.24           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 15 P 0.21           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 82 Pb 11           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 82 Pb 14           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 82 Pb 15           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 82 Pb 15           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 82 Pb 15           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 46 Pd 0.62           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 46 Pd 1.01           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 46 Pd 1.4           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 46 Pd 1.06           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 46 Pd 2.8           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 78 Pt 1.4           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 78 Pt 0.97           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 78 Pt 2.7           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 78 Pt 1.02           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 78 Pt 0.66           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 37 Rb 71           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 37 Rb 83           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 37 Rb 68           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 37 Rb 36           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 37 Rb 79           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 51 Sb 0.37           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 51 Sb 0.12           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 51 Sb 0.14           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 51 Sb 0.24           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 51 Sb 0.34           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 21 Sc 17           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 21 Sc 18           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 21 Sc 14           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 21 Sc 15           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 21 Sc 23           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 34 Se 127           ppb Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 34 Se 80           ppb Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 34 Se 130           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 34 Se 149           ppb Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 34 Se 144           ppb Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 14 Si 59.28           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 14 Si 65.1           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 14 Si 58.24           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 14 Si 61.89           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 14 Si 57.57           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 62 Sm 4.12           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 62 Sm 4.35           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 62 Sm 4.54           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 62 Sm 4.3           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 62 Sm 4.81           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 50 Sn 1.03           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 50 Sn 1.3           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 50 Sn 1.1           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 50 Sn 1.54           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 50 Sn 1.4           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 38 Sr 267           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 38 Sr 336           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 38 Sr 267           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 38 Sr 381           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 38 Sr 398           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 73 Ta 0.68           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 73 Ta 0.56           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 73 Ta 0.42           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 73 Ta 0.49           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 73 Ta 0.61           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 65 Tb 0.66           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 65 Tb 0.67           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 65 Tb 0.64           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 65 Tb 0.62           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 65 Tb 0.64           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 90 Th 7.97           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 90 Th 2.8           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 90 Th 6.97           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 90 Th 5.7           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 90 Th 5.9           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 22 Ti 0.55           wt%ox Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 22 Ti 0.67           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 22 Ti 0.76           wt%ox Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 22 Ti 0.61           wt%ox Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 22 Ti 0.64           wt%ox Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 81 Tl 0.36           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 81 Tl 0.32           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 81 Tl 0.39           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 81 Tl 0.16           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 81 Tl 0.31           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 92 U 0.46           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 92 U 1.36           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 92 U 1.23           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 92 U 0.72           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 92 U 0.93           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 23 V 147           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 23 V 88           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 23 V 104           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 23 V 96           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 23 V 113           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 74 W 0.43           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 74 W 0.66           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 74 W 0.73           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 74 W 0.7           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 74 W 0.79           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 39 Y 14.8           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 39 Y 14           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 39 Y 16.1           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 39 Y 15.9           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 39 Y 17.3           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 70 Yb 1.83           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 70 Yb 2.03           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 70 Yb 1.64           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 70 Yb 1.89           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 70 Yb 1.83           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 30 Zn 61           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 30 Zn 66           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 30 Zn 78           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 30 Zn 76           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 30 Zn 89           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Interior North China Craton 40 Zr 175           ppm Compostional estimate of the interior of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 40 Zr 156           ppm Compostional estimate of the interior of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
Interior North China Craton 40 Zr 162           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Interior North China Craton 40 Zr 156           ppm Compostional estimate of the interior of the North China craton. Gao et al. 1998
Interior North China Craton 40 Zr 141           ppm Compostional estimate of the interior of the North China craton. Average compostion of granulite terrains. Gao et al. 1998
Intermediate Granulites 47 Ag 53         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 13 Al 15.57         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 33 As 1.15         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 79 Au 1.35         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 5 B 2.4         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 56 Ba 652         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 4 Be 0.42         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 83 Bi 0.26         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 6 C 0.26         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 20 Ca 6.07         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 48 Cd 99         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 58 Ce 48.5         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 27 Co 29         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 24 Cr 157         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 55 Cs 0.55         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 29 Cu 33         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 63 Eu 1.53         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites   Eu/Eu* 1.04         136   Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 9 F 582         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 26 Fe 7.587         136 wt%ox Average of 115 subsamples and 21 composites. Fe2O3 = 3.42 and FeO = 4.51 are recalculated as FeO(t). Gao et al. 1998
Intermediate Granulites 31 Ga 19.9         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 32 Ge 1.07         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 1 H 1.07         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 72 Hf 3.81         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 80 Hg 4.8         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 19 K 1.76         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 57 La 23.4         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites   La[n]/Yb[n] 9.32         136   Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 3 Li 10.3         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 71 Lu 0.28         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 12 Mg 3.66         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 25 Mn 0.12         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 42 Mo 0.35         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 11 Na 3.81         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 41 Nb 9.2         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 60 Nd 24.9         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 28 Ni 57         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 15 P 0.26         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 82 Pb 9.9         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 46 Pd 1.66         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 78 Pt 1.81         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 37 Rb 36         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 51 Sb 0.09         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 21 Sc 21.8         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 34 Se 99         136 ppb Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 14 Si 58.39         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 62 Sm 4.68         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 50 Sn 0.87         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 38 Sr 484         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 73 Ta 0.4         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 65 Tb 0.69         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 90 Th 1.03         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 22 Ti 0.83         136 wt%ox Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 81 Tl 0.22         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 92 U 0.27         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 23 V 139         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 74 W 0.31         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 39 Y 14.4         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 70 Yb 1.7         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 30 Zn 91         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Intermediate Granulites 40 Zr 150         136 ppm Average of 115 subsamples and 21 composites. Gao et al. 1998
Mafic Granulites 47 Ag 58         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 13 Al 13.13         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 33 As 0.85         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 79 Au 0.99         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 5 B 3.79         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 56 Ba 283         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 4 Be 0.2         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 83 Bi 0.15         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 6 C 0.23         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 20 Ca 9.45         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 48 Cd 121         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 58 Ce 31.8         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 17 Cl 341         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 27 Co 57         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 24 Cr 131         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 55 Cs 0.76         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 29 Cu 64         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 63 Eu 1.65         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites   Eu/Eu* 1         128   Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 9 F 845         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 26 Fe 13.83         128 wt%ox Average of 93 subsamples and 35 composites. Fe2O3 = 7.19 and FeO = 7.36 are recalculated as FeO(t). Gao et al. 1998
Mafic Granulites 31 Ga 20.2         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 32 Ge 1.19         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 1 H 1.44         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 72 Hf 3.29         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 80 Hg 5.4         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 19 K 0.85         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 57 La 16.4         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites   La[n]/Yb[n] 3.71         128   Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 3 Li 8.49         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 71 Lu 0.51         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 12 Mg 6.14         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 25 Mn 0.22         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 42 Mo 0.46         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 11 Na 2.65         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 41 Nb 10.62         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 60 Nd 18.7         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 28 Ni 78         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 15 P 0.3         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 82 Pb 9.82         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 46 Pd 2.86         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 78 Pt 2.68         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 37 Rb 22         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 51 Sb 0.08         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 21 Sc 43.7         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 34 Se 254         128 ppb Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 14 Si 49.17         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 62 Sm 4.48         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 50 Sn 0.82         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 38 Sr 263         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 73 Ta 0.65         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 65 Tb 1.05         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 90 Th 1.33         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 22 Ti 1.54         128 wt%ox Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 81 Tl 0.12         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 92 U 0.45         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 23 V 311         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 74 W 0.46         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 39 Y 19.8         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 70 Yb 2.98         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 30 Zn 141         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Granulites 40 Zr 137         128 ppm Average of 93 subsamples and 35 composites. Gao et al. 1998
Mafic Intrusions 47 Ag 68         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 13 Al 15.26         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 33 As 1.92         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 79 Au 1.05         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 5 B 10         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 56 Ba 670         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 4 Be 0.32         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 83 Bi 0.08         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 6 C 0.48         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 20 Ca 9.92         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 48 Cd 96         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 58 Ce 49.8         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 17 Cl 154         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 27 Co 41         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 24 Cr 259         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 55 Cs 1.84         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 29 Cu 54         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 63 Eu 1.74         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions   Eu/Eu* 1.08         308   Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 9 F 660         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 26 Fe 8.852         308 wt%ox Average of 276 subsamples and 32 composites. Fe2O3 = 3.77 and FeO = 5.46 are recalculated as FeO(t). Gao et al. 1998
Mafic Intrusions 31 Ga 18.9         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 32 Ge 1.12         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 1 H 1.87         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 72 Hf 2.86         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 80 Hg 9.3         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 19 K 1.22         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 57 La 26         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions   La[n]/Yb[n] 10.33         308   Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 3 Li 6.9         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 71 Lu 0.43         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 12 Mg 7.29         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 25 Mn 0.15         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 42 Mo 0.4         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 11 Na 2.93         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 41 Nb 12.4         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 60 Nd 28.9         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 28 Ni 98         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 15 P 0.32         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 82 Pb 33         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 46 Pd 1.65         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 78 Pt 1.64         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 37 Rb 37         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 51 Sb 0.17         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 21 Sc 31.8         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 34 Se 99         308 ppb Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 14 Si 49.85         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 62 Sm 5.1         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 50 Sn 1.36         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 38 Sr 549         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 73 Ta 0.72         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 65 Tb 0.77         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 90 Th 4.13         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 22 Ti 1.17         308 wt%ox Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 81 Tl 0.25         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 92 U 1.09         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 23 V 201         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 74 W 0.49         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 39 Y 14.1         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 70 Yb 1.7         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 30 Zn 97         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mafic Intrusions 40 Zr 129         308 ppm Average of 276 subsamples and 32 composites. Gao et al. 1998
Mavic Volcanics 47 Ag 50         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 13 Al 14.76         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 33 As 3.63         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 79 Au 1.01         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 5 B 19         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 56 Ba 844         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 4 Be 0.48         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 83 Bi 0.09         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 6 C 0.72         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 20 Ca 6.76         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 48 Cd 130         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 58 Ce 55.2         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 17 Cl 78         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 27 Co 39         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 24 Cr 166         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 55 Cs 1.79         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 29 Cu 60         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 63 Eu 1.87         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics   Eu/Eu* 0.97         632   Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 9 F 681         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 26 Fe 10.135         632 wt%ox Average of 538 subsamples and 49 composites. Fe2O3 = 5.04 and FeO = 5.6 are recalculated as FeO(t). Gao et al. 1998
Mavic Volcanics 31 Ga 19.6         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 32 Ge 1.35         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 1 H 3.19         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 72 Hf 4.36         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 80 Hg 16         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 19 K 1.85         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 57 La 28.4         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics   La[n]/Yb[n] 8.03         632   Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 3 Li 18         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 71 Lu 0.36         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 12 Mg 5.6         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 25 Mn 0.17         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 42 Mo 0.67         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 11 Na 2.88         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 41 Nb 17.8         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 60 Nd 30.9         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 28 Ni 75         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 15 P 0.4         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 82 Pb 26         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 46 Pd 1.29         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 78 Pt 1.55         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 37 Rb 44         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 51 Sb 0.33         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 21 Sc 37         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 34 Se 111         632 ppb Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 14 Si 51.2         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 62 Sm 5.76         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 50 Sn 1.51         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 38 Sr 403         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 73 Ta 1.04         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 65 Tb 1.01         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 90 Th 3.22         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 22 Ti 1.48         632 wt%ox Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 81 Tl 0.27         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 92 U 0.79         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 23 V 198         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 74 W 5.32         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 39 Y 18.4         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 70 Yb 2.39         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 30 Zn 127         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Mavic Volcanics 40 Zr 188         632 ppm Average of 538 subsamples and 49 composites. Gao et al. 1998
Metafelsic Volcanics 47 Ag 68         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 13 Al 15.71         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 33 As 1.4         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 79 Au 0.25         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 5 B 5.4         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 56 Ba 1479         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 4 Be 1.99         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 83 Bi 0.07         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 6 C 0.35         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 20 Ca 4.62         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 48 Cd 94         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 58 Ce 86.1         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 17 Cl 93         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 27 Co 5         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 24 Cr 25         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 55 Cs 0.8         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 29 Cu 15         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 63 Eu 0.84         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics   Eu/Eu* 0.45         41   Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 9 F 846         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 26 Fe 4.776         41 wt%ox Average of 38 subsamples and 3 composites. Fe2O3 = 1.94 and FeO = 3.03 are recalculated as FeO(t). Gao et al. 1998
Metafelsic Volcanics 31 Ga 18.6         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 32 Ge 0.85         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 1 H 1.5         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 72 Hf 4.11         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 80 Hg 7.3         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 19 K 3.23         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 57 La 32.5         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics   La[n]/Yb[n] 12.89         41   Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 3 Li 6.7         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 71 Lu 0.3         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 12 Mg 2.23         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 25 Mn 0.08         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 42 Mo 0.37         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 11 Na 3.56         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 41 Nb 12         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 60 Nd 42.7         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 28 Ni 14         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 15 P 0.21         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 82 Pb 14.7         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 46 Pd 0.12         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 78 Pt 0.12         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 37 Rb 80         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 51 Sb 0.14         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 21 Sc 13         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 34 Se 37         41 ppb Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 14 Si 62.5         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 62 Sm 6.51         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 50 Sn 1.28         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 38 Sr 637         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 73 Ta 0.56         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 65 Tb 0.72         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 90 Th 7.6         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 22 Ti 0.61         41 wt%ox Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 81 Tl 0.31         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 92 U 0.95         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 23 V 74         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 74 W 0.3         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 39 Y 16.2         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 70 Yb 1.7         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 30 Zn 81         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
Metafelsic Volcanics 40 Zr 158         41 ppm Average of 38 subsamples and 3 composites. Gao et al. 1998
North Qinling Belt in China 47 Ag 45           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 47 Ag 48           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 47 Ag 38           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 47 Ag 49           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 47 Ag 49           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 13 Al 13.99           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 13 Al 14.69           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 13 Al 12.84           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 13 Al 14.47           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 13 Al 13.25           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 33 As 5.2           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 33 As 3.3           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 33 As 3.1           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 33 As 3.2           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 33 As 0.9           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 79 Au 2.66           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 79 Au 1.44           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 79 Au 0.28           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 79 Au 2.43           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 79 Au 0.69           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 5 B 5.9           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 5 B 14           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 5 B 26           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 5 B 10           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 5 B 10           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 56 Ba 619           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 56 Ba 714           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 56 Ba 791           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 56 Ba 731           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 56 Ba 813           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 4 Be 1.5           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 4 Be 0.43           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 4 Be 1.66           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 4 Be 1.82           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 4 Be 2.14           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 83 Bi 0.19           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 83 Bi 0.11           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 83 Bi 0.09           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 83 Bi 0.21           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 83 Bi 0.13           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 6 C 0.72           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 6 C 0.84           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 6 C 1.25           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 6 C 0           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 6 C 4.35           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 20 Ca 4.42           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 20 Ca 3.79           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 20 Ca 5.31           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 20 Ca 4.13           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 20 Ca 7.58           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 48 Cd 77           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 48 Cd 81           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 48 Cd 78           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 48 Cd 86           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 48 Cd 89           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 58 Ce 71.8           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 58 Ce 62.3           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 58 Ce 60.8           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 58 Ce 67           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 58 Ce 53           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 17 Cl 51           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 17 Cl 70           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 17 Cl 70           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 17 Cl 72           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 27 Co 28           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 27 Co 21           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 27 Co 16           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 27 Co 19           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 27 Co 21           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 24 Cr 84           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 24 Cr 43           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 24 Cr 101           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 24 Cr 95           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 24 Cr 108           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 55 Cs 5.59           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 55 Cs 6.1           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 55 Cs 3.4           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 55 Cs 1.61           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 55 Cs 2.2           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 29 Cu 33           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 29 Cu 37           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 29 Cu 34           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 29 Cu 36           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 29 Cu 41           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 63 Eu 1.83           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 63 Eu 1.19           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 63 Eu 1.07           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 63 Eu 1.26           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 63 Eu 1.38           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China   Eu/Eu* 0.68             Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China   Eu/Eu* 0.67             Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China   Eu/Eu* 0.8             Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China   Eu/Eu* 1.01             Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China   Eu/Eu* 0.78             Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 9 F 941           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 9 F 630           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 9 F 429           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 9 F 615           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 9 F 595           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 26 Fe 6.056           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.64 and FeO = 3.68 are recalculated as FeO(t). Gao et al. 1998
North Qinling Belt in China 26 Fe 7.654           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Fe2O3 = 2.85 and FeO = 5.09 are recalculated as FeO(t). Gao et al. 1998
North Qinling Belt in China 26 Fe 5.1           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Fe2O3 = 2.00 and FeO = 3.30 are recalculated as FeO(t). Gao et al. 1998
North Qinling Belt in China 26 Fe 5.736           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.24 and FeO = 3.72 are recalculated as FeO(t). Gao et al. 1998
North Qinling Belt in China 26 Fe 5.244           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Fe2O3 = 2.95 and FeO = 2.59 are recalculated as FeO(t). Gao et al. 1998
North Qinling Belt in China 31 Ga 16           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 31 Ga 18           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 31 Ga 18           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 31 Ga 17           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 31 Ga 18           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 32 Ge 1.46           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 32 Ge 1.32           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 32 Ge 0.63           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 32 Ge 1.11           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 32 Ge 1.09           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 1 H 1.48           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 1 H 2           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 1 H 2.53           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 1 H 1.94           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 1 H 1.82           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 72 Hf 4.98           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 72 Hf 4.81           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 72 Hf 4.3           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 72 Hf 4.8           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 72 Hf 4.82           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 80 Hg 18           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 80 Hg 24.2           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 80 Hg 11           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 80 Hg 24.1           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 80 Hg 15.8           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 19 K 1.82           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 19 K 2.23           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 19 K 2.17           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 19 K 2.71           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 19 K 2.42           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 57 La 27.5           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 57 La 36.5           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 57 La 36.3           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 57 La 32.6           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 57 La 32.7           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China   La[n]/Yb[n] 9.05             Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China   La[n]/Yb[n] 8.95             Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China   La[n]/Yb[n] 7.39             Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China   La[n]/Yb[n] 11.19             Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China   La[n]/Yb[n] 11.22             Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 3 Li 16           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 3 Li 30           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 3 Li 21           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 3 Li 17           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 3 Li 28           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 71 Lu 0.4           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 71 Lu 0.31           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 71 Lu 0.36           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 71 Lu 0.34           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 71 Lu 0.37           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 12 Mg 3.01           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 12 Mg 4.24           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 12 Mg 3.94           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 12 Mg 3.38           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 12 Mg 3.2           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 25 Mn 0.1           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 25 Mn 0.13           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 25 Mn 0.11           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 25 Mn 0.11           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 25 Mn 0.11           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 42 Mo 2.04           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 42 Mo 0.56           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 42 Mo 0.61           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 42 Mo 0.59           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 42 Mo 0.98           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 11 Na 3.12           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 11 Na 2.85           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 11 Na 3.3           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 11 Na 2.51           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 11 Na 3.3           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 41 Nb 12           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 41 Nb 17           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 41 Nb 14           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 41 Nb 16           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 41 Nb 15           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 60 Nd 25.5           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 60 Nd 28.3           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 60 Nd 28.7           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 60 Nd 26.9           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 60 Nd 25.7           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 28 Ni 38           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 28 Ni 47           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 28 Ni 21           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 28 Ni 39           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 28 Ni 44           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 15 P 0.4           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 15 P 0.23           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 15 P 0.15           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 15 P 0.17           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 15 P 0.15           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 82 Pb 27           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 82 Pb 16           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 82 Pb 44           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 82 Pb 19           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 82 Pb 41           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 46 Pd 0.5           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 46 Pd 1.49           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 46 Pd 0.95           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 46 Pd 1.67           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 46 Pd 1.05           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 78 Pt 1.66           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 78 Pt 0.38           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 78 Pt 0.96           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 78 Pt 1.86           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 78 Pt 1.1           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 37 Rb 80           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 37 Rb 57           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 37 Rb 115           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 37 Rb 103           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 37 Rb 67           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 16 S 0.02           wt% Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 16 S 0.02           wt% Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 16 S 0.03           wt% Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 16 S 0.03           wt% Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 51 Sb 0.27           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 51 Sb 0.29           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 51 Sb 0.31           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 51 Sb 0.2           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 51 Sb 0.31           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 21 Sc 18           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 21 Sc 21           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 21 Sc 18           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 21 Sc 19           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 21 Sc 15           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 34 Se 108           ppb Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 34 Se 112           ppb Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 34 Se 90           ppb Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 34 Se 97           ppb Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 34 Se 118           ppb Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 14 Si 63.48           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 14 Si 63.51           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 14 Si 62.11           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 14 Si 57.51           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 14 Si 59.08           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 62 Sm 4.91           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 62 Sm 6.13           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 62 Sm 5.5           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 62 Sm 5.42           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 62 Sm 4.95           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 50 Sn 2.14           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 50 Sn 1.83           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 50 Sn 2.04           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 50 Sn 1.9           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 50 Sn 1.47           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 38 Sr 296           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 38 Sr 493           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 38 Sr 209           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 38 Sr 319           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 38 Sr 289           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 73 Ta 0.66           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 73 Ta 1           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 73 Ta 1.31           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 73 Ta 1.15           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 73 Ta 1.2           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 65 Tb 0.75           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 65 Tb 0.83           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 65 Tb 0.78           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 65 Tb 0.84           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 65 Tb 0.81           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 90 Th 6.2           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 90 Th 8.88           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 90 Th 14.7           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 90 Th 4.63           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 90 Th 13.03           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 22 Ti 0.7           wt%ox Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 22 Ti 1.26           wt%ox Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 22 Ti 0.85           wt%ox Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 22 Ti 0.71           wt%ox Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 22 Ti 0.63           wt%ox Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 81 Tl 0.45           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 81 Tl 0.86           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 81 Tl 0.54           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 81 Tl 0.27           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 81 Tl 0.77           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 92 U 1.56           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 92 U 1.08           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 92 U 1.2           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 92 U 2.07           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 92 U 2.25           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 23 V 119           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 23 V 145           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 23 V 97           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 23 V 114           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 23 V 128           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 74 W 0.74           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 74 W 0.3           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 74 W 0.96           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 74 W 1.05           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 74 W 1.07           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 39 Y 18.8           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 39 Y 18           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 39 Y 16.7           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 39 Y 19.2           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 39 Y 17.6           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 70 Yb 2.76           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 70 Yb 2.43           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 70 Yb 2.19           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 70 Yb 1.97           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 70 Yb 2.51           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 30 Zn 80           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 30 Zn 71           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 30 Zn 77           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 30 Zn 71           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 30 Zn 98           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 40 Zr 187           ppm Compostional estimate of the North Qinling orogenic belt. The middle crust of the North Qinling belt is assumed to consist of the underthrusted South Qinling middle crust (see text for explanation). Gao et al. 1998
North Qinling Belt in China 40 Zr 167           ppm Compostional estimate of the North Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
North Qinling Belt in China 40 Zr 190           ppm Compostional estimate of the North Qinling orogenic belt. Average composition of granulite terrains. Gao et al. 1998
North Qinling Belt in China 40 Zr 150           ppm Compostional estimate of the North Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
North Qinling Belt in China 40 Zr 178           ppm Compostional estimate of the Northern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Pelites 47 Ag 61         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 47 Ag 107         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 13 Al 16.16         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 13 Al 15.72         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 33 As 10.63         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 33 As 22.47         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 79 Au 1.76         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 79 Au 1.8         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 5 B 38         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 5 B 101         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 56 Ba 750         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 56 Ba 1077         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 4 Be 2.08         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 4 Be 2.69         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 83 Bi 0.3         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 83 Bi 0.3         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 6 C 1.63         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 6 C 0.35         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 20 Ca 2.11         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 20 Ca 2.37         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 48 Cd 100         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 48 Cd 92         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 58 Ce 91.1         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 58 Ce 78.5         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 17 Cl 92         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 17 Cl 57         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 27 Co 16         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 27 Co 16         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 24 Cr 85         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 24 Cr 76         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 55 Cs 7.43         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 55 Cs 3.7         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 29 Cu 32         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 29 Cu 29         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 63 Eu 1.4         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 63 Eu 1.54         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites   Eu/Eu* 0.68         1341   Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites   Eu/Eu* 0.73         69   Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 9 F 780         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 9 F 940         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 26 Fe 5.432         69 wt%ox Average of 60 subsamples and 9 composites. Fe2O3 = 2.38 and FeO = 3.29 are recalculated as FeO(t). Gao et al. 1998
Pelites 26 Fe 5.648         1341 wt%ox Average of 1238 subsamples and 103 composites. Fe2O3 = 3.91 and FeO = 2.13 are recalculated as FeO(t). Gao et al. 1998
Pelites 31 Ga 21.2         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 31 Ga 21         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 32 Ge 1.75         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 32 Ge 1.13         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 1 H 3.84         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 1 H 2.66         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 72 Hf 6.05         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 72 Hf 6.19         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 80 Hg 6.4         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 80 Hg 29         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 19 K 3.71         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 19 K 3.36         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 57 La 42         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 57 La 45.8         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites   La[n]/Yb[n] 11.28         69   Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites   La[n]/Yb[n] 9.27         1341   Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 3 Li 41.9         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 3 Li 21.8         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 71 Lu 0.46         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 71 Lu 0.42         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 12 Mg 1.97         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 12 Mg 2.56         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 25 Mn 0.07         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 25 Mn 0.06         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 42 Mo 1.64         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 42 Mo 0.89         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 11 Na 2.05         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 11 Na 1         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 41 Nb 18.2         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 41 Nb 15.2         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 60 Nd 34.6         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 60 Nd 43.4         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 28 Ni 36         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 28 Ni 27         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 15 P 0.15         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 15 P 0.14         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 82 Pb 18.3         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 82 Pb 25.3         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 46 Pd 0.88         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 46 Pd 1.36         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 78 Pt 0.66         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 78 Pt 1.32         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 37 Rb 134         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 37 Rb 118         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 51 Sb 0.69         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 51 Sb 0.98         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 21 Sc 15.9         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 21 Sc 15.4         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 34 Se 217         69 ppb Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 34 Se 499         1341 ppb Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 14 Si 61.89         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 14 Si 62.57         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 62 Sm 6.52         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 62 Sm 7.19         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 50 Sn 2.83         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 50 Sn 2.4         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 38 Sr 107         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 38 Sr 269         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 73 Ta 0.95         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 73 Ta 1.18         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 65 Tb 0.97         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 65 Tb 0.87         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 90 Th 13.95         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 90 Th 14.6         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 22 Ti 0.75         69 wt%ox Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 22 Ti 0.81         1341 wt%ox Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 81 Tl 0.66         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 81 Tl 0.54         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 92 U 2.51         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 92 U 3.04         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 23 V 106         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 23 V 117         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 74 W 1.48         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 74 W 1.58         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 39 Y 24.2         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 39 Y 22.8         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 70 Yb 2.74         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 70 Yb 3.06         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 30 Zn 78         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 30 Zn 68         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Pelites 40 Zr 223         1341 ppm Average of 1238 subsamples and 103 composites. Gao et al. 1998
Pelites 40 Zr 216         69 ppm Average of 60 subsamples and 9 composites. Gao et al. 1998
Primitive Mantle   Ba/Rb 11.3             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Ba/Th 74             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   K/U 1             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   La/Nb 1             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Nb/Ta 17.6             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Rb/Cs 20             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Rb/Sr 0.03             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Sr/Nd 15.3             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Sr/Sm 47.1             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Th/U 4             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
Primitive Mantle   Ti/Gd 36             Element ratios from the Primitive Mantle as given by Hofmann 1988. Gao et al. 1998 Hofmann 1988
South Margin of North China Craton 47 Ag 64           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 47 Ag 49           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 47 Ag 49           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 47 Ag 55           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 47 Ag 65           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 13 Al 13.28           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 13 Al 13.48           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 13 Al 13.39           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 13 Al 13.16           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 13 Al 12.49           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 33 As 0.92           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 33 As 1.1           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 33 As 1.2           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 33 As 1.4           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 33 As 1.5           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 79 Au 0.66           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 79 Au 0.85           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 79 Au 0.8           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 79 Au 0.69           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 79 Au 0.76           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 5 B 11           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 5 B 8.6           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 5 B 15           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 5 B 21           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 5 B 21           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 56 Ba 688           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 56 Ba 814           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 56 Ba 766           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 56 Ba 585           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 56 Ba 616           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 4 Be 1.37           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 4 Be 1.7           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 4 Be 1.65           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 4 Be 1.56           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 4 Be 1.52           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 83 Bi 0.13           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 83 Bi 0.15           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 83 Bi 0.14           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 83 Bi 0.13           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 83 Bi 0.14           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 6 C 1.27           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 6 C 1.04           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 6 C 1.62           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 6 C 3.18           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 6 C 0.67           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 20 Ca 6.2           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 20 Ca 7.31           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 20 Ca 6.46           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 20 Ca 4.25           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 20 Ca 5.65           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 48 Cd 86           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 48 Cd 87           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 48 Cd 86           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 48 Cd 94           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 48 Cd 83           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 58 Ce 60.9           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 58 Ce 60           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 58 Ce 62.4           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 58 Ce 66           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 58 Ce 61.2           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 17 Cl 228           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 17 Cl 179           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 17 Cl 289           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 17 Cl 179           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 17 Cl 249           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 27 Co 22           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 27 Co 25           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 27 Co 22           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 27 Co 20           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 27 Co 19           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 24 Cr 74           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 24 Cr 73           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 24 Cr 69           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 24 Cr 79           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 24 Cr 79           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 55 Cs 1.63           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 55 Cs 1.21           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 55 Cs 1.19           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 55 Cs 1.43           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 55 Cs 1.7           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 29 Cu 33           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 29 Cu 29           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 29 Cu 28           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 29 Cu 38           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 29 Cu 34           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 63 Eu 1.15           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 63 Eu 1.11           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 63 Eu 1.16           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 63 Eu 1.23           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 63 Eu 1.17           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton   Eu/Eu* 0.7             Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton   Eu/Eu* 0.73             Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton   Eu/Eu* 0.71             Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton   Eu/Eu* 0.73             Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton   Eu/Eu* 0.65             Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 9 F 578           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 9 F 634           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 9 F 594           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 9 F 564           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 9 F 575           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 26 Fe 6.005           wt%ox Compostional estimate of the south margin of the North China craton. Fe2O3 = 2.05 and FeO = 4.16 are recalculated as FeO(t). Gao et al. 1998
South Margin of North China Craton 26 Fe 6.179           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.31 and FeO = 4.1 are recalculated as FeO(t). Gao et al. 1998
South Margin of North China Craton 26 Fe 5.902           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.58 and FeO = 3.58 are recalculated as FeO(t). Gao et al. 1998
South Margin of North China Craton 26 Fe 5.566           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Fe2O3 = 2.44 and FeO = 3.37 are recalculated as FeO(t). Gao et al. 1998
South Margin of North China Craton 26 Fe 6.844           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Fe2O3 = 2.16 and FeO = 4.9 are recalculated as FeO(t). Gao et al. 1998
South Margin of North China Craton 31 Ga 19           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 31 Ga 18           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 31 Ga 18           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 31 Ga 17           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 31 Ga 19           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 32 Ge 1.23           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 32 Ge 1.31           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 32 Ge 1.22           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 32 Ge 1.25           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 32 Ge 1.12           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 1 H 1.7           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 1 H 1.78           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 1 H 1.73           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 1 H 1.8           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 1 H 1.88           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 72 Hf 4.45           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 72 Hf 4.64           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 72 Hf 5.02           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 72 Hf 4.71           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 72 Hf 4.61           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 80 Hg 6.4           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 80 Hg 7.7           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 80 Hg 5.4           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 80 Hg 8.1           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 80 Hg 5.3           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 19 K 1.98           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 19 K 2.11           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 19 K 1.86           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 19 K 2.34           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 19 K 2.47           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 57 La 31.4           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 57 La 33.1           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 57 La 31.8           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 57 La 32.1           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 57 La 35           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton   La[n]/Yb[n] 9.86             Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton   La[n]/Yb[n] 8.56             Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton   La[n]/Yb[n] 10.09             Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton   La[n]/Yb[n] 10.44             Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton   La[n]/Yb[n] 10.45             Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 3 Li 14           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 3 Li 14           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 3 Li 14           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 3 Li 14           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 3 Li 14           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 71 Lu 0.32           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 71 Lu 0.38           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 71 Lu 0.34           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 71 Lu 0.34           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 71 Lu 0.33           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 12 Mg 3.36           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 12 Mg 2.86           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 12 Mg 3.39           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 12 Mg 3.77           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 12 Mg 3.21           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 25 Mn 0.09           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 25 Mn 0.1           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 42 Mo 0.77           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 42 Mo 0.77           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 42 Mo 0.82           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 42 Mo 0.79           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 42 Mo 0.9           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 11 Na 2.92           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 11 Na 2.8           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 11 Na 2.83           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 11 Na 2.65           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 11 Na 3.07           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 41 Nb 11           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 41 Nb 10           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 41 Nb 11           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 41 Nb 11           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 41 Nb 12           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 60 Nd 28           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 60 Nd 29           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 60 Nd 29.4           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 60 Nd 29           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 60 Nd 30.7           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 28 Ni 49           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 28 Ni 50           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 28 Ni 37           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 28 Ni 40           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 28 Ni 43           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 15 P 0.15           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 15 P 0.16           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 15 P 0.16           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 15 P 0.15           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 15 P 0.16           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 82 Pb 18           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 82 Pb 23           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 82 Pb 23           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 82 Pb 15           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 82 Pb 16           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 46 Pd 0.86           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 46 Pd 1.02           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 46 Pd 0.57           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 46 Pd 0.6           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 46 Pd 0.77           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 78 Pt 0.86           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 78 Pt 1.56           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 78 Pt 1.18           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 78 Pt 0.91           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 78 Pt 1.34           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 37 Rb 51           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 37 Rb 53           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 37 Rb 67           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 37 Rb 71           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 37 Rb 59           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 16 S 0.02           wt% Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 16 S 0.02           wt% Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 16 S 0.03           wt% Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 16 S 0.02           wt% Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 16 S 0.02           wt% Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 51 Sb 0.2           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 51 Sb 0.18           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 51 Sb 0.14           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 51 Sb 0.2           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 51 Sb 0.2           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 21 Sc 20           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 21 Sc 19           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 21 Sc 19           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 21 Sc 18           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 21 Sc 20           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 34 Se 63           ppb Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 34 Se 75           ppb Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 34 Se 85           ppb Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 34 Se 78           ppb Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 34 Se 87           ppb Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 14 Si 58.45           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 14 Si 60.25           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 14 Si 60.79           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 14 Si 61.57           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 14 Si 63.95           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 62 Sm 4.93           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 62 Sm 5.21           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 62 Sm 5.02           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 62 Sm 5.27           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 62 Sm 4.88           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 50 Sn 1.21           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 50 Sn 1.25           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 50 Sn 1.19           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 50 Sn 1.39           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 50 Sn 1.37           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 38 Sr 375           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 38 Sr 317           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 38 Sr 342           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 38 Sr 350           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 38 Sr 318           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 73 Ta 0.63           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 73 Ta 0.57           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 73 Ta 0.73           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 73 Ta 0.78           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 73 Ta 0.51           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 65 Tb 0.78           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 65 Tb 0.78           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 65 Tb 0.94           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 65 Tb 0.83           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 65 Tb 0.82           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 90 Th 8.01           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 90 Th 7.75           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 90 Th 8.12           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 90 Th 8.83           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 90 Th 9.35           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 22 Ti 0.64           wt%ox Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 22 Ti 0.68           wt%ox Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 22 Ti 0.69           wt%ox Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 22 Ti 0.66           wt%ox Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 22 Ti 0.74           wt%ox Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 81 Tl 0.41           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 81 Tl 0.39           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 81 Tl 0.36           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 81 Tl 0.32           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 81 Tl 0.35           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 92 U 1.59           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 92 U 1.58           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 92 U 1.35           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 92 U 1.41           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 92 U 1.4           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 23 V 139           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 23 V 120           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 23 V 120           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 23 V 108           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 23 V 102           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 74 W 2.62           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 74 W 2.47           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 74 W 0.33           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 74 W 1.34           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 74 W 0.33           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 39 Y 16.3           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 39 Y 16.4           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 39 Y 17.1           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 39 Y 15.7           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 39 Y 17.4           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 70 Yb 2.1           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 70 Yb 2.2           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 70 Yb 2.51           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 70 Yb 2.26           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 70 Yb 2.14           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 30 Zn 78           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 30 Zn 77           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 30 Zn 78           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 30 Zn 81           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 30 Zn 76           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 40 Zr 171           ppm Compostional estimate of the south margin of the North China craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Margin of North China Craton 40 Zr 167           ppm Compostional estimate of the south margin of the North China craton. Average composition of granulite terrains. Gao et al. 1998
South Margin of North China Craton 40 Zr 174           ppm Compostional estimate of the south margin of the North China craton. Includes sedimentary carbonates. Gao et al. 1998
South Margin of North China Craton 40 Zr 161           ppm Compostional estimate of the south margin of the North China craton. Gao et al. 1998
South Margin of North China Craton 40 Zr 185           ppm Compostional estimate of the south margin of the North China craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 47 Ag 49           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 47 Ag 54           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 47 Ag 59           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 47 Ag 53           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 13 Al 13.47           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 13 Al 13.25           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 13 Al 13.73           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 13 Al 12.53           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 33 As 6.3           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 33 As 6.3           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 33 As 5.2           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 33 As 3.9           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 79 Au 1.1           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 79 Au 1.06           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 79 Au 0.69           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 79 Au 0.82           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 5 B 35           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 5 B 37           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 5 B 20           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 5 B 26           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 56 Ba 619           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 56 Ba 686           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 56 Ba 749           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 56 Ba 646           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 4 Be 2.14           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 4 Be 1.98           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 4 Be 1.84           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 4 Be 1.94           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 83 Bi 0.13           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 83 Bi 0.09           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 83 Bi 0.14           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 83 Bi 0.14           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 6 C 4.64           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 6 C 0.88           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 6 C 0.94           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 6 C 1.25           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 20 Ca 3.79           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 20 Ca 3.15           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 20 Ca 6.6           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 20 Ca 3.02           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 48 Cd 98           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 48 Cd 89           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 48 Cd 78           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 48 Cd 77           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 58 Ce 53           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 58 Ce 51.2           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 58 Ce 55.1           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 58 Ce 58.8           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 17 Cl 42           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 17 Cl 45           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 17 Cl 72           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 17 Cl 77           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 27 Co 16           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 27 Co 15           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 27 Co 16           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 27 Co 15           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 24 Cr 109           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 24 Cr 101           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 24 Cr 81           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 24 Cr 99           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 55 Cs 2.75           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 55 Cs 2.9           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 55 Cs 1.61           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 55 Cs 2.96           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 29 Cu 34           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 29 Cu 34           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 29 Cu 33           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 29 Cu 31           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 63 Eu 1.28           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 63 Eu 1.18           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 63 Eu 1.26           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 63 Eu 1.28           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China   Eu/Eu* 0.76             Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China   Eu/Eu* 0.78             Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China   Eu/Eu* 0.76             Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China   Eu/Eu* 0.76             Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 9 F 499           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 9 F 508           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 9 F 429           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 9 F 486           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 26 Fe 4.789           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Fe2O3 = 2.51 and FeO = 2.53 are recalculated as FeO(t). Gao et al. 1998
South Qinling Belt in China 26 Fe 5.244           wt%ox Compostional estimate of the South Qinling orogenic belt. Fe2O3 = 2.95 and FeO = 2.59 are recalculated as FeO(t). Gao et al. 1998
South Qinling Belt in China 26 Fe 4.779           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.21 and FeO = 2.79 are recalculated as FeO(t). Gao et al. 1998
South Qinling Belt in China 26 Fe 5.244           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.75 and FeO = 2.77 are recalculated as FeO(t). Gao et al. 1998
South Qinling Belt in China 31 Ga 18           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 31 Ga 17           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 31 Ga 17           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 31 Ga 16           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 32 Ge 1.26           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 32 Ge 1.11           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 32 Ge 1.11           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 32 Ge 1.19           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 1 H 2.45           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 1 H 2.61           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 1 H 2.27           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 1 H 2.53           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 72 Hf 4.98           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 72 Hf 5.14           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 72 Hf 5.23           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 72 Hf 4.71           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 80 Hg 13.3           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 80 Hg 15.8           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 80 Hg 26.6           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 80 Hg 22           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 19 K 2.25           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 19 K 2.45           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 19 K 2.28           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 19 K 2.17           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 57 La 29.2           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 57 La 27.1           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 57 La 27.5           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 57 La 31.8           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China   La[n]/Yb[n] 7.67             Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China   La[n]/Yb[n] 7.64             Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China   La[n]/Yb[n] 8.45             Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China   La[n]/Yb[n] 7.39             Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 3 Li 21           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 3 Li 18           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 3 Li 16           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 3 Li 22           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 71 Lu 0.36           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 71 Lu 0.37           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 71 Lu 0.39           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 71 Lu 0.39           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 12 Mg 3.4           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 12 Mg 2.64           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 12 Mg 3.2           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 12 Mg 2.88           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 25 Mn 0.08           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 25 Mn 0.1           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 25 Mn 0.1           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 25 Mn 0.09           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 42 Mo 0.56           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 42 Mo 0.54           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 42 Mo 0.73           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 42 Mo 0.74           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 11 Na 3.24           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 11 Na 3.3           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 11 Na 2.63           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 11 Na 2.9           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 41 Nb 13           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 41 Nb 12           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 41 Nb 14           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 41 Nb 12           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 60 Nd 27.2           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 60 Nd 26.8           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 60 Nd 24.9           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 60 Nd 25.5           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 28 Ni 47           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 28 Ni 49           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 28 Ni 45           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 28 Ni 38           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 15 P 0.14           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 15 P 0.15           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 15 P 0.13           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 15 P 0.15           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 82 Pb 16           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 82 Pb 20           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 82 Pb 21           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 82 Pb 17           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 46 Pd 0.95           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 46 Pd 0.95           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 46 Pd 0.89           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 46 Pd 1.26           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 78 Pt 1.33           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 78 Pt 0.96           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 78 Pt 0.84           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 78 Pt 0.9           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 37 Rb 70           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 37 Rb 57           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 37 Rb 69           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 37 Rb 76           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 16 S 0.03           wt% Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 16 S 0.02           wt% Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 16 S 0.03           wt% Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 16 S 0.02           wt% Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 51 Sb 0.42           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 51 Sb 0.31           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 51 Sb 0.27           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 51 Sb 0.38           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 21 Sc 14           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 21 Sc 15           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 21 Sc 15           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 21 Sc 15           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 34 Se 242           ppb Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 34 Se 244           ppb Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 34 Se 112           ppb Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 34 Se 141           ppb Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 14 Si 65.54           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 14 Si 63.51           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 14 Si 65.02           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 14 Si 59.52           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 62 Sm 5.11           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 62 Sm 5.21           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 62 Sm 4.82           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 62 Sm 4.91           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 50 Sn 1.64           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 50 Sn 1.74           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 50 Sn 1.76           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 50 Sn 1.47           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 38 Sr 224           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 38 Sr 204           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 38 Sr 218           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 38 Sr 209           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 73 Ta 0.72           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 73 Ta 0.66           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 73 Ta 0.84           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 73 Ta 0.78           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 65 Tb 0.83           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 65 Tb 0.83           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 65 Tb 0.85           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 65 Tb 0.77           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 90 Th 7.24           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 90 Th 7.54           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 90 Th 6.2           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 90 Th 7.81           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 22 Ti 0.68           wt%ox Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 22 Ti 0.68           wt%ox Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 22 Ti 0.75           wt%ox Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 22 Ti 0.7           wt%ox Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 81 Tl 0.41           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 81 Tl 0.41           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 81 Tl 0.38           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 81 Tl 0.27           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 92 U 1.59           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 92 U 1.35           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 92 U 1.57           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 92 U 1.2           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 23 V 94           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 23 V 106           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 23 V 97           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 23 V 97           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 74 W 0.56           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 74 W 1.07           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 74 W 0.76           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 74 W 0.96           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 39 Y 16.6           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 39 Y 17.7           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 39 Y 17.5           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 39 Y 16.7           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 70 Yb 2.51           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 70 Yb 2.38           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 70 Yb 2.54           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 70 Yb 2.58           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 30 Zn 75           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 30 Zn 71           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 30 Zn 69           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 30 Zn 69           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 40 Zr 194           ppm Compostional estimate of the South Qinling orogenic belt. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
South Qinling Belt in China 40 Zr 187           ppm Compostional estimate of the South Qinling orogenic belt. Gao et al. 1998
South Qinling Belt in China 40 Zr 178           ppm Compostional estimate of the South Qinling orogenic belt. Includes sedimentary carbonates. Gao et al. 1998
South Qinling Belt in China 40 Zr 192           ppm Compostional estimate of the Southern Qinling orogenic belt. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 47 Ag 57         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 47 Ag 46         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 13 Al 14.93         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 13 Al 15.56         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 33 As 1.03         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 33 As 1.27         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 79 Au 0.51         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 79 Au 1.05         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 5 B 5.6         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 5 B 5.1         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 56 Ba 747         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 56 Ba 1333         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 4 Be 1.72         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 4 Be 2.02         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 83 Bi 0.27         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 83 Bi 0.09         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 6 C 0.22         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 6 C 0.34         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 20 Ca 2.86         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 20 Ca 3.52         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 48 Cd 58         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 48 Cd 66         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 58 Ce 112.7         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 58 Ce 68.3         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 17 Cl 111         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 17 Cl 69         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 27 Co 14         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 27 Co 8.4         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 24 Cr 43         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 24 Cr 30         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 55 Cs 2.7         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 55 Cs 1.69         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 29 Cu 20         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 29 Cu 27         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 63 Eu 1.35         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 63 Eu 1.09         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites   Eu/Eu* 0.94         641   Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites   Eu/Eu* 0.92         553   Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 9 F 514         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 9 F 564         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 26 Fe 3.198         641 wt%ox Average of 596 subsamples and 45 composites. Fe2O3 = 1.62 and FeO = 1.74 are recalculated as FeO(t). Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 26 Fe 3.941         553 wt%ox Average of 502 subsamples and 51 composites. Fe2O3 = 1.29 and FeO = 2.78 are recalculated as FeO(t). Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 31 Ga 19.8         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 31 Ga 18.7         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 32 Ge 1.1         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 32 Ge 0.83         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 1 H 1.37         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 1 H 1.28         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 72 Hf 5.45         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 72 Hf 4.41         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 80 Hg 8.2         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 80 Hg 5.9         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 19 K 1.97         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 19 K 3.43         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 57 La 38.1         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 57 La 37.9         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites   La[n]/Yb[n] 20.54         553   Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites   La[n]/Yb[n] 16.78         641   Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 3 Li 16.9         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 3 Li 14.4         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 71 Lu 0.25         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 71 Lu 0.17         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 12 Mg 2.13         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 12 Mg 1.52         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 25 Mn 0.07         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 25 Mn 0.06         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 42 Mo 0.8         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 42 Mo 0.79         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 11 Na 4.53         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 11 Na 4.34         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 41 Nb 13         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 41 Nb 7.3         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 60 Nd 28.4         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 60 Nd 31         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 28 Ni 16         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 28 Ni 29         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 15 P 0.14         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 15 P 0.17         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 82 Pb 13.5         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 82 Pb 26.3         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 46 Pd 0.11         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 46 Pd 1.81         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 78 Pt 0.13         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 78 Pt 2.06         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 37 Rb 90         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 37 Rb 53         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 51 Sb 0.16         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 51 Sb 0.3         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 21 Sc 8.8         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 21 Sc 7.4         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 34 Se 56         553 ppb Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 34 Se 52         641 ppb Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 14 Si 66.28         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 14 Si 66.04         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 62 Sm 4.01         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 62 Sm 5.04         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 50 Sn 1.07         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 50 Sn 1.27         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 38 Sr 515         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 38 Sr 623         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 73 Ta 0.93         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 73 Ta 0.39         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 65 Tb 0.49         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 65 Tb 0.55         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 90 Th 5.02         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 90 Th 9.3         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 22 Ti 0.46         641 wt%ox Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 22 Ti 0.46         553 wt%ox Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 81 Tl 0.49         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 81 Tl 0.35         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 92 U 0.75         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 92 U 1.78         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 23 V 66         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 23 V 52         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 74 W 0.27         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 74 W 0.46         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 39 Y 11.5         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 39 Y 14.9         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 70 Yb 1.53         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 70 Yb 1.25         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 30 Zn 58         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 30 Zn 58         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 40 Zr 202         641 ppm Average of 596 subsamples and 45 composites. Gao et al. 1998
Tonalites-Trondhjemites-Granodiorites 40 Zr 168         553 ppm Average of 502 subsamples and 51 composites. Gao et al. 1998
Yangtze Craton 47 Ag 45           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 47 Ag 39           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 47 Ag 49           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 47 Ag 42           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 47 Ag 51           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 13 Al 13.08           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 13 Al 13.99           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 13 Al 14.02           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 13 Al 12.12           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 13 Al 13.7           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 33 As 2.2           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 33 As 3.3           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 33 As 3.8           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 33 As 3.3           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 33 As 3.6           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 79 Au 1.4           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 79 Au 0.47           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 79 Au 1.32           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 79 Au 1.29           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 79 Au 2.21           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 5 B 20           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 5 B 22           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 5 B 12           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 5 B 27           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 5 B 19           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 56 Ba 652           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 56 Ba 576           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 56 Ba 653           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 56 Ba 633           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 56 Ba 590           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 4 Be 2.46           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 4 Be 3.07           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 4 Be 2.07           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 4 Be 2.28           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 4 Be 1.96           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 83 Bi 0.13           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 83 Bi 0.12           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 83 Bi 0.15           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 83 Bi 0.16           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 83 Bi 0.14           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 6 C 2.13           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 6 C 0.39           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 6 C 0.18           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 6 C 0.68           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 6 C 6.01           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 20 Ca 3.18           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 20 Ca 7.4           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 20 Ca 2.72           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 20 Ca 4.16           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 20 Ca 2.7           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 48 Cd 77           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 48 Cd 50           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 48 Cd 78           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 48 Cd 81           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 48 Cd 70           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 58 Ce 64.2           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 58 Ce 60.2           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 58 Ce 68.5           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 58 Ce 69.9           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 58 Ce 71.6           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 17 Cl 130           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 17 Cl 144           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 17 Cl 169           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 17 Cl 145           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 17 Cl 148           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 27 Co 19           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 27 Co 14           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 27 Co 16           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 27 Co 14           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 27 Co 16           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 24 Cr 50           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 24 Cr 82           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 24 Cr 66           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 24 Cr 65           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 24 Cr 56           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 55 Cs 4.1           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 55 Cs 5.22           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 55 Cs 3.34           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 55 Cs 3.59           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 55 Cs 1.72           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 29 Cu 31           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 29 Cu 35           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 29 Cu 42           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 29 Cu 36           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 29 Cu 34           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 63 Eu 1.21           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 63 Eu 1.21           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 63 Eu 1.05           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 63 Eu 1.22           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 63 Eu 1.22           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton   Eu/Eu* 0.74             Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton   Eu/Eu* 0.7             Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton   Eu/Eu* 0.73             Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton   Eu/Eu* 0.77             Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton   Eu/Eu* 0.75             Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 9 F 401           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 9 F 503           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 9 F 542           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 9 F 570           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 9 F 493           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 26 Fe 5.274           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Fe2O3 = 1.26 and FeO = 4.14 are recalculated as FeO(t). Gao et al. 1998
Yangtze Craton 26 Fe 4.616           wt%ox Compostional estimate of the Yangtze craton. Fe2O3 = 2.64 and FeO = 2.24 are recalculated as FeO(t). Gao et al. 1998
Yangtze Craton 26 Fe 4.126           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Fe2O3 = 1.54 and FeO = 2.74 are recalculated as FeO(t). Gao et al. 1998
Yangtze Craton 26 Fe 4.764           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 1.96 and FeO = 3.00 are recalculated as FeO(t). Gao et al. 1998
Yangtze Craton 26 Fe 4.838           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Fe2O3 = 2.02 and FeO = 3.02 are recalculated as FeO(t). Gao et al. 1998
Yangtze Craton 31 Ga 17           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 31 Ga 18           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 31 Ga 16           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 31 Ga 19           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 31 Ga 18           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 32 Ge 1.34           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 32 Ge 1.15           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 32 Ge 1.3           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 32 Ge 1.44           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 32 Ge 1.14           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 1 H 2.43           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 1 H 2.02           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 1 H 2.26           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 1 H 2.26           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 1 H 1.98           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 72 Hf 4.55           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 72 Hf 5.19           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 72 Hf 5.26           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 72 Hf 5.42           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 72 Hf 5.31           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 80 Hg 12.9           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 80 Hg 10.8           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 80 Hg 10           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 80 Hg 8.8           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 80 Hg 6.2           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 19 K 2.3           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 19 K 2.39           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 19 K 2.43           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 19 K 2.54           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 19 K 2.16           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 57 La 41.3           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 57 La 37.9           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 57 La 37.3           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 57 La 33.6           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 57 La 33.2           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton   La[n]/Yb[n] 11.24             Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton   La[n]/Yb[n] 12.08             Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton   La[n]/Yb[n] 9.76             Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton   La[n]/Yb[n] 14.34             Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton   La[n]/Yb[n] 10.94             Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 3 Li 18           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 3 Li 19           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 3 Li 18           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 3 Li 18           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 3 Li 21           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 71 Lu 0.36           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 71 Lu 0.29           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 71 Lu 0.34           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 71 Lu 0.34           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 71 Lu 0.32           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 12 Mg 3.42           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 12 Mg 2.32           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 12 Mg 2.7           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 12 Mg 2.77           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 12 Mg 3.82           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 25 Mn 0.11           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 25 Mn 0.11           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 25 Mn 0.09           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 25 Mn 0.1           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 25 Mn 0.1           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 42 Mo 0.63           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 42 Mo 0.55           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 42 Mo 0.68           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 42 Mo 0.88           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 42 Mo 0.52           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 11 Na 3.43           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 11 Na 2.9           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 11 Na 2.72           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 11 Na 3.11           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 11 Na 3.08           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 41 Nb 11           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 41 Nb 11           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 41 Nb 10           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 41 Nb 12           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 41 Nb 10           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 60 Nd 32.8           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 60 Nd 30.7           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 60 Nd 26.6           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 60 Nd 27.6           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 60 Nd 30.6           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 28 Ni 33           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 28 Ni 37           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 28 Ni 36           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 28 Ni 26           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 28 Ni 49           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 15 P 0.17           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 15 P 0.11           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 15 P 0.14           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 15 P 0.13           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 15 P 0.12           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 82 Pb 16           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 82 Pb 16           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 82 Pb 16           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 82 Pb 14           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 82 Pb 17           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 46 Pd 1.8           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 46 Pd 0.79           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 46 Pd 1.7           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 46 Pd 1.88           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 46 Pd 3.02           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 78 Pt 1.8           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 78 Pt 1.91           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 78 Pt 3.35           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 78 Pt 1.92           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 78 Pt 0.84           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 37 Rb 79           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 37 Rb 61           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 37 Rb 71           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 37 Rb 85           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 37 Rb 93           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 16 S 0.03           wt% Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 16 S 0.05           wt% Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 16 S 0.04           wt% Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 16 S 0.04           wt% Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 16 S 0.05           wt% Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 51 Sb 0.27           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 51 Sb 0.08           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 51 Sb 0.26           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 51 Sb 0.38           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 51 Sb 0.24           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 21 Sc 14           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 21 Sc 14           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 21 Sc 11           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 21 Sc 13           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 21 Sc 14           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 34 Se 152           ppb Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 34 Se 116           ppb Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 34 Se 43           ppb Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 34 Se 142           ppb Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 34 Se 108           ppb Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 14 Si 65.69           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 14 Si 62.72           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 14 Si 58.16           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 14 Si 66.06           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 14 Si 64.89           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 62 Sm 4.89           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 62 Sm 5.18           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 62 Sm 4.95           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 62 Sm 5.04           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 62 Sm 4.35           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 50 Sn 1.87           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 50 Sn 1.46           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 50 Sn 1.74           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 50 Sn 1.88           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 50 Sn 1.55           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 38 Sr 206           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 38 Sr 254           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 38 Sr 273           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 38 Sr 304           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 38 Sr 263           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 73 Ta 0.64           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 73 Ta 0.57           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 73 Ta 0.73           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 73 Ta 0.59           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 73 Ta 0.68           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 65 Tb 0.8           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 65 Tb 0.85           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 65 Tb 0.9           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 65 Tb 0.82           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 65 Tb 0.69           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 90 Th 9.23           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 90 Th 7.44           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 90 Th 8.69           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 90 Th 7.75           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 90 Th 9.31           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 22 Ti 0.65           wt%ox Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 22 Ti 0.61           wt%ox Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 22 Ti 0.56           wt%ox Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 22 Ti 0.7           wt%ox Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 22 Ti 0.65           wt%ox Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 81 Tl 0.44           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 81 Tl 0.52           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 81 Tl 0.23           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 81 Tl 0.47           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 81 Tl 0.7           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 92 U 1.38           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 92 U 1.1           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 92 U 1.31           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 92 U 1.62           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 92 U 1.4           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 23 V 94           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 23 V 83           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 23 V 104           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 23 V 95           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 23 V 82           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 74 W 0.65           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 74 W 0.69           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 74 W 0.51           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 74 W 0.7           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 74 W 0.54           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 39 Y 17.2           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 39 Y 18.1           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 39 Y 17.8           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 39 Y 17.8           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 39 Y 15.5           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 70 Yb 2.33           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 70 Yb 2.24           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 70 Yb 1.86           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 70 Yb 2.34           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 70 Yb 1.95           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 30 Zn 79           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 30 Zn 61           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 30 Zn 70           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 30 Zn 61           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
Yangtze Craton 30 Zn 69           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 40 Zr 163           ppm Compostional estimate of the Yangtze craton. Includes sedimentary carbonates. Gao et al. 1998
Yangtze Craton 40 Zr 196           ppm Compostional estimate of the Yangtze craton. Calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 40 Zr 191           ppm Compostional estimate of the Yangtze craton. Average composition of granulite terrains. Gao et al. 1998
Yangtze Craton 40 Zr 191           ppm Compostional estimate of the Yangtze craton. Average compostion of granulite terrains and calculated on a sedimentary carbonate rock-free basis. Gao et al. 1998
Yangtze Craton 40 Zr 184           ppm Compostional estimate of the Yangtze craton. Gao et al. 1998
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