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)
Archean Canadian Shield 13 Al 16           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 13 Al 16.34           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 13 Al 15.6           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 13 Al 15.9           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 56 Ba 240           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 56 Ba 790           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 6 C 0.2           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 6 C 0.16           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 20 Ca 3.4           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 20 Ca 7.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 20 Ca 3.8           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 20 Ca 2.75           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 24 Cr 140           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 24 Cr 88           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 26 Fe 1.26           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Total Fe as calculated from Fe2O3 value = 1.4 Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 26 Fe 3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 26 Fe 3.131           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Total Fe as calculated from Fe2O3 value = 3.48 Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 26 Fe 1.35           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Total Fe as calculated from Fe2O3 value = 1.5 Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 26 Fe 3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 26 Fe 9.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 1 H 0.8           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 1 H 0.7           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 19 K 2.53           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 19 K 0.9           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 19 K 3.06           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 19 K 2.7           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 12 Mg 2.2           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 12 Mg 5.2           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 12 Mg 1.38           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 12 Mg 2.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 25 Mn 0.06           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 25 Mn 0.08           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 25 Mn 0.08           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 11 Na 4           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 11 Na 3.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 11 Na 4.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 11 Na 4.12           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 28 Ni 23           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 28 Ni 90           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 15 P 0.15           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 15 P 0.13           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 15 P 0.15           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 14 Si 65.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 14 Si 65.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 14 Si 66.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 14 Si 57.4           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 38 Sr 410           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 38 Sr 300           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 90 Th 9.7           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 90 Th 2.9           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 22 Ti 0.49           wt%ox Major and minor element composition of the Upper Continental Crust as given by Goodwin 1978. Shaw et al. 1986 Goodwin 1978
Archean Canadian Shield 22 Ti 0.42           wt%ox Major and minor element composition of the Upper Continental Crust as given by Cameron et al. 1979. Shaw et al. 1986 Cameron et al. 1979
Archean Canadian Shield 22 Ti 0.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 22 Ti 0.9           wt%ox Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Canadian Shield 92 U 1.2           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Archean Canadian Shield 92 U 0.75           ppm Major and minor element composition of the Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Archean Lower Crust 13 Al 15.6           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 56 Ba 757           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 20 Ca 5.6           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 24 Cr 88           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 26 Fe 5.3           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 72 Hf 3.6           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 19 K 1           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 12 Mg 3.4           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 25 Mn 0.08           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 11 Na 4.4           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 41 Nb 5           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 28 Ni 58           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 15 P 0.18           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 82 Pb 13           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 37 Rb 11           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 14 Si 61.2           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 38 Sr 569           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 90 Th 0.42           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 22 Ti 0.5           wt%ox Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 92 U 0.05           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 39 Y 7           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Lower Crust 40 Zr 202           ppm Archean Lower Continental Crust composition as offered by Weaver and Tarney 1984. Also one of many models of LCC composition to compare current analyses, yet gives a good lower marker for some of the major and minor consitutents of LCC. Shaw et al. 1986 Weaver & Tarney 1984
Archean Terrains 13 Al 17           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 13 Al 14.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 56 Ba 1280           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 6 C 2.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 20 Ca 3.9           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 20 Ca 5.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 24 Cr 84           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 26 Fe 1.26           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Total Fe as calculated from Fe2O3 value = 1.4 Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 26 Fe 4.859           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Total Fe as calculated from Fe2O3 value = 5.4 Shaw et al. 1986 Rogers 1978
Archean Terrains 26 Fe 3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 1 H 1.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 19 K 2.64           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 19 K 1.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 12 Mg 3.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 12 Mg 3.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 25 Mn 0.075           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 11 Na 3.4           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 11 Na 4.6           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 28 Ni 40           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 15 P 0.14           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 14 Si 64           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 14 Si 61.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 38 Sr 376           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 90 Th 6.8           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 22 Ti 0.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Rogers 1978. Shaw et al. 1986 Rogers 1978
Archean Terrains 22 Ti 0.46           wt%ox Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Archean Terrains 92 U 2           ppm Major and minor element composition of the Upper Continental Crust as given by Shaw et al. 1967. Shaw et al. 1986 Shaw et al. 1967
Basic Precambrian Granulites 13 Al 14.39         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 5 B 15         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 56 Ba 355         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 20 Ca 8.91         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 27 Co 58         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 24 Cr 317         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 29 Cu 65         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 26 Fe 13.047         25 wt%ox Fe2O3 = 14.5 is recalculated as FeO(t). Shaw et al. 1986
Basic Precambrian Granulites 72 Hf 3.2         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 19 K 0.79         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 12 Mg 7.79         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 25 Mn 0.21         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 11 Na 2.23         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 41 Nb 10         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 28 Ni 173         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 15 P 0.2         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 82 Pb 12         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 37 Rb 21         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 21 Sc 36         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 14 Si 49.18         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 38 Sr 223         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 73 Ta 1.6         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 90 Th 2.5         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 22 Ti 1.51         25 wt%ox Shaw et al. 1986
Basic Precambrian Granulites 92 U 0.7         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 23 V 307         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 39 Y 47         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 30 Zn 136         25 ppm Shaw et al. 1986
Basic Precambrian Granulites 40 Zr 113         25 ppm Shaw et al. 1986
Continental Crust 13 Al 14.8           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 5 B 9.3           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 56 Ba 764           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 20 Ca 4.66           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 27 Co 26           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 24 Cr 90           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 29 Cu 26           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 26 Fe 5.597           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Fe2O3 = 6.22 is recalculated as FeO(t). Shaw et al. 1986
Continental Crust 72 Hf 5           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 19 K 2.34           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 12 Mg 3.15           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 25 Mn 0.09           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 11 Na 3.29           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 41 Nb 20           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 28 Ni 54           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 15 P 0.14           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 82 Pb 20           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 37 Rb 76           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 21 Sc 13           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 14 Si 63.2           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 38 Sr 317           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 73 Ta 4           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 90 Th 9           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 22 Ti 0.7           wt%ox Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 92 U 1.8           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 23 V 96           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 39 Y 26           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 30 Zn 71           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Continental Crust 40 Zr 203           ppm Simple average between the LCC and UCC estimates. The LCC is based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3); the UCC is given in Table 1. Shaw et al. 1986
Intermediate Precambrian Granulites 13 Al 16.66         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 5 B 21         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 56 Ba 536         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 20 Ca 6.15         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 27 Co 33         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 24 Cr 102         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 29 Cu 23         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 26 Fe 7.414         26 wt%ox Fe2O3 = 8.24 is recalculated as FeO(t). Shaw et al. 1986
Intermediate Precambrian Granulites 72 Hf 3.3         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 19 K 1.57         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 12 Mg 3.18         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 25 Mn 0.14         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 11 Na 3.75         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 41 Nb 13         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 28 Ni 58         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 15 P 0.2         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 82 Pb 18         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 37 Rb 37         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 21 Sc 20         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 14 Si 58.61         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 38 Sr 550         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 73 Ta 1.6         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 90 Th 5.2         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 22 Ti 0.83         26 wt%ox Shaw et al. 1986
Intermediate Precambrian Granulites 92 U 1.1         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 23 V 121         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 39 Y 32         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 30 Zn 94         26 ppm Shaw et al. 1986
Intermediate Precambrian Granulites 40 Zr 143         26 ppm Shaw et al. 1986
Lower Continental Crust 13 Al 19           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 13 Al 14.9           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 5 B 9.3           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 56 Ba 458           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 56 Ba 175           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 20 Ca 5.2           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 20 Ca 9.5           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 27 Co 33           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 27 Co 39           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 24 Cr 144           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 24 Cr 65           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 29 Cu 38           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 29 Cu 78           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 26 Fe 7.198           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Fe2O3 = 8.0 is recalculated as FeO(t). Shaw et al. 1986
Lower Continental Crust 26 Fe 9           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 72 Hf 4           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 72 Hf 1.6           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 19 K 0.6           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 19 K 1.6           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 12 Mg 4.1           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 12 Mg 4.1           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 25 Mn 0.12           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 25 Mn 0.17           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 11 Na 3.1           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 11 Na 3.43           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 41 Nb 4           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 41 Nb 14           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 28 Ni 35           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 28 Ni 89           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 15 P 0.13           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 82 Pb 7.5           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 82 Pb 23           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 37 Rb 41           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 37 Rb 8           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 21 Sc 40           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 21 Sc 19           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 14 Si 61.5           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 14 Si 54           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 38 Sr 317           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 38 Sr 425           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 73 Ta 2           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 90 Th 1.95           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 90 Th 7.7           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 22 Ti 0.9           wt%ox Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 22 Ti 0.8           wt%ox Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 92 U 0.63           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 92 U 1.1           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 23 V 230           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 23 V 139           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 39 Y 30           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 39 Y 22           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Lower Continental Crust 30 Zn 89           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 40 Zr 169           ppm Based on the mean values of estimates of the regional abundances of high metamorphic grade Precambrian rock types ad divided by SiO2 contents into ultrabasis, basic, intermediate and silica-rich (see Table 3). Shaw et al. 1986
Lower Continental Crust 40 Zr 30           ppm Present day Lower Continental Crust composition as given in Taylor & McLennan 1981. Values are used as one of many models of Lower Continental crustal composition to which other such analyses are compared. Shaw et al. 1986 Taylor & McLennan 1981
Post-Archean Terrrains 13 Al 16           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 56 Ba 810           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 6 C 0.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 20 Ca 3.3           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 24 Cr 45           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 26 Fe 1.08           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Total Fe as calculated from Fe2O3 value = 1.2 Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 26 Fe 3.4           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 1 H 0.7           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 19 K 3.51           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 12 Mg 2.1           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 25 Mn 0.09           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 11 Na 3.5           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 28 Ni 12           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 15 P 0.19           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 14 Si 65           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 38 Sr 310           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 90 Th 13.6           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 22 Ti 0.62           wt%ox Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Post-Archean Terrrains 92 U 2.2           ppm Major and minor element composition of the Upper Continental Crust as given by Eade and Fahrig 1971. Shaw et al. 1986 Eade & Fahrig 1971
Precambrian Canadian Shield 13 Al 14.63           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 79 Au 1.81           ppb Shaw et al. 1986
Precambrian Canadian Shield 5 B 9.2           ppm Analyst: M.D. Higgins Shaw et al. 1986
Precambrian Canadian Shield 56 Ba 1070           ppm Shaw et al. 1986
Precambrian Canadian Shield 4 Be 1.3           ppm Shaw et al. 1986
Precambrian Canadian Shield 83 Bi 35           ppb Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 6 C 1.28           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 6 C 0.02           wt% Shaw et al. 1986
Precambrian Canadian Shield 20 Ca 4.12           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 48 Cd 75           ppb Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 58 Ce 65.6           ppm Shaw et al. 1986
Precambrian Canadian Shield 17 Cl 0.01           wt% Shaw et al. 1986
Precambrian Canadian Shield 27 Co 12           ppm Shaw et al. 1986
Precambrian Canadian Shield 24 Cr 237           ppm Shaw et al. 1986
Precambrian Canadian Shield 24 Cr 35           ppm Shaw et al. 1986
Precambrian Canadian Shield 29 Cu 14           ppm Shaw et al. 1986
Precambrian Canadian Shield 63 Eu 0.937           ppm Shaw et al. 1986
Precambrian Canadian Shield 9 F 0.05           wt% Shaw et al. 1986
Precambrian Canadian Shield 26 Fe 3.974           wt%ox Fe2O3 = 1.36 and FeO = 2.75 are recalculated as FeO(t). Shaw et al. 1986
Precambrian Canadian Shield 31 Ga 14           ppm Shaw et al. 1986
Precambrian Canadian Shield 64 Gd 2.79           ppm Shaw et al. 1986
Precambrian Canadian Shield 1 H 0.92           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 72 Hf 5.8           ppm Shaw et al. 1986
Precambrian Canadian Shield 80 Hg 96           ppb Analyst: Barringer Research Inc. in Bradshaw et al. (1970). Shaw et al. 1986
Precambrian Canadian Shield 67 Ho 0.623           ppm Shaw et al. 1986
Precambrian Canadian Shield 77 Ir 0.024           ppb Shaw et al. 1986
Precambrian Canadian Shield 19 K 3.1           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 57 La 32.3           ppm Shaw et al. 1986
Precambrian Canadian Shield 3 Li 22           ppm Shaw et al. 1986
Precambrian Canadian Shield 71 Lu 0.233           ppm Shaw et al. 1986
Precambrian Canadian Shield 12 Mg 2.24           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 25 Mn 0.068           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 11 Na 3.46           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 41 Nb 26           ppm Shaw et al. 1986
Precambrian Canadian Shield 60 Nd 25.9           ppm Shaw et al. 1986
Precambrian Canadian Shield 28 Ni 19           ppm Shaw et al. 1986
Precambrian Canadian Shield 15 P 0.15           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 82 Pb 17           ppm Shaw et al. 1986
Precambrian Canadian Shield 82 Pb 18           ppm Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 37 Rb 110           ppm Shaw et al. 1986
Precambrian Canadian Shield 37 Rb 109           ppm Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 16 S 0.06           wt% Shaw et al. 1986
Precambrian Canadian Shield 21 Sc 7           ppm Shaw et al. 1986
Precambrian Canadian Shield 14 Si 64.93           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 62 Sm 4.51           ppm Shaw et al. 1986
Precambrian Canadian Shield 38 Sr 316           ppm Shaw et al. 1986
Precambrian Canadian Shield 73 Ta 5.7           ppm Analyst: K. Speranzini Shaw et al. 1986
Precambrian Canadian Shield 65 Tb 0.481           ppm Shaw et al. 1986
Precambrian Canadian Shield 90 Th 10.3           ppm Shaw et al. 1986
Precambrian Canadian Shield 22 Ti 0.52           wt%ox Shaw et al. 1986
Precambrian Canadian Shield 81 Tl 499           ppb Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 81 Tl 524           ppb Shaw et al. 1986
Precambrian Canadian Shield 92 U 2.45           ppm Shaw et al. 1986
Precambrian Canadian Shield 23 V 53           ppm Shaw et al. 1986
Precambrian Canadian Shield 39 Y 21           ppm Shaw et al. 1986
Precambrian Canadian Shield 70 Yb 1.47           ppm Shaw et al. 1986
Precambrian Canadian Shield 30 Zn 60           ppm Weighted mean calculated from Heinrichs et al. (1980). Shaw et al. 1986
Precambrian Canadian Shield 30 Zn 52           ppm Shaw et al. 1986
Precambrian Granulites 13 Al 14.92         88 wt%ox Shaw et al. 1986
Precambrian Granulites 5 B 9.3         88 ppm Shaw et al. 1986
Precambrian Granulites 56 Ba 458         88 ppm Shaw et al. 1986
Precambrian Granulites 20 Ca 5.2         88 wt%ox Shaw et al. 1986
Precambrian Granulites 27 Co 39         88 ppm Shaw et al. 1986
Precambrian Granulites 24 Cr 144         88 ppm Shaw et al. 1986
Precambrian Granulites 29 Cu 38         88 ppm Shaw et al. 1986
Precambrian Granulites 26 Fe 7.216         88 wt%ox Fe2O3 = 8.02 is recalculated as FeO(t). Shaw et al. 1986
Precambrian Granulites 72 Hf 4.2         88 ppm Shaw et al. 1986
Precambrian Granulites 19 K 1.58         88 wt%ox Shaw et al. 1986
Precambrian Granulites 12 Mg 4.06         88 wt%ox Shaw et al. 1986
Precambrian Granulites 25 Mn 0.12         88 wt%ox Shaw et al. 1986
Precambrian Granulites 11 Na 3.12         88 wt%ox Shaw et al. 1986
Precambrian Granulites 41 Nb 14         88 ppm Shaw et al. 1986
Precambrian Granulites 28 Ni 89         88 ppm Shaw et al. 1986
Precambrian Granulites 15 P 0.13         88 wt%ox Shaw et al. 1986
Precambrian Granulites 82 Pb 23         88 ppm Shaw et al. 1986
Precambrian Granulites 37 Rb 41         88 ppm Shaw et al. 1986
Precambrian Granulites 21 Sc 19         88 ppm Shaw et al. 1986
Precambrian Granulites 14 Si 61.54         88 wt%ox Shaw et al. 1986
Precambrian Granulites 38 Sr 317         88 ppm Shaw et al. 1986
Precambrian Granulites 73 Ta 2.3         88 ppm Shaw et al. 1986
Precambrian Granulites 90 Th 7.7         88 ppm Shaw et al. 1986
Precambrian Granulites 22 Ti 0.81         88 wt%ox Shaw et al. 1986
Precambrian Granulites 92 U 1.1         88 ppm Shaw et al. 1986
Precambrian Granulites 23 V 139         88 ppm Shaw et al. 1986
Precambrian Granulites 39 Y 30         88 ppm Shaw et al. 1986
Precambrian Granulites 30 Zn 89         88 ppm Shaw et al. 1986
Precambrian Granulites 40 Zr 169         88 ppm Shaw et al. 1986
Silicic Precambrian Granulites 13 Al 14.65         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 5 B 3         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 56 Ba 491         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 20 Ca 2.81         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 27 Co 28         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 24 Cr 50         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 29 Cu 24         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 26 Fe 3.653         23 wt%ox Fe2O3 = 4.06 is recalculated as FeO(t). Shaw et al. 1986
Silicic Precambrian Granulites 72 Hf 5         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 19 K 2.04         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 12 Mg 1.71         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 25 Mn 0.06         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 11 Na 3.55         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 41 Nb 16         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 28 Ni 41         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 15 P 0.08         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 82 Pb 30         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 37 Rb 52         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 21 Sc 8         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 14 Si 70.13         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 38 Sr 318         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 73 Ta 2.9         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 90 Th 11         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 22 Ti 0.39         23 wt%ox Shaw et al. 1986
Silicic Precambrian Granulites 92 U 1.3         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 23 V 43         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 39 Y 19         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 30 Zn 59         23 ppm Shaw et al. 1986
Silicic Precambrian Granulites 40 Zr 207         23 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 13 Al 19.23         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 5 B 6         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 56 Ba 671         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 20 Ca 5.9         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 27 Co 61         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 24 Cr 289         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 29 Cu 82         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 26 Fe 11.922         14 wt%ox Fe2O3 = 13.25 is recalculated as FeO(t). Shaw et al. 1986
Ultrabasic Precambrian Granulites 72 Hf 4.3         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 19 K 1.51         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 12 Mg 15.53         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 25 Mn 0.14         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 11 Na 1.25         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 41 Nb 14         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 28 Ni 275         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 15 P 0.17         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 82 Pb 14         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 37 Rb 78         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 21 Sc 36         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 14 Si 40.14         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 38 Sr 212         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 73 Ta 2.4         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 90 Th 16         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 22 Ti 1.33         14 wt%ox Shaw et al. 1986
Ultrabasic Precambrian Granulites 92 U 3.8         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 23 V 219         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 39 Y 46         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 30 Zn 133         14 ppm Shaw et al. 1986
Ultrabasic Precambrian Granulites 40 Zr 161         14 ppm Shaw et al. 1986
Upper Continental Crust 13 Al 16           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 56 Ba 700           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 20 Ca 3.5           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 24 Cr 25           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 26 Fe 4.5           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 19 K 3.3           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 12 Mg 2.3           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 11 Na 3.8           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 28 Ni 20           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 14 Si 66           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 38 Sr 350           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 90 Th 10.5           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 22 Ti 0.6           wt%ox Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
Upper Continental Crust 92 U 2.5           ppm Major and minor element composition of present day Upper Continental Crust as given by Taylor and McLennan 1981. Shaw et al. 1986 Taylor & McLennan 1981
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