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)
CI Chondrites   20Ne/36Ar 40             Anders & Ebihara 1982 Marti et al. 1972
CI Chondrites   20Ne/36Ar 31             Anders & Ebihara 1982 Cameron 1973
CI Chondrites   20Ne/36Ar 37             Anders & Ebihara 1982
CI Chondrites   20Ne/36Ar 26             Anders & Ebihara 1982 Cameron 1982
CI Chondrites   36Ar/84Kr 3800             Anders & Ebihara 1982 Cameron 1982
CI Chondrites   36Ar/84Kr 3380             Anders & Ebihara 1982
CI Chondrites   36Ar/84Kr 2500             Anders & Ebihara 1982 Marti et al. 1972
CI Chondrites   36Ar/84Kr 3710             Anders & Ebihara 1982 Cameron 1973
CI Chondrites   4He/20Ne 670             Anders & Ebihara 1982
CI Chondrites   4He/20Ne 780             Anders & Ebihara 1982 Cameron 1982
CI Chondrites   4He/20Ne 720             Anders & Ebihara 1982 Cameron 1973
CI Chondrites   4He/20Ne 400             Anders & Ebihara 1982 Marti et al. 1972
CI Chondrites   84Kr/132Xe 22.5             Anders & Ebihara 1982
CI Chondrites   84Kr/132Xe 15.5             Anders & Ebihara 1982 Cameron 1982
CI Chondrites   84Kr/132Xe 19             Anders & Ebihara 1982 Cameron 1973
CI Chondrites   84Kr/132Xe 10             Anders & Ebihara 1982 Marti et al. 1972
CI Chondrites 35 Br 3.56   0.68     27 ppm Average values of indirect estimates of Bromine content in C1 Chondrites. Anders & Ebihara 1982
CI Chondrites 58 Ce 616   31.416     12 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 66 Dy 245   11.025     5 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 68 Er 160   7.36     6 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 63 Eu 56   4.592     21 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 64 Gd 197   9.259     6 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 67 Ho 54.7   2.8991     2 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 53 I 434   92     30 ppb Average Iodine abundances in C1 chondrites based on indirect estimates according to Iodine ratios in other chondrite classes (C2, C3 and E4). Anders & Ebihara 1982
CI Chondrites 57 La 236   12.036     10 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 71 Lu 24.5   1.519     15 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 60 Nd 457   31.99     12 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 59 Pr 92.9   6.6888     3 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 62 Sm 149   11.026     12 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 65 Tb 35.5   4.26     6 ppb Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 69 Tm 24.7   1.6055     2 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
CI Chondrites 70 Yb 159   5.724     16 ppb Values estimated from unfractionated abundances of REE as are given in Evensen et al. 1978. Anders & Ebihara 1982 Evensen et al. 1978
Ordinary Chondrites 5 B 22.9         14   Boron abundance for ordinary chondrites. Anders & Ebihara 1982
Orgueil Chondrite 47 Ag 220         8 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 13 Al 8620         12 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 18 Ar 751         7   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 33 As 1.91         10 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 79 Au 145         25 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 5 B 1.25         6 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 56 Ba 2270         7 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 4 Be 26.7           ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 83 Bi 111         7 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 35 Br 3.56         10 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 6 C 3.45         7   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982 Belsky & Kaplan 1970
Gibson et al. 1971
Wiik 1969
Orgueil Chondrite 20 Ca 9020         12 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 48 Cd 673         17 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 58 Ce 619         8 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 17 Cl 698         8 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 27 Co 509         10 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 24 Cr 2650         8 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 55 Cs 186         9 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 29 Cu 112         3 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 66 Dy 242         4 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 68 Er 160         4 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 63 Eu 54.3         15 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 9 F 58.2         5 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 26 Fe 18.51         14   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 31 Ga 10.1         10 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 64 Gd 196         5 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 32 Ge 32.2         20 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 1 H 2.02         2   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982 Boato 1954
Orgueil Chondrite 2 He 56             Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 72 Hf 119         3 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 80 Hg 390         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 67 Ho 54         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 53 I 430           ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 49 In 77.8         16 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 77 Ir 473         26 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 19 K 569         18 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 36 Kr 8.7         7   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 57 La 236         7 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 3 Li 1.59         2 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 71 Lu 24.3         10 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 12 Mg 9.55         10   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 25 Mn 1960         12 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 42 Mo 920         2 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 7 N 3180         4 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982 Gibson et al. 1971
Orgueil Chondrite 11 Na 4830         12 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 41 Nb 250           ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 60 Nd 462         9 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 10 Ne 203             Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 28 Ni 1.1         14   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 8 O 46.4         4   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982 Wiik 1969
Orgueil Chondrite 76 Os 699         12 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 15 P 1180         3 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 82 Pb 2430         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 46 Pd 557         12 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 59 Pr 90         2 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 78 Pt 953         6 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 37 Rb 2.3         11 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 75 Re 36.9         13 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 45 Rh 134           ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 44 Ru 714         5 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 16 S 5.25         2   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 51 Sb 155         22 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 21 Sc 5.76         10 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 34 Se 18.2         11 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 14 Si 10.67         5   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 62 Sm 142         8 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 50 Sn 1680         9 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 38 Sr 7.91         12 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 73 Ta 17         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 65 Tb 35.3         4 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 52 Te 2280         7 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 90 Th 28.6         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 22 Ti 436         7 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 81 Tl 143         12 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 69 Tm 22         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 92 U 8.1         7 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 23 V 56.7         6 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 74 W 89         1 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 54 Xe 8.6         6   Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 39 Y 1.5         2 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 70 Yb 166         12 ppb Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 30 Zn 308         11 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Orgueil Chondrite 40 Zr 3.69         7 ppm Solar system abundances of major and minor elements as based on studies from the Orgueil Meteorite. Abundances in the Orgueil meteorite are adequately close to the C1 chondrite mean except for REE, in which case other studies will yield more preferable results Anders & Ebihara 1982
Solar System 47 Ag 0.46             Anders & Ebihara 1982 Cameron 1982
Solar System 47 Ag 0.529   0.050255     11   Anders & Ebihara 1982
Solar System 13 Al 85000             Anders & Ebihara 1982 Cameron 1982
Solar System 13 Al 84900   4161.1     18   Anders & Ebihara 1982
Solar System 18 Ar 104000   20800         Anders & Ebihara 1982
Solar System 18 Ar 106000             Anders & Ebihara 1982 Cameron 1982
Solar System 33 As 6.2             Anders & Ebihara 1982 Cameron 1982
Solar System 33 As 6.79   0.7469     14   Anders & Ebihara 1982
Solar System 79 Au 0.186   0.0279     39   Anders & Ebihara 1982
Solar System 79 Au 0.21             Anders & Ebihara 1982 Cameron 1982
Solar System 5 B 9             Anders & Ebihara 1982 Cameron 1982
Solar System 5 B 24   7.2     34   Problems with contamination are paramount for this particular element, the most reliable data according to Anders & Ebihara 1982 is that of Curtis et al. 1980. Boron abundances in Curtis et al. were determined by counting the 478 keV ?-ray of Li^7 from the reaction B^10(n, s)Li^7 which was used for 82 chondrite samples. The actual value for B abundance was derived without regard to Chondrite class in Curtis et al. which some have stated to be dangerous due to the B volatility during nebular condensation. Anders & Ebihara 1982
Solar System 56 Ba 4.8             Anders & Ebihara 1982 Cameron 1982
Solar System 56 Ba 4.36   0.1962     7   Anders & Ebihara 1982
Solar System 4 Be 0.78   0.0585     3   Be abundance estimated from other C-chondrite classes, using the fractionation factors of Kallemeyn and Wasson 1981. It has been shown by these same authors that C2M, C3O and C3V chondrites are enriched in refractory lithophiles by mean factors 1.11, 1.11 and 1.33 relative to C1's. Anders & Ebihara 1982
Solar System 4 Be 1.2             Anders & Ebihara 1982 Cameron 1982
Solar System 83 Bi 0.144   0.011808     13   Anders & Ebihara 1982
Solar System 83 Bi 0.14             Anders & Ebihara 1982 Cameron 1982
Solar System 35 Br 9.2             Anders & Ebihara 1982 Cameron 1982
Solar System 35 Br 11.8   2.242     18   The inconsistencies amongst vaious sources to produce similar Bromine abundances makes the aquisition of a valid average problematic. The lack of consistency on the part of Bromine abundances is mainly due to the differing views on hydrothermal transport of the meteorite parent bodies, thus leading to the analysis of Br abundances based on other meteorite classes that are volatile rich, but have not been hydrothermally altered. The Br, In and Cd ratios in C3's and E4's are used for their relative equivalence to solar system ratios, therein leading to mean Br abundances. Anders & Ebihara 1982
Solar System 6 C 12100000   3630000         Anders & Ebihara 1982
Solar System 6 C 11100000             Anders & Ebihara 1982 Cameron 1982
Solar System 20 Ca 61100   4338.1     15   Anders & Ebihara 1982
Solar System 20 Ca 62500             Anders & Ebihara 1982 Cameron 1982
Solar System 48 Cd 1.69   0.10985     24   Anders & Ebihara 1982
Solar System 48 Cd 1.55             Anders & Ebihara 1982 Cameron 1982
Solar System 58 Ce 1.2             Anders & Ebihara 1982 Cameron 1982
Solar System 58 Ce 1.16             Anders & Ebihara 1982
Solar System 17 Cl 5240   786     10   Anders & Ebihara 1982
Solar System 17 Cl 4740             Anders & Ebihara 1982 Cameron 1982
Solar System 27 Co 2250   155.25     16   Anders & Ebihara 1982
Solar System 27 Co 2200             Anders & Ebihara 1982 Cameron 1982
Solar System 24 Cr 12700             Anders & Ebihara 1982 Cameron 1982
Solar System 24 Cr 13400   1072     12   Anders & Ebihara 1982
Solar System 55 Cs 0.372   0.02232     18   Anders & Ebihara 1982
Solar System 55 Cs 0.39             Anders & Ebihara 1982 Cameron 1982
Solar System 29 Cu 514   61.68     6   Anders & Ebihara 1982
Solar System 29 Cu 540             Anders & Ebihara 1982 Cameron 1982
Solar System 66 Dy 0.37             Anders & Ebihara 1982 Cameron 1982
Solar System 66 Dy 0.398             Anders & Ebihara 1982
Solar System 68 Er 0.253             Anders & Ebihara 1982
Solar System 68 Er 0.23             Anders & Ebihara 1982 Cameron 1982
Solar System 63 Eu 0.094             Anders & Ebihara 1982 Cameron 1982
Solar System 63 Eu 0.0972             Anders & Ebihara 1982
Solar System 9 F 843   126.45         Anders & Ebihara 1982
Solar System 9 F 780             Anders & Ebihara 1982 Cameron 1982
Solar System 26 Fe 900000             Anders & Ebihara 1982 Cameron 1982
Solar System 26 Fe 900000   24300     19   Average of mean values for individual meteorites. Anders & Ebihara 1982
Solar System 31 Ga 37.8   2.6082     14   Anders & Ebihara 1982
Solar System 31 Ga 38             Anders & Ebihara 1982 Cameron 1982
Solar System 64 Gd 0.42             Anders & Ebihara 1982 Cameron 1982
Solar System 64 Gd 0.331             Anders & Ebihara 1982
Solar System 32 Ge 117             Anders & Ebihara 1982 Cameron 1982
Solar System 32 Ge 118   11.092     28   Anders & Ebihara 1982
Solar System 1 H 27200000000   1360000000         Anders & Ebihara 1982
Solar System 1 H 26600000000             Anders & Ebihara 1982 Cameron 1982
Solar System 2 He 1800000000             Anders & Ebihara 1982 Cameron 1982
Solar System 2 He 2180000000   261600000         Anders & Ebihara 1982
Solar System 72 Hf 0.17             Anders & Ebihara 1982 Cameron 1982
Solar System 72 Hf 0.176   0.011616     3   Anders & Ebihara 1982
Solar System 80 Hg 0.21             Anders & Ebihara 1982 Cameron 1982
Solar System 80 Hg 0.52   0.26         Anders & Ebihara 1982
Solar System 67 Ho 0.092             Anders & Ebihara 1982 Cameron 1982
Solar System 67 Ho 0.0875             Anders & Ebihara 1982
Solar System 53 I 0.9   0.189     11   Similarly to Bromine, Iodine abundances were measured via C3's and E4's due to the high level of variance in I abundances from one meteorite to the next. This high variance of I is believed to be caused by the same hydrothermal transport in the meteorite parent body as was found in the Bromine analyses. Using E4's and C3's is a more reliable route to estimating I solar system abundances since they are hydrothermally unaltered meteorites and are rich in other volatiles such as In, Cd, F and Br which correlate well with Iodine. C1's and C2's were also used to counteract the relatively low amounts of data on I/Cd ratios. Anders & Ebihara 1982
Solar System 53 I 1.27             Anders & Ebihara 1982 Cameron 1982
Solar System 49 In 0.184   0.011776     24   Anders & Ebihara 1982
Solar System 49 In 0.19             Anders & Ebihara 1982 Cameron 1982
Solar System 77 Ir 0.66   0.04158     35   Anders & Ebihara 1982
Solar System 77 Ir 0.72             Anders & Ebihara 1982 Cameron 1982
Solar System 19 K 3770   297.83     27   Anders & Ebihara 1982
Solar System 19 K 3500             Anders & Ebihara 1982 Cameron 1982
Solar System 36 Kr 41.3             Anders & Ebihara 1982 Cameron 1982
Solar System 36 Kr 45.3   4.983         Anders & Ebihara 1982
Solar System 57 La 0.37             Anders & Ebihara 1982 Cameron 1982
Solar System 57 La 0.448   0.022848     10   Anders & Ebihara 1982
Solar System 3 Li 59.7   0.2025     3   Anders & Ebihara 1982
Solar System 3 Li 60             Anders & Ebihara 1982 Cameron 1982
Solar System 71 Lu 0.0369             Anders & Ebihara 1982
Solar System 71 Lu 0.035             Anders & Ebihara 1982 Cameron 1982
Solar System 12 Mg 1060000             Anders & Ebihara 1982 Cameron 1982
Solar System 12 Mg 1075000   38700     14   Average of mean values for individual meteorites. Anders & Ebihara 1982
Solar System 25 Mn 9510   922.47     16   Anders & Ebihara 1982
Solar System 25 Mn 9300             Anders & Ebihara 1982 Cameron 1982
Solar System 42 Mo 4             Anders & Ebihara 1982 Cameron 1982
Solar System 42 Mo 2.52   0.13608     2   Anders & Ebihara 1982
Solar System 7 N 2480000   992000         Anders & Ebihara 1982
Solar System 7 N 2310000             Anders & Ebihara 1982 Cameron 1982
Solar System 11 Na 57000   4161     17   Anders & Ebihara 1982
Solar System 11 Na 60000             Anders & Ebihara 1982 Cameron 1982
Solar System 41 Nb 0.9             Anders & Ebihara 1982 Cameron 1982
Solar System 41 Nb 0.71   0.0994     9   Values taken from the Orgueil meteorite combined with studies from Erlank et al. 1972 yield more accurate abundances of Nb than direct measurements from Graham & Mason 1972. The direct measurements of Graham & Mason 1972 were found to be inaccurate by measuring the same samples using a different method (Spark source mass spectrometry) which opened the door to new methods for obtaining a more accurate value for Nb abundances. Anders & Ebihara 1982
Solar System 60 Nd 0.836             Anders & Ebihara 1982
Solar System 60 Nd 0.79             Anders & Ebihara 1982 Cameron 1982
Solar System 10 Ne 3760000   1128000         Anders & Ebihara 1982
Solar System 10 Ne 2600000             Anders & Ebihara 1982 Cameron 1982
Solar System 28 Ni 49300   2810.1     25   Anders & Ebihara 1982
Solar System 28 Ni 47800             Anders & Ebihara 1982 Cameron 1982
Solar System 8 O 20100000   4020000         Anders & Ebihara 1982
Solar System 8 O 18400000             Anders & Ebihara 1982 Cameron 1982
Solar System 76 Os 0.717   0.070266     18   Anders & Ebihara 1982
Solar System 76 Os 0.69             Anders & Ebihara 1982 Cameron 1982
Solar System 15 P 10400   1040     4   Anders & Ebihara 1982
Solar System 15 P 6500             Anders & Ebihara 1982 Cameron 1982
Solar System 82 Pb 2.6             Anders & Ebihara 1982 Cameron 1982
Solar System 82 Pb 3.15   0.2457     3   Anders & Ebihara 1982
Solar System 46 Pd 1.39   0.10703     18   Anders & Ebihara 1982
Solar System 46 Pd 1.3             Anders & Ebihara 1982 Cameron 1982
Solar System 59 Pr 0.174             Anders & Ebihara 1982
Solar System 59 Pr 0.18             Anders & Ebihara 1982 Cameron 1982
Solar System 78 Pt 1.41             Anders & Ebihara 1982 Cameron 1982
Solar System 78 Pt 1.37   0.137     9   Anders & Ebihara 1982
Solar System 37 Rb 7.09   0.4963     17   Anders & Ebihara 1982
Solar System 37 Rb 6.1             Anders & Ebihara 1982 Cameron 1982
Solar System 75 Re 0.051             Anders & Ebihara 1982 Cameron 1982
Solar System 75 Re 0.0507   0.006084     20   Anders & Ebihara 1982
Solar System 45 Rh 0.4             Anders & Ebihara 1982 Cameron 1982
Solar System 45 Rh 0.344   0.02752     7   Rhodium data was derived indirectly from RNAA mean values for H-chondrites and then scaled to C1's via the C1/H abundance ratio. The value was found to be lower than that found for L-chondrites, yet agreed closely with derived values for Rh in H-chondrites. Mean H-chondrites were therefore used for this analysis with an estimated error of 8%. Anders & Ebihara 1982
Solar System 44 Ru 1.9             Anders & Ebihara 1982 Cameron 1982
Solar System 44 Ru 1.86   0.10044     9   Anders & Ebihara 1982
Solar System 16 S 515000   66950     5   Average of mean values for individual meteorites. Anders & Ebihara 1982
Solar System 16 S 500000             Anders & Ebihara 1982 Cameron 1982
Solar System 51 Sb 0.31             Anders & Ebihara 1982 Cameron 1982
Solar System 51 Sb 0.352   0.06336     34   Anders & Ebihara 1982
Solar System 21 Sc 31             Anders & Ebihara 1982 Cameron 1982
Solar System 21 Sc 33.8   3.042     15   Anders & Ebihara 1982
Solar System 34 Se 67             Anders & Ebihara 1982 Cameron 1982
Solar System 34 Se 62.1   3.9744     18   Anders & Ebihara 1982
Solar System 14 Si 1000000   42000     9   Anders & Ebihara 1982
Solar System 14 Si 1000000             Anders & Ebihara 1982 Cameron 1982
Solar System 62 Sm 0.261             Anders & Ebihara 1982
Solar System 62 Sm 0.24             Anders & Ebihara 1982 Cameron 1982
Solar System 50 Sn 3.82   0.35908     11   Anders & Ebihara 1982
Solar System 50 Sn 3.7             Anders & Ebihara 1982 Cameron 1982
Solar System 38 Sr 22.9             Anders & Ebihara 1982 Cameron 1982
Solar System 38 Sr 23.8   1.9754     15   Anders & Ebihara 1982
Solar System 73 Ta 0.02             Anders & Ebihara 1982 Cameron 1982
Solar System 73 Ta 0.0226   0.00226     1   Anders & Ebihara 1982
Solar System 65 Tb 0.076             Anders & Ebihara 1982 Cameron 1982
Solar System 65 Tb 0.0589             Anders & Ebihara 1982
Solar System 52 Te 6.5             Anders & Ebihara 1982 Cameron 1982
Solar System 52 Te 4.91   0.5892     10   Anders & Ebihara 1982
Solar System 90 Th 0.045             Anders & Ebihara 1982 Cameron 1982
Solar System 90 Th 0.0335   0.0019095     9   Anders & Ebihara 1982
Solar System 22 Ti 2400             Anders & Ebihara 1982 Cameron 1982
Solar System 22 Ti 2400   120     7   Anders & Ebihara 1982
Solar System 81 Tl 0.184   0.017296     18   Anders & Ebihara 1982
Solar System 81 Tl 0.19             Anders & Ebihara 1982 Cameron 1982
Solar System 69 Tm 0.0386             Anders & Ebihara 1982
Solar System 69 Tm 0.035             Anders & Ebihara 1982 Cameron 1982
Solar System 92 U 0.027             Anders & Ebihara 1982 Cameron 1982
Solar System 92 U 0.009   0.000756     16   Anders & Ebihara 1982
Solar System 23 V 295   14.16     8   Anders & Ebihara 1982
Solar System 23 V 254             Anders & Ebihara 1982 Cameron 1982
Solar System 74 W 0.3             Anders & Ebihara 1982 Cameron 1982
Solar System 74 W 0.137   0.010001     1   Anders & Ebihara 1982
Solar System 54 Xe 5.84             Anders & Ebihara 1982 Cameron 1982
Solar System 54 Xe 4.35   0.5655         Anders & Ebihara 1982
Solar System 39 Y 4.64   0.38     3   Anders & Ebihara 1982
Solar System 39 Y 4.8             Anders & Ebihara 1982 Cameron 1982
Solar System 70 Yb 0.243             Anders & Ebihara 1982
Solar System 70 Yb 0.2             Anders & Ebihara 1982 Cameron 1982
Solar System 30 Zn 1260             Anders & Ebihara 1982 Cameron 1982
Solar System 30 Zn 1260   52.62     21   Anders & Ebihara 1982
Solar System 40 Zr 12             Anders & Ebihara 1982 Cameron 1982
Solar System 40 Zr 10.7   1.391     7   Anders & Ebihara 1982
Solar Wind   20Ne/36Ar 45   10         Anders & Ebihara 1982 Cerutti 1974
Geiss 1982
Solar Wind   4He/20Ne 570   70         Anders & Ebihara 1982 Cerutti 1974
Geiss 1982
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