GERM Reservoir Database
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GERM Database Search Results        
Reservoir Z Element Value Median SD Low High N Unit Info Reference Source(s)
Constantinople Eucrite 47 Ag 30           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 79 Au 6.74           ppb Laul et al. 1972
Constantinople Eucrite 79 Au 6.74           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 83 Bi 0.77           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 35 Br 26           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 48 Cd 3.5           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 27 Co 7.4           ppm Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 27 Co 7.4           ppm Laul et al. 1972
Constantinople Eucrite 55 Cs 12.1           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 29 Cu 1.88           ppm Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 29 Cu 1.88           ppm Laul et al. 1972
Constantinople Eucrite 31 Ga 1.51           ppm Laul et al. 1972
Constantinople Eucrite 31 Ga 1.51           ppm Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 49 In 1.82           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 77 Ir 0.31           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 77 Ir 0.31           ppb Laul et al. 1972
Constantinople Eucrite 34 Se 396           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 34 Se 396           ppb Laul et al. 1972
Constantinople Eucrite 81 Tl 1.97           ppb Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
Constantinople Eucrite 30 Zn 20           ppm Elemental abundance of the Constantinople meteorite.  Classified as a eucrite the sample consisted of one or several chips between 500-300 mg, and no cleaning was attempted before irradiation. Laul et al. 1972
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