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)
Sera de Mage Eucrite 58 Ce 1.2           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schnetzler & Philpotts 1969
Sera de Mage Eucrite 27 Co 4.8           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 27 Co 10           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schmitt et al. 1972
Sera de Mage Eucrite 27 Co 6.5           ppm Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 24 Cr 2200           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 24 Cr 1740           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schmitt et al. 1972
Sera de Mage Eucrite 29 Cu 2.32           ppm Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 63 Eu 0.3           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schnetzler & Philpotts 1969
Sera de Mage Eucrite 63 Eu 0.5           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 31 Ga 1.42           ppm Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 71 Lu 0.06           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 11 Na 3380           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schmitt et al. 1972
Sera de Mage Eucrite 11 Na 2370           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 28 Ni 1           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 21 Sc 14           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schmitt et al. 1972
Sera de Mage Eucrite 21 Sc 19.2           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 62 Sm 0.33           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schnetzler & Philpotts 1969
Sera de Mage Eucrite 62 Sm 0.3           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 70 Yb 0.37           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schnetzler & Philpotts 1969
Sera de Mage Eucrite 30 Zn 0.64           ppm Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 30 Zn 0.78           ppm Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 30 Zn 0.78           ppm Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 13 Al 9.2           wt% Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 26 Fe 9.9           wt% Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 26 Fe 7.1           wt% Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Schmitt et al. 1972
Sera de Mage Eucrite 14 Si 21.5           wt% Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 47 Ag 1           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 47 Ag 3.3           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 47 Ag 3.3           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 79 Au 53           ppb Laul et al. 1972
Sera de Mage Eucrite 79 Au 1.75           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 79 Au 0.14           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 79 Au 1.8           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 83 Bi 2.4           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 83 Bi 2.4           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 83 Bi 0.18           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 35 Br 45           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 35 Br 15           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 35 Br 45           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 48 Cd 10           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 48 Cd 5.3           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 48 Cd 5.3           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 55 Cs 1           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 55 Cs 2.1           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 55 Cs 2.1           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 32 Ge 3.2           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 49 In 0.73           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 77 Ir 53           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. The Ir value of this sample is suspiciously high, which suggests contamination during handling. Laul et al. 1972
Sera de Mage Eucrite 77 Ir 53           ppb Suspected of contamination. Laul et al. 1972
Sera de Mage Eucrite 37 Rb 50           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 51 Sb 0.7           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 34 Se 78           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 34 Se 78           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 34 Se 105           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 52 Te 1           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 81 Tl 0.12           ppb Elemental abundance of the Serra de Mag¿ meteorite.  Classified as an unbrecciated eucrite, the sample used was a powder which had been reconstituted in the original proportions from magnetically separated pyroxene and feldspar fractions. Laul et al. 1972
Sera de Mage Eucrite 81 Tl 0.12           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Laul et al. 1972
Sera de Mage Eucrite 81 Tl 0.03           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 92 U 8.2           ppb Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 92 U 16           ppb Element abundances of the Serra de Mage eucrite as analyzed by various different sources.  These values are placed against the values found in this study (Morgan et al. 1978) according to INAA. Morgan et al. 1978 Morgan & Lovering 1973
Sera de Mage Eucrite 77 Ir 2.2           ppt Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
Sera de Mage Eucrite 75 Re 0.8           ppt Major, minor and trace element abundances as found in Eucrites from Serra de Mage (Brazil).  Sample analyzed by INAA at University of Oregon. Serra de Mage has a relatively high, but variable, plagioclase content as compared to other Eucrites.  The calcic nature of this plagioclase makes Serra de Mage perhaps the best meteoric analogue to lunar anorthosites and ancient terrestrial calcic anorthosites. Morgan et al. 1978
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