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)
Igneous Rocks 47 Ag 3.2           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 13 Al 15.02         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 13 Al 8.3           wt% Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 79 Au 0.23           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 83 Bi 0.36           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 35 Br 14           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 20 Ca 6.13         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 48 Cd 7.1           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 58 Ce 3.1           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Wanke & Palme 1974
Igneous Rocks 27 Co 3           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 27 Co 0.15         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 24 Cr 1930           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 55 Cs 0.7           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Tera et al. 1970
Igneous Rocks 55 Cs 0.7           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 63 Eu 0.6           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schnetzler & Philpotts 1969
Jerome 1970
Igneous Rocks 26 Fe 7.239         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Total Fe concentration as calculated from an Fe2O3 value of 2.90 and FeO value of 4.63. Le Maitre 1976
Igneous Rocks 26 Fe 8.9           wt% Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 32 Ge 7.3           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 1 H 1.25         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Combination of H2O+ and H2O- average values. Le Maitre 1976
Igneous Rocks 72 Hf 0.61           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Jerome 1970
Igneous Rocks 19 K 2.45         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 71 Lu 0.2           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Jerome 1970
Igneous Rocks 12 Mg 5.06         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 25 Mn 0.14         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 11 Na 2770           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Tera et al. 1970
Igneous Rocks 11 Na 3.5         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 11 Na 3070           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 28 Ni 3.5           ppm Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 76 Os 3           ppt Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 76 Os 400           ppt Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Morgan 1965
Igneous Rocks 15 P 0.26         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 46 Pd 0.4           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 37 Rb 50           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Tera et al. 1970
Igneous Rocks 37 Rb 30           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 75 Re 60           ppt Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Morgan 1965
Igneous Rocks 75 Re 2.2           ppt Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 51 Sb 1.1           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 21 Sc 24           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schmitt et al. 1972
Igneous Rocks 34 Se 500           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 14 Si 57.03         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 62 Sm 0.9           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schnetzler & Philpotts 1969
Jerome 1970
Igneous Rocks 52 Te 4.1           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 52 Te 150           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Clark Jr. et al. 1967
Igneous Rocks 22 Ti 1.05         22775 wt%ox Average major oxide concentration values for Igneous rocks consolidated from 967 references and 22,775 analyses. Differentiation index equal to 51.81, Crystallization index equal to 30.82. Le Maitre 1976
Igneous Rocks 81 Tl 0.08           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 92 U 48           ppb Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Igneous Rocks 92 U 25           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Fisher 1969
Igneous Rocks 92 U 14           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Reed & Jovanovic 1969
Igneous Rocks 92 U 20           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Morgan & Lovering 1973
Igneous Rocks 92 U 45           ppb Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Clark Jr. et al. 1967
Igneous Rocks 70 Yb 1.1           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Schnetzler & Philpotts 1969
Igneous Rocks 70 Yb 1           ppm Element abundances of Moore County eucrites as found by various other sources.  These values are used for comparison to values obtained in this study (Morgan et al. 1978) according to some form of Neutron Activation Analysis. Morgan et al. 1978 Jerome 1970
Igneous Rocks 30 Zn 1.2           ppm Major, minor and trace element abundances of eucrites from Moore County which much like the Serra de Mage is cumulate and unbrecciated. However, Moore County eucrites have less plagioclase than Serra de Mage and the plagioclase that it does have is much less calcic.  According to Hess and Henderson 1949 this eucrite resembles a terrestrial norite in bulk composition. Moore County Morgan et al. 1978
Click to return to previous page