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)
Pyrolites 13 Al 3.3           wt%ox Major oxide values for Pyrolites studied by Ringwood, given in wt.%. These oxide values are used as a model for Primitive mantle oxide values obtained in this study, the idea being that Ringwood's pyrolite oxide values should resemble PRIMA oxide values given. Allegre et al. 1995 Ringwood 1979
Pyrolites 13 Al 3.3           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 13 Al 4.45           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 20 Ca 3.55           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 20 Ca 3.1           wt%ox Major oxide values for Pyrolites studied by Ringwood, given in wt.%. These oxide values are used as a model for Primitive mantle oxide values obtained in this study, the idea being that Ringwood's pyrolite oxide values should resemble PRIMA oxide values given. Allegre et al. 1995 Ringwood 1979
Pyrolites 20 Ca 3.1           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites   CaO/Al2O3 0.8             Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites   CaO/Al2O3 0.94             Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 24 Cr 0.38           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 24 Cr 0.4           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 26 Fe 8.05           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 26 Fe 8           wt%ox Major oxide values for Pyrolites studied by Ringwood, given in wt.%. These oxide values are used as a model for Primitive mantle oxide values obtained in this study, the idea being that Ringwood's pyrolite oxide values should resemble PRIMA oxide values given. Allegre et al. 1995 Ringwood 1979
Pyrolites 26 Fe 8           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 19 K 0.03           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 19 K 0.03           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 12 Mg 38.1           wt%ox Major oxide values for Pyrolites studied by Ringwood, given in wt.%. These oxide values are used as a model for Primitive mantle oxide values obtained in this study, the idea being that Ringwood's pyrolite oxide values should resemble PRIMA oxide values given. Allegre et al. 1995 Ringwood 1979
Pyrolites 12 Mg 37.8           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 12 Mg 38.1           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites   Mg# 89.2             Mg# of all the above models pertaning to fertile upper mantle compositions. Walter 2004 McDonough & Sun 1995
Pyrolites   Mg# 89.3             Mg# of all the above models pertaning to fertile upper mantle compositions. Walter 2004 Ringwood 1979
Pyrolites   MgO/SiO2 0.84             Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites   MgO/SiO2 0.85             Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 25 Mn 0.14           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 25 Mn 0.15           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 11 Na 0.4           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 11 Na 0.36           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 28 Ni 0.25           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 28 Ni 0.2           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 14 Si 45           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 14 Si 45.1           wt%ox Major oxide values for Pyrolites studied by Ringwood, given in wt.%. These oxide values are used as a model for Primitive mantle oxide values obtained in this study, the idea being that Ringwood's pyrolite oxide values should resemble PRIMA oxide values given. Allegre et al. 1995 Ringwood 1979
Pyrolites 14 Si 45.1           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
Pyrolites 22 Ti 0.2           wt% Pyrolite model of McDonough & Sun 1995 for modeling fertile upper mantle compositions. Walter 2004 McDougall & Sun 1995
Pyrolites 22 Ti 0.2           wt% Pyrolite model of fertile upper mantle composition give by Ringwood 1979. Walter 2004 Ringwood 1979
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