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)
H Ordinary Chondrites 13 Al 1.2           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 20 Ca 1.3           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 26 Fe 27.8           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins.Total Fe from FeO+ Fe. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 19 K 0.08           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 12 Mg 14.3           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 25 Mn 0.23           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 11 Na 0.64           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 28 Ni 1.6           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 14 Si 17.1           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
H Ordinary Chondrites 22 Ti 0.06           ppm Model composition of H-Chondrites as found by Mason 1965.  These values correlate to those found by Morgan et al. 1978 for the Eucrite parent body, which is the norm for these types of materials (chondrites). The match is not perfect however, seeing that the H-chondrites are obviously more abundant in the involatile elements and metals due to their cosmic origins. Morgan et al. 1978 Mason 1965
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