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(Table 2) Selected analyses for garnet pyroxenite and amphibolite samples fro...
Garnet pyroxenite samples = W216, W218, W240, W242A and garnet amphibolite samples = W232, W251, W334. -
(Table 9) Geochemistry in chromite at DSDP Site 55-433
Cations, oxygen = 4. -
(Table 10) Geochemistry of spinels at DSDP Holes 59-447A and 59-449
Cation proportions on the basis of 32 oxygens. Empty cells = no data. -
(Table 3) Chemical composition of spinel at DSDP Hole 61-462
Cations (O = 4). Empty cells = no data. -
(Table 7) Geochemistry of spinel from DSDP Hole 64-474A
This dataset has no description
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(Table 5) Chemical composition of chromian spinel and titanomagnetite at DSDP...
Empty cells mean no data. Fe2+ and Fe3+ are determined, assuming the spinel stoichiometry. -
(Table 3) Composition of spinel in olivine-plagioclase phyric and plagioclase...
Cations on 4 oxygens. -
(Table 9) Geochemistry of Cr-spinels at DSDP Holes 70-504B and 68-501
Structural formulae computed from stoichiometry on the basis of 32 oxygens. -
(Table 3) Chemical composition and structural formulas of chromian spinels fr...
Number of cations on the basis of 4 oxygens. Empty cells mean no data. -
(Table 7) Geochemistry of spinel at DSDP Hole 73-519A
This dataset has no description
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(Table 1) Geochemistry of garnet from Qeqertaa xenoliths
This dataset has no description
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(Table 4) Geochemistry of nonopaque spinels from peridotites at DSDP Holes 82...
Fe2+ and Fe3+ calculated assuming stoichiometry. -
(Table 2) Geochemistry of magnesiochromite at DSDP Holes 82-556 and 82-562
This dataset has no description
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(Table 3) Cr-rich spinel geochemistry of DSDP Hole 38-338 and ODP Hole 152-917A
This dataset has no description
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(Table 2) Representative Cr-rich spinel geochemistry of DSDP Hole 38-338 and ...
This dataset has no description
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(Table 4) Geochemistry of spinels, at DSDP Hole 83-504B
This dataset has no description
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(Table 7) Geochemistry of spinels at DSDP Leg 84 Holes
Elements as atoms per 32 oxygens. Small denotes analyses of grains on same order of size as spot (generally less than 30 µm); core and rim denote, respectively, analyses of the... -
(Table 4) Geochemistry of Cr-spinel from ODP Leg 135 holes lavas
Analyses are recalculated by stoichiometry according to the methods of Carmichael (1967). -
(Table 3) Major element composition of minerals from ODP Leg 135 holes
This dataset has no description
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(Appendix G) Major element composition of Cr-spinel from ODP Leg 135 holes
This dataset has no description