Mathematics – Logic
Scientific paper
Jun 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993gecoa..57.2853j&link_type=abstract
Geochimica et Cosmochimica Acta (ISSN 0016-7037), vol. 57, no. 12, p. 2853-2867.
Mathematics
Logic
4
Chondrites, Chondrule, Metamorphic Rocks, Meteoritic Composition, Olivine, Diffusion, Iron, Petrology, Silicates, Meteorites, Stony Meteorites, Chondrites, C Chondrites, Metamorphism, Olivine, Grains, Lance, Isna, Composition, Equlibrium, Diffusion, Minor Elements, Iron, Laboratory Studies, Samples, Meteorite, Matrix, Petrography, Microprobe Methods, Bse, Zoning, Chondrules, Origin, Rims, Formation, Fragmentation, Accretion, Antarctic Meteorites, Alh Meteorites, Alha77307, Forsterite, Comparison
Scientific paper
The presence of a metamorphic sequence in the CO3 chondrite group has been shown previously to result in changes in properties of chondrule silicates. However, the role of isolated olivine grains during metamorphism of these chondrites has not been addressed. Isolated olivine grains in two metamorphosed CO3 chondrites, Lance and Isna, have been investigated in this study in order to assess the compositional properties of isolated olivine grains that may be attributable to metamorphism. Compositional changes in isolated olivines with increasing petrologic subtype are very similar to changes in chondrule olivines in the same chondrites. Olivine compositions from all occurrences (chondrules, isolated grains, and matrix) converge with increasing petrologic subtype. The degree of equilibration of minor elements is qualitatively related to the diffusion rate of each element in olivine, suggesting that diffusion-controlled processes are the most important processes responsible for compositional changes within the metamorphic sequence. The data are consistent with metamorphism taking place in a closed system on the CO3 chondrite parent body. Fe-poor olivine grains in metamorphosed chondrites are characterized by an Fe-rich rim, which is the result of diffusion of Fe into the grains from Fe-rich matrix. In some instances, 'complex', Fe-rich rims have been identified, which appear to have originated as igneous overgrowths and subsequently to have been overprinted by diffusion processes during metamorphism. Processes experienced by CO3 chondrites are more similar to those experienced by the ordinary chondrites than to those encountered by other carbonaceous chondrites, such as the CV3 group.
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