期刊
GONDWANA RESEARCH
卷 21, 期 1, 页码 194-206出版社
ELSEVIER
DOI: 10.1016/j.gr.2011.05.011
关键词
Chromite deposit; Melt/mantle mixing; Geochemistry; Os isotope; Dongqiao ophiolite; Tibet
资金
- National Program on Key Basic Research Project of China (973 Program) [2011CB403101]
- Ministry of Science and Technology
- National Natural Science Foundation of China [40972056, 40672051, 40625008, 41021001]
- ARC
Podiform chromite deposits occur in the mantle sequences of many ophiolites that were formed in suprasubduction zone (SSZ) settings. We have measured the Re-Os isotopic compositions of the major chromite deposits and associated mantle peridotites of the Dongqiao Ophiolite in the Bangong-Nujiang suture, Tibet, to investigate the petrogenesis of these rocks and their genetic relationships. The Os-187/Os-188 ratios of the chromite separates define a narrow range from 0.12318 to 0.12354, less variable than those of the associated peridotites. Previously-reported Os-187/Os-188 ratios of the Os-rich alloys enclosed in the chromitites define two clusters: 0.12645 +/- 0.00004 (2 s; n = 145) and 0.12003 to 0.12194. The ultra-depleted dunites have much lower Os-187/Os-188 (0.11754, 0.11815). and the harzburgites show a wider range from 0.12107 to 0.12612. The average isotopic composition of the chromitites (Os-187/Os-188: 0.12337 +/- 0.00001) is low compared with the carbonaceous chondrite value (Os-187/Os-188: 0.1260 +/- 0.0013) and lower than the average value measured for podiform chromitites worldwide (0.12809 +/- 0.00085). In contrast, the basalts have higher Os-187/Os-188, ranging from 0.20414 to 0.38067, while the plagioclase-bearing harzburgite and cumulates show intermediate values of Os-187/Os-188 (0.12979 similar to 0.14206). Correspondingly, the basalts have the highest Re-187/Os-188 ratios, up to 45.4 +/- 3.2, and the chromites have the lowest Re-187/Os-188 ratios, down to 0.00113 +/- 0.00008. We suggest that melts/fluids, derived from the subducting slab, triggered partial melting in the overlying mantle wedge and added significant amounts of radiogenic Os to the peridotites. Mass-balance calculations indicate that a melt/mantle ratio of approximately 15:1 (melt: Re-187/Os-188: 45.4, Os-187/Os-188: 0.34484; mantle peridotite: Re-187/Os-188: 0.0029, Os-187/Os-188: 0.11754) is necessary to increase the Os isotopic composition of the chromitite deposits to its observed average value. This value implies a surprisingly low average melt/mantle ratio during the formation of the chromitite deposits. The percolating melts probably were of variable isotopic composition. However, in the chromitite pods the Os from many melts was pooled and homogenized, which is why the chromitite deposits show such a small variation in their Os isotopic composition. The results of this study suggest that the Os-187/Os-188 ratios of chromitites may not be representative of the DMM, but only reflect an upper limit. Importantly, the Os-isotope compositions of chromitites strongly suggest that such deposits can be formed by melt/mantle mixing processes. (C) 2011 International Association for Gondwana Research. Published by Elsevier B.V. All rights reserved.
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