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Volume 30 Issue 4
Aug 2019
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Jun Luo, John Wakabayashi, Zhiliang He, Jinbiao Yun, Quanyou Liu, Tianyi Li, Haiming Song, Wenjiao Xiao. An Upper Crustal Ophiolite Remnant within the Feather Riv-er Ultramafic Belt, California: Tectonomagmatic Origins and Implications for Its Evolution. Journal of Earth Science, 2019, 30(4): 763-774. doi: 10.1007/s12583-017-0964-9
Citation: Jun Luo, John Wakabayashi, Zhiliang He, Jinbiao Yun, Quanyou Liu, Tianyi Li, Haiming Song, Wenjiao Xiao. An Upper Crustal Ophiolite Remnant within the Feather Riv-er Ultramafic Belt, California: Tectonomagmatic Origins and Implications for Its Evolution. Journal of Earth Science, 2019, 30(4): 763-774. doi: 10.1007/s12583-017-0964-9

An Upper Crustal Ophiolite Remnant within the Feather Riv-er Ultramafic Belt, California: Tectonomagmatic Origins and Implications for Its Evolution

doi: 10.1007/s12583-017-0964-9
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  • Corresponding author: Jun Luo
  • Received Date: 27 Mar 2017
  • Accepted Date: 30 Sep 2017
  • Publish Date: 01 Aug 2019
  • The 150-km-long Feather River ultramafic belt (FRB) of the northern Sierra Nevada, California, consists of serpentinized ultramafic rocks, gabbroic rocks, with lesser amounts of amphibolitic rocks. The gabbroic rocks contain metagabbro and dikes within it. Based on the electron microprobe analyses, the metagabbro consists of typical igneous composition for clinopyroxene and early hornblende, indicating that they bear low grade metamorphism. The gabbroic rocks show Nb and Ta depletion in primitive-mantle normalized plots that is similar to typical island arc rocks. We present that the metagabbro within the ultramafic rocks is forming in the suprasubduction zone setting. Tectonic models are presented for the metagabbro and amphibolitic rocks in FRB. The low P burial metamorphism of the upper plate metagabbro and the high grade amphibolitic rocks are typical of relationships of upper plate ophiolites to metamorphic soles. The amphibolitic rocks record as metamorphic sole forming during subduction initiation beneath the ultramafic rocks and metagabbro. The unusual and protracted tectonic history of the FRB is similar to other ophiolite belts of the Cordillera of California but differs in the lack of crustal rocks.

     

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