4.4 Article

New constraints on the tectono-magmatic evolution of the Tidding-Mayodia ophiolites, eastern Himalaya, northeast India

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GEOLOGICAL JOURNAL
卷 57, 期 2, 页码 514-536

出版社

WILEY
DOI: 10.1002/gj.4332

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eastern Himalaya; forearc; low-temperature metamorphism; ophiolites; sulfide; Tidding Suture Zone

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The Tidding-Mayodia ophiolites in the eastern Himalaya consist of depleted harzburgite and dunite, with highly fractionated LREEs compared to HREEs. Chemical analysis suggests that these peridotites formed from around 22% partial melting of a depleted spinet lherzolite source and interactions with high-temperature melts and low-temperature fluids, indicating a complex tectonic history involving subduction and forearc processes.
The Tidding-Mayodia ophiolites (TMO) exposed along the Lohit and Dibang river valleys in eastern Himalaya that have been considered as the extension of the IndusTsangpo Suture Zone ophiolites are revisited to review their petrogenetic-tectonic origin. The ophiolites consist of depleted harzburgite and dunite with lesser amounts of mafic rocks (gabbro intrusives, mafic dykes) and carbonates. The serpentinized peridotites consist of antigorite, lizardite, olivine, Cr-spinel, and bastite with minor sulfide minerals. From SEM-EDS studies, sulfide minerals were observed to be associated mainly with magnetites. The main sulfide mineral is pentlandite with minor millerite that exists as inclusions inside the pentlandite grains. Elemental mapping of these sulfides shows that they are mainly Ni-(Co-)-bearing sulfides. The olivines are highly forsteritic (Fo - 95-96) while the Cr-spinels show distinct Cr-magnetite rims with a chromite core (Cr# = similar to 93). The serpentinized peridotites have whole-rock compositions of SiO2 <47 wt% and high MgO (>36.37 wt%) and low Al2O3 (<1.21 wt %), CaO (<0.82 wt%), indicating the depleted nature of the parent rocks. Highly fractionated LREEs as compared to HREEs [(La/Yb)(N) - 2.62-13.22], and REE and Cr spinel chemistry modelling suggests that the studied peridotites have formed from similar to 22% partial melting of a depleted spinet lherzolite source which later underwent interactions with a high-temperature silicate melt that caused enrichment in LREE and Cr of spinels. The parental melt compositions of Cr spinel yield their formation during arc tectonism (Al2O3melt - 6.28-7.65 wt%, FeO/MgO- 1.00-1.33). Further-more, Mn and Zn concentrations in spinels, the occurrence of Cr magnetite rim in Cr-spinels, presence of secondary olivine with higher Fo (similar to 98), and occurrence of low-temperature re-equilibrated sulfide minerals, indicate that the rocks were subject to low-temperature metamorphism. Based on this evidence, combined with data from previous studies, a tectonic model has been proposed for the genesis of the studied ophiolites. This model shows that the ophiolites have formed from the entrapment of depleted N-MORB mantle in the mantle wedge of an intra-oceanic subduction zone. During the nascent forearc regime, this mantle wedge underwent interactions with high-temperature melts, which caused changes in their chemistry. Moreover, the rocks underwent interactions with low-temperature fluids in the mature forearc, which caused the formation of sulfides and metamorphozed these rocks.

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