Middle−Late Jurassic subduction erosion caused by intra-oceanic arc subduction in central Tibet

Bo‐Chuan Zhang, Jian-Jun Fan, An‐Bo Luo, Si-Lin Sun, Jia-Wei Bai
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Abstract

Subduction erosion is crucial in crustal material recycling. However, subduction erosion caused by intra-oceanic arc subduction has not been sufficiently investigated. In this study, we provide new geological, geochronological, geochemical, and isotopic data from Dongco granodiorites in the central Bangong−Nujiang suture zone of central Tibet to explore subduction erosion caused by intra-oceanic arc subduction. Analysis shows that the ca. 158−155 Ma Dongco granodiorites originated from the subducted oceanic plate, and they were contaminated with accretionary wedge when they intruded the Dongco ophiolite. This suggests that the Dongco ophiolite was emplaced in the subducted accretionary wedge before the Late Jurassic. Based on the intra-oceanic arc affinity and lack of volcanic rocks of Middle Jurassic Dongco ophiolite and other regional data, we believe that the main body of the central intra-oceanic arcs and a portion of the western intra-oceanic arcs in the Meso-Tethys Ocean subducted beneath the southern Qiangtang terrane during the Middle−Late Jurassic. In addition, the different degree absence of the Jurassic accretionary wedge, forearc region, and arc magmatic rocks in the southern Qiangtang terrane indicate that the central and western parts of the southern Qiangtang terrane experienced both vigorous and relatively weak subduction erosion during the Middle−Late Jurassic, respectively. Thus, there is a significant spatiotemporal coupling between subduction erosion of the southern Qiangtang terrane and intra-oceanic arc subduction. Based on these studies and the research on subduction erosion, we suggest that subduction of the main body of the central intra-oceanic arcs and partial subduction of the western intra-oceanic arcs in the Meso-Tethys Ocean caused both vigorous and relatively weak subduction erosion of the southern Qiangtang terrane during the Middle−Late Jurassic, respectively. In addition, the increase in subduction rate also promoted Middle−Late Jurassic subduction erosion of the southern Qiangtang terrane.
西藏中部洋内弧俯冲造成的中晚侏罗世俯冲侵蚀
俯冲侵蚀对地壳物质循环至关重要。然而,洋内弧俯冲引起的俯冲侵蚀尚未得到充分研究。本研究提供了西藏中部班公-怒江缝合带董科花岗岩的新地质、地质年代、地球化学和同位素数据,以探讨洋内弧俯冲引起的俯冲侵蚀。分析表明,约158-155Ma东柯花岗闪长岩起源于俯冲的大洋板块,在侵入东柯蛇绿岩时受到增生楔的污染。这表明,Dongco蛇绿岩是在晚侏罗世之前在俯冲增生楔中隆起的。根据中侏罗世东柯蛇绿岩的洋内弧亲缘关系和火山岩的缺失等区域资料,我们认为中特提斯洋中部洋内弧的主体和西部洋内弧的一部分是在中晚侏罗世俯冲到羌塘阶地南部之下的。此外,南羌塘阶地侏罗纪增生楔、前弧地区和弧岩浆岩的不同程度缺失,表明南羌塘阶地中部和西部在中-晚侏罗世期间分别经历了强烈和相对较弱的俯冲侵蚀。因此,南羌塘阶地的俯冲侵蚀与洋内弧俯冲之间存在着显著的时空耦合关系。根据上述研究和有关俯冲侵蚀的研究,我们认为中-晚侏罗世洋内中部大洋弧主体俯冲和西部大洋弧部分俯冲分别对南羌塘阶地造成了强烈和相对较弱的俯冲侵蚀。此外,俯冲速率的增加也促进了中-晚侏罗世南羌塘阶地的俯冲侵蚀。
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