Late Paleozoic sedimentation recording back-arc basin evolution in response to Chinese Altai−East Junggar convergence in Central Asia

Ying‐De Jiang, Tan Shu, I. Soejono, R. Nádaskay, Karel Schulmann, Jun Ning, Jian Zhang, Lingzhu Kong
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Abstract

Sedimentological and geochronological data from late Paleozoic strata located between the East Junggar and Chinese Altai regions in NW China were examined, aiming to decipher the tectono-sedimentary evolution of this important tectonic boundary. Carboniferous sediments on the East Junggar side show arc-proximal depositional characteristics of the proximal Heishantou and Nanmingshui Formations and distal Beitashan and Yundukala Formations, while the Erqis complex on the Chinese Altai side is characterized by continental margin affinity. Lithological analysis revealed the dominant input of arc-related detritus for all these sequences and a uniform transition from volcaniclastic to siliciclastic components in their respective upper sections. The investigated East Junggar strata are dominated by Carboniferous zircons with positive εHf(t) values, sourced exclusively from the southerly Yemaquan-Jiangjunmiao arc domain, whereas the Erqis complex received detritus from the same arc domain but also evolved components from the northerly Chinese Altai. Combined with regional data, the examined strata are interpreted to have developed in a back-arc basin with regard to an arc that developed above the north-dipping Kalamaili subduction system. In contrast, the unmetamorphosed Lower Permian Tesibahan Formation, unconformably overlying the Erqis complex, received detritus mainly from the Chinese Altai. These sediments were deposited in an intracontinental piggyback or synformal basin following closure of the back-arc basin. The late Paleozoic sedimentation records support the interpretation that the Chinese Altai and East Junggar domains evolved from the same suprasubduction system prior to the Carboniferous rather than as independent terranes mutually juxtaposed during Permian lateral translation, as previously proposed.
晚古生代沉积记录了中亚中国阿尔泰-东准噶尔辐合引起的弧后盆地演变
研究了位于中国西北部东准噶尔地区和中国阿尔泰地区之间的晚古生代地层的沉积学和地质年代数据,旨在解读这一重要构造边界的构造沉积演化过程。东准噶尔一侧的石炭纪沉积物显示出近弧黑山头、南明水地层和远弧北塔山、云都喀拉地层的弧近沉积特征,而中国阿尔泰一侧的额尔齐斯复合地层则具有大陆边缘亲缘特征。岩性分析表明,所有这些地层的主要成分都是与弧有关的碎屑岩,并且在其各自的上段中,火山碎屑岩成分向硅质碎屑岩成分均匀过渡。所研究的东准噶尔地层以石炭纪锆石为主,εHf(t)值为正值,完全来自偏南的叶马泉-姜君庙弧域,而额尔齐斯复合地层的碎屑来自同一弧域,但也有来自偏北的中国阿尔泰的演化成分。结合区域数据,所考察的地层被解释为发育在弧后盆地,与北倾卡拉麦里俯冲系统上方发育的弧有关。相比之下,未变质的下二叠统特斯巴汉地层与额尔齐斯复合地层不整合,主要接受了来自中国阿尔泰的碎屑。这些沉积物沉积在弧后盆地关闭后的大陆内捎带盆地或同步盆地中。古生代晚期的沉积记录支持这样的解释,即中国阿尔泰和东准噶尔两大地块是在石炭纪之前从同一个超俯冲系统演化而来,而不是像以前提出的那样是在二叠纪横向平移过程中相互并置的独立地块。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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