中亚北部帕米尔高原蚀变古洋壳方解石U-Pb定年

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS Geochronology Pub Date : 2022-04-21 DOI:10.5194/gchron-4-227-2022

Johannes Rembe, R. Zhou, E. Sobel, J. Kley, Jie Chen, Jian-xin Zhao, Yue‐xing Feng, D. Howard

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引用次数: 4

摘要

摘要北帕米尔是印度-亚洲碰撞带西侧构造的一部分，保留了一个鲜为人知的古生代海洋内俯冲带的遗迹。为了确定该古海底的年龄，我们利用激光烧蚀电感耦合等离子体质谱(LA-ICP-MS)对泡状玄武岩和玄武岩火山角砾岩的方解石相进行了u - pb年代学分析。放射状纤维状方解石到等长方解石的年代测定得到了三个有意义的维桑-谢尔普霍夫时代。稀土元素和钇(REE + Y)数据表明，方解石的玄武质主岩和氧化海水是方解石沉淀过程中微量元素的主要来源。U-Pb年龄似乎与REE + y浓度无关。我们的研究结果表明方解石定年法有可能限制古代海底的年龄。我们对早古生代连续的昆仑地体从西藏北部延伸到北帕米尔高原的假设提出了质疑。

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Calcite U–Pb dating of altered ancient oceanic crust in the North Pamir, Central Asia

Abstract. The North Pamir, part of the western syntax of the India–Asia collision zone, preserves remnants of a poorly understood Paleozoic intra-oceanic subduction zone. To constrain the age of this ancient ocean floor, we analyzed calcite phases in vesicular basalt and basaltic volcanic breccia with U–Pb geochronology using laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). Dating of radial fibrous to equant spary calcite yielded three meaningful Visean–Serpukhovian ages. Rare-earth elements and yttrium (REE + Y) data reveal that the basaltic host rock of the calcite and oxidizing seawater are major sources of trace elements during calcite precipitation. U–Pb ages seem to be independent of REE + Y concentrations. Our results demonstrate the potential of calcite dating to constrain the age of ancient ocean floors. We challenge the hypothesis that a continuous early Paleozoic Kunlun Terrane extended from northern Tibet into the North Pamir.

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