Polyphase Exhumation of the East Kunlun Orogenic Belt: Evidence from Modern River Detrital Zircon and Apatite Fission Track Dating

IF 1.8 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Yuxiong Ma, Zhao Yang, Dengfeng He, Xiaohui Shi, Bo Zhou, Jiali You, Dali Ju, Yunpeng Dong
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Abstract

The East Kunlun Orogenic Belt (E-KOB) stands out as one of the most prominent basin-mountain geomorphic features in the northern interior of the Tibetan Plateau. It records a series of accretion-collision events from the Mesozoic to the Cenozoic. In particular, with the uplifting of the Tibetan Plateau, the E-KOB experienced intracontinental deformation and exhumation in the Cenozoic. Clarifying the exhumation history of the E-KOB is crucial to define the growth time and mechanism of the Tibetan Plateau. In this study, we apply detrital zircon fission-track (ZFT) and apatite fission-track (AFT) analyses on modern river sands in order to constrain the regional exhumation history of the eastern E-KOB. Four peak ages have been identified and interpreted as results of rapid exhumation correlated with intracontinental deformation. Two older peak ages at 144.7–141.0 and 114.6–82.1 Ma are in good accordance with the collision time of the north-south Lhasa-Qiangtang Block along the Bangong-Nujiang suture zone and the subsequent progressive deformation stage toward the north. Peak age at 60.9–45.3 Ma is coeval with the initial timing of the India-Asia collision. The youngest peak age at 25.1–18.3 Ma matches well with the extensive outward and upward growth of the Tibetan Plateau during the Oligocene to Miocene time. The Cretaceous and early Cenozoic rapid exhumations suggest that the E-KOB has been involved in the intracontinental deformation induced by collisions of the Lhasa-Qiangtang and India-Asia from the south. It implies that the northern Tibetan Plateau likely has been elevated or was a structural high before the Eocene. In addition, some of our detrital samples show a younger ZFT peak age than the AFT peak age. We attributed this data bias to the contribution of hydrodynamic sorting and/or lithological difference. The combination of ZFT and AFT dating has advantages in eliminating interfering age signals in detrital thermochronology.
东昆仑造山带的多相侵蚀作用:现代河流碎屑锆石和磷灰石裂变轨道定年的证据
东昆仑造山带(E-KOB)是青藏高原北部内陆最突出的盆地-山地地貌特征之一。它记录了从中生代到新生代的一系列增生-碰撞事件。特别是,随着青藏高原的隆起,E-KOB 在新生代经历了大陆内部的变形和掘起。厘清E-KOB的掘起历史对于确定青藏高原的生长时间和机制至关重要。在本研究中,我们对现代河砂进行了锆英石裂变轨迹(ZFT)和磷灰石裂变轨迹(AFT)分析,以确定东高原东部的区域隆升史。已经确定了四个年龄峰值,并将其解释为与大陆内部变形相关的快速掘起的结果。144.7-141.0Ma和114.6-82.1Ma两个较老的峰值年龄与沿班公错-怒江缝合带南北走向的拉萨-羌塘地块的碰撞时间以及随后向北的渐进变形阶段十分吻合。60.9-45.3Ma的峰值年龄与印度-亚洲碰撞的初始时间一致。最年轻的峰值年龄为 25.1-18.3 Ma,与青藏高原在渐新世至中新世时期的大范围向外和向上生长非常吻合。白垩纪和新生代早期的快速隆升表明,E-KOB 曾参与了拉萨-羌塘和印度-亚洲从南面碰撞所引起的大陆内部变形。这意味着青藏高原北部很可能在始新世之前就已经隆起或成为构造高地。此外,我们的一些碎屑样品显示的ZFT峰值年龄比AFT峰值年龄要小。我们将这种数据偏差归因于水动力分选和/或岩性差异。将 ZFT 和 AFT 测定法结合起来,可以消除碎屑岩热年代学中的年龄干扰信号。
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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来源期刊
Lithosphere
Lithosphere GEOCHEMISTRY & GEOPHYSICS-GEOLOGY
CiteScore
3.80
自引率
16.70%
发文量
284
审稿时长
>12 weeks
期刊介绍: The open access journal will have an expanded scope covering research in all areas of earth, planetary, and environmental sciences, providing a unique publishing choice for authors in the geoscience community.
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