：Tectonics induced switching of provenance during the Late Quaternary aggradation of the Indus River Valley, Ladakh, India论文

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作者（2019）在《Tectonics induced switching of provenance during the Late Quaternary aggradation of the Indus River Valley, Ladakh, India》一文中研究指出：The Indus River flows through Ladakh, one of the driest and coldest places on earth, in a tectonically active domain. Fluvial, glaciofluvial, lacustrine and debris dominated sequences represent the Late Quaternary sedimentary record along the river course. Karakoram Fault, a major crustal scaled feature reported to be active during the Quaternary, is associated with the Indus River drainage. Linkages between a major, active fault and deposits formed during the activity period of the fault are explored using heavy mineral deduced provenance and Optically Stimulated Luminescence(OSL) chronology.Five deposits in a ~200 km long stretch of the Indus River have been examined for a ~80 ka period to decipher the climate linked aggradation history. Damming of the Indus River at ~79 ka and existence of the Spituk Lake for >30 ka is demonstrated. Using geology of the provenance in relation to the mineralogical attributes of the Quaternary deposits, the major drainage reorganization when the connection of the Tangtse Valley to the Indus was blocked, is inferred at ~73 ka. It is supported by the geologicalgeomorphological evidence. The study demonstrates the application of provenance linked mineralogy in terrestrial aggradation in a tectonically active region.

Abstract

The Indus River flows through Ladakh, one of the driest and coldest places on earth, in a tectonically active domain. Fluvial, glaciofluvial, lacustrine and debris dominated sequences represent the Late Quaternary sedimentary record along the river course. Karakoram Fault, a major crustal scaled feature reported to be active during the Quaternary, is associated with the Indus River drainage. Linkages between a major, active fault and deposits formed during the activity period of the fault are explored using heavy mineral deduced provenance and Optically Stimulated Luminescence(OSL) chronology.Five deposits in a ~200 km long stretch of the Indus River have been examined for a ~80 ka period to decipher the climate linked aggradation history. Damming of the Indus River at ~79 ka and existence of the Spituk Lake for >30 ka is demonstrated. Using geology of the provenance in relation to the mineralogical attributes of the Quaternary deposits, the major drainage reorganization when the connection of the Tangtse Valley to the Indus was blocked, is inferred at ~73 ka. It is supported by the geologicalgeomorphological evidence. The study demonstrates the application of provenance linked mineralogy in terrestrial aggradation in a tectonically active region.

论文参考文献

[1].The Evolution of the Quaternary Salt Lakes in the Qaidam Basin[J]. Wei Xinjun and Jiang Jixue Qinghai Research Institute of Salt Lake Exploration and Exploitation, Golmud, Q inghai. Acta Geologica Sinica(English Edition).1994(01)

[2].Geomorphological effects of plate movement during Quaternary in China’ s tropics[J]. ZHANG Weiqiang 1 ,HUANG Zhenguo 2 (1. Guangdong Business College, Guangzhou 510320, China; 2. Guangzhou Institute of Geography, Guangzhou 510070, China). Journal of Geographical Sciences.2004(02)

[3].Late-Quaternary Movement Along the Sertengshan Piedmont Fault and a Model for Segmentation of Its Rupture[J]. Chen Lichun, Ran Yongkang, Yang Xiaoping and Guo WenshengInstitute of Geology, China Earthquake Administration, Beijing 100029, China. Earthquake Research in China.2004(01)

[4].Study on Active Faults in Quaternary Unconsolidated Sediments by Microstructural Method[J]. Chao Hongtai 1), Deng Qidong 2), Li Jialing 1), Wang Zhicai 1) and Man Hongmin 1) 1)Seismological Bureau of Shandong Province, Jinan 250014, China 2)Institute of Geology, China Seismological Bureau, Beijing 100029, China. Earthquake Research in China.2002(02)

[5].Formation and Exploration of Quaternary Biogenesis Gas Reservoirs in Qaidam Basin[J]. Qi Caixue and Wu Aiping(Qinghai Petroleum Administration, CNPC). China Oil & Gas.1998(03)

[6].A NEW MIDDLE TERTIARY MAMMALIAN LOCALITY FROM SUNITEZUOQI, NEI MONGOL[J]. MENG Jin; WANG Banyue; BAI Zhiqiang(Department of vertebrate Paleontology, the American Museum of NaturaI History New York 10024)(Institute of Vertebate Paleontology and Paleoanthropology, Chinese Academy of Sciences Beijing 100044(Department of Geology. 古脊椎动物学报.1996(04)

[7].Late Quaternary glacial－marine sedimentation in the Bransfield Strait off northeast Antarctic Peninsula[J]. 段威武,钟和贤,李扬. Antarctic Research.1996(01)

[8].An Experimental Study on Three Quaternary Phases in the Fe-Sn-Sb-S System: Pb-Free Franckeite, Pb-Free Cylindrite and (Fe, Sb)-Ottemannite s.s.[J]. Li Jiuling;Huang Jiashan;Zhou Kezi;Zhang Guilan Institute of Mineral Deposits, Chinese Academy of Geological Sciences, Beijing. Acta Geologica Sinica(English Edition).1988(04)

[9].New Activity of the Tanlu Fault Zone in the South of Huaihe to the Nvshanhu Segment since the Late Quaternary[J]. Yao Daquan,Zheng Haigang,Zhao Peng,Yang Yuanyuan,Wang Xingzhou,Miao Peng,Fang Zhen,Tao Yuechao,Li Junhui,Wang Jun,Wang Xiaoli. Earthquake Research in China.2017(02)

[10].Late Quaternary Activity of the Chuxiong-Nanhua Fault and the 1680 Chuxiong M_S6(3/4) Earthquake[J]. Chang Zufeng,Chang Hao,Li Jianlin. Earthquake Research in China.2017(03)

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：Tectonics induced switching of provenance during the Late Quaternary aggradation of the Indus River Valley, Ladakh, India论文

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