RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN >> 2023, Vol. 32 >> Issue (5): 1058-1067.doi: 10.11870/cjlyzyyhj202305015

Previous Articles     Next Articles

Characteristics of the Palaeoflood Slackwater Deposits in the Middle Reaches of the Yarlung Zangbo River

WU Shuai-hu1,2, FU Xu-dong2   

  1. (1. School of Resources Environment and Tourism, Anyang Normal University, Anyang 455000, China; 2. State Key Laboratory of Hydroscience and Engineering, Tsinghua University, Beijing 100084, China)
  • Online:2023-05-20 Published:2023-05-19

PDF (PC)

24

Abstract: In this study, paleoflood slackwater deposits (SWD), loess and aeolian sand were surveyed and sampled in the middle reaches of the Yarlung Zangbo River valley in the Tibetan Plateau in China. Their macroscopic characteristics were observed and sediment experimental analyses (i.e., grain size, magnetic susceptibility and geochemical elements) were conducted. The primary goal of the study is to summarize the sedimentological identification marks of the paleoflood SWD in the middle reaches of the Yarlung Zangbo River valley in the Tibetan Plateau in China. Results showed that the SWD trapped in the Zangmu profile (ZM), Langxian profile (LX) and Milin profile (ML) all demonstrated horizontal wavy lamination with uniform structure and its macroscopic characteristics are obviously different from those of the aeolian deposits (e.g., loess and aeolian sand). The grain size composition of the paleoflood SWD, loess and aeolian sand are generally coarse, mainly fine sand (>0.063 mm). Among them, the grain size of the aeolian sand is obviously coarser than that of the paleoflood SWD and loess. The sortability of the paleoflood SWD is the best among the three sediments, followed by loess, and aeolian sand in the middle reaches of the Yarlung Zangbo River valley in the Tibetan Plateau in China. The reason is that the paleoflood SWD is a suspended sediment sorted by water. The higher magnetic susceptibility content of the paleoflood SWD is probably related to the increase of ferromagnetic minerals in SWD due to the surface scouring of the middle reaches of the Yarlung Zangbo River valley by floods. The grain size characteristics, major and trace element contents of the paleoflood SWD are close to those of the loess in the middle reaches of the Yarlung Zangbo River valley in the Tibetan Plateau in China. However, there are obvious different occurred in the grain size characteristics and major and trace element contents between the paleoflood SWD and aeolian sand. These suggested that the sediment provenance of the paleoflood SWD may be closely related with that of the loess in the middle reaches of the Yarlung Zangbo River valley in the Tibetan Plateau in China.


No related articles found!
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] WU Wenqi, , LUO Xian, , HUANG Wei, LI Yungang, . Research on the Water Resources Carrying Capacity and Its Temporal——Spatial Distribution Characteristics in Yunnan Province, China[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(07): 1385 .
[2] LI Jian-Bao, HUANG Xian-Jin, MENG Hao, ZHOU Yan, XU Guo-Liang, WU Chang-Yan. Analysis of Cumulative Target Completion Rate of Carbon Intensity in China During the Period of “Twelfth Five-Year”[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(08): 1655 .
[3] XIONG Hong-bin, ZHOU Ling-yan. Using PSR-grey Target Model to Assess Ecological and Environmental Impact of Flood Regulation Project At Riparian Zone Around Lake Chaohu[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(09): 1977 -1987 .
[4] LI Jia-yi, KUANG Hong-hai, TAN Chao, WANG Pei-pei.  

Spatio-Temporal Characteristics and Ecological Response of Urban Expansion in the Yangtze River Economic Zone [J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(10): 2153 -2161 .
[5] TANG Zijun, CHEN Long, QIN Jun, ZHENG Xiang . Numerical Simulation of the Local Flow Field and the Boundary Layer Structure in the Pollution Process in Wuhan[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(11): 2540 -2547 .
[6] WANG Dongxiang, ZHANG Yiming, WANG Ruicheng, ZHAO Bingyan, ZHANG Zhiqi, HUANG Xianyu, . Characteristics of Dissolved Organic Matter in Pore Water from the Dajiuhu Peatland, Central China[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(11): 2568 -2577 .
[7] WANG Hai-li, HAN Guang-zhong, XIE Xian-jian. Spatiotemporal Pattern Evolvement Based on the DEA Model and Its Driving Factors of Arable Land Utilization Efficiency of the Southwest Region in China[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2018, 27(12): 2784 -2795 .
[8] WANG Cong-cong, WANG Yi-cheng, MA Ren-feng, WANG Jing-min. Impact of Economic Agglomeration on Pollution of Smog Based on Spatial Econometric Model:The Case Study of Yangtze River Delta[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2019, 28(01): 1 -11 .
[9] ZHAO Shu-cheng, ZHANG Zhan-yu, XIA Ji-hong, YANG Jie, SHENG Li-ting, TANG Dan, CHEN Xiao-an, . Phosphorus Adsorption Characteristics of Riparian Soils Surrounding Poyang Lake[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2019, 28(01): 166 -174 .
[10] GUO Qing-bin, LUO Kang, LI Jue-ming, LIU Cheng-liang. Spatial Correlation Analysis of the Resources Aggregating Ability in Wuhan Metropolitan Area[J]. RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, 2019, 28(02): 306 -312 .
Copyright © RESOURCES AND ENVIRONMENT IN THE YANGTZE BASIN, All Rights Reserved.
Powered by Beijing Magtech Co. Ltd