院报 ›› 2023, Vol. 40 ›› Issue (10): 180-185.DOI: 10.11988/ckyyb.20221516

• 长江源科学考察与研究专栏 • 上一篇    下一篇

2012—2021年长江源区水沙变化特征调查分析

陈鹏1, 金中武1, 周银军1, 汤柔馨2, 冯志勇3   

  1. 1. 水利部长江中下游河湖治理与防洪重点实验室,武汉 430010;
    2.武汉大学 水资源与水电工程科学国家重点实验室,武汉 430072;
    3.长江设计集团有限公司,武汉 430010
  • 收稿日期:2022-11-10 修回日期:2023-05-29 出版日期:2023-10-01 发布日期:2023-10-13
  • 通讯作者: 金中武(1976-),男,湖北咸宁人,正高级工程师,博士,主要从事河流动力学研究。E-mail:zhongwujin@163.com
  • 作者简介:陈 鹏(1988-),男,湖北黄冈人,高级工程师,博士,主要从事水沙运动及河床演变研究。E-mail:Chenpeng5211@outlook.com

Characteristics of Water and Sediment Changes in the Source Region of Yangtze River from 2012 to 2021

CHEN Peng1, JIN Zhong-wu1, ZHOU Yin-jun1, TANG Rou-xin2, FENG Zhi-yong3   

  1. 1. Key Laboratory of Ministry of Water Resources for River-Lake Regulation and Flood Control in the Middle and Lower Reaches of Yangtze River, Changjiang River Scientific Research Institute, Wuhan 430010, China;
    2. State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan 430072, China;
    3. Changjiang Institute of Survey, Planning, Design and Research, Wuhan 430010, China
  • Received:2022-11-10 Revised:2023-05-29 Online:2023-10-01 Published:2023-10-13

摘要: 长江源区地处青藏高原,气候条件恶劣,受技术条件限制,有关江源地区河流径流输沙资料较少。为了探究江源地区河流径流输沙情况,基于2012—2021年间水文站实测资料和14个野外观测点数据,分析了长江源区河流水沙时空变化特征。结果表明:①长江源区径流量与降水量、温度显著相关,输沙量与径流量相关系数达0.842,与降水量相关系数为0.610;②受气温、降水等因素影响,长江源区河流径流输沙呈现明显的空间分布差异,其中2018年、2020年、2021年同期流量较大,含沙量则在2019年6月最大;③长江源区各考察点悬沙中值粒径总体呈现增大趋势,床沙中值粒径普遍较大,通天河干流、布曲、尕尔曲床沙中值粒径最大,各河段年际间变化规律不一致。研究成果可对无资料地区河流的径流输沙规律认识提供参考,为长江源区河流保护提供技术支撑。

关键词: 长江源区, 水沙变化, 径流量, 输沙量, 分布差异

Abstract: Located in the Qinghai-Tibet Plateau, the source region of Yangtze River is characterized by harsh climatic conditions, resulting in a lack of substantial runoff and sediment transport data in the region due to technological limitations. To address this issue, we looked into the temporal and spatial variations of water and sediment of rivers in the source region of Yangtze River based on data collected from hydrological stations and 14 field observation sites between 2012 and 2021. Findings indicate that: 1) Runoff in the source region of Yangtze River exhibits a significant correlation with precipitation and temperature. Sediment discharge is strongly correlated with runoff, with a correlation coefficient reaching 0.842, followed by a noteworthy correlation with precipitation, with a coefficient of 0.610. 2) Influenced by temperature, precipitation, and other factors, the runoff and sediment transport in rivers across the source region display evident spatial differences. On an interannual basis, larger flow rates occurred in 2018, 2020, and 2021, while smaller in 2019. Sediment concentration reached its peak in June 2019. 3) The median particle size of suspended sediment exhibits an overall increasing trend, and that of bed sediment tends to be large in general. Specifically, the mainstream of Tongtian River, Buqu River, and Gaerqu River showcases the largest median grain size of bed sediment. Yet the interannual variation patterns differ across various sections of the river. The research findings serve as a reference for understanding the runoff and sediment transport patterns in data-scarce areas, and also offer a technical support for the protection of the source region of Yangtze River.

Key words: source region of Yangtze River, water and sediment change, runoff, sediment discharge, distribution difference

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