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人类改造下河口地貌对洪水响应衰减机制及归因分析

王晓光何厚军安东张蔚

中国水利Issue(8)：1-10,10.

中国水利Issue(8)：1-10,10.DOI:10.3969/j.issn.1000-1123.2026.08.001

人类改造下河口地貌对洪水响应衰减机制及归因分析

Attenuation mechanisms and attribution analysis of estuarine geomorphic response to floods under human modification

王晓光 ¹何厚军 ²安东 ²张蔚³

作者信息

1. 水利部黄河水利委员会信息中心,450004,郑州||河海大学水灾害防御全国重点实验室,210024,南京
2. 水利部黄河水利委员会信息中心,450004,郑州
3. 河海大学水灾害防御全国重点实验室,210024,南京
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摘要

Abstract

Extreme floods are critical natural drivers of estuarine geomorphic evolution.However,how long-term human modifications quantitatively regulate this process remains poorly understood.Although the 2020 flood in the Yangtze Estuary exhibited peak discharge and water levels comparable to the 1998 event,the resulting geomorphic adjustment was significantly reduced.High-resolution bathymetric surveys indicate a 39.5%reduction in deep-channel scouring and a 37%decline in shoal deposition during the 2020 flood.Attribution analysis,integrating hydrological data,long-term tidal records,and numerical modeling,reveals that this dampened response stems not only from shortened flood duration,reduced cumulative flood volume,and weakened tidal dynamics(associated with the 18.6-year nodal cycle),but more critically from reduced sediment supply driven by upstream reservoir operations and over two decades of estuarine engineering.While reduced sediment supply has shifted the estuary's baseline state from net accretion to erosion,estuarine engineering has stabilized the river regime by confining flows to the main channel and inhibiting overbank flow.This promotes a"shoal accretion and channel scouring"pattern,thus optimizing the river regime,stabilizing the shoal-channel configuration,and significantly reducing geomorphic changes during extreme floods.This study clarified how human activities altered the morphodynamic mechanisms of the Yangtze Estuary,significantly weakening the bed adjustment induced by extreme floods.These findings provide a general framework for attributing flood impacts in estuaries worldwide and offer a scientific basis for engineering strategies to enhance resilience to hydrological extremes.

关键词

极端洪水/长江口/河口工程/人类活动/地貌演变/洪水响应机制/动力地貌

Key words

extreme flood/Yangtze Estuary/estuarine engineering/human activity/geomorphic evolution/flood response mechanism/morphodynamics

分类

建筑与水利

引用本文复制引用

王晓光,何厚军,安东,张蔚..人类改造下河口地貌对洪水响应衰减机制及归因分析[J].中国水利,2026,(8):1-10,10.

基金项目

水灾害防御全国重点实验室开放基金项目"长江口地貌演变主控因子及驱动机制研究"(2025491811). （2025491811）

中国水利

ISSN：1000-1123

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