Modulation of sediment load recovery downstream of Three Gorges Dam in the Yangtze River

IF 1.6 Q4 ENVIRONMENTAL SCIENCES Anthropocene Coasts Pub Date : 2023-01-20 DOI:10.1007/s44218-022-00015-1
Chunyan Zhu, Yuning Zhang, Dirk Sebastiaan van Maren, Weiming Xie, Leicheng Guo, Xianye Wang, Qing He
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引用次数: 1

Abstract

The sediment load in the Yangtze River downstream of the Three Gorges Dam (TGD) has substantially declined in recent decades. The decrease is more profound below the TGD, e.g., a 97% decrease at Yichang, compared with that at the delta apex, 1200 km downstream, e.g., a 75% decrease, implying along-river sediment recovery. Two large river-connected lakes, i.e., Dongting and Poyang Lakes, may play a role in the re-establishment of the river’s morphodynamic equilibrium, but a quantitative data-based understanding of this interaction is not yet available. In this work, we collected a series of field data to quantify the sediment gain and loss in the river-lake system in the middle-lower Yangtze River, and evaluate the lake’s response to the reduction in riverine sediment supply. We find that Dongting Lake and Poyang Lake shifted from net sedimentation to erosion in 2006 and 2000, and back to a sedimentation regime again after 2017 and 2018, respectively. Natural morphodynamic adaptation and sand mining play an important role in the regime changes in the Dongting Lake whereas sand mining dominates the abrupt changes in the Poyang Lake. The Dongting and Poyang Lake contributed maximum by 38% (2015) and 17% (2006) (respectively) to the sediment recovery in the erosion regime, whereas the riverbed erosion dominates the main sediment source. These changes in the relative contribution of sediment sources also indicates a response time of ~ 20 years in the lakes towards a new equilibrium state. It is noteworthy that the lakes’ buffer effects may be overestimated as the supplied sediment from the lakes is rather small compared to the significant dam trapping in the upstream basin and sediment source from downstream degradation. The results imply that river management and restoration should take into account of the river-lake interactions and feedback impact at decadal time scales.

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长江三峡大坝下游调沙工程
近几十年来,三峡大坝下游的长江输沙量大幅下降。TGD以下的下降幅度更大,例如,与三角洲顶点1200相比,宜昌下降了97% 下游km,例如减少75%,这意味着沿河沉积物的回收。洞庭湖和鄱阳湖这两个与河流相连的大湖可能在重新建立河流形态动力学平衡方面发挥作用,但目前还没有对这种相互作用的定量数据理解。在这项工作中,我们收集了一系列现场数据,以量化长江中下游河流-湖泊系统中的泥沙损益,并评估湖泊对河流泥沙供应减少的反应。我们发现,洞庭湖和鄱阳湖分别在2006年和2000年从净沉降转向侵蚀,并在2017年和2018年后再次回到沉积状态。自然形态动力学适应和采砂在洞庭湖的水情变化中起着重要作用,而采砂在鄱阳湖的突变中占主导地位。在侵蚀状态下,洞庭湖和鄱阳湖对泥沙恢复的贡献最大,分别为38%(2015年)和17%(2006年),而河床侵蚀是主要的泥沙来源。沉积物来源相对贡献的这些变化也表明~ 20 在湖泊中的几年里,达到了一种新的平衡状态。值得注意的是,湖泊的缓冲作用可能被高估了,因为与上游流域的重要水坝截留和下游退化的沉积物来源相比,湖泊提供的沉积物相当小。结果表明,河流管理和恢复应考虑十年时间尺度上的河湖相互作用和反馈影响。
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