The vulnerability of tidal flats and multi-channel estuaries to dredging and disposal

IF 1.6 Q4 ENVIRONMENTAL SCIENCES Anthropocene Coasts Pub Date : 2023-03-20 DOI:10.1139/anc-2020-0006
Wout M. van Dijk, Jana R. Cox, Jasper R. F. W. Leuven, Jelmer Cleveringa, Marcel Taal, Matthew R. Hiatt, Willem Sonke, Kevin Verbeek, Bettina Speckmann, Maarten G. Kleinhans
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引用次数: 18

Abstract

Shipping fairways in estuaries are continuously dredged to maintain access for large vessels to major ports. However, several estuaries worldwide show adverse side effects to dredging activities, in particular affecting morphology and ecologically valuable habitats. We used physical scale experiments, field assessments of the Western Scheldt estuary (the Netherlands), and morphodynamic model runs to analyse the effects of dredging and future stresses (climate and sediment management) on a multi-channel system and its ecologically valuable intertidal flats. All methods indicate that dredging and disposal strategies are unfavourable to long-term morphology because dredging creates and propagates the imbalance between shallow and deeper parts of the estuary, causing a loss of valuable connecting channels and fixation of the tidal flats and main channel positions, while countering adverse effects by disposal strategy has limited effectiveness. Changing the disposal strategy towards main channel scour disposal can be economically and ecologically beneficial for the preservation of the multi-channel system. Further channel deepening will accelerate the adverse side effects, whereas future sea-level rise may revive the multi-channel system.

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滩涂和多通道河口易受疏浚和处置的影响
河口的航道不断疏浚,以保持大型船只进入主要港口。然而,世界各地的几个河口对疏浚活动产生了不利的副作用,特别是影响了形态和生态价值栖息地。我们使用物理尺度实验、西舍尔德河口(荷兰)的实地评估和形态动力学模型运行来分析疏浚和未来应力(气候和沉积物管理)对多通道系统及其具有生态价值的潮间带的影响。所有方法都表明,疏浚和处置策略不利于长期形态,因为疏浚造成并传播了河口浅部和深部之间的不平衡,导致失去了宝贵的连接通道以及滩涂和主航道位置的固定,而处置策略对抗不利影响的效果有限。将处理策略改为主渠道冲刷处理,对保护多渠道系统具有经济和生态效益。海峡的进一步加深将加速不利的副作用,而未来海平面的上升可能会使多通道系统复活。
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