严重海平面上升和潮差变化条件下荷兰瓦登海未来的沉积物迁移

IF 1.6 Q4 ENVIRONMENTAL SCIENCES Anthropocene Coasts Pub Date : 2024-05-27 DOI:10.1007/s44218-024-00044-y
Z. B. Wang, Q. J. Lodder, I. H. Townend, Yonghui Zhu
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摘要

研究了各种未来海平面情景下从北海海岸到荷兰瓦登海的未来沉积物运移,因为它影响着未来为维护海岸线而进行的沙土滋养需求,也因为它决定着瓦登海的生物地貌发展。本研究的重点是之前使用 ASMITA 进行的建模研究中尚未考虑的两个问题:瓦登海潮间带滩涂淹没周围的运输将如何发展?潮差变化将如何影响未来的沉积物交换?通过使用加速度更快的 SLR 情景并进行更长时间的模拟,一些入海口出现了淹没现象,即潮间带容积消失。当淹没发生时,沉积物输入率会接近最大值或最小值,这取决于潮汐入海口系统的初始形态状态。某一潮汐入口系统的最大或最小输入率取决于可持续土地退化和干旱情况。理论分析和模拟结果表明,潮差变化会影响瓦登海的沉积物输入。潮差增大会导致瓦登海的沉积物需求量减少,从而减少瓦登海的沉积物输入量。因此,通过考虑可持续土地退化、潮差变化和系统形态发展之间的相互作用来研究瓦登海的潮差发展非常重要。研究进一步得出结论,以往研究中使用的经验关系并不能代表具有固定流域面积的潮汐流域的情况,尽管这一关系是通过对全球许多潮汐入口系统的实地观测得出的。平衡河道容积应与潮汐棱镜成正比,而不是与它的 1.5 次方成正比。
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Future sediment transport to the Dutch Wadden Sea under severe sea level rise and tidal range change

Future sediment transport from the North Sea coasts to the Dutch Wadden Sea for various future sea level scenarios has been studied because it influences the future sand nourishment demand for the maintenance of the coastline and because it determines bio-geomorphological development of the Wadden Sea. The present study focuses on two questions which have not yet been considered in the previous modelling studies using ASMITA: How will the transport develop around drowning of the intertidal flats in the Wadden Sea? How will tidal range change influence the future sediment exchange? By using SLR scenarios with faster acceleration and running the simulations for longer periods of time some inlets exhibited drowning, i.e., where the tidal flat volume vanishes. When drowning occurs, the sediment import rate approaches a maximum or a minimum, depending on the initial morphological state of the tidal inlet system. This maximum or minimum rate for a certain tidal inlet system depends on the SLR scenario. Theoretical analysis as well as modelling results show that tidal range change will influence the sediment import to the Wadden Sea. A tidal range increase will cause a decrease of the sediment demand in the Wadden Sea resulting into less sediment import to the Wadden Sea. It is thus important to study the tidal range development in the Wadden Sea by considering the interaction between SLR, tidal range change and morphological development in the system. It is further concluded that the empirical relation used in the previous studies is not representative of conditions in a tidal basin with fixed basin area, even though this relation has been derived from field observations in many tidal inlet systems worldwide. The equilibrium channel volume should be proportional to the tidal prism instead of to its 1.5th power.

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