Land Reclamation Controls on Multi-Centennial Estuarine Evolution

IF 7.3 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES Earths Future Pub Date : 2024-11-06 DOI:10.1029/2024EF005080
R. A. Schrijvershof, D. S. van Maren, M. Van der Wegen, A. J. F. Hoitink
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Abstract

Land reclamations influence the morphodynamic evolution of estuaries and tidal basins, because an altered planform changes tidal dynamics and associated residual sediment transport. The morphodynamic response time to land reclamation is long, impacting the system for decades to centuries. Other human interventions (e.g., deepening of fairways or port construction) will add more morphodynamic adaptation timescales. Our understanding of the cumulative effects of anthropogenic interference with estuaries is limited because observations usually do not cover the complete morphological adaptation period. We aim to assess the impact of land reclamation works and other human interventions on an estuarine system by means of digital reconstructions of historical morphologies of the Ems Estuary over the past 500 years. Our analysis demonstrates that the intertidal-subtidal area ratio altered due to land reclamation works and that the ratio partly restored after land reclamation ended. The land reclamation works have led to the degeneration of an ebb and flood channel system, transitioning the estuary from a multichannel to a single channel system. We infer that the 20th-century intensification of channel dredging and re-alignment works accelerated rather than caused this development. The centennial-scale observations show that the Ems estuary evolution corresponds to a land reclamation response following tidal asymmetry-based stability theory as it moves toward a new equilibrium configuration with modified tidal flats and channels. Considering the long history of land reclamation in the Ems Estuary, it provides an analogy for expected developments in comparable tidal systems where land reclamations were recently carried out.

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填海造地对多世纪河口演变的影响
填海造地会影响河口和潮汐盆地的形态演变,因为平面形态的改变会改变潮汐动力学和相关的残余沉积物运移。填海造地的形态动力学响应时间较长,对系统的影响可达数十年至数百年。其他人类干预措施(如球道加深或港口建设)将增加更多的形态动力适应时间尺度。我们对河口人为干扰累积效应的了解十分有限,因为观测通常无法涵盖完整的形态适应期。我们旨在通过对埃姆斯河口过去 500 年的历史形态进行数字重建,评估填海工程和其他人为干预对河口系统的影响。我们的分析表明,潮间带-潮下带的面积比例因填海工程而发生了变化,填海工程结束后,这一比例又得到了部分恢复。填海工程导致退潮和洪水河道系统退化,使河口从多河道系统过渡到单河道系统。我们推断,20 世纪加强河道疏浚和重新定线工程加速了这一发展,而不是造成这一发展的原因。百年尺度的观测结果表明,埃姆斯河口的演变符合基于潮汐不对称稳定性理论的陆地开垦反应,它正朝着具有改良滩涂和河道的新平衡配置方向发展。考虑到埃姆斯河口填海造地的悠久历史,它为最近进行填海造地的可比潮汐系统的预期发展提供了类比。
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来源期刊
Earths Future
Earths Future ENVIRONMENTAL SCIENCESGEOSCIENCES, MULTIDI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
11.00
自引率
7.30%
发文量
260
审稿时长
16 weeks
期刊介绍: Earth’s Future: A transdisciplinary open access journal, Earth’s Future focuses on the state of the Earth and the prediction of the planet’s future. By publishing peer-reviewed articles as well as editorials, essays, reviews, and commentaries, this journal will be the preeminent scholarly resource on the Anthropocene. It will also help assess the risks and opportunities associated with environmental changes and challenges.
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