日地表高程动力学的形态动力学特征可以解释潮滩的形态动力学发育

IF 3.7 Q1 WATER RESOURCES
Tim J. Grandjean , Jaco C. de Smit , Jim van Belzen , Gregory S. Fivash , Jeroen van Dalen , Tom Ysebaert , Tjeerd J. Bouma
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引用次数: 1

摘要

了解潮滩对环境变化的敏感性是具有挑战性的。目前,大多数研究依赖于基于过程的模型来系统地解释潮滩的形态动力学演化。在这项研究中,我们提出了一种替代的经验方法,利用基于日地表高程发展的长期时间序列的统计指标来探索潮滩动态。地表高程动态(SED)指标侧重于地表高程变化的幅度和周期,而形态动力特征(MDS)指标则将泥沙动力学与环境驱动因素联系起来。统计分析应用于荷兰的一个干预地点,以确定最近建造的沙坝对潮滩的影响。通过这些分析,我们能够(1)检测到每日SED的减少,(2)确定每日SED的变化主要是由沟间波浪影响的减少而不是潮流的减少引起的。总体而言,本文的结果表明,新的统计指标的组合为滩涂的轨迹、生态系统功能和对物理驱动因素(风和潮汐)的敏感性提供了新的见解。最后,我们提出了SED和MDS指数如何帮助探索潮间带生境的未来轨迹和气候适应能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Morphodynamic signatures derived from daily surface elevation dynamics can explain the morphodynamic development of tidal flats

Understanding the sensitivity of tidal flats to environmental changes is challenging. Currently, most studies rely on process-based models to systematically explain the morphodynamic evolution of tidal flats. In this study, we proposed an alternative empirical approach to explore tidal flat dynamics using statistical indices based on long-term time series of daily surface elevation development. Surface elevation dynamic (SED) indices focus on the magnitude and period of surface elevation changes, while morphodynamic signature (MDS) indices relate sediment dynamics to environmental drivers. The statistical analyses were applied to an intervention site in the Netherlands to determine the effect of recently constructed groynes on the tidal flat. Using these analyses, we were able to (1) detect a reduction in the daily SED and (2) determine that the changes in the daily SED were predominantly caused by the reduction in wave impact between the groynes rather than the reduction in tidal currents. Overall, the presented results showed that the combination of novel statistical indices provides new insights into the trajectories of tidal flats, ecosystem functioning, and sensitivity to physical drivers (wind and tides). Finally, we suggested how the SED and MDS indices may help to explore the future trajectories and climate resilience of intertidal habitats.

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来源期刊
CiteScore
6.60
自引率
5.00%
发文量
573
审稿时长
50 weeks
期刊介绍: Water Science and Engineering journal is an international, peer-reviewed research publication covering new concepts, theories, methods, and techniques related to water issues. The journal aims to publish research that helps advance the theoretical and practical understanding of water resources, aquatic environment, aquatic ecology, and water engineering, with emphases placed on the innovation and applicability of science and technology in large-scale hydropower project construction, large river and lake regulation, inter-basin water transfer, hydroelectric energy development, ecological restoration, the development of new materials, and sustainable utilization of water resources.
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