Advances in Morphodynamic Modeling of Coastal Barriers: A Review

IF 1.4 3区工程技术 Q3 ENGINEERING, CIVIL

Journal of Waterway Port Coastal and Ocean Engineering Pub Date : 2023-09-01 DOI:10.1061/jwped5.wweng-1825

Steven W.H. Hoagland, Catherine R. Jeffries, Jennifer L. Irish, Robert Weiss, Kyle Mandli, Sean Vitousek, Catherine M. Johnson, Mary A. Cialone

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引用次数: 0

Abstract

As scientific understanding of barrier morphodynamics has improved, so has the ability to reproduce observed phenomena and predict future barrier states using mathematical models. To use existing models effectively and improve them, it is important to understand the current state of morphodynamic modeling and the progress that has been made in the field. This manuscript offers a review of the literature regarding advancements in morphodynamic modeling of coastal barrier systems and summarizes current modeling abilities and limitations. Broadly, this review covers both event-scale and long-term morphodynamics. Each of these sections begins with an overview of commonly modeled phenomena and processes, followed by a review of modeling developments. After summarizing the advancements toward the stated modeling goals, we identify research gaps and suggestions for future research under the broad categories of improving our abilities to acquire and access data, furthering our scientific understanding of relevant processes, and advancing our modeling frameworks and approaches.

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海岸带屏障形态动力学模拟研究进展

随着对势垒形态动力学的科学理解的提高，利用数学模型重现观察到的现象和预测未来势垒状态的能力也在提高。为了有效地利用和改进现有模型，了解形态动力学建模的现状和该领域的进展是很重要的。这篇论文提供了关于海岸屏障系统形态动力学建模进展的文献综述，并总结了当前的建模能力和局限性。总的来说，这篇综述涵盖了事件尺度和长期形态动力学。这些部分中的每一部分都从对常用建模现象和过程的概述开始，然后是对建模开发的回顾。在总结了实现既定建模目标的进展后，我们在提高我们获取和访问数据的能力，进一步科学地理解相关过程，以及改进我们的建模框架和方法的大类下，确定了研究差距和对未来研究的建议。

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来源期刊

Journal of Waterway Port Coastal and Ocean Engineering 工程技术-工程：大洋

CiteScore

4.40

自引率

4.50%

发文量

审稿时长

9 months

期刊介绍： The Journal of Waterway, Port, Coastal, and Ocean Engineering disseminates to the profession engineering and scientific advances made in the COPRI disciplines. The journal is a strong forum for civil engineering disciplines related to ocean, coastal and riverine waters as well as the interaction of these waters and the adjacent built and natural environments. This broad scope makes the Journal an ideal choice for the publication and dissemination of archival contributions dealing with important related topics. Topics include dredging, floods, sediment transport, tides, wind waves and storm surge, tsunamis, climate change, rising sea level, extreme weather events and other hazards that affect shorelines, waterways, estuaries, and ports and harbors, as well as efforts to mitigate the impact of such hazards. Of equal interest is the development and operation of offshore facilities and ocean resource utilization, such as renewable energy and ocean mining. Types of publications include original journal articles, comprehensive review articles, short technical notes, case studies of special interest to the readership, book reviews, and special issues on selected topics.