Streambank Erosion Phenomena and Understanding: Current Research and Future Directions

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING Journal of the ASABE Pub Date : 2023-01-01 DOI:10.13031/ja.15613
Celso Castro Bolinaga, Aaron Mittelstet, Kyle Mankin
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Abstract

Highlights High rates of streambank erosion are detrimental to the stability and function of streams. This collection brings together six studies that represent key advances in streambank erosion research. Current research directions on streambank erosion, erodibility characterization, and sediment loading are presented. Future research directions and challenges related to high-frequency data collection and modeling are discussed. Abstract. Streams are in dynamic equilibrium with their environments, and as that environment is altered by human development and changing climate, streambank erosion is a common, but little understood, result. This article highlights the contributions of the special collection “Streambank Erosion, Sediment Dynamics, and Restoration (SER),” which assembled six studies that represent key advances in streambank erosion research, highlight current research in the field, and identify directions for future research. The studies in this special collection were grouped into three central themes: (1) streambank erosion monitoring, (2) streambank erodibility characterization, and (3) streambank erosion loading. In this article, key findings within each of these central themes are summarized, emphasizing the significant contributions of each study. Likewise, perspectives on future research directions are discussed, outlining important challenges that remain to be addressed. Overall, the studies in this special collection are unified in their overarching goal of improving quantitative and predictive understanding of streambank erosion phenomena. Keywords: Keywords., Erodibility Parameters, Jet Erosion Test, Monitoring, Sediment, Soil Erosion, Stabilization Practices, Streambank, Stream Restoration.
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河岸侵蚀现象与认识:当前研究与未来方向
高比例的河岸侵蚀对河流的稳定性和功能是有害的。这个集合汇集了六项研究,代表了河岸侵蚀研究的关键进展。提出了目前在河岸侵蚀、可蚀性表征和泥沙负荷等方面的研究方向。讨论了高频数据采集与建模的未来研究方向和挑战。摘要河流与其环境处于动态平衡状态,由于人类发展和气候变化改变了环境,河岸侵蚀是一种常见的结果,但人们对其了解甚少。本文重点介绍了“河滩侵蚀、泥沙动力学和恢复(SER)”特别合集的贡献,该合集汇集了六项研究,代表了河滩侵蚀研究的关键进展,突出了该领域的当前研究,并确定了未来研究的方向。在这个特别收集的研究分为三个中心主题:(1)河岸侵蚀监测,(2)河岸可蚀性表征,(3)河岸侵蚀负荷。在本文中,总结了每个中心主题中的关键发现,强调了每个研究的重要贡献。同样,对未来研究方向的观点进行了讨论,概述了仍需解决的重要挑战。总的来说,这个特殊集合中的研究是统一的,它们的总体目标是提高对河岸侵蚀现象的定量和预测性理解。关键词:关键词。,可蚀性参数,喷射侵蚀试验,监测,沉积物,土壤侵蚀,稳定实践,河岸,河流恢复。
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