The Feedback from a Beach Berm during Post-Storm Recovery and How to Improve the Berm’s Restorative Efficiency

The efficiency of beach recovery during a time of moderate waves following storm waves is closely related to the interaction between dynamics, sediment, and the landform. The existing studies mainly focus on the description of erosion and accretion characteristics, while the response and feedback me...

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Published in	Water (Basel) Vol. 16; no. 14; p. 1955
Main Authors	Zhu, Yu, Zhou, Yingtao, Zeng, Weite, Feng, Weibing, Jiang, Yuanshu
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.07.2024
Subjects	Analysis Beaches China Coasts Efficiency landforms mathematical models Methods Sediments Shorelines Soil erosion Storm surges Storms water Zhu Yu China
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Abstract	The efficiency of beach recovery during a time of moderate waves following storm waves is closely related to the interaction between dynamics, sediment, and the landform. The existing studies mainly focus on the description of erosion and accretion characteristics, while the response and feedback mechanism of beach berm sediment have not been elucidated. The main controlling factors of recovery efficiency are not clear. In this paper, field observation and the XBeach numerical model are utilized on the sandy beach in Puqian Bay, China, to capture high-frequency cross-shore data during the post-storm recovery period. The variation characteristics and rules of berm elements, including berm ridge height and slope on two sides of the berm ridge, are analyzed. It is observed that the berm constantly changes to adapt to dynamic conditions. Additionally, a correlation between volume change and certain landform parameters is proposed, leading to the identification of a new relationship in wave run-up. The new forum reflects berm influence and considers the berm ridge and berm width.
AbstractList	The efficiency of beach recovery during a time of moderate waves following storm waves is closely related to the interaction between dynamics, sediment, and the landform. The existing studies mainly focus on the description of erosion and accretion characteristics, while the response and feedback mechanism of beach berm sediment have not been elucidated. The main controlling factors of recovery efficiency are not clear. In this paper, field observation and the XBeach numerical model are utilized on the sandy beach in Puqian Bay, China, to capture high-frequency cross-shore data during the post-storm recovery period. The variation characteristics and rules of berm elements, including berm ridge height and slope on two sides of the berm ridge, are analyzed. It is observed that the berm constantly changes to adapt to dynamic conditions. Additionally, a correlation between volume change and certain landform parameters is proposed, leading to the identification of a new relationship in wave run-up. The new forum reflects berm influence and considers the berm ridge and berm width.
Audience	Academic
Author	Zhu, Yu Zeng, Weite Zhou, Yingtao Feng, Weibing Jiang, Yuanshu
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Title	The Feedback from a Beach Berm during Post-Storm Recovery and How to Improve the Berm’s Restorative Efficiency
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