印度尼西亚西爪哇南海岸受 2022 年极端拉尼娜现象和高河水排放条件影响的形态-水动力过程

IF 2.7 4区 环境科学与生态学 Q2 WATER RESOURCES
Fahmi Amanulloh, Andhy Romdani
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引用次数: 0

摘要

富含泥沙的河流排放量与气候变化和降雨强度密切相关,导致集水区和河岸受到严重侵蚀。潮汐和海浪的共同作用在很大程度上影响着河口的泥沙输运和分布模式,诱导着沿岸地区的沉积过程。本研究旨在分析 2022 年拉尼娜现象和高河流排水量对彭甘达兰 Bojong Salawe 海滩的影响。该地区有一个很大的河口,有多条支流,侵蚀和沉积潜力很大。此外,该地区直接面向印度洋,存在风引起大浪的风险。本研究采用的方法是描述性分析(使用哥白尼气候变化服务机构提供的ERA-5数据集)和数值模型(使用Mike21),以确定侵蚀和沉积过程。结果表明,与 2022 年北方冬季相比,2022 年北方秋季对研究区域的影响更大。北方秋季较高的降水量大大增加了河流流量,转移了约 1.48 立方米/秒/米的沉积物总负荷。此外,使用数字海岸线分析系统进行的海岸线变化分析表明,博宗萨拉威海滩受到严重侵蚀,尤其是在河口附近。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Morpho-hydrodynamic processes impacted by the 2022 extreme La Niña event and high river discharge conditions in the southern coast of West Java, Indonesia
The significance of sediment-laden river discharges is strongly related to climate change and rainfall intensity, resulting in severe erosion of the catchment areas and riverbanks. The combination of tides and waves considerably influence the sediment transport and distribution patterns of an estuary, inducing the sedimentary processes of the coastal area. This study aims to analyze the impacts of the La Niña event in 2022 and high river discharges in the Bojong Salawe Beach, Pangandaran. This area has a large estuary with several tributaries, with a high potential for erosion and sedimentation. Furthermore, its location directly faces the Indian Ocean, posing the risk of wind-induced high waves. The methods used in this research are descriptive analysis (using dataset ERA-5 taken from the Copernicus Climate Change Service) and numerical models (using Mike21) with an identification of erosion and accretion processes. The results show that the boreal autumn 2022 significantly impacted the study area, compared to the boreal winter 2022. Higher precipitation levels during boreal autumn substantially increased the river discharges, transferring the total load of sediment of about 1.48 m3/s/m. Moreover, shoreline change analysis using digital shoreline analysis system confirmed that Bojong Salawe Beach was indicated to experience high erosion, particularly around the mouth of the estuary.
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来源期刊
CiteScore
4.80
自引率
10.70%
发文量
168
审稿时长
>12 weeks
期刊介绍: Journal of Water and Climate Change publishes refereed research and practitioner papers on all aspects of water science, technology, management and innovation in response to climate change, with emphasis on reduction of energy usage.
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