Geospatial technology based shoreline change analysis (1992–2022) and predictive forecast modeling for 2032 and 2042, utilizing DSAS, along the eastern coast of India

IF 1.2 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES Kuwait Journal of Science Pub Date : 2024-06-06 DOI:10.1016/j.kjs.2024.100272
S Harikrishna , B. Gurugnanam , S. Bairavi , Sulochana Shekar
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Abstract

This study presents a comprehensive analysis of shoreline dynamics in the Thanjavur district, focusing on erosion and accretion trends from 1992 to 2022. The coastal region was partitioned based on Taluk boundaries to discern distinct patterns in erosion and accretion. The Peravurani region displayed stability, while the Mettupalayam Coast exhibited modest accretion, influenced by sediment deposition from the Tedakkiar River. Mettupalayam had the highest net shoreline movement (NSM), contrasting with the Mandiripattinam coast's prevalent erosion trend. Areas such as Ammani Chattram and Setubava Chattram coast remained relatively stable, while Ganeshapuram, Sendalapattinam, and Sembalpattinam coasts experienced low accretion linked to the Ambuliar River. The study found that the maximum erosion in the study area is 4.1 m/yr (end point rate (EPR)) and 4.21 m/yr (linear regression rate (LRR)) at the Maravakkadu coastal region, and the maximum accretion is 3.75 m/yr (EPR) and LRR of 4.12 m/yr at the Mettupalayam coast. Employing the Kalman filter, future shoreline projections for 2032 and 2042 revealed heightened erosion and accretion trends, identifying vulnerable areas and distinct accretion patterns. It has been predicted that the eastern part of the coastal stretch erodes towards the land, and the western part is accreting. The dynamic interaction of erosion and accretion in Sendalapattinam underscored historical influences on future projections. However, ongoing erosion on the Maravakkadu coast may entail potential economic consequences. The findings emphasize the need for informed coastal management strategies, integrating historical data and future predictions. This will help maintain the coastal ecosystem and community resilience in the changing shoreline dynamics.

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基于地理空间技术的印度东部沿海海岸线变化分析(1992-2022 年)以及利用 DSAS 对 2032 年和 2042 年进行预测预报建模
本研究全面分析了坦贾武尔地区的海岸线动态,重点是 1992 年至 2022 年的侵蚀和增生趋势。根据 Taluk 边界对沿海地区进行了划分,以发现侵蚀和增生的不同模式。Peravurani 地区表现出稳定性,而梅图帕拉扬海岸则受 Tedakkiar 河沉积物的影响,表现出适度的增生。梅图帕拉亚姆的海岸线净移动量(NSM)最大,与曼迪里帕蒂南海岸普遍的侵蚀趋势形成鲜明对比。Ammani Chattram 和 Setubava Chattram 海岸等地区保持相对稳定,而 Ganeshapuram、Sendalapattinam 和 Sembalpattinam 海岸则经历了与 Ambuliar 河有关的低增量。研究发现,马拉瓦卡杜沿海地区的最大侵蚀量为 4.1 米/年(终点速率 (EPR))和 4.21 米/年(线性回归速率 (LRR)),梅图帕拉亚姆沿海地区的最大增殖量为 3.75 米/年(EPR)和 4.12 米/年(线性回归速率 (LRR))。利用卡尔曼滤波法,对 2032 年和 2042 年的未来海岸线进行了预测,结果显示侵蚀和增生趋势加剧,确定了脆弱地区和明显的增生模式。据预测,海岸线的东部向陆地侵蚀,西部则在增生。森达拉帕蒂纳姆地区侵蚀和增生的动态相互作用凸显了历史对未来预测的影响。然而,马拉瓦卡杜海岸正在发生的侵蚀可能会带来潜在的经济后果。研究结果强调,有必要结合历史数据和未来预测,制定知情的沿海管理战略。这将有助于在不断变化的海岸线动态中保持海岸生态系统和社区的恢复能力。
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来源期刊
Kuwait Journal of Science
Kuwait Journal of Science MULTIDISCIPLINARY SCIENCES-
CiteScore
1.60
自引率
28.60%
发文量
132
期刊介绍: Kuwait Journal of Science (KJS) is indexed and abstracted by major publishing houses such as Chemical Abstract, Science Citation Index, Current contents, Mathematics Abstract, Micribiological Abstracts etc. KJS publishes peer-review articles in various fields of Science including Mathematics, Computer Science, Physics, Statistics, Biology, Chemistry and Earth & Environmental Sciences. In addition, it also aims to bring the results of scientific research carried out under a variety of intellectual traditions and organizations to the attention of specialized scholarly readership. As such, the publisher expects the submission of original manuscripts which contain analysis and solutions about important theoretical, empirical and normative issues.
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