Dynamic Changes in Coastal Geomorphology of Shiroda Coasts, using Remote Sensing and GIS: An Approach to Climate Change and Coastal Disaster Risk

Q4 Engineering Disaster Advances Pub Date : 2023-11-05 DOI:10.25303/1612da020032

J. B. Sapkale, M.M. Mane, N.K. Susware, S. J. Sapkale

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Abstract

The coastline is a unique land feature formed through the interaction between land and sea. It is essential to monitor and detect hotspots and observe spatial and temporal influences of climate change in the coastal environment. Coastal landform changes can be best studied through remote sensing data. This study examines the dynamic changes in the sand spit and associated coastal area of the Shiroda coasts of Sindhudurg district. The Normalized Difference Water Index (NDWI) was used to distinguish land and water and the area was calculated by reclassifying the NDWI index of all images with two classes- land surface of sand spit and water. It was found that the spit area is decreasing seasonally at a dynamic rate. Additionally, geomorphic maps were prepared for the study area and showed disastrous changes in the coastal landforms. It is a need that coastal communities worldwide must address the challenges of coastal flooding and rising sea levels caused by climate change. Climate change is causing uneven rainfall distribution, storms and cyclones, leading to coastal erosion, flooding and landform damage. Additionally, it has a negative impact on the geomorphic features of coastlines.

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利用遥感和地理信息系统研究城田海岸地貌的动态变化：应对气候变化和沿海灾害风险的方法

海岸线是陆地和海洋相互作用形成的独特陆地特征。监测和探测热点地区，观察气候变化对沿海环境的时空影响至关重要。通过遥感数据可以更好地研究海岸地貌的变化。本研究考察了信德胡德格县希罗达海岸的沙嘴和相关沿海地区的动态变化。研究使用归一化水差异指数（NDWI）来区分陆地和水域，并通过对所有图像的 NDWI 指数进行重新分类，将其分为两类--沙嘴陆地表面和水域，从而计算出面积。结果发现，沙嘴面积呈季节性动态减少。此外，还绘制了研究区域的地貌图，显示了沿海地貌的灾难性变化。全球沿海社区必须应对气候变化造成的沿海洪水和海平面上升的挑战。气候变化造成降雨分布不均、风暴和气旋，导致海岸侵蚀、洪水和地貌破坏。此外，气候变化还对海岸线的地貌特征产生负面影响。

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