Exploring Bangladesh's Soil Moisture Dynamics via Multispectral Remote Sensing Satellite Image

European journal of environment and earth sciences Pub Date : 2023-10-05 DOI:10.24018/ejgeo.2023.4.5.415

Md. Mamun Hossain, Asswad Sarker Noman, Mst. Monakkara Begum, Wajiha Ahamed Warka, Md. Moazzem Hossain, Abu Saleh Musa Miah

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引用次数: 1

Abstract

Accurate monitoring and mapping of soil moisture are essential for sustainable agricultural practices, water resource management, and climate studies. This study aims to explore the mapping of soil moisture in Bangladesh using multispectral remote-sensing satellite images. The purpose of this study is to prepare a map of soil moisture aiming to help government authorities in developing agricultural activities to accelerate the sustainable development of the rural economy in Bangladesh. A total of 14 Landsat scenes of paths 135-139 and rows 42-46 covers the entire Bangladesh. Thus, a set of Landsat imagery (a total of 14 scenes) for the year 2022 was used in this study to map the soil moisture of Bangladesh through the application of Geographical Information System (GIS) and Remote Sensing. Satellite Image preprocessing, correction, and analysis were done with ENVI software (version 5.1, developed by Research Systems, Inc., USA) and the ArcGIS software (version 10.6, developed by Environmental Systems Research Institute, USA). For the study of the long-term variation of soil moisture over Bangladesh and its seasonal characteristics, a soil moisture map can be used. In addition, to improve the climate model over Bangladesh, an up-to-date soil moisture map will be very helpful. The objective of this study is to provide accurate and detailed up-to-date spatial soil moisture information at reduced cost and time which is essential for environment modeling, risk assessment, decision-making for different government agencies and development partners, and help toward socio-economic development. In this study, the map shows soil moisture as very wet, wet, dry, and very dry soils of Bangladesh. The overall land cover classification accuracy was 92.56%, with a Kappa value 0.90 for Random Forest and the overall soil classification accuracy was 87.27%, with a Kappa value 0.858 for maximum likelihood classification indicating good consistency.

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通过多光谱遥感卫星图像探索孟加拉国土壤水分动态

土壤湿度的准确监测和测绘对于可持续农业实践、水资源管理和气候研究至关重要。本研究旨在探索利用多光谱遥感卫星图像绘制孟加拉国土壤湿度。本研究的目的是准备一份土壤湿度地图，旨在帮助政府当局发展农业活动，加速孟加拉国农村经济的可持续发展。整个孟加拉国共有14幅陆地卫星照片，分别是135-139道和42-46行。因此，本研究使用了一组2022年的Landsat图像(共14个场景)，通过应用地理信息系统(GIS)和遥感技术绘制了孟加拉国的土壤湿度图。卫星图像预处理、校正和分析使用ENVI软件(version 5.1，由Research Systems, Inc.， USA开发)和ArcGIS软件(version 10.6，由Environmental Systems Research Institute, USA开发)。为了研究孟加拉国土壤湿度的长期变化及其季节特征，可以使用土壤湿度图。此外，为了改进孟加拉国的气候模式，最新的土壤湿度地图将非常有帮助。本研究旨在以更低的成本和时间提供准确、详细的最新空间土壤湿度信息，为不同政府机构和发展伙伴的环境建模、风险评估、决策提供必要的信息，并为社会经济发展提供帮助。在这项研究中，地图显示了孟加拉国的土壤湿度，分为非常潮湿、潮湿、干燥和非常干燥的土壤。总体土地覆盖分类精度为92.56%，随机森林分类Kappa值为0.90;土壤分类精度为87.27%，最大似然分类Kappa值为0.858，一致性较好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European journal of environment and earth sciences

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