流域土地利用/土地覆盖变化的检测:以印度特伦甘纳邦Murredu流域为例

Padala Raja Shekar, Aneesh Mathew
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引用次数: 8

摘要

土地利用变化是指人类利用或管理特定土地的方式发生变化。土地覆盖变化是指土地的一些连续特征的变化,如植被类型、土壤条件等。为了识别易受变化影响的地区和创造可持续的生态系统服务,绘制和量化土地利用/土地覆盖的变化状态和引起变化的因素至关重要。本研究利用地理信息系统(GIS)和遥感(RS)技术对1996年至2019年间印度特伦甘纳州Murredu流域的变化进行了分类和识别。从1996年至2019年的卫星图像中,绘制了五个主要的LULC类别(农业用地、森林、荒地、建成区和水体)。最大似然法用于监督分类过程,高分辨率Google Earth Pro用于评估分类地图的准确性。使用误差矩阵和Kappa统计量来评估映射的准确性。2019年分类图像的总体分类准确率为90%,总体kappa统计数据为85.98%。根据这些发现,变化检测分析显示,1996年至2019年间,农业用地、荒地、森林、建成区和水体的面积分别增加了5.17%、3.39%、0.84%和0.26%。森林面积同时减少了9.67%。因此,本研究预计,这些发现可能会为规划者、土地管理者和决策者提供自然资源可持续管理和开发的信息。
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Detection of land use/land cover changes in a watershed: A case study of the Murredu watershed in Telangana state, India

Land-use change refers to a change in how a particular area of land is utilised or managed by humans. Land-cover change refers to a change in some continuous features of the land, such as vegetation type, soil conditions, and so on. For the purpose of identifying change-vulnerable areas and creating sustainable ecosystem services, mapping and quantifying the state of land use/land cover (LULC) changes and change-causing factors are crucial. The present research utilizes a geographic information system (GIS) and remote sensing (RS) techniques to categorise and identify changes in a Murredu watershed in Telangana state, India, between 1996 and 2019. Five major LULC categories (agricultural land, forest, barren land, built-up area, and waterbodies) from satellite images of 1996 to 2019 were mapped. The maximum likelihood approach was used to supervise the classification process, and high-resolution Google Earth Pro was used to evaluate the accuracy of the classified map. The accuracy of the mapping was evaluated using the error matrix and Kappa statistics. Overall classification accuracy for the classified image of 2019 was found to be 90 % with overall kappa statistics of 85.98%. From these findings, change detection analysis shows that the area used for agricultural land, barren land, forest, built-up areas, and waterbodies has increased by 5.17%, 3.39%, 0.84%, and 0.26%, respectively, between 1996 and 2019. The forest area has decreased by 9.67% at the same time. Therefore, this research anticipates that the findings might provide information to planners, land managers, and decision-makers for the sustainable management and development of the natural resource.

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