Modeling of land use and land cover changes using google earth engine and machine learning approach: implications for landscape management

Weynshet Tesfaye, Eyasu Elias, Bikila Warkineh, Meron Tekalign, Gebeyehu Abebe
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Abstract

A precise and up-to-date Land Use and Land Cover (LULC) valuation serves as the fundamental basis for efficient land management. Google Earth Engine (GEE), with its numerous machine learning algorithms, is now the most advanced open-source global platform for rapid and accurate LULC classification. Thus, this study explores the dynamics of the LULC changes between 1993 and 2023 using Landsat imagery and the machine learning algorithms in the Google Earth Engine (GEE) platform. Focus group discussion and key informant interviews were also used to get further data regarding LULC dynamics. Support Vector Machine (SVM), Random Forest (RF), and Classification and Regression Trees (CART) were demonstrated for LULC classification. Six LULC types (agricultural land, grazingland, shrubland, built-up area, forest and bareland) were identified and mapped for 1993, 2003, 2013, and 2023. The overall accuracy and kappa coefficient demonstrated that the RF using images comprising auxiliary variables (spectral indices and topographic data) performed better than SVM and CART. Despite being the most common type of LULC, agricultural land shows a trend of shrinking during the study period. The built-up area and bareland exhibits a trend of progressive expansion. The amount of forest and shrubland has decreased over the last 20 years, whereas grazinglands have exhibited expanding trends. Population growth, agricultural land expansion, fuelwood collection, charcoal production, built-up areas expansion, illegal settlement and intervention are among causes of LULC shifts. This study provides reliable information about the patterns of LULC in the Robit watershed, which can be used to develop frameworks for watershed management and sustainability.
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利用谷歌地球引擎和机器学习方法建立土地利用和土地覆被变化模型:对景观管理的影响
精确、最新的土地利用和土地覆被 (LULC) 估值是高效土地管理的基础。谷歌地球引擎(GEE)拥有众多机器学习算法,是目前全球最先进的开源平台,可用于快速、准确地进行土地利用、土地覆被分类。因此,本研究利用大地遥感卫星图像和谷歌地球引擎(GEE)平台中的机器学习算法,探讨了 1993 年至 2023 年间土地利用、土地利用变化和土地利用变化的动态变化。此外,还采用了焦点小组讨论和关键信息提供者访谈的方式来获取有关 LULC 动态变化的更多数据。支持向量机(SVM)、随机森林(RF)和分类回归树(CART)被用于 LULC 分类。对 1993 年、2003 年、2013 年和 2023 年的六种 LULC 类型(农田、牧场、灌木林地、建筑密集区、森林和裸地)进行了识别和绘图。总体准确率和卡帕系数表明,使用包含辅助变量(光谱指数和地形数据)的图像的 RF 比 SVM 和 CART 表现更好。尽管农用地是最常见的 LULC 类型,但在研究期间却呈现出萎缩的趋势。建筑区和裸地呈现出逐渐扩大的趋势。在过去的 20 年中,森林和灌木林地的数量有所减少,而牧场则呈扩大趋势。人口增长、农业用地扩张、薪材采集、木炭生产、建筑密集区扩张、非法定居和干预是造成土地利用、土地利用变化的原因。这项研究提供了有关罗比特流域 LULC 模式的可靠信息,可用于制定流域管理和可持续性框架。
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