时间序列土地利用/土地覆被绘图和变化探测,以支持可持续环境和经济管理政策

Ghirmawit Haile Gebrehiwot, Kassahun Ture Bekitie, Hamere Yohannes, Fikre Abiko Anose, Haftu Brhane Gebremichael
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摘要

特克泽河上游流域正面临着森林大面积砍伐和自然植被退化的挑战,这可能会加剧该地区的水资源短缺、粮食不安全和极端贫困问题。本研究利用遥感和地理信息系统,量化了过去三十年中土地利用和植被变化的趋势,并分析了该流域当前的土地利用/植被状况。研究采用了混合分类技术,以获得更高的分类精度。此外,为了自动检测云和云影,使用了新开发的山区 Fmask。利用分类后变化检测技术,确定了七种主要的土地利用/覆盖类别。在研究期间,这些类别仍然是主要类别,但其中的区域覆盖率发生了明显变化。根据误差矩阵统计指数,发现每个类别的分类准确性都很高。2021 年地图的总体准确率和卡帕系数分别为 91% 和 89%。所使用的技术有助于提高分类过程的准确性,并帮助分类后的图像与地面实况切实吻合。分析结果表明,1991-2021 年期间,定居点扩大了 570.31%,同时农田扩大了 52.32%。相比之下,林地大幅减少了 75.55%。环境退化和对土地资源的无计划使用可能是导致特克泽上游盆地贫困、缺水和粮食不安全问题日益严重的原因。因此,土地利用/覆盖时间序列建模对于土地利用规划和自然资源管理等各种目的都至关重要。在这方面,本研究为在该地区实施可持续的环境保护战略提供了基本信息。此外,所应用的方法可能会在其他类似地区得到实际应用。
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Time series land use/land cover mapping and change detection to support policies on sustainable environmental and economic management
The upper Tekeze River Basin is facing challenges of widespread deforestation and natural vegetation cover degradation that could exacerbate the water scarcity, food insecurity and extreme poverty in the region. Using remote sensing and GIS, this study quantified the land use land cover change trend in the last three decades and analyzed the current land use / cover statues in the basin. A hybrid classification technique is applied to obtain better classification accuracy. Moreover, for automated cloud and cloud shadow detection the newly developed Mountainous Fmask is used. Using post classification change detection technique, seven major land use/cover classes were identified. These classes remained the dominant classes during the study period, showing marked changes in the area coverage within them. Based on the error matrix statistical indices, the classification accuracies of each class are found to be strong. The overall accuracy and the kappa coefficient for the 2021 map are 91% and 89%, respectively. The techniques used have contributed to improving the accuracy of the classification process and helped the classified images to practically match the ground truths. The analysis revealed settlement expansion by 570.31% in parallel with the expansion of farmland by 52.32% during the period 1991–2021. In contrast, the forestland decreased significantly, by 75.55%. The environmental degradation and unplanned use of land resources could have contributed to why the upper Tekeze basin is experiencing worsening poverty, water scarcity and food insecurity. Thus, land use/cover time series modeling is essential for various purposes, including land use planning and, managing natural resources. In this regards this study provides basic information for implementing sustainable environmental conservation strategies in the area. Furthermore, the applied methodologies may have practical applications in other similar areas.
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