分流域土地利用变化

S. Adhikari, S. Shrestha, Reeta Singh, S. Upadhaya, Jared R. Stapp
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引用次数: 5

摘要

土地利用和土地覆盖变化(LULCC)是水污染、土壤质量下降和自然资源稀缺等环境问题的主要驱动因素。为了更好地了解流域现状,测量LULCC是必要的。利用地理信息系统(GIS)、高分辨率图像和现场数据收集的时间序列LULCC制图是检查LULCC趋势的有效方法。尼泊尔巴克塔普尔的Mahadev Khola流域是居住在巴克塔普尔市的人们的主要饮用水来源,该城市主要由高海拔的森林和低海拔的农业用地和定居点组成。本研究的目的是观察Mahadev Khola流域的LULCC动态,以更好地了解由此可能产生的社会和环境问题。利用GIS方法创建并分析了时序土地利用图。对当地居民的调查以及对选定的主要利益相关者的访谈,有助于深入了解过去的土地使用情景如何影响lulcc,以及如何受到lulcc的影响。2005年至2014年间,土地利用的显著变化被量化。结果表明:森林面积减少6.25%,耕地面积减少14.28%,居民点增加156.25%;调查和访谈答复表明,这种变化在很大程度上是由于农业集约化以及化肥和农药使用的增加。农业投入的增加增加了河流和水污染以及长期土壤退化的可能性。城市扩张和发展导致污水和固体废物污染河流,增加了当地社区的健康风险。森林总面积虽有所增加,但物种组成已发生变化,以刺梨松为主。其结果是河流水量减少,土壤和水酸度增加。本研究的结果对于分析LULCC与流域之间的动态关系,以改善尼泊尔和南亚东喜马拉雅地区未来的管理工作具有及时和重要的意义。
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Land Use Change at Sub-Watershed Level
Land Use and Land Cover Change (LULCC) is a major driver of environmental problems like water pollution, decreased soil quality, and natural resource scarcity. Measuring LULCC is necessary to better understand the present condition of watersheds. Time series LULCC mapping using Geographic Information Systems (GIS), high-resolution imagery, and field data collection are effective methods for examining LULCC trends. The Mahadev Khola watershed in Bhaktapur, Nepal, acts as a primary source of drinking water for people living within the Bhaktapur municipalitywhich is dominated by forest at higher elevations and agricultural lands and settlements at lower elevations. The purpose of this study was to observe LULCC dynamics within the Mahadev Khola watershed to better understand the social and environmental problems that can arise in consequence. Time series land use maps were created and analyzed using GIS methods. Responses from a survey of local people, as well as interviews from selected key stakeholders, contribute insight into how past scenarios of land use have influenced-and have been influenced by-LULCC. Significant changes in land use were quantified between 2005 and 2014. Results suggest that in this period, total forest area decreased by 6.25%, cultivation area decreased by 14.28% and settlements increased by 156.25%. Survey and interview responses suggest that much of this change is due to agricultural intensification and an increase in chemical fertilizer and pesticide use. Increased agricultural inputs have increased the potential for river and water pollution and long term soil degradation. Urban expansion and development have led to the contamination of rivers with sewage and solid waste, which has increased health risks for local communities. Although total forest area has increased, the species composition has changed-now primarily dominated by Pinus roxburghii. The result of this is a decrease in river water discharge and increase in soil and water acidity. The results of this study are timely and important for analyzing the dynamics between LULCC and watersheds in order to improve future management efforts in Nepal and the Eastern Himalayan region of South Asia.
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