A remote sensing-based approach for water accounting in the East Rapti River Basin, Nepal

IF 0.2 Q4 GEOLOGY

Journal of Himalayan Earth Sciences Pub Date : 2011-12-01 DOI:10.3126/HJS.V7I9.5785

R. Shilpakar, W. Bastiaanssen, D. Molden

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引用次数: 13

Abstract

Accurate estimates of evapotranspiration across different land uses are a major challenge in the process of understanding water availability and uses in a river basin. This study demonstrated a remote sensing-based procedure for accurately generating evaporative depletion and runoff in mountainous areas using Landsat ETM+ images combined with standard hydro-meteorological data. The data was used as a key input into the International Water Management Institute (IWMI)’s water accounting procedure to understand how water is now used, and opportunities for improvements in the future. We found a higher annual actual evapotranspiration from the riparian forest than from irrigated agriculture in the East Rapti River basin of Nepal. Another important finding of our study is that simple rainfall surplus can be a good predictor of river flow at an ungagged site of the East Rapti River basin. The water accounting analysis revealed that there is the potential for further development of water resources in the East Rapti River basin as only 59% of the total available water is depleted. A critical analysis of social and ecological flow requirements downstream is necessary before any development of water resources upstream. This study successfully demonstrated that the key inputs required for evaluating and monitoring the overall water resources conditions in a mountainous river basin can be computed from satellite data with a minimal support from ground information.DOI: http://dx.doi.org/10.3126/hjs.v7i9.5785 Himalayan Journal of Sciences Vol.7 Issue 9 2011 pp.15-30

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尼泊尔东拉普提河流域基于遥感的水资源核算方法

准确估计不同土地利用方式的蒸散量是了解流域水的可用性和利用过程中的一个主要挑战。本研究展示了一种基于遥感的程序，可以利用Landsat ETM+图像与标准水文气象数据相结合，准确地生成山区的蒸发损耗和径流。这些数据被用作国际水管理研究所(IWMI)的水会计程序的关键输入，以了解现在如何使用水，以及未来改进的机会。我们发现尼泊尔东拉普蒂河流域的河岸森林的年实际蒸散量高于灌溉农业。我们研究的另一个重要发现是，简单的降雨盈余可以很好地预测东拉普蒂河流域未堵塞地点的河流流量。水资源核算分析显示，东拉普蒂河流域水资源仅枯竭59%，有进一步开发的潜力。在开发上游水资源之前，有必要对下游的社会和生态流量需求进行批判性分析。该研究成功地证明，在地面信息支持最少的情况下，可以从卫星数据中计算出评估和监测山地流域整体水资源状况所需的关键输入。DOI: http://dx.doi.org/10.3126/hjs.v7i9.5785喜马拉雅科学杂志Vol.7 Issue 9 2011 pp.15-30

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来源期刊

Journal of Himalayan Earth Sciences GEOLOGY-

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： The "Journal of Himalayan Earth Sciences" (JHES) is a biannual journal, managed by the National Centre of Excellence in Geology, University of Peshawar, Pakistan. JHES is recognized by Higher Education Commission (HEC), Pakistan in "X" Category. The JHES entertains research articles relevant to the field of geosciences. Typical geoscience-related topics include sedimentary geology, igneous, and metamorphic geology and geochemistry, geographical information system/remote sensing related to natural hazards, and geo-environmental issues and earth quake seismology, and engineering and exploration geophysics. However, as the journal name implies, the articles addressing research relevant to the above disciplines in the Himalayan region will be given prime importance and relevance.