综合水资源管理方法缓解气候变化对尼日利亚西北部Gurara水库集水区水文的潜在影响

Q3 Earth and Planetary Sciences
I. F. Oseke, G. Anornu, K. Adjei, M. Eduvie
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引用次数: 0

摘要

摘要研究了气候变暖环境下非洲流域管理的策略和行动。以尼日利亚西北部的gurararereservoir集水区为例,考虑到全球气候模型的预测和数据的线性趋势,提出了使用假设气候情景的总结。将四种(4)种提出的温度升高(1%和2%)与降水减少(- 5%和- 10%)相结合,并应用于研究区。水资源评估和规划工具通过调查其对气候变化的适应能力来模拟和评估地球温度上升和降雨量减少对水文和水的可用性的影响。模拟结果表明,与没有气候变化情景的基线相比,研究区域内的可用水从4.3%减少到3.5%,这表明当前的水资源管理策略是不可持续的、不协调的,并导致过度开发。这些发现可以通过强调实施适当的适应措施以增强对气候变化的适应能力的必要性来帮助管理未来的集水区水资源。实际上,在集水区制定更有效的政策和法规,以进行有效的水资源管理,以减少水资源短缺,并在未来实现下游用水需求和电力效益,同时也允许水库灵活运行,最终目标是适应气候变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated water resources management approach in mitigating the potential impacts of climate change on hydrology in Gurara reservoir catchment, Northwest Nigeria
Abstract. The strategies and actions in the management of African River Basins in a warming climate environment have been studied. Using the Gurara Reservoir Catchment in North-West Nigeria as a case study, summations were proposed using hypothetical climate scenarios considering the Global Climate Models prediction and linear trend of the data. Four (4) proposed scenarios of temperature increase (1 % and 2 %) coupled with a decrease in precipitation of (−5 % and −10 %) were combined and applied for the study area. The Water Evaluation and Planning Tool was used to model and evaluates the impact of the earth's rising temperature and declining rainfall on the hydrology and availability of water by investigating its resilience to climate change. Modelling results indicate a reduction in available water within the study area from 4.3 % to 3.5 % compared to the baseline with no climate change scenario, revealing the current water management strategy as not sustainable, uncoordinated, and resulting in overexploitation. The findings could assist in managing future water resources in the catchment by accentuating the need to put in place appropriate adaptation measures to foster resilience to climate change. Practically, it is pertinent to shape more effective policies and regulations within catchments for effective water resources management in reducing water shortage as well as achieving downstream water needs and power benefit in thefuture, while also allowing flexibility in the operation of a reservoir with the ultimate goal of adapting to climate change.
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来源期刊
Proceedings of the International Association of Hydrological Sciences
Proceedings of the International Association of Hydrological Sciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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