Climate-Induced Annual and Interannual Processual Shifts in Ecohydrological Regimes and Their Evaluations in Jinsha River Basin, China

IF 2.2 4区 工程技术 Q2 ENGINEERING, CIVIL Journal of Hydrologic Engineering Pub Date : 2023-11-01 DOI:10.1061/jhyeff.heeng-5906
Xiaopei Ju, Dong Wang, Yuankun Wang, Vijay P. Singh, Along Zhang, Pengcheng Xu, Jichun Wu, Tao Ma, Jiufu Liu, Jianyun Zhang
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Abstract

This study develops a four-module-based multimodel framework, coupled with the projections of general circulation models (GCMs), a hydrological model (SWAT), and two sets of evaluation indicators [Indicators of Hydrologic Alteration (IHA) and River Regime Index (RRI)], to systematically quantify the response of ecohydrological regimes to climatic change. The Jinsha River Basin (JRB) was selected as a target area for both framework verification and application analysis because of its precious natural conditions, privileged abundant hydropower, and extremely rich fish resources. Results revealed that: (1) temperature and precipitation in the JRB would show increasing trends to varying degrees in the future. The increase in temperature would be much higher than that in precipitation, and the increment would be more significant during the end of the century (2068–2097). (2) The future runoff in the JRB may face an overall decreasing trend, leading to more and more frequent drought disasters. (3) The disturbances in the ecohydrological regime would result in more concentrated runoff and smoother hydrological pulse fluctuations in the JRB, meaning human-assisted participation would be required for the conservation of reproduction and development of ecological resources like Coreius guichenoti. Our findings suggest that effective management of future watershed resources can only be accomplished if an in-depth and comprehensive hydrological evaluation of changing climate is made, and the protection and sustainable development of ecological resources of the JRB in the future will require the participation of stakeholders. Figuring out the alteration in ecohydrological regimes under natural variation and its potential hazards may guide the degree of human participation in futural river protection.
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金沙江流域气候引起的生态水文年际变化及其评价
本研究建立了一个基于四个模块的多模型框架,结合环流模型(GCMs)预估、水文模型(SWAT)和两套评价指标[水文变化指标(IHA)和河情指数(RRI)],系统地量化了生态水文制度对气候变化的响应。金沙江流域因其得天独厚的自然条件、丰富的水电资源和极其丰富的鱼类资源,被选定为框架验证和应用分析的目标区域。结果表明:(1)JRB未来气温和降水均有不同程度增加的趋势。气温的增加幅度将远远大于降水的增加幅度,并且在本世纪末(2068-2097)的增加幅度将更为显著。(2)未来JRB径流量总体呈减少趋势,导致干旱灾害越来越频繁。(3)生态水文状态的扰动将导致JRB径流更加集中,水文脉冲波动更加平滑,这意味着对Coreius guichenoti等生态资源的保护和繁殖发展需要人工参与。研究结果表明,只有对气候变化进行深入和全面的水文评价,才能实现对未来流域资源的有效管理,未来JRB生态资源的保护和可持续发展需要利益相关者的参与。弄清自然变化下生态水文状况的变化及其潜在危害,可以指导人类参与未来河流保护的程度。
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来源期刊
Journal of Hydrologic Engineering
Journal of Hydrologic Engineering 工程技术-工程:土木
CiteScore
4.60
自引率
4.20%
发文量
83
审稿时长
4.5 months
期刊介绍: The Journal of Hydrologic Engineering disseminates information on the development of new hydrologic methods, theories, and applications to current engineering problems. The journal publishes papers on analytical, numerical, and experimental methods for the investigation and modeling of hydrological processes.
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