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EVALUATION OF WATER SUSTAINABILITY IN HUANGHUAIHAI BASIN BASED ON THE BLUE WATER SUSTAINABILITY INDEX
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摘要: 为了评估人类超采地下水以及侵占河流生态需水给水资源可持续性带来的风险,将黄淮海流域作为研究区,在利用非稳态Budyko模型以及水量平衡公式的基础上,结合生态需水核算结果及各产业用水数据,选取蓝水可持续性指数BlWSI,基于蓝水消耗量(CBWU)、不可再生地下水抽取量(NRGWA)以及地表过度取水量(SWOA)对流域开展水资源可持续性评价。结果表明:表征蓝水资源可持续性的BlWSI指标在黄淮海流域存在明显的时空差异性。其中,黄河流域的水资源可持续性程度最低,海河流域次之,淮河流域可持续性程度最高。1960—2000年,黄淮海流域的水资源可持续性呈现不同程度的增加趋势。研究对提升黄淮海流域的可持续水资源管理具有一定的参考意义。Abstract: In order to assess the risk of groundwater over-exploitation and encroachment of ecological water demand of rivers on water sustainability, this study took the Huanghuaihai Basin as the research area, used the non-stationary Budyko model as well as the water balance formula, and combined the results of ecological water demand accounting and water consumption data from various sectors. The BlWSI index was chosen to evaluate the water sustainability of the Huanghuaihai Basin based on consumptive blue water use (CBWU), nonrenewable groundwater abstraction (NRGWA), and surface water over-abstraction (SWOA). The results showed that the BlWSI indicators which characterized the sustainability of blue water resources had significant spatial and temporal variability in the Huanghuaihai Basin. Among the three river basins, the Yellow River Basin has the lowest degree of water sustainability, followed by the Haihe River Basin, and the Huaihe River Basin had the highest degree of sustainability. During the period of 1960—2000, the sustainability of water resources in the Huanghuaihai Basin showed an increasing trend in different degrees. This study was an important theoretical reference for improving sustainable water resources management in the Huanghuaihai Basin.
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崔文彦, 刘得银, 梁舒汀,等. 永定河流域水生态环境质量综合评价[J]. 水生态学杂志, 2020, 41(2):23-28. 申志新, 王国杰, 李柯懋,等. 黄河龙羊峡上游鱼类资源现状及保护对策[J]. 水生态学杂志, 2014, 35(1):70-76. 赵莺燕, 于法稳. 黄河流域水资源可持续利用:核心、路径及对策[J]. 中国特色社会主义研究, 2020(1):52-62. 董宁, 田爱民, 姜丰,等. 基于可持续发展的水资源综合评价研究[J]. 环境工程, 2010,28(增刊1):444-447. 刘莉, 汪丽娜. 基于熵权-正态云模型的水资源可持续性评价[J]. 华南师范大学学报(自然科学版), 2020, 52(1):77-84. 王先庆, 李博, 李进,等. 基于生态足迹模型的水资源可持续利用分析[J]. 人民长江, 2019, 50(5):107-112. 杨光明, 时岩钧, 杨航,等. 基于系统动力学的水资源承载力可持续发展评估:以重庆市为例[J]. 人民长江, 2019, 50(8):6-13,51. 杨倩, 胡锋, 赵自阳,等. 长江经济带水资源水环境指标评估及对策[J]. 北京师范大学学报(自然科学版), 2019, 55(6):731-740. 杨莹, 侯凯旋, 岳卫峰,等. 基于复合系统相互作用关系的水资源承载力研究:以巩义市为例[J]. 北京师范大学学报(自然科学版), 2019, 55(5):669-676. 刘恒, 耿雷华, 陈晓燕. 区域水资源可持续利用评价指标体系的建立[J]. 水科学进展, 2003,14(3):265-270. CHAVES H M L, ALIPAZ S. An integrated indicator based on basin hydrology, environment, life, and policy:the watershed sustainability index[J]. Water Resources Management, 2007, 21(5):883-895. WANG Q, LI S Q, LI R R. Evaluating water resource sustainability in Beijing, China:Combining PSR model and matter-element extension method[J]. Journal of Cleaner Production, 2019, 206:171-179. WADA Y,BIERKENSM F P. Sustainability of global water use:past reconstruction and future projections[J]. Environmental Research Letters, 2014,9(10):18. 全国节约用水办公室. 南水北调节水规划要点[J]. 中国水利, 2003(2):14-18. KRYSANOVA V, HATTERMANN F, AICH V, et al. GFZ Data Services, 2017. ISIMIP2a Simulation Data from Water (regional) Sector[Z]. 2017. GREVE P, GUDMUNDSSON L, ORLOWSKY B, et al. A two-parameter Budyko function to represent conditions under which evapotranspiration exceeds precipitation[J]. Hydrology and Earth System Sciences, 2016, 20(6):2195-2205. 刘希胜, 李其江, 段水强,等.黄河源径流演变特征及其对降水的响应[J].中国沙漠,2016(6):1721-1730. 段春青, 刘昌明, 曹玲玲,等.可变模糊集方法在海河流域水资源承载力评价中的应用[J].北京师范大学学报(自然科学版),2009,45(增刊1):582-584. -
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