海河流域水资源演变与驱动机制

中国生态农业学报2018年10月第26卷第10期

Chinese Journal of Eco-Agriculture, Oct. 2018, 26(10): 1443-1453

DOI: 10.13930/ki.cjea.180658

杨永辉, 任丹丹, 杨艳敏, 田菲, 胡玉昆, 韩淑敏. 海河流域水资源演变与驱动机制[J]. 中国生态农业学报, 2018, 26(10): 1443-1453

YANG Y H, REN D D, YANG Y M, TIAN F, HU Y K, HAN S M. Advances in clarification of the driving forces of water shortage in Haihe River Catchment[J]. Chinese Journal of Eco-Agriculture, 2018, 26(10): 1443-1453

海河流域水资源演变与驱动机制*

杨永辉, 任丹丹, 杨艳敏, 田菲, 胡玉昆, 韩淑敏(中国科学院遗传与发育生物学研究所农业资源研究中心/中国科学院农业水资源重点实验室/河北省节水农业重点实验室

石家庄 050022)

摘要: 海河流域含京津冀及周边三省, 是我国水资源短缺和用水矛盾最突出的地区。中国科学院遗传与发育生物学研究所农业资源研究中心团队围绕不断加剧的水资源短缺, 研究了流域水资源演变的关键驱动机制: 山区径流变化、农业需水和虚拟水外输, 分析了流域水资源演变的主要原因, 并对未来的可能调控提出了建议。研究首先选取海河流域的八大山区子流域, 分析了20世纪60年代以来的径流变化, 确认70年代开始山区来水逐渐减少, 径流减少的关键时期是1978—1985年, 推断农业用水增加是径流减少的核心驱动因素; 其次, 基于作物模型、作物系数法和遥感等手段, 量化了海河平原农业用水的时空格局和区域水量平衡, 通过对比农业耗水量、地下水水位变化和南水北调中线供水量, 确立了山前平原区南水北调实施后为实现水量平衡需控制用水的进一步扩大、低平原区仍然亏缺的未来水资源态势; 最后, 通过粮食贸易的虚拟水分析, 指出本地区外输虚拟水达90亿m3, 是造成水资源短缺的重要原因, 减缓虚拟水外输或输入一定虚拟水是缓解区域水资源压力的可选方案。

关键词: 海河流域; 水资源短缺; 径流; 农业用水; 虚拟水; 粮食贸易

中图分类号:S273 文献标识码:A 文章编号: 1671-3990(2018)10-1443-11

Advances in clarification of the driving forces of water shortage in Haihe River

Catchment*

YANG Yonghui, REN Dandan, YANG Yanmin, TIAN Fei, HU Yukun, HAN Shumin

(Center for Agricultural Resources Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences / Key Laboratory of Agricultural Water Resources, Chinese Academy of Sciences / Hebei Key Laboratory of Water-Saving Agriculture,

Shijiazhuang 050022, China)

Abstract: Including Beijing, Tianjin, Hebei and three surrounding provinces, Haihe River Catchment is facing an increasing shortage of water resources. This paper summarized our research progress on the driving mechanisms of water resources change including reasons for runoff changes, spatial variations and temporal changes of agricultural water use, and outflow of virtual water through external food supply. Firstly, by using the sequential Mann-Kendall to determine the abrupt changes in eight sub-catchments of Haihe River Catchment and traditional Mann-Kendall test for the period 1960-1999 to identify the basic trend of precipitation and runoff, it was confirmed that runoff reduction started since 1970s, and generally became statistically significant from 1978 to 1985. Through

*中国科学院国际合作项目(GJHZ1647)、河北省自然基金项目(D2015503016)、国家水体污染控制与治理专项(2018ZX07110001)和国家重点研发计划项目(2018ZX07110001)资助

杨永辉, 主要从事水循环及农业水资源研究。E-mail: yonghui.yang@

收稿日期: 2018-07-11 接受日期: 2018-07-20

* Supported by the International Cooperation Project of Chinese Academy of Sciences (GJHZ1647), the Natural Science Foundation of Hebei Province (D2015503016), the Major Science and Technology Program for Water Pollution Control and Treatment (2018ZX07110001) and the National Key Research and Development Project of China (2018ZX07110001)

Corresponding author, YANG Yonghui, E-mail: yonghui.yang@