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基于地下水压采和粮食稳产的石津灌区地下水与地表水联合调配OA

Integrated allocation of groundwater and surface water resources in the Shijin Irrigation District for groundwater exploitation reduction and stable grain yield

中文摘要英文摘要

水资源短缺与地下水超采是制约华北地区农业可持续发展的核心因素,该研究围绕"粮食稳产-地下水压采"双重目标,以石津灌区为研究对象,耦合SWAP(土壤-植物-大气连续体水分运移)、MODFLOW(地下水流动)与WEAP(水资源管理)3种模型,构建涵盖地表水、土壤水和地下水的灌区水循环综合模拟模型.通过设置现状情景(S0)、节水灌溉情景(S1)、种植结构调整情景(S2)及综合调控情景(S3)4 类情景,对 2025-2036 年长序列地下水位变化与作物产量动态进行模拟预测,进而提出多水源联合调配优化方案.结果表明,地下水位、土壤含水率及作物产量模拟精度较高(R2>0.58),模型具备可靠的模拟能力.与现状年相比,S1情景下,灌区年节水量达 0.72亿 m3,地下水压采量达0.46亿 m3,2025-2036年灌区地下水位累计抬升约3.50 m,粮食总产量波动范围为10.56亿~11.26 亿kg;S2 情景(粮食作物占比从 70%降至 60%)下,地下水位呈现缓慢上升趋势,粮食产量稳定在 10亿 kg以上.通过综合集成节水灌溉与种植结构调整技术,该研究提出适用于石津灌区的多水源联合调配优化模式.该模式以岗南、黄壁庄水库地表水为优先水源,地下水为辅助水源.2025-2036年的模拟结果显示,与现状配水模式相比,该优化模式使灌区地下水位整体抬升约 4.68 m,粮食总产量波动幅度仅为 0.34亿 kg,实现了地下水压采与粮食稳产.研究结果可为石津灌区水资源现代化管理,以及华北地区类似多水源灌区的节水改造与地下水超采治理工作提供有效的模型工具与科学依据.

Water resource shortage and groundwater over-exploitation have been the primary limiting factors on sustainable agriculture in North China.It is often required for the balance between"Grain Yield Stabilization and Groundwater Extraction Reduction".This study aims to allocate groundwater and surface water resources for the groundwater exploitation reduction and stable grain yield.A case study was taken as the Shijin Irrigation District,Hebei Province,China.A process model was developed to strategically couple three models:SWAP,MODFLOW,and WEAP.A series of simulations were conducted to integrate with the water cycle.The framework was used to effectively capture the dynamic interactions between surface water,soil water,and groundwater.Four scenarios were designed for comparative analysis:the Current Scenario(S0),the Water-saving Irrigation Scenario(S1),the Planting Structure Adjustment Scenario(S2),and the Comprehensive Regulation Scenario(S3).The long-term simulations were then performed on the groundwater levels and crop yields from 2025 to 2036.An optimal allocation of multiple source water was formulated under these scenarios.The results indicated that the reliable performance was achieved to simulate the groundwater level,soil moisture content,and crop yield,with the determination coefficients(R²)of over 0.58.Compared with the Current Scenario(S0),the Water-saving Irrigation Scenario(S1)demonstrated the significant benefits:The annual water saving of the irrigation district reached 72 million m3,the amount of groundwater extraction reduction reached 46 million m3,while the groundwater level over the irrigation district raised cumulatively by approximately 3.5 m over the simulation period,and the total grain yield fluctuated within the range of 1.056 billion~1.126 billion kg.In the Planting Structure Adjustment Scenario(S2),the proportion of grain crops decreased from 70%to 60%,while the groundwater level exhibited a slow upward trend,and the grain yield remained stable at over 1 billion kg.Water-saving irrigation and adjustments were systematically integrated into various cropping patterns.An optimal mode was obtained suitable for the multiple source water allocation in the Shijin Irrigation District.Surface water was prioritized to supply from the Gangnan and Huangbizhuang reservoirs,whereas the groundwater served as a supplementary source.Compared with the current water allocation,the optimal mode raised the overall groundwater level of the irrigation district by about 4.68 m,and the fluctuation range of total grain yield was only 34 million kg,indicating both groundwater extraction reduction and grain yield stabilization.The research findings can provide the effective modeling on the water resources for the water-saving transformation and control of groundwater over-exploitation in similar multi-water-source irrigation districts in North China.

王慧琳;陈皓锐;贾志军;魏亮;苏磊;焦赏;王淮亮;协子昂;王景旭;余根坚

中国水利水电科学研究院流域水循环与水安全全国重点实验室,北京 100048中国水利水电科学研究院流域水循环与水安全全国重点实验室,北京 100048河北省水资源研究与水利技术试验推广中心,石家庄 050061河北省水资源研究与水利技术试验推广中心,石家庄 050061河北省水务中心石津灌区事务中心,石家庄 050000河北省水务中心石津灌区事务中心,石家庄 050000河北省水资源研究与水利技术试验推广中心,石家庄 050061河北省水资源研究与水利技术试验推广中心,石家庄 050061河北省水资源研究与水利技术试验推广中心,石家庄 050061中国水利水电科学研究院流域水循环与水安全全国重点实验室,北京 100048

农业科技

地下水压采水资源调配石津灌区灌区水循环模型节水灌溉

groundwater extraction reductionwater resources allocationShijin Irrigation Districtirrigation district water cycle modelwater-saving irrigation

《农业工程学报》 2026 (6)

117-128,12

河北省省级水利科技计划项目(2024-04)中国水利水电科学研究院基本科研业务费专项项目(ID110145B0062025)国家重点研发计划项目(2022YFD1900504)

10.11975/j.issn.1002-6819.202509250

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