Impacts of Precipitation on Groundwater Preservation Capacity of Agricultural Regions in North China

Wang Dianlong; Zhang Guanghui; Feng Huimin; Di Fan; Zhang Xizhu; Du Xuting

doi:10.13961/j.cnki.stbctb.2023.04.033

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Impacts of Precipitation on Groundwater Preservation Capacity of Agricultural Regions in North China

- Impacts of Precipitation on Groundwater Preservation Capacity of Agricultural Regions in North China
- Bulletin of Soiland Water Conservation Vol. 43, Issue 4, Pages: 276-282(2023)
- 作者机构：
  
  1. 太原工业学院环境与安全工程系,山西,太原,030012
  2. 中国水利水电科学研究院流域水循环与调控国家重点实验室,北京,100086
  3. 中国地质科学院水文地质环境地质研究所,河北,石家庄,050801
  4. 山西农业大学城乡建设学院, 山西太谷,030801
  5. 太原理工大学,山西,太原,030002
- 作者简介：
- 基金信息：
- DOI：10.13961/j.cnki.stbctb.2023.04.033
  CLC： S274.3
- Published：2023
- 稿件说明：
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Wang Dianlong, Zhang Guanghui, Feng Huimin, et al. Impacts of Precipitation on Groundwater Preservation Capacity of Agricultural Regions in North China[J]. Bulletin of Soiland Water Conservation, 2023, 43(4): 276-282.
DOI：

Wang Dianlong, Zhang Guanghui, Feng Huimin, et al. Impacts of Precipitation on Groundwater Preservation Capacity of Agricultural Regions in North China[J]. Bulletin of Soiland Water Conservation, 2023, 43(4): 276-282. DOI： 10.13961/j.cnki.stbctb.2023.04.033.

摘要

[目的] 评估降水对华北农业区地下水保障能力的影响，为该区地下水资源可持续利用提供理论依据。[方法] 建立地下水保障能力(F)评价理论体系，采用地学统计、关联度分析等方法，分析降水对地下水保障能力影响的时空特征。[结果] ①随降水量变化，F值空间分布变化明显，多年平均和丰水年以“基本保障”分布为主，枯水年则以“难以保障”为主； ②随降水量变化，不同区位F发生频次亦不同。在燕山山前平原和太行—冀中平原，当降水频率分别＞75%和＞50%时，F值均在0.5以下；太行—豫北平原，当降水频率＜75%时，F值升高至以大于1.0的频次为主；中部—豫北平原，当降水频率＜50%时，F值均增大至1.0以上；当降水频率＜25%时，中部—鲁北平原和滨海平原F值均增大至0.5以上，而中部—冀中平原只有少数年份F大于0.5。[结论] 降水是影响地下水保障能力的重要因素，对平水年和枯水年仍为“较高保障”的区域可适当扩大农业种植规模，对丰水年为“难以保障”和“较低保障”的区域，应适当压缩农业种植规模。

Abstract

[Objective] The impacts of precipitation on the groundwater preservation capacity for agricultural regions in North China were studied in order to provide a theoretical basis for the sustainable use of groundwater resources in this region. [Methods] We established a theoretical system for evaluating groundwater preservation capacity (F) and determined the influence of precipitation changes on F value in agricultural regions of North China using methods such as geoscience statistics and correlation analysis. [Results] ① The spatial distribution of F value changed dramatically as precipitation changed. The multi-year average and wet years were dominated by the “basic guarantee” distribution

while the dry years were dominated by the “difficult to guarantee” distribution; ② As precipitation changed

the frequency of F value also varied in different locations. In the Yanshan Plain and the Taihang-Hebei Plain

when the precipitation frequency was greater than 75% and 50%

respectively

the F value was less than 0.5; in the Taihang-Henan Plain

when the precipitation frequency was less than 75%

the F value was greater than 1.0; in the Central Henan Plain

when the precipitation frequency was less than 50%

the F value increased to 1.0; in the Central Shandong Plain and Littoral Plain

when the precipitation frequency was less than 25%

the F value was greater than 0.5; in the Central Hebei Plain

there were only a few years where the F value was greater than 0.5. [Conclusions] Precipitation is an important factor that affects groundwater preservation capacity. For areas that can be “highly preserved” even during normal and dry years

the scale of agricultural planting can be appropriately expanded to ensure ample food production. However

for areas that are “difficult to preserve” and have “lower preservation” capacity during wet years

the scale of agricultural planting should be appropriately reduced to alleviate the pressure of groundwater overexploitation.

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references

张光辉,费宇红,刘克岩,等.华北平原农田区地下水开采量对降水变化响应[J].水科学进展,2006,17(1):43-48.

张光辉,费宇红,刘春华,等.华北平原灌溉用水强度与地下水承载力适应性状况[J].农业工程学报,2013,29(1):1-10.

Mz A, Aa A, Ib B, et al. Impacts of climate change on runoffs in East Azerbaijan, Iran [J]. Global and Planetary Change, 2011,78(3/4):137-146.

Green T R, Taniguchi M, Kooi H, et al. Beneath the surface of global change: impacts of climate change on groundwater [J]. Journal of Hydrology, 2011,405(3/4):532-560.

Seung H Y, Jin Y C, Sang H L, et al. Climate change impacts on water storage requirements of an agricultural reservoir considering changes in land use and rice growing season in Korea [J]. Agricultural Water Management 2013,117(1):43-54.

Zhu Xiufang, Zhao Anzhou, Li Yizhan, et al. Agricultural irrigation requirements under future climate scenarios in China [J]. Journal of Arid Land, 2015,7(2):224-237.

Bekele E G, Knapp H V. Watershed modeling to assessing impacts of potential climate change on water supply availability [J]. Water Resources Management, 2010,24(13):3299-3320.

Moiwo J P, Yang Y H, Li H L, et al. Impact of water resource exploitation on the hydrology and water storage in Baiyangdian Lake [J]. Hydrological processes, 2010,24(21):3026-3039.

冯慧敏,张光辉,王电龙,等.近50年来石家庄地区地下水流场演变驱动力分析[J].水利学报,2014,45(2):180-186.

张光辉,费宇红,王茜,等.灌溉农业地下水保障能力评价方法研究：以黄淮海平原为例[J].水利学报,2016,47(5):608-615.

田言亮,张光辉,王茜,等.黄淮海平原灌溉农业对地下水依赖程度与保障能力[J].地球学报,2016,37(3):257-265.

王电龙,张光辉,冯慧敏,等.华北平原典型井灌区地下水保障能力空间差异[J].南水北调与水利科技,2015,13(4):622-625.

刘敏,聂振龙,王金哲,等.华北平原地下水资源承载力模糊综合评价[J].水土保持通报,2014,34(6):311-315.

Wang Daqing, Xu Haoli, Shi Yue. The groundwater potential assessment system based on cloud computing: a case study in islands region [J]. Computer Communications, 2021，178:83-87.

任宪韶,户作亮,曹寅白,等.海河流域水资源综合评价[M].北京:中国水利水电出版社,2007:170-175.

刘钰,汪林,倪广恒,等.中国主要作物灌溉需水量空间分布特征[J].农业工程学报,2009,25(12):6-12.

张光辉，严明疆，田言亮，等.中国主要粮食基地地下水保障能力与评价理论方法[M].北京：科学出版社，2018.

王电龙,冯慧敏,张宝忠,等.降水对华北主要粮食作物灌溉需求影响特征[J].农业机械学报,2023,54(1):298-305.

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