Study on regional fairness of water for grain production in China from the perspective of water footprint

doi:10.14088/j.cnki.issn0439-8114.2024.07.030

Abstract

Abstract: From the perspective of water footprint, four indicators of economic added value,opportunity cost, cultivated land area and water resource endowment were selected from both economy and resource aspects. With the help of Gini coefficient, the fairness evaluation model was systematically constructed to study the fairness of water for grain production in China from 2015 to 2020. The results showed that from the perspective of time dimension, the overall situation of water for grain production in China was in the state of “absolute fairness”from 2015 to 2020, and water resource endowment would be the main factor restricting the fairness of water for grain production in China in the future. From the perspective of spatial dimension, most provinces （municipalities and autonomous regions） in China belonged to low unfairness areas. High unfairness provinces（municipalities and autonomous regions） were mainly located in the western and northern regions of China. Based on this, suggestions were put forward to improve regional fairness of water use for grain production in China and alleviate regional water pressure, such as establishing a scientific and reasonable ecological compensation mechanism, pushing cross-regional water planning cooperation, optimizing the industrial structure according to local conditions and promoting the scientific management and protection of the “two districts”.

Key words: water footprint, water for grain production, regional fairness, Gini coefficient

CLC Number:

ZHANG Yu-ning, WU Zhao-dan. Study on regional fairness of water for grain production in China from the perspective of water footprint[J]. HUBEI AGRICULTURAL SCIENCES, 2024, 63(7): 185-191.

References

[1] 曾勰婷,张忠明,王静香,等.中国粮食消费需求分析与展望[J].农业展望,2021,17(7):104-114.
[2] 尚杰,于浩然,杨旭.农业用水效率时空差异与影响因素分析[J].中国农业科技导报,2022,24(3):11-19.
[3] HOEKSTRA A Y, HUNG P Q.Virtual water trade: A quantification of virtual water flows between nations in relation to international crop trade[A]. Value of water research report series:No. 12[C]. Delft, IHE, 2003.13-23.
[4] CHAPAGAIN A K,HOEKSTRA A Y.Water footprints of nations[A]. Value of water research report series:No. 16[C]. Delft, IHE, 2004.1-80.
[5] 徐依婷,穆月英.粮食生产水足迹动态演变及分解效应[J].华南农业大学学报(社会科学版),2020,19(3):70-83.
[6] 李计初. 改善灌溉农业生产条件确保国家粮食安全——访国际灌排委员会主席高占义[J].中国水利,2012(6):14-15.
[7] CAO X C,ZENG W,WU M Y, et al.Water resources efficiency assessment in crop production from the perspective of water footprint[J]. Journal of cleaner production,2021,309(2):127371.
[8] YU H,LIU K L,BAI Y Y, et al.The agricultural planting structure adjustment based on water footprint and multi-objective optimisation models in China[J]. Journal of cleaner production,2021, 297(4):126646.
[9] 董璐,孙才志,邹玮, 等.水足迹视角下中国用水公平性评价及时空演变分析[J].资源科学,2014,36(9):1799-1809.
[10] 张钰宁,景晓栋,田贵良.基于知识图谱的中国水足迹研究进展分析[J].人民长江,2023,54(4):114-122.
[11] 刘楚杰,李晓云,聂媛.基于重心模型的粮食生产与水资源时空耦合分析[J].农业现代化研究,2021,42(6):1026-1036.
[12] 马超. 粮食生产重心北移进程中的“虚拟水”流动效应分析[J].水利发展研究,2014,14(4):21-27.
[13] 夏文雪,张兵,何明霞, 等.水足迹视角下京津冀县域粮食作物水土资源匹配格局[J].中国农业资源与区划,2022,43(9):22-33.
[14] 操信春,吴普特,王玉宝,等.中国灌区粮食生产水足迹及用水评价[J].自然资源学报,2014,29(11):1826-1835.
[15] 王杰,龙爱华,杨广, 等.近25 a来新疆农作物水足迹与经济增长的空间关系分析[J].干旱区地理,2019,42(3):526-533.
[16] 郑晓雪,秦丽杰.不同降水年型吉林省中部玉米生产水足迹研究[J].浙江农业学报,2019,31(5):695-703.
[17] 刘巍,李雨晴,付强,等.黑龙江省粮食水足迹时空分布规律与影响因素分析[J].农业机械学报,2020,51(8):214-222,335.
[18] 朱凯. 不同类型数据下基尼系数的计算方法[J].内江科技,2018,39(9):43-44,30.
[19] 李芳,李东坪.基于熵权法的组合评价模型[J].信息技术与信息化,2021(9):148-150.
[20] 马海良,王若梅,訾永成.中国省际水资源利用的公平性研究[J].中国人口·资源与环境,2015,25(12):70-77.
[21] 李贺娟,李万明.“一带一路”背景下西北干旱地区水资源与经济生产要素匹配关系研究[J].节水灌溉,2016(11):67-70.
[22] 谭经建. 浅析新冠肺炎疫情对农业产业的影响[J].山西农经,2020(20):59-60.
[23] 朱莹,李薇.江苏农业发展现状及受新冠疫情影响与对策[J].农业经济,2020(12):15-17.
[24] 吴惠梅,李忠慧,朱亮, 等.有序样品聚类的最优分割法在地层特性评价中的应用[J].石油天然气学报,2008(2):460-462.