|Table of Contents|

Assessment of Water Resources Carrying Capacity andTemporal-spatialVariation Characteristics of NineProvinces Along theYellow River, China(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2024年第03期
Page:
351-363
Research Field:
水资源与水文地质
Publishing date:

Info

Title:
Assessment of Water Resources Carrying Capacity andTemporal-spatialVariation Characteristics of NineProvinces Along theYellow River, China
Author(s):
ZOU Zong-hua123 ZHAO Bin123 CHEN Jie1234* QIAN Hui1234 GAO Yan-yan1234 LI Chun-yan123
(1. School of Water and Environment, Chang'an University, Xi'an 710054,Shaanxi, China; 2. Key Laboratory of Subsurface Hydrology and Ecological Effect in Arid Region of Ministry of Education,Chang'an University, Xi'an 710054, Shaanxi, China; 3. Key Laboratory of Eco-hydrology and Water Security inAridand Semi-arid Regionsof Ministry of Water Resources, Chang'an University, Xi'an 710054,Shaanxi, China; 4.Academy of Yellow River Sciences of Shaanxi Province,Xi'an 710054, Shaanxi, China)
Keywords:
water resource carrying capacity indicator system entropy method VIKOR method temporal and spatial dynamics Mantel test Yellow River
PACS:
TV213.4
DOI:
10.19814/j.jese.2023.12048
Abstract:
Evaluating the coordination among water resources, social economy, and ecologicalenvironment could offer guidance for the utilization and management of water resources in the Yellow River. An evaluation index system for water resources carrying capacity was constructed based on the subsystems of water resources, social economy, and ecological environment. The VIKOR method was utilized to assess the water resources carrying capacity of nine provinces along the Yellow River from 2008 to 2021. Additionally, the Mantel test method was introduced to analyze the categories of water resources carrying capacity and their influencing factors. The results show that the water resources carrying capacity of nine provinces along the Yellow River have exhibited a continuous upward trend from 2008 to 2021. With the enhancement of social and economic development and ecological environment protection, the level of water resources carrying capacity has notably increased after 2015. Spatially, there is a pattern of strong capacity in the west, followed by the east, and weaker capacity in the middle. Among them, Qinghai is the strongest, and Ningxia is the weakest. The types of water resources carrying capacity vary in each province. Qinghai, Gansu and Shaanxi fall under the category of water resources endowment type, while Ningxia and Inner Mongolia are classified as water resources-social economy type. Sichuan, Shanxi, Henan, and Shandong are categorized as comprehensive type. Water resources endowment forms the basis of water resources carrying capacity in nine provinces along the Yellow River. Factors such as water production modulus, per capita water resources, and precipitation depth are key determinants of the water resources subsystem. Moreover, there is a high reliance on the social economy and ecological environment subsystem, which necessitate enhancement through industrial upgrading, improving water use efficiency, and ecological environment protection.

References:

[1] 赵政楠,茹少峰.黄河流域生态补偿的时空格局、区域差异及分布动态演进[J].环境科学,2024,DOI:10.13227/j.hjkx.202312039.
ZHAO Zheng-nan,RU Shao-feng.Spatial-temporal Situation,Regional Differences,and Dynamic Evolution of the Distribution of Ecological Compensation in the Yellow River Basin[J].Environmental Science,2024,DOI:10.13227/j.hjkx.202312039.
[2]陆中桂,康 哲,李 巍,等.量-质-生综合视角下黄河流域地级市水稀缺评估[J].水资源保护,2024,https:∥link.cnki.net/urlid/32.1356.TV.20240229.0952.008.
LU Zhong-gui,KANG Zhe,LI Wei,et al.Assessment of Urban Water Scarcity in the Yellow River Basin Under the Integrated Perspective of Water Quantity-quality-ecology[J].Water Resources Protection,2024,https:∥link.cnki.net/urlid/32.1356.TV.20240229.0952.008.
[3]夏 军,刘柏君,程丹东.黄河水安全与流域高质量发展思路探讨[J].人民黄河,2021,43(10):11-16.
XIA Jun,LIU Bo-jun,CHENG Dan-dong.Discussion on Water Security and High-quality Development of Yellow River Basin[J].Yellow River,2021,43(10):11-16.
[4]王 浩,孟现勇,林 晨.黄河流域生态保护和高质量发展的主要问题及重点工作研究[J].中国水利,2021(18):6-8.
WANG Hao,MENG Xian-yong,LIN Chen.Studies on Key Issues and Major Tasks of Ecological Conservation and High-quality Development in the Yellow River Basin[J].China Water Resources,2021(18):6-8.
[5]陈艳萍,蒋倩倩,刘晶婕.黄河流域“水资源-生态保护-高质量发展”空间均衡性诊断[J].水利经济,2024,42(1):14-20.
CHEN Yan-ping,JIANG Qian-qian,LIU Jing-jie.Spatial Equilibrium Diagnosis of “Water Resources-ecological Protection-high-quality Development” in the Yellow River Basin[J].Journal of Economics of Water Resources,2024,42(1):14-20.
[6]赵豫芝,杨建军.南疆地区水资源承载力及子系统耦合协调性时空格局[J].干旱区研究,2023,40(2):213-233.
ZHAO Yu-zhi,YANG Jian-jun.Spatio-temporal Pattern of Water Resource Carrying Capacity,Coupling and Coordination of Subsystems in Southern Xinjiang[J].Arid Zone Research,2023,40(2):213-233.
[7]李佳佳,张 龙.基于“量-质-域-流”的山西省水资源承载力评价[J].水利规划与设计,2023(11):55-58.
LI Jia-jia,ZHANG Long.Evaluation of Water Resources Carrying Capacity in Shanxi Province Based on Quantity-quality-water Bodies-flow[J].Water Resources Planning and Design,2023(11):55-58.
[8]庞博文,李治军.基于PCA-GA-XGBoost模型的吉林省水资源承载力评价[J].人民珠江,2023,45(4):98-106.
PANG Bo-wen,LI Zhi-jun.Evaluation Research on Water Resource Carrying Capacity of Jilin Province Based on PCA-GA-XGboost Modeling[J].Pearl River,2023,45(4):98-106.
[9]黄梓鑫,李 晶,楚晶晶,等.中国农业水土资源时空匹配特征及影响因素研究[J].人民长江,2024,55(2):116-124.
HUANG Zi-xin,LI Jing,CHU Jing-jing,et al.Spatiotemporal Matching Characteristics and Influencing Factors of Agricultural Water and Soil Resources in China[J].Yangtze River,2024,55(2):116-124.
[10]张志君,陈伏龙,龙爱华,等.基于模糊集对分析法的新疆水资源安全评价[J].水资源保护,2020,36(2):53-58,78.
ZHANG Zhi-jun,CHEN Fu-long,LONG Ai-hua,et al.Xinjiang Water Resources Security Evaluation Based on Fuzzy Set Pair Analysis[J].Water Resources Protection,2020,36(2):53-58,78.
[11]张 惠,张代青,陈艺菁,等.基于不确定性分析方法的水资源承载力评价研究[J].水力发电,2022,48(7):16-21.
ZHANG Hui,ZHANG Dai-qing,CHEN Yi-jing,et al.Research on Water Resources Carrying Capacity Evaluation Based on Uncertainty Analysis Methods[J].Water Power,2022,48(7):16-21.
[12]WANG D L,HUANG Z Y,WANG Y D,et al.Ecological Security of Mineral Resource-based Cities in China:Multidimensional Measurements,Spatiotemporal Evolution,and Comparisons of Classifications[J].Ecological Indicators,2021,132:108269.
[13]温 芮,石晓昕,钱 会.基于DPSIR-TOPSIS及耦合协调度的安徽水资源承载力的时空变化[J].水资源与水工程学报,2023,34(6):88-97.
WEN Rui,SHI Xiao-xin,QIAN Hui.Spatio-temporal Variation of Water Resources Carrying Capacity in Anhui Province Based on DPSIR-TOPSIS Model and Coupling Coordination[J].Journal of Water Resources and Water Engineering,2023,34(6):88-97.
[14]吴明艳,曾晓春,刘兴德,等.基于熵权TOPSIS模型的西北五省区水资源承载力评价研究[J].中国农村水利水电,2022(12):78-85,92.
WU Ming-yan,ZENG Xiao-chun,LIU Xing-de,et al.Research on the Evaluation of Water Resources Carrying Capacity in Five Northwest Provinces Based on Entropy TOPSIS Model[J].China Rural Water and Hydropower,2022(12):78-85,92.
[15]杨海燕,孙晓博,程小文,等.基于VIKOR法的潍坊市水资源承载力综合评价[J].环境科学学报,2020,40(2):716-723.
YANG Hai-yan,SUN Xiao-bo,CHENG Xiao-wen,et al.Comprehensive Evaluation of Water Resources Carrying Capacity in Weifang Based on the VIKOR Method[J].Acta Scientiae Circumstantiae,2020,40(2):716-723.
[16]谭 豪,脱云飞,王 倩,等.基于CRITIC-VIKOR法的云南省水资源承载力综合评价[J].水资源与水工程学报,2023,34(4):118-126.
TAN Hao,TUO Yun-fei,WANG Qian,et al.Comprehensive Evaluation of Water Carrying Capacity of Yunnan Province Based on CRITIC-VIKOR Method[J].Journal of Water Resources and Water Engineering,2023,34(4):118-126.
[17]HE L,DU Y,YU M L,et al.A Stochastic Simulation-based Method for Predicting the Carrying Capacity of Agricultural Water Resources[J].Agricultural Water Management,2024,291:108630.
[18]ANAMAGHI S,BEHBOUDIAN M,MAHJOURI N,et al.A Resilience-based Framework for Evaluating the Carrying Capacity of Water and Environmental Resources Under the Climate Change[J].Science of the Total Environment,2023,902:165986.
[19]刘 欢,宋孝玉,李 磊,等.中国31省(市、自治区)水资源承载力评价及预测研究[J].干旱地区农业研究,2023,41(4):226-237.
LIU Huan,SONG Xiao-yu,LI Lei,et al.Evaluation and Prediction of Water Resources Carrying Capacity in 31 Provinces,Municipalities and Autonomous Regions of China[J].Agricultural Research in the Arid Areas,2023,41(4):226-237.
[20]AIT-AOUDIA M N,BEREZOWSKA-AZZAG E.Water Resources Carrying Capacity Assessment:The Case of Algeria's Capital City[J].Habitat International,2016,58:51-58.
[21]OPRICOVIC S.Multicriteria Optimization of Civil Engineering Systems[D].Belgrade:University of Belgrade,1998.
[22]YANG H Y,TAN Y N,SUN X B,et al.Comprehensive Evaluation of Water Resources Carrying Capacity and Analysis of Obstacle Factors in Weifang City Based on Hierarchical Cluster Analysis-VIKOR Method[J].Environmental Science and Pollution Research,2021,28(36):50388-50404.
[23]魏建涛,李治军.基于博弈论组合赋权-VIKOR模型的洛阳市水资源承载力评价研究[J].吉林水利,2023(8):21-27.
WEI Jian-tao,LI Zhi-jun.Evaluation of Water Resources Carrying Capacity in Luoyang City Based on Game Theory Combinatorial Weighting-VIKOR Model[J].Jilin Water Resources,2023(8):21-27.
[24]李治军,周 博.基于CRITIC-VIKOR法的哈尔滨市水资源承载力综合评价[J].水利规划与设计,2024(2):44-47,71.
LI Zhi-jun,ZHOU Bo.Comprehensive Evaluation of Water Resources Carrying Capacity in Harbin City Based on CRITIC-VIKOR Method[J].Water Resources Planning and Design,2024(2):44-47,71.
[25]CHEN Q Y,ZHU M T,ZHANG C J,et al.The Driving Effect of Spatial-temporal Difference of Water Resources Carrying Capacity in the Yellow River Basin[J].Journal of Cleaner Production,2023,388:135709.
[26]左其亭,张志卓,吴滨滨.基于组合权重TOPSIS模型的黄河流域九省区水资源承载力评价[J].水资源保护,2020,36(2):1-7.
ZUO Qi-ting,ZHANG Zhi-zhuo,WU Bin-bin.Evaluation of Water Resources Carrying Capacity of Nine Provinces in Yellow River Basin Based on Combined Weight TOPSIS Model[J].Water Resources Protection,2020,36(2):1-7.
[27]贺梦微,杨小林.2010~2019年黄河流域水资源承载力时空动态研究[J].水利科学与寒区工程,2022,5(6):59-63.
HE Meng-wei,YANG Xiao-lin.Spatial-temporal Dynamics of Water Resources Carrying Capacity in the Yellow River Basin from 2010 to 2019[J].Hydro Science and Cold Zone Engineering,2022,5(6):59-63.
[28]唐家凯,丁文广,李玮丽,等.黄河流域水资源承载力评价及障碍因素研究[J].人民黄河,2021,43(7):73-77.
TANG Jia-kai,DING Wen-guang,LI Wei-li,et al.Study on Evaluation of Water Resources Carrying Capacity and Obstacle Factors in the Yellow River Basin[J].Yellow River,2021,43(7):73-77.
[29]何 苗,任保平.黄河流域生态保护与高质量发展耦合协调的协同推进机制[J].经济与管理评论,2024,40(1):15-29.
HE Miao,REN Bao-ping.A SynergisticMechanism for Coupling and Coordinating High-quality Development and Ecological Protection in the Yellow River Basin[J].Review of Economy and Management,2024,40(1):15-29.
[30]HE Z H,GONG K Y,ZHANG Z L,et al.What Is the Past,Present,and Future of Scientific Research on the Yellow River Basin?—A Bibliometric Analysis[J].Agricultural Water Management,2022,262:107404.
[31]唐家凯.沿黄河九省区水资源承载力评价与障碍因素研究[D].兰州:兰州大学,2021.
TANG Jia-kai.Research on Evaluation and Obstacle Factors of Water Resources Carrying Capacity of Nine Provinces and Regions Along the Yellow River [D].Lanzhou:Lanzhou University,2021.
[32]蒋忙舟,杨 志,张晓明,等.基于DPSIR模型的西北五省区水安全评价[J].地球科学与环境学报,2022,44(3):535-544.
JIANG Mang-zhou,YANG Zhi,ZHANG Xiao-ming,et al.Assessment of Water Security in Shaanxi,Gansu,Ningxia,Qinghai and Xinjiang,Northwest China Based on DPSIR Model[J].Journal of Earth Sciences and Environment,2022,44(3):535-544.
[33]蒋 兵,付华健,张力元.黄河流域绿色科技创新竞争力时空分异演变及障碍因素[J].地球科学与环境学报,2024,46(1):14-24.
JIANG Bing,FU Hua-jian,ZHANG Li-yuan.Spatiotemporal Variation and Obstacle Factors of Green Technology Innovation Competitiveness in Yellow River Basin,China[J].Journal of Earth Sciences and Environment,2024,46(1):14-24.
[34]冯俊华,王 倩,郑广文.黄河流域科技创新与新型城镇化耦合协调发展测度[J].地球科学与环境学报,2022,44(5):826-838.
FENG Jun-hua,WANG Qian,ZHENG Guang-wen.Calculation on Coupling and Coordinated Development of Scientific-technological Innovation and New Urbanization in Yellow River Basin,China[J].Journal of Earth Sciences and Environment,2022,44(5):826-838.
[35]孙 斌,徐 渭,薛建春,等.黄河流域城市群城镇化与生态环境耦合协调预测[J].地球科学与环境学报,2021,43(5):887-896.
SUN Bin,XU Wei,XUE Jian-chun,et al.Prediction of Coupling and Coordination Between Urbanization and Eco-environment of Urban Agglomerations in Yellow River Basin,China[J].Journal of Earth Sciences and Environment,2021,43(5):887-896.
[36]夏 添,彭洋洋,周 亚.基于VIKOR改进的偏好概率语言算子及其多准则群决策应用[J].价值工程,2016,35(31):172-176.
XIA Tian,PENG Yang-yang,ZHOU Ya.A Preferential Probabilistic Language Operator Based on Improved VIKOR and Its Application in Multiple Attribute Group Decision Making[J].Value Engineering,2016,35(31):172-176.
[37]王 磊,姚星娜.基于一类新的Picture模糊距离的VIKOR多属性决策方法[J].运筹与管理,2022,31(5):49-54.
WANG Lei,YAO Xing-na.VIKOR Multi-attribute Decision Approach with the Aid of a Novel Picture Fuzzy Distance[J].Operations Research and Management Science,2022,31(5):49-54.
[38]YANG Z Y,SONG J X,CHENG D D,et al.Comprehensive Evaluation and Scenario Simulation for the Water Resources Carrying Capacity in Xi'an City,China[J].Journal of Environmental Management,2019,230:221-233.
[39]谢 捷,刘 玮,徐月顺,等.基于AHP-熵权法的西宁地区汛期暴雨灾害风险评估[J].自然灾害学报,2022,31(3):60-74.
XIE Jie,LIU Wei,XU Yue-shun,et al.Rainstorm Disaster Risk Assessment in Xining Area in Rainy Season Based on the AHP Weight Method and Entropy Weight Method[J].Journal of Natural Disasters,2022,31(3):60-74.
[40]田 培,张志好,许新宜,等.基于变权TOPSIS模型的长江经济带水资源承载力综合评价[J].华中师范大学学报(自然科学版),2019,53(5):755-764.
TIAN Pei,ZHANG Zhi-hao,XU Xin-yi,et al.Comprehensive Evaluation of Water Resources Carrying Capacity in the Yangtze River Economic Belt Based on Variable Weight TOPSIS Model[J].Journal of Central China Normal University(Natural Sciences),2019,53(5):755-764.
[41]MANTEL N.The Detection of Disease Clustering and a Generalized Regression Approach[J].Cancer Research,1967,27(2):209-220.
[42]吴 霞,蔡进军,王长军,等.银川平原农田土壤细菌群落结构与驱动因子分析[J].干旱区资源与环境,2023,37(10):126-134.
WU Xia,CAI Jin-jun,WANG Zhang-jun,et al.Bacterial Community Structure and Its Driving Factors in Farmland Soil of Yinchuan Plain[J].Journal of Arid Land Resources and Environment,2023,37(10):126-134.
[43]李善家,王兴敏,刘海锋,等.河西走廊荒漠植物多样性及其对环境因子的响应[J].生态环境学报,2023,32(3):429-438.
LI Shan-jia,WANG Xing-min,LIU Hai-feng,et al.Diversity of Desert Plants in Hexi Corridor and Its Response to Environmental Factors[J].Ecology and Environmental Sciences,2023,32(3):429-438.
[44]陈 林,杨新国,王 磊,等.荒漠草原不同植物群落蒸散组分特征及其环境因子影响分析[J].生态学报,2024,44(1):330-342.
CHEN Lin,YANG Xin-guo,WANG Lei,et al.Characteristics of Evapotranspiration Components of Different Plant Communities in Desert Steppe and Its Relationship with Environmental Factors[J].Acta Ecologica Sinica,2024,44(1):330-342.
[45]SUN X R,ZHOU Z X,WANG Y.Water Resource Carrying Capacity and Obstacle Factors in the Yellow River Basin Based on the RBF Neural Network Model[J].Environmental Science and Pollution Research,2023,30(9):22743-22759.
[46]左其亭,张修宇.气候变化下水资源动态承载力研究[J].水利学报,2015,46(4):387-395.
ZUO Qi-ting,ZHANG Xiu-yu.Dynamic Carrying Capacity of Water Resources Under Climate Change[J].Journal of Hydraulic Engineering,2015,46(4):387-395.
[47]FOWLER H J,ALI H,ALLAN R P,et al.Towards Advancing Scientific Knowledge of Climate Change Impacts on Short-duration Rainfall Extremes[J].Philosophical Transactions of the Royal Society A:Mathematical, Physical and Engineering Sciences,2021,379:20190542.
[48]THOMAS B F,NANTEZA J.Global Assessment of the Sensitivity of Water Storage to Hydroclimatic Variations[J].Science of the Total Environment,2023,879:162958.
[49]杨大文,杨雨亭,高光耀,等.黄河流域水循环规律与水土过程耦合效应[J].中国科学基金,2021,35(4):544-551.
YANG Da-wen,YANG Yu-ting,GAO Guang-yao,et al.Water Cycle and Soil-water Coupling Processes in the Yellow River Basin[J].Bulletin of National Natural Science Foundation of China,2021,35(4):544-551.
[50]马柱国,符淙斌,周天军,等.黄河流域气候与水文变化的现状及思考[J].中国科学院院刊, 2020,35(1):52-60.
MA Zhu-guo,FU Cong-bin,ZHOU Tian-jun,et al.Status and Ponder of Climate and Hydrology Changes in the Yellow River Basin[J].Bulletin of Chinese Academy of Sciences,2020,35(1):52-60.
[51]张 森,王思如,张玉珍,等.基于ANP方法的水资源承载力模糊综合评价[J].绿色科技,2019(18):66-69.
ZHANG Sen,WANG Si-ru,ZHANG Yu-zhen,et al.Fuzzy Comprehensive Evaluation of Water Resources Carrying Capacity Based on ANP Method[J].Journal of Green Science and Technology,2019(18):66-69.
[52]VAN VLIET M T H,FLÖRKE M,WADA Y.Quality Matters for Water Scarcity[J].Nature Geoscience,2017,10:800-802.
[53]吕海洋,党秀丽,朱影影,等.河南省典型工业区地下水水质分析及重金属健康风险评价[J].农业环境科学学报,2023,42(12):2740-2751.
LYU Hai-yang,DANG Xiu-li,ZHU Ying-ying,et al.Groundwater Quality Analysis and Health Risk Assessment of Heavy Metals in Industrial Areas of Henan Province,China[J].Journal of Agro-environment Science,2023,42(12):2740-2751.
[54]JIANG D Y,YANG J Q,WANG Y Y,et al.Surface Water Quality and Potential Health Risk Assessments in Changsha-Zhuzhou-Xiangtan Section of Xiangjiang River,China[J].Journal of Central South University,2019,26(12):3252-3260.
[55]何 佳,时 迪,王贝贝,等.10种典型重金属在八大流域的生态风险及水质标准评价[J].中国环境科学,2019,39(7):2970-2982.
HE Jia,SHI Di,WANG Bei-bei,et al.Ecological Risk Assessment and Water Quality Standard Evaluation of 10 Typical Metals in Eight Basins in China[J].China Environmental Science,2019,39(7):2970-2982.
[56]JIN W,LI Y,LU L,et al.Water Quality Assessment of East Tiaoxi River,China,Based on a Comprehensive Water Quality Index Model and Monte-Carlo Simulation[J].Scientific Reports,2022,12(1):10042.

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Last Update: 2024-05-30