[1]王成军,赵 丹,王秉琦,等.基于DPSIR理论的水环境协调发展及时空演化研究[J].西安建筑科技大学学报(自然科学版),2022,54(03):466-474.[doi:10.15986/j.1006-7930.2022.03.018]
 WANG Chengjun,ZHAO Dan,WANG Bingqi,et al.Study on coordinated development and spatio-temporal evolution of water environment based on DPSIR theory[J].J. Xi'an Univ. of Arch. & Tech.(Natural Science Edition),2022,54(03):466-474.[doi:10.15986/j.1006-7930.2022.03.018]
点击复制

基于DPSIR理论的水环境协调发展及时空演化研究()
分享到:

西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
54
期数:
2022年03期
页码:
466-474
栏目:
出版日期:
2022-06-28

文章信息/Info

Title:
Study on coordinated development and spatio-temporal evolution of water environment based on DPSIR theory
文章编号:
1006-7930(2022)03-0466-09
作者:
王成军1赵 丹1王秉琦2冯 涛1张 炜1董明放1
(1.西安建筑科技大学 管理学院,陕西 西安 710055; 2.陕西省地质调查院,陕西 西安 710054)
Author(s):
WANG Chengjun1 ZHAO Dan1 WANG Bingqi2 FENG Tao1 ZHANG Wei1 DONG Mingfang1
(1.School of Management, Xi'an Univ. of Arch. & Tech.,Xi'an 710055,China; 2.Shaanxi Geological Survey, Xi'an 710054,China)
关键词:
DPSIR理论 耦合协调模型 时空演化 陕西省
Keywords:
DPSIR theory coupling coordination model spatio-temporal evolution Shaanxi province
分类号:
X703
DOI:
10.15986/j.1006-7930.2022.03.018
文献标志码:
A
摘要:
为探究陕西省水环境协调可持续发展状态,基于DPSIR理论(即驱动力-压力-状态-影响-响应)构建陕西省水环境评价指标体系,运用熵值法、耦合协调模型、面板模型等测算并分析陕西省2004—2019年10个地级市水环境耦合协调发展时空演化规律及影响因素.结果表明:从时序动态演变来看,陕西省水环境DPSIR系统协调发展程度在2004—2010年为勉强失调,2011转为初级失调,2019年提高到中级协调,虽达到了协调程度但距良好协调仍有很大距离; 从空间分布来看,可将陕西省内各地级市分为三个协调程度层次,第一个层次为延安、榆林、西安和宝鸡,在2019年达到了中级协调或良好协调状态,第二层次为咸阳、渭南、商洛、安康和汉中,最后一个层次为铜川市,发展较慢且在2019年仍处于濒临失调阶段; 从影响因素分析,影响水环境协调的四个显著影响因素分别是人口自然增长率、万元GDP用水量、湿地保护率和地表水水质优良比例.综合以上,本文提出了四个方面的政策建议,以期为陕西省水环境协调发展提供一定借鉴.
Abstract:
In order to explore the coordinated and sustainable development of water environment in Shaanxi Province, a water environment evaluation index system in Shaanxi Province was constructed based on the DPSIR theory(ie, driving force-pressure-state-influence-response). And analyze the temporal and spatial evolution law and influencing factors of water environment coupling and coordinated development in 10 prefecture-level cities in Shaanxi Province from 2004 to 2019. The results show that from the perspective of time series dynamic evolution, the degree of coordinated development of the water environment DPSIR system in Shaanxi Province was barely out of balance from 2004 to 2010, turned into primary imbalance in 2011, and increased to intermediate coordination in 2019. Although it has reached the degree of coordination, it is far from good coordination. There is still a lot of distance. From the perspective of spatial distribution, the local-level cities in Shaanxi Province can be divided into three levels of coordination. The first level is Yan'an, Yulin, Xi'an and Baoji, which reached the intermediate level of coordination or good in 2019. Coordinated state; the second level is Xianyang, Weinan, Shangluo, Ankang and Hanzhong; the last level is Tongchuan City, which has developed slowly and is still on the verge of imbalance in 2019. From the analysis of influencing factors, the four significant influencing factors affecting the coordination of water environment are the natural population growth rate, the water consumption per 10,000 yuan of GDP, the wetland protection rate and the ratio of good surface water quality. Based on the above, this paper puts forward policy suggestions in four aspects, in order to provide some reference for the coordinated development of water environment in Shaanxi Province.

参考文献/References:

[1]查木哈,吴琴,马成功,等.基于DPSIR模型评价内蒙古水环境承载力[J].内蒙古农业大学学报(自然科学版),2020,41(6):65-73.
Chamuha, WU Qin, MA Chenggong, et al. Evaluation of water anvironmental carrying capacity based on DPSIR model in inner mongolia[J]. Journal of Inner Mongolia Agricultural University(Natural Science Edition),2020,41(6):65-73.
[2]王国重,李中原,张继宇,等.故县水库水环境安全评估[J].水文,2020,40(1):64-69.
WANG Guozhong, LI Zhongyuan, ZHANG Jiyu, et al. Water environment safety assessment of guxian reservoir[J]. Hydrology,2020,40(1):64-69.
[3]赵毅,徐绪堪,李晓娟.基于变权灰色云模型的江苏省水环境系统脆弱性评价[J].长江流域资源与环境,2018,27(11):2463-2471.
ZHAO Yi, XU Xukan, LI Xiaojuan. Vulnerability assessment of water environment system in Jiangsu province based on variable weight grey cloud model[J]. Resource and Environment in the Yangtze River Basin,2018,27(11):2463-2471.
[4]李丽丽,戴梦圆,李东风.浙江水环境承载力与新型城镇化协调发展研究[J].中国农村水利水电,2021(11):43-48.
LI Lili, DAI Mengyuan, LI Dongfeng. Research on the coordinated development of water environment carrying capacity and new urbanization in Zhejiang[J]. Water Conservancy and Hydropower in China's Rural Areas,2021(11):43-48.
[5]王洁方,周云,田晨萌.多维视角下黄河流域水环境与社会经济协调性研究[J].人民黄河,2021,43(7):94-99,113.
WANG Jiefang, ZHOU Yun, TIAN Chenmeng. Research on the coordination between water environment and social economy in the Yellow River basin from a multi-dimensional perspective[J]. People's Yellow River,2021,43(7):94-99,113.
[6]窦文康,王泽平,方金鑫,等.旅游活动与水环境耦合分析——以玉龙雪山-丽江盆地为例[J].冰川冻土,2021,43(4):1210-1217.
DOU Wenkang, WANG Zeping, FANG Jinxin, et al. Coupling analysis of tourism activities and water environment: Taking Yulong snow mountain-Lijiang Basin as an example[J]. Glacier Permafrost,2021,43(4):1210-1217.
[7]吕府红. 长江经济带省域水环境安全评估与比较研究[D].武汉:中南财经政法大学,2019.
Lv Fuhong. Assessment and comparative study of water environment safety in the Yangtze River economic belt provinces[D]. Wuhan: Zhongnan University of Economics and Law,2019.
[8]刘志明,周召红,王永强,等.区域水资源承载力及可持续发展综合评价研究[J].人民长江,2019,50(3):145-150.
LIU Zhiming, ZHOU Zhaohong, WANG Yongqiang, et al. Research on comprehensive evaluation of regional water resources carrying capacity and sustainable development[J]. People's Yangtze River,2019,50(3):145-150.
[9]李润卓,赵雪花,王畅.桑干河流域水环境承载力评价[J].中国农村水利水电,2021(8):43-46,53.
LI Runzhuo, ZHAO Xuehua, WANG Chang. Evaluation of water environment carrying capacity in the Sanggan River Basin[J]. China Rural Water Conservancy and Hydropower,2021(8):43-46,53.
[10]任晓强,李娜,管孝艳,等.白洋淀上游河流水环境风险评价[J].中国农村水利水电,2020(2):27-33.
REN Xiaoqiang, LI Na, GUAN Xiaoyan, et al. Risk assessment of water environment in the upper reaches of Baiyangdian River[J]. Water Conservancy and Hydropower in China's Rural Areas,2020(2):27-33.
[11]匡佳丽,唐德善.基于熵权模糊综合模型的水污染风险评价——以鄱阳湖流域为例[J].人民长江,2021,52(9):32-37,45.
KUANG Jiali, TANG Deshan. Water pollution risk assessment based on entropy weight fuzzy comprehensive model: Taking the Poyang Lake Basin as an example[J]. People's Yangtze River,2021,52(9):32-37,45.
[12]徐存东,王鑫,刘子金,等.基于云模型的干旱扬水灌区地下水环境状态综合评价[J].水利水电技术,2021,52(12):166-177.
XU Cundong, WANG Xin, LIU Zijin, et al. Comprehensive evaluation of groundwater environmental status in arid pumping irrigation area based on cloud model[J].Water Conservancy and Hydropower Technology,2021,52(12):166-177.
[13]袁宏川,彭勃,李新哲.基于DPSIR模型的长江流域中部地区水环境治理绩效评价[J].水电能源科学,2021,39(5):61-65.
YUAN Hongchuan, PENG Bo, LI Xinzhe. Performance evaluation of water environment governance in the central region of the Yangtze River basin based on DPSIR model[J]. Hydropower and Energy Science,2021,39(5):61-65.
[14]白庆芹,武俊杰,郝守宁.基于DPSIR模型的西藏水资源脆弱性评价[J].人民长江,2019,50(6):98-103.
BAI Qingqin, WU Junjie, HAO Shouning. Vulnerability assessment of Tibet's water resources based on DPSIR model[J]. People's Yangtze River,2019,50(6):98-103.
[15]王英刚,邬松柏,赵传起,等.辽宁铁岭水环境承载力综合评价[J].环境污染与防治,2021,43(6):738-740,771.
WANG Yinggang, WU Songbai, ZHAO Chuanqi, et al. Comprehensive evaluation of water environment carrying capacity in Tieling, Liaoning[J]. Environmental Pollution and Prevention,2021,43(6):738-740,771.
[16]郑博福,范焰焰,任艳红,等.典型河网地区水环境承载力评估——以长兴县为例[J].中国农村水利水电,2020(7):54-59.
ZHENG Bofu, FAN Yanyan, REN Yanhong, et al. Evaluation of water environment carrying capacity in typical river network areas: Taking Changxing County as an example[J]. Water Resources and Hydropower in China's Rural Areas,2020(7):54-59.
[17]曹文平,刘喜坤,赵天晴,等.基于压力-状态-响应(PSR)模型的潘安湖湿地水环境健康评价[J].环境工程,2021,39(5):231-237,245.
CAO Wenping, LIU Xikun, ZHAO Tianqing, et al. Health assessment of Pan'an Lake wetland water environment based on pressure-state-response(PSR)model[J].Environmental Engineering,2021,39(5):231-237,245.
[18]万生新,王悦泰.基于DPSIR模型的沂河流域水生态安全评价方法[J].山东农业大学学报(自然科学版),2019,50(3):502-508.
WAN Shengxin, WANG Yuetai. Evaluation method of water ecological security in Yihe River Basin based on DPSIR model[J]. Journal of Shandong Agricultural University(Natural Science Edition),2019,50(3):502-508.
[19]庞新生.缺失数据多重插补处理方法的算法实现[J].统计与决策,2012(11):88-90.
PANG Xinsheng. Algorithm implementation of multiple imputation processing method for missing data[J]. Statistics and Decision,2012(11):88-90.
[20]王成,唐宁.重庆市乡村三生空间功能耦合协调的时空特征与格局演化[J].地理研究,2018,37(6):1100-1114.
WANG Cheng, TANG Ning. The spatio-temporal characteristics and pattern evolution of the coupling and coordination of three-life spatial functions in the rural areas of Chongqing[J]. Geographical Research,2018,37(6):1100-1114.
[21]邢霞,修长百,刘玉春.黄河流域水资源利用效率与经济发展的耦合协调关系研究[J].软科学,2020,34(8):44-50.
XING Xia, XIU Changbai, LIU Yuchun. Study on the coupling and coordination relationship between water resource utilization efficiency and economic development in the Yellow River Basin[J].Soft Science,2020,34(8):44-50.
[22]张文爱,王俊然.经济—生态—社会复合系统的耦合协调发展研究——对重庆的实证检验[J].重庆理工大学学报(社会科学版), 2021,35(2): 39-49.
ZHANG Wenai, WANG Junran. Research on the coupling and coordinated development of the economic-ecological-social complex system: An empirical test for Chongqing[J]. Journal of Chongqing University of Technology(Social Science Edition),2021,35(2): 39-49.
[23]钱丽,陈忠卫,肖仁桥.中国区域工业化、城镇化与农业现代化耦合协调度及其影响因素研究[J].经济问题探索,2012(11):10-17.
QIAN Li, CHEN Zhongwei, XIAO Renqiao. Research on the coupling coordination degree and influencing factors of China's regional industrialization, urbanization and agricultural modernization[J]. Exploration of Economic Issues,2012(11):10-17.

备注/Memo

备注/Memo:
收稿日期:2021-10-27修改稿日期:2022-04-14
基金项目:陕西省公益性地质调查基金项目(202107); 陕西省自然科学基金项目(2019JM-464)
第一作者:王成军(1964—),男,教授,博导,研究方向为资源系统优化、区域资源可持续发展.E-mail:846246702@qq.com.通信作者:赵 丹(1998—),女,硕士,研究方向为资源系统优化、区域资源可持续发展.E-mail:1296973872@qq.com
更新日期/Last Update: 2022-06-28