探究工业用水与经济发展之间的关系兼具理论意义和现实意义。基于中国1999—2018年省级面板数据,对全国以及各地区分组进行了工业用水环境库兹涅茨曲线(Environmental Kuznets Curve,EKC)检验,并运用对数平均迪氏指数(Logarithmic Mean Divisia Index,LMDI)方法定量测算了其背后的形成机制。结果表明:①全国、中部地区EKC呈“N”型;东部地区EKC为单调递增的直线;西部地区呈倒“U”型;②低用水低增长组、低用水高增长组、高用水高增长组和高用水低增长组4组的EKC分别为单调递减的直线、倒“U”型曲线、“N”型曲线和“N”型曲线;③3个工业用水驱动因子中,用水效率促进节水、经济扩张驱动用水、产业结构与工业用水量变化率关系曲线呈倒“U”型。结果证实了工业用水EKC的存在及其多样性,并提示政府关注多方因素因地制策以精准施策。
Abstract
Exploring the relationship between industrial water use and economic development has both theoretical and practical significance. Based on the provincial panel data of China from 1999 to 2018, we conducted EKC (Environmental Kuznets Curve) test on the industrial water use of national and regional groupings, and measured the formation mechanism of Kuznets curve using the LMDI(logarithmic mean divisia index) method. Results manifested that: 1) the Kuznets Curves of industrial water use in the whole country and in the central region displayed an “N” shape, in the eastern region a monotonically increasing straight line, and in the western region an inverted “U” shape. 2) Province groups with low industrial water consumption and low industrial growth rate, low industrial water consumption and high industrial growth rate, high industrial water consumption and high industrial growth rate, as well as high industrial water consumption and low industrial growth rate displayed different features in EKCs — monotonically decreasing straight line, inverted “U” shape, “N” shape, and also “N” shape, respectively. 3) Among the three driving factors for industrial water use, water use efficiency promotes water saving; economic expansion drives water use; industrial structure is in an inverted “U”-shaped relation with the change rate of water use. The results confirmed the existence and diversity of the industrial water EKC curve, and reminded the government to take into consideration various factors and adapt to local conditions for precise implementation.
关键词
工业用水 /
库兹涅茨曲线 /
对数平均迪式指数法 /
经济发展 /
水资源经济学
Key words
industrial water use /
Kuznets curve /
logarithmic mean divisia index /
economic development /
water resource economics
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参考文献
[1] 陈晓宏,王佳雯,何艳虎,等. 基于水资源需求场理论的需水驱动力影响分析[J]. 水科学进展, 2018, 29(3): 357-364.
[2] ALLARD A, TAKMAN J, UDDIN G S, et al. The N-shaped Environmental Kuznets Curve: An Empirical Evaluation Using a Panel Quantile Regression Approach[J]. Environmental Science and Pollution Research, 2018, 25(6): 5848-5861.
[3] WANG H, SMALL M J, DZOMBAK D A. Improved Efficiency Reduces U.S. Industrial Water Withdrawals, 2005-2010[J]. Environmental Science & Technology Letters, 2015, 2(4): 79-83.
[4] MUNASINGHE M. Is Environmental Degradation an Inevitable Consequence of Economic Growth: Tunneling Through the Environmental Kuznets Curve[J]. Ecological Economics, 1999, 29(1): 89-109.
[5] PORTER M C, VANDER L. Toward a New Conception of the Environment Competitiveness Relationship[J]. Journal of Economic Perspectives, 1995, 9(5): 97-118.
[6] KUZNETS S S.Economic Growth and Income Inequality[J].The American Economic Review,1955,45(1):1-28.
[7] GROSSMAN G M, KRUEGER A B. Environmental Impacts of a North American Free Trade Agreement[R]. Cambridge: National Bureau of Economic.Research Working Paper Series, 1991.
[8] PANAYOTOU T. Empirical Tests and Policy Analysis of Environmental Degradation at Different Stages of Economic Development[R]. Geneva: International Labour Organization, 1993.
[9] SARKODIE S A, STREZOV V. A Review on Environmental Kuznets Curve Hypothesis Using Bibliometric and Meta-analysis[J]. Science of the Total Environment, 2019, 64(9): 128-145.
[10]DUARTE R, PINILLA V, SERRANO A. Is There an Environmental Kuznets Curve for Water Use? A Panel Smooth Transition Regression Approach[J]. Economic Modelling, 2013, 31(3): 518-527.
[11]ROCK M T. Freshwater Use, Freshwater Scarcity, and Socio-economic Development[J]. Journal of Environment and Development, 1998, 7(3): 278-301.
[12]贾绍凤,张士锋,杨 红,等. 工业用水与经济发展的关系:用水库兹涅茨曲线[J]. 自然资源学报, 2004, 30(3): 279-284.
[13]李 强,王莉芳,贾晓猛. 基于EKC的水资源利用与经济增长关系研究[J]. 科技和产业, 2015, 15(4): 133-136.
[14]张陈俊,章恒全. 新环境库兹涅次曲线: 工业用水与经济增长的关系[J]. 中国人口·资源与环境, 2014, 24(5): 116-123.
[15]张兵兵,沈满洪. 工业用水库兹涅茨曲线分析[J]. 资源科学, 2016, 38(1): 102-109.
[16]BACON D W, WATTS D G. Estimating the Transition Between Two Intersecting Straight Lines[J]. Biometrika, 1971, 58(3): 525-534.
[17]KATZ D L. Water, Economic Growth, and Conflict: Three Studies[D]. Michigan: University of Michigan, 2008.
[18]FOUQUAU J, DESTAIS G, CHRISTOPHE H. Energy Demand Models: A Threshold Panel Specification of the ‘Kuznets Curve'[J]. Applied Economics Letters, 2009, 16(12): 1241-1244.
[19]DINDA S. Environmental Kuznets Curve Hypothesis: A Survey[J]. Ecological Economics, 2004, 49(4): 431-455.
[20]陈晓宏,王佳雯,何艳虎,等. 基于水资源需求场理论的需水驱动力影响分析[J]. 水科学进展, 2018, 29(3): 357-364.
[21]ANG B W. LMDI Decomposition Approach: A Guide for Implementation[J]. Energy Policy, 2015, 86(5): 233-238.
[22]SONG J F, GUO Y N, WU P T, et al. The Agricultural Water Rebound Effect in China[J]. Ecological Economics, 2018, 146(4):497-506.
[23]赵立祥,赵 蓉. 经济增长、能源强度与大气污染的关系研究[J]. 软科学, 2019, 33(6): 60-78.
[24]程 亮,胡 霞,王宗志,等. 工业用水N型环境库兹涅茨曲线及其形成机制:以山东省为例[J]. 水科学进展, 2019, 30(5): 673-681.
基金
教育部人文社会科学研究规划项目(18YJA790009);广东省自然科学基金项目(2018A030313451)
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