Author(s)

Huilin Wang ¹, Jie Wen ²

Affiliation(s)

¹ Suzhou Polytechnic Institute of Agriculture, Suzhou, 215008, China
² Changshu Institute of Technology, Changshu, 215500, China

Corresponding Author

Jie Wen

ABSTRACT

This paper constructs an ecological carrying capacity index for ecological environment based on the pressure-state-response (PSR) framework model, discusses the coupling coordination of ecological environment pressure, state and response subsystem of the city in china from 2011 to 2021. Through establishing the ecological carrying capacity index and the urban ecological coupling model, predicated the security warning degree of each year. The calculation result indicates that the coordination degree of urban ecological development in Suzhou has been improved year by year, the ecological carrying capacity security index shows an upward tendency from the overall view, and the security warning degree rises from comparative Insecurity to comparative security. The analysis shows that in the process of national ecological civilization construction demonstration zone construction, the ecological resources and environmental policies adopted by Suzhou city have played a great role in promoting ecological security. However, ecological security index in Suzhou is still below 0.6, far from the high security level (0.75), and the government and the public still need to do a lot to improve ecological security.

KEYWORDS

Urban ecological carrying capacity; press-status-response model; security prewarning; Suzhou city

CITE THIS PAPER

Huilin Wang, Jie Wen, Research on the Coupling Coordinated Development of Ecological Environment Pressure State and Response in City. Environment, Resource and Ecology Journal (2023) Vol. 7: 32-42. DOI: http://dx.doi.org/10.23977/erej.2023.070404.

REFERENCES

[1] Xiong J et al., Selected Environmental Assessment Model and Spatial Analysis Method to Explain Correlations in Environmental and Socio-Economic Data with Possible Application for Explaining the State of the Ecosystem. Sustainability 2019; 11: 4781.
[2] Park RE, Burgess EW, Introduction to the science of sociology Chicago. IL: University of Chicago 1921.
[3] Wang L, Liu H, Comprehensive evaluation of regional resources and environmental carrying capacity using a PS-DR-DP theoretical model. J Geogr Sci 2019; 29: 363-376.
[4] Xu W et al., Evaluation methods and case study of regional ecological carrying capacity for early-warning. Progress in geography 2017; 3: 306-312.
[5] K GK, The concept of ecological carrying capacity and its research methods. Ecology and Environmental Sciences 2012; 2: 289-396.
[6] White L, Noble BF, Strategic environmental assessment for sustainability: A review of a decade of academic research. Environ Impact Assess Rev 2013; 42: 60-66.
[7] Peng J, Du Y, Liu Y, Hu X, How to assess urban development potential in mountain areas? An approach of ecological carrying capacity in the view of coupled human and natural systems. Ecol Indic 2016; 60: 1017-1030.
[8] Wei Y, Huang C, Li J, Xie L, An evaluation model for urban carrying capacity: A case study of China's mega-cities. Habitat Int 2016; 53: 87-96.
[9] Kareiva P, Watts S, McDonald R, Boucher T, Domesticated Nature: Shaping Landscapes and Ecosystems for Human Welfare. Science 2007; 316: 1866.
[10] Sherman R, Mullen R, Li H, Fang Z, Wang Y, Alpine ecosystems of northwest Yunnan, China: an initial assessment for conservation. J Mt Sci 2007; 4: 181-192.
[11] Yang Y, Tian K, Hao J, Pei S, Yang Y, Biodiversity and biodiversity conservation in Yunnan, China. Biodiversity & Conservation 2004; 13: 813-826.
[12] Sun B, Tang J, Yu D, Song Z, Wang P, Ecosystem health assessment: A PSR analysis combining AHP and FCE methods for Jiaozhou Bay, China1. Ocean Coast Manag 2019; 168: 41-50.
[13] Bateman IJ et al., Bringing Ecosystem Services into Economic Decision-Making: Land Use in the United Kingdom. Science 2013; 341: 45.
[14] Liu Y et al., Impacts of land-use change on ecosystem service value in Changsha, China. J Cent South Univ 2011;18:420-428.
[15] Wu K, Ye X, Qi Z, Zhang H, Impacts of land use/land cover change and socioeconomic development on regional ecosystem services: The case of fast-growing Hangzhou metropolitan area, China. Cities 2013;31:276-284.
[16] Nakajima ES, Ortega E, Carrying capacity using emergy and a new calculation of the ecological footprint. Ecol Indic 2016;60:1200-1207.
[17] Wang Q, Li S, Li R, Evaluating water resource sustainability in Beijing, China: Combining PSR model and matter-element extension method. J Clean Prod 2019;206:171-179.
[18] Chaosu L, Li T, Application of the Pressure-State-Response Model for the Low-Carbon City Evaluation System. urbanism and architecture 2018:13-17.
[19] Liu RZ, Borthwick AGL, Measurement and assessment of carrying capacity of the environment in Ningbo, China. J Environ Manage 2011;92:2047-2053.
[20] Peishan T, Shengxu S, coupling evaluation on ecological environment and economic development in xia-zhang-quan area urban agglomeration. forestry economics 2018;40:90-95+104.
[21] Sun C, Chen L, Tian Y, Study on the urban state carrying capacity for unbalanced sustainable development regions: Evidence from the Yangtze River Economic Belt. Ecol Indic 2018;89:150-158.
[22] Zhiren H, Jianzhou G, Tianxiang L, Jiaren S, Ecological Security Assessment and Situation Analysis of Pearl River Delta Urban Agglomeration. Ecology and Environmental Sciences 2018;27:304-312.
[23] Tian Y, Sun C, A spatial differentiation study on comprehensive carrying capacity of the urban agglomeration in the Yangtze River Economic Belt. Reg Sci Urban Econ 2018;68:11-22.
[24] Zhang M, Liu Y, Wu J, Wang T, Index system of urban resource and environment carrying capacity based on ecological civilization. Environ Impact Assess Rev 2018;68:90-97.
[25] OECD, OECD Core Set of Indicators for Environmental Performance Reviews: A Synthesis Report, Organisation for Economic Co-operation and Development; 1993.
[26] Hughey KFD, Cullen R, Kerr GN, Cook AJ, Application of the pressure–state–response framework to perceptions reporting of the state of the New Zealand environment. J Environ Manage 2004;70:85-93.
[27] Levrel H, Kerbiriou C, Couvet D, Weber J, OECD pressure–state–response indicators for managing biodiversity: a realistic perspective for a French biosphere reserve. Biodivers Conserv 2008;18:1719.
[28] Li S, Li R, Evaluating Energy Sustainability Using the Pressure-State-Response and Improved Matter-Element Extension Models: Case Study of China. Sustainability 2019;11:290.
[29] Ou C, Liu W, Developing a sustainable indicator system based on the pressure–state–response framework for local fisheries: A case study of Gungliau, Taiwan. Ocean Coast Manag 2010;53:289-300.
[30] Sun T, Lin W, Chen G, Guo P, Zeng Y, Wetland ecosystem health assessment through integrating remote sensing and inventory data with an assessment model for the Hangzhou Bay, China. Sci Total Environ 2016;566-567:627-640.
[31] Cave RR et al., The Humber catchment and its coastal area: from UK to European perspectives. Sci Total Environ 2003;314-316:31-52.
[32] Chung E, Lee KS, Prioritization of water management for sustainability using hydrologic simulation model and multicriteria decision making techniques. J Environ Manage 2009;90:1502-1511.
[33] Yulin Z, Mingjie L, Ronghua G, Security prewarning and Regulation of Ecological Carrying Capacity of Chang-Zhu-Tan Urban Agglomeration Based On press-State-Response Model. Resources and Environment in the Yangtze Basin 2017;26:2057-2064.
[34] Dun Y, Wen-bo C, Land ecological safety in Poyang Lake Eco-economic Zone: An evaluation based on matter-element model. Chinese Journal of Applied Ecology 2011;22:2681-2685.
[35] Li F et al., Measurement indicators and an evaluation approach for assessing urban sustainable development: A case study for China's Jining City. Landsc Urban Plan 2009;90:134-142.
[36] Wang J, Wei X, Guo Q, A three-dimensional evaluation model for regional carrying capacity of ecological environment to social economic development: Model development and a case study in China. Ecol Indic 2018;89:348-355.
[37] Wenhua Z, Ru-Song W, Methodology Assessment of Urban Ecological Security-A Case Study of Beijing. Chinese Journal of Ecology 2005:848-852.
[38] Xue ZY, Xue LY, Yang SY, Long JH, Evaluation of land eco-security based on different evaluation model:a case in Shandong Peninsula Blue Economic Zone. China population, resources and environment 2016;26:207-210.
[39] Liang P, Liming D, Guijie Y, Ecological Security Assessment of Beijing Based on PSR Model. Procedia Environmental Sciences 2010; 2: 832-841.

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