Cooperative Strategies for Cross-border Environmental Governance Based on the Damage of Multiple Pollutants
Currently,atmospheric environmental issues are becoming increasingly complex,exhibiting regional and global characteristics.Ecological and environmental issues with regional characteristics such as haze and acid rain,as well as global characteristics such as greenhouse effect and climate change,have become key and hot issues in the field of ecological and environmental protection.Especially,currently a large amount of fossil fuels such as oil,coal,and natural gas are used in China’s energy consumption process,and the combustion of these conventional energy sources can produce multiple pollutants,causing differentiated environmental problems.On the one hand,the combustion of fossil fuels emits sulfur dioxide,and suspended particulate matter,etc.,leading to increasingly prominent regional environmental problems such as acid rain,PM2.5 pollution,and haze pollu-tion.Statistical data shows that haze pollution in China is mainly concentrated in North and Central China,espe-cially in the Beijing Tianjin Hebei region and its surrounding areas.On the other hand,the combustion of fossil fuels emits chlorofluorocarbons(CFCs),nitrous oxide(N2 O),and other pollutants,which accumulate over a long period of time,making global environmental issues such as greenhouse effect,ozone layer depletion,and climate change increasingly acute.Faced with the different damages caused by multiple pollutants,local governments should not only focus on regional ecological environment issues,but also pay attention to global ecological environment issues.However,relying solely on single pollutant control is no longer enough to solve the increasingly complex ecological environ-ment problems.The diversification and complexity of atmospheric environmental problems urgently require the means of air pollution control to shift from single pollutant control to comprehensive control of multiple pollutants.Therefore,in order to deepen the battle against pollution and effectively respond to climate change,it is necessa-ry to focus on synergistic efficiency enhancement,and strengthen the coordinated control of multiple pollutants,and regional coordinated governance.So this article focuses on solving the differentiated environmental problems caused by multiple pollutants,exploring pollution control strategies and their influencing factors,which helps to enrich existing ecological environment protection theories,expand the research perspective of regional synergy,and provide theoretical basis for China to accelerate the construction of a beautiful China and achieve the"dual carbon"goal.At the same time,it provides important support and reference for achieving high-quality develop-ment of the ecological environment,and provides reference for formulating and optimizing multiple pollutants control strategies.In view of this,this article considers the realistic background of different damages caused by multiple(non-accumulative and accumulative)pollutants to the natural environment.With the help of the optimal control theo-ry,an optimal control game model for cross-border pollution is constructed to explore environmental governance strategies between two adjacent regions in non-cooperative and cooperative governance situations,including the degree of pollution control efforts,and investigate the changes in cumulative pollutant stocks over time.The optimal solutions under the two governance models are compared and analyzed.The theoretical and simulation analysis shows that each region will consider the damage caused by its non-accumulative pollutant discharge to its adjacent areas under the cooperative game.The degree of pollution control efforts under cooperative governance in each region may be higher than that under non-cooperative governance.The total income of all regions is higher than that of non-cooperative management,and the cooperative surplus is not only affected by the stock of pollutants,but also by the impact of non-accumulative pollutant emissions on adjacent areas,but it has nothing to do with the impact of non-accumulative pollutant emissions on the source region.Finally,through a numerical simulation analysis,the validity of the model is verified,and the sensitivity of relevant parameters in non-cooper-ative situations is analyzed,which provides a theoretical basis for local governments to carry out joint prevention and control cooperation and pollution control.However,in the research process,this article does not take into account factors such as emission trading and joint execution(JI)mechanisms,and incorporating these factors into scientific research is very meaningful,which is also a direction for further research.
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