Dynamic Optimal Strategies for Multiple Pollutants in Transboundary Pollution Game between Two Asymmetric Regions

Under the fact that there are multiple pollutants, non-cumulative and cumulative pollutants, generated by two adjacent asymmetric regions, which result in transboundary pollution, we proposed a dynamic transboundary pollution treatment model to study how two adjacent asymmetric regions make their po...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2020-11, Vol.581 (1), p.12034
Main Authors: Ling, Xingyuan, Meng, Weidong, Huang, Bo, Wang, Chunyang, Li, Yuyu
Format: Article
Language:English
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Summary:Under the fact that there are multiple pollutants, non-cumulative and cumulative pollutants, generated by two adjacent asymmetric regions, which result in transboundary pollution, we proposed a dynamic transboundary pollution treatment model to study how two adjacent asymmetric regions make their pollution treatment strategies under their self-interested behaviors while the pollution of both regions are treated optimally. The optimal investment policies under non-cooperation and cooperation are obtained through theoretic analysis. It is found that only when local governments cooperate to treat transboundary pollution, the damages caused by non-cumulative pollutants to adjacent regions will be taken into their consideration. The capital stock of pollution treatment investment of each region under the non-cooperative treatment is equal to that under the cooperative treatment.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/581/1/012034