A game theory analysis of green infrastructure stormwater management policies
Green stormwater infrastructure has been demonstrated as an innovative water resources management approach that addresses multiple challenges facing urban environments. However, there is little consensus on what policy strategies can be used to best incentivize green infrastructure adoption by priva...
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| Veröffentlicht in: | Water resources research Jg. 53; H. 9; S. 8003 - 8019 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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Washington
John Wiley & Sons, Inc
01.09.2017
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| ISSN: | 0043-1397, 1944-7973 |
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| Abstract | Green stormwater infrastructure has been demonstrated as an innovative water resources management approach that addresses multiple challenges facing urban environments. However, there is little consensus on what policy strategies can be used to best incentivize green infrastructure adoption by private landowners. Game theory, an analysis framework that has historically been under‐utilized within the context of stormwater management, is uniquely suited to address this policy question. We used a cooperative game theory framework to investigate the potential impacts of different policy strategies used to incentivize green infrastructure installation. The results indicate that municipal regulation leads to the greatest reduction in pollutant loading. However, the choice of the “best” regulatory approach will depend on a variety of different factors including politics and financial considerations. Large, downstream agents have a disproportionate share of bargaining power. Results also reveal that policy impacts are highly dependent on agents' spatial position within the stormwater network, leading to important questions of social equity and environmental justice.
Key Points
We use a cooperative game theory framework to evaluate private landowner green infrastructure implementation
Regulatory, direct grant, and stormwater fee incentive strategies are evaluated, with municipal regulation leading to the greatest pollution reduction
Results show that policy impacts are highly dependent on stormwater network spatial layout |
|---|---|
| AbstractList | Green stormwater infrastructure has been demonstrated as an innovative water resources management approach that addresses multiple challenges facing urban environments. However, there is little consensus on what policy strategies can be used to best incentivize green infrastructure adoption by private landowners. Game theory, an analysis framework that has historically been under‐utilized within the context of stormwater management, is uniquely suited to address this policy question. We used a cooperative game theory framework to investigate the potential impacts of different policy strategies used to incentivize green infrastructure installation. The results indicate that municipal regulation leads to the greatest reduction in pollutant loading. However, the choice of the “best” regulatory approach will depend on a variety of different factors including politics and financial considerations. Large, downstream agents have a disproportionate share of bargaining power. Results also reveal that policy impacts are highly dependent on agents' spatial position within the stormwater network, leading to important questions of social equity and environmental justice.
We use a cooperative game theory framework to evaluate private landowner green infrastructure implementation
Regulatory, direct grant, and stormwater fee incentive strategies are evaluated, with municipal regulation leading to the greatest pollution reduction
Results show that policy impacts are highly dependent on stormwater network spatial layout Green stormwater infrastructure has been demonstrated as an innovative water resources management approach that addresses multiple challenges facing urban environments. However, there is little consensus on what policy strategies can be used to best incentivize green infrastructure adoption by private landowners. Game theory, an analysis framework that has historically been under-utilized within the context of stormwater management, is uniquely suited to address this policy question. We used a cooperative game theory framework to investigate the potential impacts of different policy strategies used to incentivize green infrastructure installation. The results indicate that municipal regulation leads to the greatest reduction in pollutant loading. However, the choice of the "best" regulatory approach will depend on a variety of different factors including politics and financial considerations. Large, downstream agents have a disproportionate share of bargaining power. Results also reveal that policy impacts are highly dependent on agents' spatial position within the stormwater network, leading to important questions of social equity and environmental justice. Green stormwater infrastructure has been demonstrated as an innovative water resources management approach that addresses multiple challenges facing urban environments. However, there is little consensus on what policy strategies can be used to best incentivize green infrastructure adoption by private landowners. Game theory, an analysis framework that has historically been under‐utilized within the context of stormwater management, is uniquely suited to address this policy question. We used a cooperative game theory framework to investigate the potential impacts of different policy strategies used to incentivize green infrastructure installation. The results indicate that municipal regulation leads to the greatest reduction in pollutant loading. However, the choice of the “best” regulatory approach will depend on a variety of different factors including politics and financial considerations. Large, downstream agents have a disproportionate share of bargaining power. Results also reveal that policy impacts are highly dependent on agents' spatial position within the stormwater network, leading to important questions of social equity and environmental justice. Key Points We use a cooperative game theory framework to evaluate private landowner green infrastructure implementation Regulatory, direct grant, and stormwater fee incentive strategies are evaluated, with municipal regulation leading to the greatest pollution reduction Results show that policy impacts are highly dependent on stormwater network spatial layout |
| Author | William, Reshmina Stillwell, Ashlynn S. Garg, Jugal |
| Author_xml | – sequence: 1 givenname: Reshmina orcidid: 0000-0002-0990-1521 surname: William fullname: William, Reshmina organization: University of Illinois at Urbana‐Champaign – sequence: 2 givenname: Jugal surname: Garg fullname: Garg, Jugal organization: University of Illinois at Urbana‐Champaign – sequence: 3 givenname: Ashlynn S. orcidid: 0000-0002-6781-6480 surname: Stillwell fullname: Stillwell, Ashlynn S. email: ashlynn@illinois.edu organization: University of Illinois at Urbana‐Champaign |
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| SubjectTerms | Downstream effects environmental equity Environmental justice Frameworks Game theory Green infrastructure Infrastructure issues and policy Mayors Policies politics pollutants Pollution control Pollution load Regulation Stormwater Stormwater management Theories Urban environments Water management Water resources Water resources management |
| Title | A game theory analysis of green infrastructure stormwater management policies |
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