Bio-economic modeling of water quality improvements using a dynamic applied general equilibrium approach

R. Dellink, R. Brouwer, V.G.M. Linderhof, K. Stone

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    14 Citations (Scopus)

    Abstract

    An integrated bio-economic model is developed to assess the impacts of pollution reduction policies on water quality and the economy. Emission levels of economic activities to water are determined based on existing environmental accounts. These emission levels are built into a dynamic economic model for the Dutch economy and subsequently coupled to a national water quality model. The modular approach has the advantage that the impacts on the economy and water quality are evaluated simultaneously, but each within their own domain based on the appropriate scale and level of detail. The dynamic nature of the economic model allows us to also evaluate a derogated water policy as foreseen in the European Water Framework Directive. The indirect costs of different water quality improvement policy scenarios are at least as high as the direct costs related to investments in pollution abatement technology. The stricter the policy scenario, the more important the role of economic adjustment and restructuring mechanisms at the macro-economic level. Significant water quality improvements can be achieved through stringent domestic emission reductions. However, reaching water quality standards is highly dependent on water quality improvement policy in surrounding river basin countries and climate change.
    Original languageEnglish
    Pages (from-to)63-79
    JournalEcological Economics
    Volume71
    DOIs
    Publication statusPublished - 2011

    Keywords

    • nutrient abatement
    • river-basin
    • management
    • cost
    • netherlands
    • uncertainty
    • strategies
    • economy
    • impacts

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