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Policy Mixes to Achieve Absolute Decoupling: An Ex Ante Assessment

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Listed:
  • Emma Watkins

    (Institute for European Environmental Policy, 11 Belgrave Road, London SW1V 1RB, UK)

  • Patrick Ten Brink

    (Institute for European Environmental Policy, 11 Belgrave Road, London SW1V 1RB, UK)

  • Jean-Pierre Schweitzer

    (Institute for European Environmental Policy, 11 Belgrave Road, London SW1V 1RB, UK)

  • Lucile Rogissart

    (Institute for European Environmental Policy, 11 Belgrave Road, London SW1V 1RB, UK)

  • Martin Nesbit

    (Institute for European Environmental Policy, 11 Belgrave Road, London SW1V 1RB, UK)

Abstract

One approach to reducing the environmental costs of economic activity is to design and implement policies that aim at decoupling economic activity from its environmental impacts. Such a decoupling requires an economy-wide approach to policy-making, through broad mixes of policy instruments that create the right framework conditions for decoupling, and which provide coherent and consistent signals to resource-using sectors of the economy. This article summarizes the ex ante qualitative environmental assessment of three policy mixes (over-arching, metals, and land use) developed within the DYNAMIX project, highlighting their potential impacts on raw material extraction, greenhouse gas emissions, land use, freshwater use, and biodiversity (parallel assessments addressed economic and social impacts, and governance issues). Whilst the environmental assessments largely identified positive impacts, some policies had potential for minor negative impacts. The key challenges for undertaking such an assessment are identified (including uncertainty, baseline accuracy, the differing nature and scope of policies, policy flexibility, and the challenges of implementing volume control policies). Finally, some conclusions and lessons for policy-makers are presented, to contribute to the development of future policies and improve the reliability of future environmental assessments of policy mixes.

Suggested Citation

  • Emma Watkins & Patrick Ten Brink & Jean-Pierre Schweitzer & Lucile Rogissart & Martin Nesbit, 2016. "Policy Mixes to Achieve Absolute Decoupling: An Ex Ante Assessment," Sustainability, MDPI, vol. 8(6), pages 1-17, June.
  • Handle: RePEc:gam:jsusta:v:8:y:2016:i:6:p:528-:d:71313
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    References listed on IDEAS

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    1. Girod, Bastien & de Haan, Peter, 2009. "GHG reduction potential of changes in consumption patterns and higher quality levels: Evidence from Swiss household consumption survey," Energy Policy, Elsevier, vol. 37(12), pages 5650-5661, December.
    2. Karl-Heinz Erb & Christian Lauk & Thomas Kastner & Andreas Mayer & Michaela C. Theurl & Helmut Haberl, 2016. "Exploring the biophysical option space for feeding the world without deforestation," Nature Communications, Nature, vol. 7(1), pages 1-9, September.
    3. Bringezu, Stefan & Schutz, Helmut & Steger, Soren & Baudisch, Jan, 2004. "International comparison of resource use and its relation to economic growth: The development of total material requirement, direct material inputs and hidden flows and the structure of TMR," Ecological Economics, Elsevier, vol. 51(1-2), pages 97-124, November.
    4. Behrens, Arno & Giljum, Stefan & Kovanda, Jan & Niza, Samuel, 2007. "The material basis of the global economy: Worldwide patterns of natural resource extraction and their implications for sustainable resource use policies," Ecological Economics, Elsevier, vol. 64(2), pages 444-453, December.
    5. Stefan Giljum & Thomas Hak & Friedrich Hinterberger & Jan Kovanda, 2005. "Environmental governance in the European Union: strategies and instruments for absolute decoupling," International Journal of Sustainable Development, Inderscience Enterprises Ltd, vol. 8(1/2), pages 31-46.
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    1. Yevgeniya Arushanyan & Anna Björklund & Ola Eriksson & Göran Finnveden & Maria Ljunggren Söderman & Jan-Olov Sundqvist & Åsa Stenmarck, 2017. "Environmental Assessment of Possible Future Waste Management Scenarios," Energies, MDPI, vol. 10(2), pages 1-27, February.

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