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The Value of Decentralisation in Wastewater Management - Gauteng Province Case Study, South Africa

Author

Listed:
  • Cornelius (Chris) Reynders

    (C Reynders Consulting, Private Bag X43, Wilropark, 1731 South Africa)

  • Harmony Musiyarira

    (Polytechnic of Namibia, P Bag 13388, Windhoek, Namibia)

  • Prvoslav Marjanovic

    (Educons University, Sremska Kamenica, Serbia and Institute for the Development of Water Resources Jaroslav Cerni, Belgrade, Serbia)

Abstract

In a semi-arid water scarce country like South Africa, the efficient use of limited water resources and measures to extend the service value of these resources is a prerequisite for achieving sustainable development. The conventional supply-sided management approach to water supply causes increased wastewater generation with accompanied increased pollution loads requiring higher levels of mitigation environmental pollution. Where disposal of wastewater treatment effluent takes place in rivers and natural water bodies, the lack of adequate natural compensating capacity of such water bodies typically result in severe ecological damage of the aquatic environment. With a shift of emphasis to a sustainable demand side management approach (as opposed to a supply side one), the avoidance of water wastage and high wastewater generation represents both resource conservation and environmental protection friendly approaches and contribute to overall sustainability. The integrated nature of water supply and wastewater management systems require an approach that considers these systems holistically. A new paradigm for water management is therefore needed to ensure that the issues of waste disposal and pollution are dealt with in a sustainable manner taking into account the emerging objectives of modern society for resource conservation and environmental protection. A balance therefore has to be found between the uses of additional fresh water resources as a means of satisfying en ever increasing water demand on the one hand and alternative unconventional resource exploration and employment, without the risk of depletion of natural available fresh water resource flow, irreversible harm to the environment and social and economic constraints. This paper explores wastewater and grey water reuse as unconventional resources in a qualitative manner within this balancing equation. It further proposes a methodology for deriving monetary indicator values for wastewater reuse by internalising negative environmental impacts. This is achieved through application of Lagrangian optimisation of the treatment plant production function (output distance function) for deriving marginal prices of contaminant removal and resulting avoided pollution.

Suggested Citation

  • Cornelius (Chris) Reynders & Harmony Musiyarira & Prvoslav Marjanovic, 2012. "The Value of Decentralisation in Wastewater Management - Gauteng Province Case Study, South Africa," Journal of Economic Development, Environment and People, Alliance of Central-Eastern European Universities, vol. 1(2), pages 65-84, September.
    • Handle: RePEc:sph:rjedep:v:1:y:2012:i:2:p:65-84
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    References listed on IDEAS

    as
    1. Ekin Birol & Katia Karousakis & Phoebe Koundouri, 2006. "Using economic valuation techniques to inform water resources management: A survey and critical appraisal of available techniques and an application," DEOS Working Papers 0607, Athens University of Economics and Business.
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    More about this item

    Keywords

    Water resource protection; Sustainable wastewater management; Centralized wastewater management; Decentralized wastewater management; Production (output distance) function; environmental benefits valuing;
    All these keywords.

    JEL classification:

    • Q25 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Renewable Resources and Conservation - - - Water
    • Q28 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Renewable Resources and Conservation - - - Government Policy
    • Q53 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Environmental Economics - - - Air Pollution; Water Pollution; Noise; Hazardous Waste; Solid Waste; Recycling
    • Q56 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Environmental Economics - - - Environment and Development; Environment and Trade; Sustainability; Environmental Accounts and Accounting; Environmental Equity; Population Growth

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