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On the efficiency of composting organic wastes

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  • Iddo Kan
  • Ofira Ayalon
  • Roy Federman

Abstract

We develop a mathematical programming model for the analysis of a nationwide waste‐management system based on composting of organic wastes. The model integrates a wide range of engineering, environmental, and economic factors, including estimated production functions based on agronomic experimental data, as well as demand functions for vegetative agricultural products. The model is applied to the case of Israel, comprising 14 groups of municipalities as the source of organic municipal solid waste and wastewater‐treatment sludge, 8 composting plants, and 13 agricultural regions; the latter constitute the source of livestock manure and are the consumers of compost to be potentially applied to 42 crops. From a social point of view, 90% of the compost's potential production was found to be warranted. This efficient solution, however, does not emerge under the base‐year‐observed situation, largely because of the absence of source separation of organic municipal solid waste and the farmers' lack of awareness of compost's advantages as a substitute for conventional fertilizers and as a soil‐amending product. Consequently, most of the organic wastes are disposed of by landfilling, resulting in a loss of $102 million per year in terms of net social benefits. While the consumers of agricultural products are expected to benefit from a shift from the base‐year situation to the efficient solution, most of their gain is expected to come at the expense of the farming sector. Nevertheless, the appearance of the efficient solution does not depend on administrative compensation payments, but on the removal of bottlenecks. Potential government intervention strategies to promote the change are analyzed.

Suggested Citation

  • Iddo Kan & Ofira Ayalon & Roy Federman, 2010. "On the efficiency of composting organic wastes," Agricultural Economics, International Association of Agricultural Economists, vol. 41(2), pages 151-163, March.
    • Handle: RePEc:bla:agecon:v:41:y:2010:i:2:p:151-163
    DOI: 10.1111/j.1574-0862.2009.00432.x
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    References listed on IDEAS

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    1. Henseler, Martin & Wirsig, Alexander & Herrmann, Sylvia & Krimly, Tatjana & Dabbert, Stephan, 2009. "Modeling the impact of global change on regional agricultural land use through an activity-based non-linear programming approach," Agricultural Systems, Elsevier, vol. 100(1-3), pages 31-42, April.
    2. Richard E. Howitt, 1995. "Positive Mathematical Programming," American Journal of Agricultural Economics, Agricultural and Applied Economics Association, vol. 77(2), pages 329-342.
    3. Talaat El-Nazer & Bruce A. McCarl, 1986. "The Choice of Crop Rotation: A Modeling Approach and Case Study," American Journal of Agricultural Economics, Agricultural and Applied Economics Association, vol. 68(1), pages 127-136.
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    1. Zvi Baum & Ruslana Rachel Palatnik & Iddo Kan & Mickey Rapaport-Rom, 2016. "Economic Impacts of Water Scarcity Under Diverse Water Salinities," Water Economics and Policy (WEP), World Scientific Publishing Co. Pte. Ltd., vol. 2(01), pages 1-22, March.
    2. Palatnik, Ruslana Rachel & Baum, Zvi & Kan, Iddo & Rapaport-Rom, Mickey, 2016. "Economic Impacts of Water Scarcity under Diverse Water Salinities," Conference papers 330173, Purdue University, Center for Global Trade Analysis, Global Trade Analysis Project.
    3. Shlomit Paz & Ofira Ayalon & Areej Haj, 2013. "The potential conflict between traditional perceptions and environmental behavior: compost use by Muslim farmers," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 15(4), pages 967-978, August.

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