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Evaluating improvements in irrigation efficiency as a salinity mitigation option in the South Australian Riverland

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  • Heaney, Anna
  • Beare, Stephen
  • Bell, Rosalyn

Abstract

A modelling framework incorporating relationships between agricultural production and groundwater hydrology was developed to estimate the benefits of improved irrigation efficiency in the Riverland of South Australia. Increased irrigation efficiency can generate external benefits to downstream users through reduced discharge of saline groundwater. In the Riverland these benefits are large in comparison to the direct value of the irrigation water. However, the non‐exclusive and site‐specific nature of these benefits makes it difficult to fully internalise them through market instruments such as salinity credits. Achieving optimal irrigation efficiency is likely to require institutional arrangements that promote collective investment and public expenditure.

Suggested Citation

  • Heaney, Anna & Beare, Stephen & Bell, Rosalyn, 2001. "Evaluating improvements in irrigation efficiency as a salinity mitigation option in the South Australian Riverland," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 45(3), pages 1-17.
    • Handle: RePEc:ags:aareaj:117573
    DOI: 10.22004/ag.econ.117573
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    Cited by:

    1. Nordblom, Tom & Finlayson, John D. & Hume, Iain H. & Kelly, Jason A., 2009. "Supply and Demand for Water use by New Forest Plantations: a market to balance increasing upstream water use with downstream community, industry and environmental use?," Research Reports 280785, New South Wales Department of Primary Industries Research Economists.
    2. Thomas Spencer & Tihomir Ancev & Jeff Connor, 2009. "Improving Cost Effectiveness of Irrigation Zoning for Salinity Mitigation by Introducing Offsets," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 23(10), pages 2085-2100, August.
    3. Azad, Md A.S. & Ancev, Tihomir, 2010. "Using ecological indices to measure economic and environmental performance of irrigated agriculture," Ecological Economics, Elsevier, vol. 69(8), pages 1731-1739, June.
    4. Bennett, Jeffrey W., 2005. "Australasian environmental economics: contributions, conflicts and ‘cop-outs’," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 49(3), pages 1-19.
    5. Lee, Juhee & Hendricks, Nathan, 2022. "Irrigation Decisions in Response to Groundwater Salinity in Kansas," Journal of Agricultural and Resource Economics, Western Agricultural Economics Association, vol. 47(3), September.
    6. Lee, Lisa Y. & Ancev, Tihomir & Vervoort, Willem, 2012. "Evaluation of environmental policies targeting irrigated agriculture: The case of the Mooki catchment, Australia," Agricultural Water Management, Elsevier, vol. 109(C), pages 107-116.
    7. Lee, Juhee & Hendricks, Nathan P., 2022. "Crop Choice Decisions in Response to Soil Salinization on Irrigated Land in California," 2022 Annual Meeting, July 31-August 2, Anaheim, California 322602, Agricultural and Applied Economics Association.
    8. Hafi, Ahmed & Heaney, Anna & Beare, Stephen, 2006. "Investment in irreversible irrigation technology under uncertainty," 2006 Conference (50th), February 8-10, 2006, Sydney, Australia 139769, Australian Agricultural and Resource Economics Society.
    9. Chant, Lindsay & McDonald, Scott & Verschoor, Arjan, 2004. "The Role of the 1994-95 Coffee Boom in Uganda's Recovery," Conference papers 331235, Purdue University, Center for Global Trade Analysis, Global Trade Analysis Project.
    10. Claire Settre & Jeff Connor & Sarah Ann Wheeler, 2017. "Reviewing the Treatment of Uncertainty in Hydro-economic Modeling of the Murray–Darling Basin, Australia," Water Economics and Policy (WEP), World Scientific Publishing Co. Pte. Ltd., vol. 3(03), pages 1-35, July.

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