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Upstream demand for water use by new tree plantations imposes externalities on downstream irrigated agriculture and wetlands

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  • Nordblom, Thomas L.
  • Finlayson, John D.
  • Hume, Iain H.

Abstract

Large-scale tree plantations in high rainfall upstream areas can reduce fresh water inflows to river systems, thereby imposing external costs on downstream irrigation, stock and domestic water users and wetland interests. We take the novel approach of expressing all benefits and costs of establishing plantations in terms of $ per gigalitre (GL) of water removed annually from river flows, setting upstream demands on the same basis as downstream demands. For the Macquarie Valley, a New South Wales sub-catchment of Australia’s Murray-Darling Basin, we project changes in land and water use and changes in economic surpluses under two policy settings: without and with a policy requiring permanent water entitlements to be purchased from downstream parties, before plantation establishment. Without the policy, and given a high stumpage value for trees ($70/m3), upstream gains in economic surplus projected from expanding plantations are $639 million; balanced against $233 million in economic losses by downstream irrigators and stock and domestic water users for a net gain of $406 million, but 345 GL lower mean annual environmental flows. With the policy, smaller gains in upstream economic surplus from trees ($192 million), added to net downstream gains ($138 million) from sale of water, result in gains of $330 million with no reduction in environmental flows. Sustaining the 345 GL flow for a $76 million (406–330) reduction in gains to economic surplus may be seen to cost only $0.22 million/GL; but this is much lower than the market value of the first units of that water to agriculture and forestry.

Suggested Citation

  • Nordblom, Thomas L. & Finlayson, John D. & Hume, Iain H., 2012. "Upstream demand for water use by new tree plantations imposes externalities on downstream irrigated agriculture and wetlands," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 56(4), pages 1-20, December.
    • Handle: RePEc:ags:aareaj:229816
    DOI: 10.22004/ag.econ.229816
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    References listed on IDEAS

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    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. Finlayson, John & Bathgate, Andrew & Nordblom, Tom & Theiveyanathan, Tivi & Farquharson, Bob & Crosbie, Russell & Mitchell, David & Hoque, Ziaul, 2010. "Balancing land use to manage river volume and salinity: Economic and hydrological consequences for the Little River catchment in Central West, New South Wales, Australia," Agricultural Systems, Elsevier, vol. 103(3), pages 161-170, March.
    3. Peggy Schrobback & David Adamson & John Quiggin, 2009. "Turning Water into Carbon: Carbon sequestration vs. water flow in the Murray-Darling Basin," Murray-Darling Program Working Papers WP2M09, Risk and Sustainable Management Group, University of Queensland.
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    6. Tom Nordblom & Iain Hume & Andrew Bathgate & Michael Reynolds, 2006. "Mathematical optimisation of drainage and economic land use for target water and salt yields ," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 50(3), pages 381-402, September.
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    Cited by:

    1. Bostian, Moriah B. & Dupraz, Pierre & Minviel, Jean Joseph, 2015. "Production effects of wetland conservation: evidence from France," Working Papers 210465, Institut National de la recherche Agronomique (INRA), Departement Sciences Sociales, Agriculture et Alimentation, Espace et Environnement (SAE2).
    2. Choi, Pak-Sing & Espínola-Arredondo, Ana & Muñoz-García, Félix, 2018. "Conservation procurement auctions with bidirectional externalities," Journal of Environmental Economics and Management, Elsevier, vol. 92(C), pages 559-579.
    3. Nordblom, T.L. & Hume, I.H. & Finlayson, J.D. & Pannell, D.J. & Holland, J.E. & McClintock, A.J., 2015. "Distributional consequences of upstream tree plantations on downstream water users in a Public–Private Benefit Framework," Agricultural Systems, Elsevier, vol. 139(C), pages 271-281.
    4. Nordblom, Thomas L. & Hume, I.H. & Finlayson, J.D. & Pannell, David J. & Holland, J., 2013. "Upstream-downstream benefit analysis of policy on water use by upstream tree plantations," 2013 Conference (57th), February 5-8, 2013, Sydney, Australia 152173, Australian Agricultural and Resource Economics Society.
    5. Ovando, Paola & Brouwer, Roy, 2019. "A review of economic approaches modeling the complex interactions between forest management and watershed services," Forest Policy and Economics, Elsevier, vol. 100(C), pages 164-176.

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