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Budgeting and portfolio allocation for biosecurity measures

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  • Tom Kompas
  • Long Chu
  • Pham Van Ha
  • Daniel Spring

Abstract

This paper presents a practical model for optimally allocating a budget across different biosecurity threats and measures (e.g. prevention or border quarantine, active surveillance for early detection, and containment and eradication measures) to ensure the highest rate of return. Our portfolio model differs from the common principle, which ranks alternative projects by their benefit cost ratios and picks the one that generates the highest average benefit cost ratio. The model we propose, instead, aims to allocate shares of the budget to the species where it is most cost‐effective, and consequently determine the optimal scale of the control program for each threat under varying budget constraints. The cost‐effectiveness of each block of budget spent on a threat is determined by minimising its expected total cost, including the damages it inflicts, and the control expenditures incurred in preventing or mitigating damages. As an illustration, the model is applied to the optimal allocation of a budget across four of Australia's most dangerous pests and diseases: red imported fire ants; foot‐and‐mouth disease; papaya fruit fly; and orange hawkweed. The model can readily be extended to consider more species and activities, and more complex settings including cases where detailed spatial and temporal information needs to be considered.

Suggested Citation

  • Tom Kompas & Long Chu & Pham Van Ha & Daniel Spring, 2019. "Budgeting and portfolio allocation for biosecurity measures," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 63(3), pages 412-438, July.
    • Handle: RePEc:bla:ajarec:v:63:y:2019:i:3:p:412-438
    DOI: 10.1111/1467-8489.12305
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    References listed on IDEAS

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    1. Tom Kompas & Pham Van Ha & Hoa Thi Minh Nguyen & Iain East & Sharon Roche & Graeme Garner, 2017. "Optimal surveillance against foot-and-mouth disease: the case of bulk milk testing in Australia," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 61(4), pages 515-538, October.
    2. Kompas, Tom & Chu, Long & Nguyen, Hoa Thi Minh, 2016. "A practical optimal surveillance policy for invasive weeds: An application to Hawkweed in Australia," Ecological Economics, Elsevier, vol. 130(C), pages 156-165.
    3. Pannell, David J., 2013. "Ranking Environmental Projects," Working Papers 156482, University of Western Australia, School of Agricultural and Resource Economics.
    4. Pimentel, David & Zuniga, Rodolfo & Morrison, Doug, 2005. "Update on the environmental and economic costs associated with alien-invasive species in the United States," Ecological Economics, Elsevier, vol. 52(3), pages 273-288, February.
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    7. Schwab, Bernhard & Lusztig, Peter, 1969. "A Comparative Analysis of the Net Present Value and the Benefit-Cost Ratio as Measures of the Economic Desirability of Investment," Journal of Finance, American Finance Association, vol. 24(3), pages 507-516, June.
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    11. Akter, Sonia & Kompas, Tom & Ward, Michael B., 2015. "Application of portfolio theory to asset-based biosecurity decision analysis," Ecological Economics, Elsevier, vol. 117(C), pages 73-85.
    12. Rossi, Frederick J. & Adams, Damian C. & Lee, Donna J., 2004. "The Use Of Cost-Transfer Analysis To Estimate The Economic Impacts Of A Potential Zebra Mussel Infestation In Florida," 2004 Annual Meeting, February 14-18, 2004, Tulsa, Oklahoma 34774, Southern Agricultural Economics Association.
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