Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland

C. Beverly, A.M. Roberts, G. Park, F. Bennett, Graeme Doole

    Research output: Chapter in Book/Conference paperConference paper

    3 Citations (Scopus)

    Abstract

    © IFIP International Federation for Information Processing 2015. The aim of this study was to develop a bio-economic model to estimate the feasibility and net profit (or net costs)s of achieving set water quality targets (sediment, nitrogen and phosphorus load reductions) in the Burnett Mary region of northern Queensland, Australia to with the aim of protecting the southern portion of the Great Barrier Reef (GBR). Two sets of targets were evaluated – Reef Plan Targets (RPTs) which are the currently formally agreed targets, and more ambitious Ecologically Relevant Targets (ERTs) which current science suggests might be needed to better protect the values of the GBR. This paper describes the construct of a bio-economic optimisation framework which has been used to underpin a Water Quality Improvement Plan (WQIP) for the Burnett Mary region. The bioeconomic model incorporates the available science developed from paddock and catchment scale biophysical model results and farm economic analysis. The model enabled transparent assessment and optimisation of net profits and costs associated with four categories of best management practices (cutting edge unproven technologies called ‘A’ practice, current best-management practices called ‘B’, common industry or ‘C’ practices, and below industry standards or ‘D’ practice) in the grazing and sugar cane industries. The bioeconomic model was able to solve for RPTs or ERTs assigned to either the entire region or within each of five discrete river basins. Key outcomes from the study were that RPTs could be achieved at an annual cost of $3M/year on a whole of region basis. In contrast ERTs could be achieved on a whole of region basis at as net cost of $16M/year. ERTs were not able to be feasibly met on a basin by basin basis. This is the first time such a comprehensive and integrated bio-economic model has been constructed for a region within GBR using environmental software that linked available biophysical and economic modelling.
    Original languageEnglish
    Title of host publicationEnvironmental Software Systems: Infrastructures, Services and Applications
    EditorsRalf Denzer, Robert M. Argent, Gerald Schimak, Jiri Hrebicek
    Place of PublicationUSA
    PublisherSpringer
    Pages272-281
    Volume448
    ISBN (Print)9783319159935
    DOIs
    Publication statusPublished - 2015
    Event11th IFIP WG5.11 International Symposium, ISESS 2015 - Melbourne, Melbourne, Australia
    Duration: 25 Mar 201527 Mar 2015

    Conference

    Conference11th IFIP WG5.11 International Symposium, ISESS 2015
    CountryAustralia
    CityMelbourne
    Period25/03/1527/03/15

    Fingerprint

    water quality
    barrier reef
    economics
    cost
    reef
    best management practice
    industry
    information processing
    sugar cane
    economic analysis
    basin
    grazing
    river basin
    farm
    catchment
    phosphorus
    software
    plan
    nitrogen
    sediment

    Cite this

    Beverly, C., Roberts, A. M., Park, G., Bennett, F., & Doole, G. (2015). Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland. In R. Denzer, R. M. Argent, G. Schimak, & J. Hrebicek (Eds.), Environmental Software Systems: Infrastructures, Services and Applications (Vol. 448, pp. 272-281). USA: Springer. https://doi.org/10.1007/978-3-319-15994-2_27
    Beverly, C. ; Roberts, A.M. ; Park, G. ; Bennett, F. ; Doole, Graeme. / Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland. Environmental Software Systems: Infrastructures, Services and Applications. editor / Ralf Denzer ; Robert M. Argent ; Gerald Schimak ; Jiri Hrebicek. Vol. 448 USA : Springer, 2015. pp. 272-281
    @inproceedings{b50f2da86bc046ab9c1fb1e921a04190,
    title = "Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland",
    abstract = "{\circledC} IFIP International Federation for Information Processing 2015. The aim of this study was to develop a bio-economic model to estimate the feasibility and net profit (or net costs)s of achieving set water quality targets (sediment, nitrogen and phosphorus load reductions) in the Burnett Mary region of northern Queensland, Australia to with the aim of protecting the southern portion of the Great Barrier Reef (GBR). Two sets of targets were evaluated – Reef Plan Targets (RPTs) which are the currently formally agreed targets, and more ambitious Ecologically Relevant Targets (ERTs) which current science suggests might be needed to better protect the values of the GBR. This paper describes the construct of a bio-economic optimisation framework which has been used to underpin a Water Quality Improvement Plan (WQIP) for the Burnett Mary region. The bioeconomic model incorporates the available science developed from paddock and catchment scale biophysical model results and farm economic analysis. The model enabled transparent assessment and optimisation of net profits and costs associated with four categories of best management practices (cutting edge unproven technologies called ‘A’ practice, current best-management practices called ‘B’, common industry or ‘C’ practices, and below industry standards or ‘D’ practice) in the grazing and sugar cane industries. The bioeconomic model was able to solve for RPTs or ERTs assigned to either the entire region or within each of five discrete river basins. Key outcomes from the study were that RPTs could be achieved at an annual cost of $3M/year on a whole of region basis. In contrast ERTs could be achieved on a whole of region basis at as net cost of $16M/year. ERTs were not able to be feasibly met on a basin by basin basis. This is the first time such a comprehensive and integrated bio-economic model has been constructed for a region within GBR using environmental software that linked available biophysical and economic modelling.",
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    Beverly, C, Roberts, AM, Park, G, Bennett, F & Doole, G 2015, Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland. in R Denzer, RM Argent, G Schimak & J Hrebicek (eds), Environmental Software Systems: Infrastructures, Services and Applications. vol. 448, Springer, USA, pp. 272-281, 11th IFIP WG5.11 International Symposium, ISESS 2015, Melbourne, Australia, 25/03/15. https://doi.org/10.1007/978-3-319-15994-2_27

    Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland. / Beverly, C.; Roberts, A.M.; Park, G.; Bennett, F.; Doole, Graeme.

    Environmental Software Systems: Infrastructures, Services and Applications. ed. / Ralf Denzer; Robert M. Argent; Gerald Schimak; Jiri Hrebicek. Vol. 448 USA : Springer, 2015. p. 272-281.

    Research output: Chapter in Book/Conference paperConference paper

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    T1 - Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland

    AU - Beverly, C.

    AU - Roberts, A.M.

    AU - Park, G.

    AU - Bennett, F.

    AU - Doole, Graeme

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    N2 - © IFIP International Federation for Information Processing 2015. The aim of this study was to develop a bio-economic model to estimate the feasibility and net profit (or net costs)s of achieving set water quality targets (sediment, nitrogen and phosphorus load reductions) in the Burnett Mary region of northern Queensland, Australia to with the aim of protecting the southern portion of the Great Barrier Reef (GBR). Two sets of targets were evaluated – Reef Plan Targets (RPTs) which are the currently formally agreed targets, and more ambitious Ecologically Relevant Targets (ERTs) which current science suggests might be needed to better protect the values of the GBR. This paper describes the construct of a bio-economic optimisation framework which has been used to underpin a Water Quality Improvement Plan (WQIP) for the Burnett Mary region. The bioeconomic model incorporates the available science developed from paddock and catchment scale biophysical model results and farm economic analysis. The model enabled transparent assessment and optimisation of net profits and costs associated with four categories of best management practices (cutting edge unproven technologies called ‘A’ practice, current best-management practices called ‘B’, common industry or ‘C’ practices, and below industry standards or ‘D’ practice) in the grazing and sugar cane industries. The bioeconomic model was able to solve for RPTs or ERTs assigned to either the entire region or within each of five discrete river basins. Key outcomes from the study were that RPTs could be achieved at an annual cost of $3M/year on a whole of region basis. In contrast ERTs could be achieved on a whole of region basis at as net cost of $16M/year. ERTs were not able to be feasibly met on a basin by basin basis. This is the first time such a comprehensive and integrated bio-economic model has been constructed for a region within GBR using environmental software that linked available biophysical and economic modelling.

    AB - © IFIP International Federation for Information Processing 2015. The aim of this study was to develop a bio-economic model to estimate the feasibility and net profit (or net costs)s of achieving set water quality targets (sediment, nitrogen and phosphorus load reductions) in the Burnett Mary region of northern Queensland, Australia to with the aim of protecting the southern portion of the Great Barrier Reef (GBR). Two sets of targets were evaluated – Reef Plan Targets (RPTs) which are the currently formally agreed targets, and more ambitious Ecologically Relevant Targets (ERTs) which current science suggests might be needed to better protect the values of the GBR. This paper describes the construct of a bio-economic optimisation framework which has been used to underpin a Water Quality Improvement Plan (WQIP) for the Burnett Mary region. The bioeconomic model incorporates the available science developed from paddock and catchment scale biophysical model results and farm economic analysis. The model enabled transparent assessment and optimisation of net profits and costs associated with four categories of best management practices (cutting edge unproven technologies called ‘A’ practice, current best-management practices called ‘B’, common industry or ‘C’ practices, and below industry standards or ‘D’ practice) in the grazing and sugar cane industries. The bioeconomic model was able to solve for RPTs or ERTs assigned to either the entire region or within each of five discrete river basins. Key outcomes from the study were that RPTs could be achieved at an annual cost of $3M/year on a whole of region basis. In contrast ERTs could be achieved on a whole of region basis at as net cost of $16M/year. ERTs were not able to be feasibly met on a basin by basin basis. This is the first time such a comprehensive and integrated bio-economic model has been constructed for a region within GBR using environmental software that linked available biophysical and economic modelling.

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    Beverly C, Roberts AM, Park G, Bennett F, Doole G. Construction of a bio-economic model to estimate the feasibility and cost of achieving water quality targets in the Burnett-Mary region, Queensland. In Denzer R, Argent RM, Schimak G, Hrebicek J, editors, Environmental Software Systems: Infrastructures, Services and Applications. Vol. 448. USA: Springer. 2015. p. 272-281 https://doi.org/10.1007/978-3-319-15994-2_27