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Can the Tragedy of the Commons be Avoided in Common-Pool Forage Resource Systems? An Application to Small-Holder Herding in the Semi-Arid Grazing Lands of Nigeria

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  • Rhoda F. Aderinto

    (Department of Agriculture, Agribusiness, and Environmental Science, Texas A&M University-Kingsville, Kingsville, TX 78363, USA)

  • J. Alfonso Ortega-S.

    (Department of Range and Wildlife Science and Caesar Kleberg Wildlife Research Institute, Texas A&M University-Kingsville, Kingsville, TX 78363, USA)

  • Ambrose O. Anoruo

    (Department of Agriculture, Agribusiness, and Environmental Science, Texas A&M University-Kingsville, Kingsville, TX 78363, USA)

  • Richard Machen

    (Department of Animal Science and King Ranch® Institute for Ranch Management, Texas A&M University-Kingsville, Kingsville, TX 78363, USA)

  • Benjamin L. Turner

    (Department of Agriculture, Agribusiness, and Environmental Science and King Ranch® Institute for Ranch Management, Texas A&M University-Kingsville, Kingsville, TX 78363, USA)

Abstract

There exist common-pool resource systems where it is difficult to prevent prospective beneficiaries from receiving profits from the use or harvest of shared resources, and they are often subject to continual utilization, leading to resource degradation and economic erosion (a behavior known as the ‘tragedy of the commons’). Nigerian nomadic grazing systems currently undergoing the tragedy of the commons pose a great challenge to agrarian communities, herders and political stability throughout the country due to violent conflicts and property destruction as herders migrate in search of forage resources for livestock. We modeled these dynamics in order to better understand the Nigerian grazing lands, with the objective of identifying potential leverage points capable of reversing overgrazing-induced forage degradation, in order to ensure a sustainable livestock production sector. Model what-if experiments (crop restrictions, crop marketing and increased labor costs) were run, resulting in partial solutions that were effective only in the short-term or limited in geographic-scope. A sustainable solution should include a combination of strategies, as the impact of one strategy alone cannot effectively resolve these Nigerian grazing issues (e.g., collaboration between farmers, herdsmen and government stakeholders to increase market integration via crop market expansion while simultaneously providing forage regeneration time for grazing lands). The resulting model could be used by Nigerian policy-makers to evaluate the long-term effects of decisions which were previously unexplored.

Suggested Citation

  • Rhoda F. Aderinto & J. Alfonso Ortega-S. & Ambrose O. Anoruo & Richard Machen & Benjamin L. Turner, 2020. "Can the Tragedy of the Commons be Avoided in Common-Pool Forage Resource Systems? An Application to Small-Holder Herding in the Semi-Arid Grazing Lands of Nigeria," Sustainability, MDPI, vol. 12(15), pages 1-29, July.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:15:p:5947-:d:388711
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    1. Nadine Marshall & Chris Stokes, 2014. "Identifying thresholds and barriers to adaptation through measuring climate sensitivity and capacity to change in an Australian primary industry," Climatic Change, Springer, vol. 126(3), pages 399-411, October.
    2. Teague, W.R. & Grant, W.E. & Kreuter, U.P. & Diaz-Solis, H. & Dube, S. & Kothmann, M.M. & Pinchak, W.E. & Ansley, R.J., 2008. "An ecological economic simulation model for assessing fire and grazing management effects on mesquite rangelands in Texas," Ecological Economics, Elsevier, vol. 64(3), pages 611-624, January.
    3. Diaz-Solis, H. & Kothmann, M. M. & Hamilton, W. T. & Grant, W. E., 2003. "A simple ecological sustainability simulator (SESS) for stocking rate management on semi-arid grazinglands," Agricultural Systems, Elsevier, vol. 76(2), pages 655-680, May.
    4. Benjamin L. Turner & Vincent Tidwell & Alexander Fernald & José A. Rivera & Sylvia Rodriguez & Steven Guldan & Carlos Ochoa & Brian Hurd & Kenneth Boykin & Andres Cibils, 2016. "Modeling Acequia Irrigation Systems Using System Dynamics: Model Development, Evaluation, and Sensitivity Analyses to Investigate Effects of Socio-Economic and Biophysical Feedbacks," Sustainability, MDPI, vol. 8(10), pages 1-30, October.
    5. Teague, W.R. & Kreuter, U.P. & Grant, W.E. & Diaz-Solis, H. & Kothmann, M.M., 2009. "Economic implications of maintaining rangeland ecosystem health in a semi-arid savanna," Ecological Economics, Elsevier, vol. 68(5), pages 1417-1429, March.
    6. Kelechukwu G. Odoemena & Jeffrey P. Walters & Holger Maximilian Kleemann, 2020. "A System Dynamics Model of Supply-Side Issues Influencing Beef Consumption in Nigeria," Sustainability, MDPI, vol. 12(8), pages 1-22, April.
    7. Turner, B.L. & Rhoades, R.D. & Tedeschi, L.O. & Hanagriff, R.D. & McCuistion, K.C. & Dunn, B.H., 2013. "Analyzing ranch profitability from varying cow sales and heifer replacement rates for beef cow-calf production using system dynamics," Agricultural Systems, Elsevier, vol. 114(C), pages 6-14.
    8. Zilverberg, Cody J. & Williams, Jimmy & Jones, Curtis & Harmoney, Keith & Angerer, Jay & Metz, Loretta J. & Fox, William, 2017. "Process-based simulation of prairie growth," Ecological Modelling, Elsevier, vol. 351(C), pages 24-35.
    9. M. Meltzer, 1995. "Livestock in africa: The economics of ownership and production, and the potential for improvement," Agriculture and Human Values, Springer;The Agriculture, Food, & Human Values Society (AFHVS), vol. 12(2), pages 4-18, March.
    10. Loewer, O. J. & Taul, K. L. & Turner, L. W. & Gay, N. & Muntifering, R., 1987. "Graze: A model of selective grazing by beef animals," Agricultural Systems, Elsevier, vol. 25(4), pages 297-309.
    11. Díaz-Solís, H. & Grant, W.E. & Kothmann, M.M. & Teague, W.R. & Díaz-García, J.A., 2009. "Adaptive management of stocking rates to reduce effects of drought on cow-calf production systems in semi-arid rangelands," Agricultural Systems, Elsevier, vol. 100(1-3), pages 43-50, April.
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