Integrated Hydrologic-Economic Modeling of Coalitions of Stakeholders for Water Allocation in the South Saskatchewan River Basin
Publication: Journal of Hydrologic Engineering
Volume 13, Issue 9
Abstract
A real world case study of water and benefit allocation among stakeholders in the South Saskatchewan River Basin in Alberta, Canada, is presented. To be able to carry out this large-scale water basin system investigation, a useful approach, called the integrated hydrologic-economic river basin model, is developed for computing the optimal benefits of water for various coalitions of stakeholders by allocating available water to the members of a given coalition without reducing specified allocations to those outside of the coalition with respect to both water quantity and quality. Monthly net benefit functions for a rich range of different types of demands are employed in the model. Moreover, a separate irrigation water planning model is designed as a submodel to derive the monthly benefit functions of irrigation water uses. Using these calculated values, cooperative game theory is utilized for fairly reallocating water and benefits among stakeholders in the basin study.
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References
Alberta Environment. (2002). “South Saskatchewan River sub-basin contributions to international and interprovincial water-sharing agreements.” Prepared for the South Saskatchewan River Basin Water Management Plan Steering Committee, Edmonton, Alberta, Canada.
Alberta Environment. (2003). “South Saskatchewan River Basin water allocation.” Alberta Environment, Regional Services, Southern Region, Calgary, Alberta, Canada.
Alberta Environment. (2004). “Water management operations.” Submission to the Int. Joint Commission, Edmonton, Alberta, Canada.
Alberta Environment. (2006). “Approved water management plan for the South Saskatchewan River Basin (Alberta).” Calgary, Alberta, Canada.
Alberta Irrigation Projects Association (AIPA). (2002). “Irrigation in the 21st century.” Lethbridge, Alberta, Canada.
Booker, J. F., and Young, R. A. (1994). “Modeling intrastate and interstate markets for Colorado River water resources.” J. Envir. Econom. Manage., 26(1), 66–87.
Brown, T. C., Taylor, J. G., and Shelby, B. (1991). “Assessing the direct effects of streamflow on recreation: A literature review.” Water Resour. Bull., 27(6), 979–989.
Cai, X., McKinney, D. C., and Lasdon, L. S. (2003). “Integrated hydrologic-agronomic-economic model for river basin management.” J. Water Resour. Plann. Manage., 129(1), 4–17.
Diaz, G. E., Brown, T. C., and Sveinsson, O. (1997). “AQUARIUS: A modeling system for river basin water allocation.” General Technical Rep. No. RM-GTR-299, U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Forest and Range Experiment Station, Fort Collins, Colo.
Dinar, A., and Letey, J. (1996). Modeling economic management and policy issues of water in irrigated agriculture, Praeger Publishers, Westport, Conn.
Draper, A. J., Jenkins, M. W., Kirby, K. W., Lund, J. R., and Howitt, E. E. (2003). “Economic-engineering optimization for California water management.” J. Water Resour. Plann. Manage., 129(3), 155–164.
Dyson, I., Paterson, B., and Fitzpatrick, D. (2004). “The state of southern Alberta’s water resources.” Proc., Confronting Water Scarcity: Challenges and Choices Conf., July 13–16, Lethbridge, Alberta, Canada.
Environment Canada. (2002). HYDAT CD-ROM: Surface water and sediment data, Water Survey of Canada, version 2000-2.01.
GAMS Development Corporation. (2005). GAMS—The solver manuals: OQNLP and MSNLP, Washington, D.C.
Golder Associates Ltd. (2003). “Report on strategic overview of riparian and aquatic condition of the South Saskatchewan River Basin.” Prepared for Alberta Environment, Edmonton, Alberta, Canada.
Hydroconsult and CRE (Hydroconsult EN3 Services Ltd., and Canadian Resources Economics Ltd.). (2002). “South Saskatchewan River non-irrigation water use forecasts.” Prepared for Alberta Environment, Edmonton, Alberta, Canada.
Lejano, R. P., and Davos, C. A. (1995). “Cost allocation of multiagency water resource projects: Game-theoretic approaches and case study.” Water Resour. Res., 31, 1387–1393.
Loucks, D. P., Stedinger, J. R., and Haith, D. A. (1981). Water resource systems planning and analysis, Prentice-Hall, Englewood Cliffs, N.J.
Mahan, R. C. (1997). “Efficient allocation of surface water resources in southern Alberta.” MS thesis, Univ. of Calgary, Calgary, Alberta, Canada.
Mahan, R. C., Horbulykb, T. M., and Rowse, J. G. (2002). “Market mechanisms and the efficient allocation of surface water resources in southern Alberta.” Socio-Econ. Plan. Sci., 36, 25–49.
Mitchell, P., and Prepas, E., eds. (1990). Altas of Alberta Lakes, Univ. of Alberta Press, Edmonton, Alberta, Canada.
Owen, G. (1995). Game theory, 3rd Ed., Academic, New York.
Reca, J., Roldán, J., Alcaide, M., López, R., and Camacho, E. (2001). “Optimization model for water allocation in deficit irrigation systems. I: Description of the model.” Agric. Water Manage., 48(2), 103–116.
Ringler, C. (2001). Optimal allocation and use of water resources in the Mekong River Basin: Multi-country and intersectoral analyses, Peter Lang, Frankfurt, Germany.
Rosegrant, M. W., Ringler, C., McKinney, D. C., Cai, X., Keller, A., and Donoso, G. (2000). “Integrated economic-hydrologic water modeling at the basin scale: The Maipo River Basin.” Agricultural Economics, 24(1), 33–46.
Schmeidler, D. (1969). “The nucleolus of a characteristic function game.” J. Appl. Math., 17, 1163–1170.
Shapley, L. S. (1953). “A value for n-person games.” Contributions to the theory of games, Vol. II, H. W. Kuhn and A. W. Tucker, eds., Annals of Mathematics Studies 28, Princeton University Press, Princeton, N.J., 307–317.
Singh, V. P. (1995). “What is environmental hydrology?” Environmental hydrology, V. P. Singh, ed., Kluwer Academic Publishers, Dordrecht, The Netherlands, 1–12.
Tisdell, J. G., and Harrison, S. R. (1992). “Estimating an optimal distribution of water entitlements.” Water Resour. Res., 28, 3111–3117.
Underwood McLellan Ltd. (UMA). (1982). “South Saskatchewan River Basin planning program: Agronomy component irrigation water requirement criteria study.” Prepared for Alberta Environment, Planning Division.
United States Dept. of Agriculture (USDA). (1967). “Irrigation water requirement.” Technical Release No. 21, Engineering Division, Soil Conservation Service, SCS, Washington, D.C.
Viney, B., Veeman, T. S., and Adamowicz, W. (1996). “Transferable water rights and the eastern irrigation district: A farm water demand and risk analysis.” Environment Canada.
Wang, L. (2005). “Cooperative water resources allocation among competing users.” Ph.D. thesis, Dept. of Systems Design Engineering, Univ. of Waterloo, Waterloo, Ontario, Canada, ⟨http://etheses.uwaterloo.ca/display.cfm?ethesis_id=709⟩.
Wang, L., Fang, L., and Hipel, K. W. (2003). “Water resources allocation: A cooperative game theoretic approach.” J. Environmental Informatics, 2(2), 11–22.
Wang, L., Fang, L., and Hipel, K. W. (2007). “Mathematical programming approaches for modeling water rights allocation.” J. Water Resour. Plann. Manage., 133(1), 50–59.
Young, H. P., Okada, N., and Hashimoto, T. (1982). “Cost allocation in water resources development.” Water Resour. Res., 18(3), 463–475.
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© 2008 ASCE.
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Received: Aug 3, 2006
Accepted: Nov 8, 2007
Published online: Sep 1, 2008
Published in print: Sep 2008
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