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Statewide Water Planning: The Georgia Experience

Published online by Cambridge University Press:  26 January 2015

Jeffrey D. Mullen*
Affiliation:
Department of Agricultural and Applied Economics, University of Georgia, Athens, Georgia

Abstract

Several states in the southeast have acknowledged the need for statewide water planning but have yet to act. In contrast, Georgia is on the cusp of completing the Georgia Comprehensive Statewide Water Management Plan (SWMP). The SWMP provides for resource assessments, forecasts, and regional water planning. Over the past three years, an extensive effort has been made to implement the SWMP. This article describes the planning process undertaken in Georgia. Several of the recommended practices are also highlighted and critiqued with respect to their potential to affect aggregate water use in the state.

Type
Invited Paper Sessions
Copyright
Copyright © Southern Agricultural Economics Association 2011

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References

American Water Works Association. Manual of Water Supply Practices: Principles of Water Rates. Fees, and Charges, 5th ed. 2000.Google Scholar
Baum, M., Dukes, M., Miller, G. “Residential Irrigation Uniformity and Efficiency in Florida.” ASAE Paper Number FL03-100, 2003.Google Scholar
Boggess, W., Lacewell, R., and Zilberman, D.Economics of Water Use in Agriculture.” Agricultural and Environmental Resource Economics. Carlson, G., Zilberman, D., and Miranowski, J., eds. New York, NY: Oxford University Press, 1993.Google Scholar
Boland, J., and Whittington, D.The Political Economy of Increasing Block Tariffs in Developing Countries.” Paper presented at the World Bank Sponsored Workshop on Political Economy of Water Pricing Implementation, Washington, DC, November 3-5, 1998.Google Scholar
Cavero, J., Jimenez, L., Puig, M., Faci, J., and Martinez-Cob, A.Maize Growth and Yield Under Daytime and Nighttime Solid-Set Sprinkler Irrigation.Agronomy Journal 100,6(2008):1573-79.CrossRefGoogle Scholar
Dalhuisen, J.M., Florax, R., de Groot, H., and Nijkamp, P.Price and Income Elasticities of Residential Water Demand: A Meta-Analysis.Land Economics 79,2(2003):292308.CrossRefGoogle Scholar
Dziegielewski, B., and Opitz, E.Municipal and Industrial Water Use in the Metropolitan Water District Service Area, Interim Report No. 4. Prepared for the Metropolitan Water District of Southern California, Los Angeles. Planning and Management Consultants, Ltd., Carbondale, IL, June 1991.Google Scholar
Gaudin, S.Effect of Price Information on Residential Water Demand.Applied Economics 38,4(2006):383-93.CrossRefGoogle Scholar
Howell, T.Irrigation Efficiency. Encyclopedia of Water Science.” New York, NY: Marcel Dekker, Inc., 2003.Google Scholar
Kanno, Y., and Vokoun, J.2010. Evaluating Effects of Water Withdrawals and Impoundments on Fish Assemblages in Southern New England Streams, USA.Fisheries Management and Ecology 17,3(2003):272-83.CrossRefGoogle Scholar
Kieffer, J. and Diezielewski, B.Analysis of Residential Landscape Irrigation in Southern California. Research Report prepared for Metropolitan Water District of Southern California, Los Angeles, CA, December 1991.Google Scholar
Latif, M., and Ahmad, F.Operational Analysis of Water Applications of a Sprinkler Irrigation System Installed in a Golf Course: Case Study.Journal of Irrigation and Drainage Engineering 134,4(2008):446-53.CrossRefGoogle Scholar
Martinez-Cob, A., Playan, E., Zapata, N., Cavero, J., Medina, E., and Puig, M.Contribution of Evapotranspiration Reduction During Solid-Set Sprinkler Irrigation to Application Efficiency.Journal of Irrigation and Drainage Engineering 134,6(2008):745-56.CrossRefGoogle Scholar
Mullen, J.D., Yu, Y., and Hoogenboom, G.Estimating the Demand for Irrigation Water in a Humid Climate: A Case Study from the Southeastern United States.Agricultural Water Management 96(2009):1421-28.CrossRefGoogle Scholar
Planning and Management Consultants, Ltd. IWR-MAIN Water Demand Analysis Software: Technical Overview. Carbondale, IL, 1996.Google Scholar
Playan, E., Salvador, R., Faci, J., Zapata, N., Martinez-Cob, A., and Sanchez, I.Day and Night Wind and Drift and Evaporation Loss in Sprinkler Solid-Sets and Moving Laterals.Agricultural Water Management 76(2005):139-59.CrossRefGoogle Scholar
Rogers, P., de Silva, R., and Bhatia, R.Water Is an Economic Good: How to Use Prices to Promote Equity, Efficiency, and Sustainability.Water Policy 4(2002):117.CrossRefGoogle Scholar
Rosegrant, M., Ringler, C., McKinney, D., Cai, X., Keller, A., and Donoso, G.Integrated Economic-Hydrologic Water Modeling at the Basin Scale: the Maipo River Basin.Agricultural Economics 24(2000):3346.Google Scholar
Yacoubi, S., Zayani, K., Zapata, N., Zairi, A., Slatni, A., Salvador, R., and Playan, E.Day and Night Time Sprinkler Irrigated Tomato: Irrigation Performance and Crop Yield.” Biosystems Engineering 107,1 (2010):2535.CrossRefGoogle Scholar