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Spatial and Temporal Water Allocation in the Kissimmee River Basin*

Published online by Cambridge University Press:  28 April 2015

John E. Reynolds
Affiliation:
Department of Food and Resource Economics, University of Florida
J. Richard Conner
Affiliation:
Department of Agricultural Economics, Mississippi State University

Extract

In many areas of the country, there is strong competition among agricultural, municipal, industrial and other users of water. Water managers are faced with the problem of allocating available water among alternative uses.

The study [11] upon which this paper is based was a cooperative effort with the Central and Southern Florida Control District which is typical of many water management districts making decisions regarding allocation of a limited amount of water among uses and users. When the District was formed, it was developed with emphasis on facilities to provide relief from flooding. Water management responsibilities such as water supply, recreation and the preservation and enhancement of fish and wildlife have become important to the public and consequently have received recognition by those responsible for managing the water.

Type
Research Article
Copyright
Copyright © Southern Agricultural Economics Association 1977

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Footnotes

*

Florida Agricultural Experiment Stations Journal Series No. 584. The comments and suggestions of Clyde F. Kiker, Lonnie Bateman and the reviewers for this Journal are gratefully acknowledged

References

[1]Andrews, Richard A. and Weyrick, Richard R.. “Linear Programming Use for Evaluating Water Resources and Cost and Benefit Allocation,” Water Resources Bulletin, Volume 9, pp. 258272, 1973.CrossRefGoogle Scholar
[2]Dorfman, Robert.Mathematical Models: The Multistructure Approach,” in Design of Water-Resource Systems, Edited by Maass, et al,Cambridge: Harvard University Press, 1962.Google Scholar
[3]Gibbs, Kenneth C.A Measure of Outdoor Recreational Usage, Food and Resource Economics Department Economics Report 52, Institute of Food and Agricultural Sciences, University of Florida, 1973.Google Scholar
[4]Gibbs, K. C. and Conner, J. R.. “Components of Outdoor Recreational Values: Kissimmee River Basin, Florida,” Southern Journal of Agricultural Economics, Volume 5, Number 1, pp. 239244, 1973.Google Scholar
[5]Gibbs, Kenneth C. and McGuire, John F. III. Estimation of Outdoor Recreational Values, Food and Resource Economics Department Report 53, Institute of Food and Agricultural Sciences, University of Florida, 1973.Google Scholar
[6]Heady, Earl O.Mathematical Analysis: Models for Quantitative Application in Watershed Planning,” in Economics of Watershed Planning, Edited by Tolley, G. S. and Riggs, F. E., Ames: Iowa State University Press, 1961.Google Scholar
[7]Kiker, Clyde. “River Basin Simulation: An Interactive Engineering-Economic Approach to Operation Policy Evaluation,” Food and Resource Economics Department Staff Paper 11, Institute of Food and Agricultural Sciences, University of Florida, August 1975.Google Scholar
[8]Kiker, Clyde F.River Basin Simulation as a Means of Determining Operating Policy for a Water Control System,” Unpublished Ph.D. dissertation, University of Florida, Gainesville, 1973.Google Scholar
[9]Liu, Chin-shu. “Flood Control Storage Allocation by Linear Programming,” Water Resources Bulletin, Volume 8, pp. 976986, 1972.Google Scholar
[10]Pavelis, G. A. and Timmons, John F.. “Linear Programming—A Tool for Watershed Planning,Journal of Soil and Water Conservation, Volume 15, pp. 5-10, 1960.Google Scholar
[11]Reynolds, John E., Conner, J. Richard, Gibbs, Kenneth C. and Kiker, Clyde F.. Water Allocation Models Based on an Analysis for the Kissimmee River Basin, Florida Water Resources Research Center Publication No. 26, Gainesville, Florida, 1974.Google Scholar
[12]Sinha, L. K. “An Operational Watershed Model: Step 1-B: Regulation of Water Levels in the Kissimmee River Basin,” Water Resources Bulletin, Volume 6, pp. 209221, 1970.CrossRefGoogle Scholar
[13]Sinha, L. K. and Lindahl, L. E.. “An Operational Water Management Model: General Considerations, Purposes and Progress,” Paper No. 70-236, Presented at the 1970 Annual Meeting, American Society of Agricultural Engineers, Minneapolis, Minnesota, July 1970.Google Scholar
[14]Sinha, L. K. and Khanal, N. N.. “Estimation of Rainfall for the Kissimmee River Basin,” Paper No. 71-728, Presented at the 1971 Winter Meeting, American Society of Agricultural Engineers, Chicago, Illinois, December 1971.Google Scholar
[15]Storch, William V. and Hamrick, Robert L.. “An Approach to Operation of a Regional Primary Water Central System,Social and Ecological Aspects of Irrigation and Drainage, American Society of Civil Engineers, New York, N.Y., 1970, pp. 4562.Google Scholar