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Simulation of Soil Water-Crop Yield Systems: The Potential for Economic Analysis*

Published online by Cambridge University Press:  28 April 2015

Harry P. Mapp Jr.  and
Vernon R. Eidman
Harry P. Mapp Jr.
Affiliation:
Oklahoma State University
Vernon R. Eidman
Affiliation:
Oklahoma State University
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Extract

Economists have shown an increasing interest in systems theory and simulation. The recent reviews by Anderson and LaDue and Vincent indicate the literature is repleat with models of business and farm firms developed by researchers from several disciplines. A smaller but no less sophisticated group of models is focused on simulated physical or biological processes. An even smaller segment of the literature deals with economic applications of models which simulate physical and biological phenomena.

Economists have become interested in models simulating physical and biological phenomena because of their experimental value. When a satisfactory approximation of reality can be created within the context of the model, experiments can then be conducted to determine the effects of changes in exogeneous factors on outcomes predicted by the model.

Type
Research Article
Information
Journal of Agricultural and Applied Economics , Volume 7 , Issue 1 , July 1975 , pp. 47 - 53
Copyright
Copyright © Southern Agricultural Economics Association 1975

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Footnotes

*

Oklahoma State Agricultural Experiment Station Journal Article J-2948. Research reported herein was conducted under Grant 14-01-0001-1539 from the Office of Water Resources Research and Oklahoma Station Project No. 1358.

References

[1] Anderson, Jock R.Simulation: Methodology and Application in Agricultural Economics,” Review of Marketing and Agricultural Economics, March 1974, pp. 355.Google Scholar
[2] Anderson, Raymond L.A Simulation Program to Establish Optimum Crop Patterns on Irrigated Farms Based on Pre-season Estimates of Water Supply,” American Journal of Agricultural Economics, Vol. 50, No. 5, December 1968, pp. 15861590.CrossRefGoogle Scholar
[3] Anderson, Raymond L. and Arthur, Maass. A Simulation of Irrigation Systems—The Effect of Water Supply and Operating Rules on Production and Income on Irrigated Farms, USDA Technical Bulletin No. 1431, Washington, January 1971.Google Scholar
[4] Fleming, P.M.A Water Budget Method to Predict Plant Response and Irrigation Requirements for Widely Varying Evaporative Conditions,” Proceedings 6th International Congress Agricultural Engineering, Geneva, 1964, pp. 108120.Google Scholar
[5] Flinn, J. C.The Demand for Irrigation Water in an Intensive Irrigation Area,” Australian Journal of Agricultural Economics, Vol. 13, 1969, pp. 128143.CrossRefGoogle Scholar
[6] Flinn, J. C.The Simulation of Crop-Irrigation System,” Systems Analysis in Agricultural Management, edited by Dent, J.B., Anderson, J.R., John Wiley & Sons, Sidney, 1971.Google Scholar
[7] Flinn, J.C., and Musgrave, W.F.. “Development and Analysis of Input-Output Relations for Irrigation Water,” Australian Journal of Agricultural Economics, Vol. 11, 1967, pp. 119.CrossRefGoogle Scholar
[8] Hutton, R. F. and Hinman, H.R.. A General Agricultural Firm Simulator, Agricultural Economics and Rural Sociology Report No. 72, Pennsylvania State University, State College, 1968.Google Scholar
[9] Jose, H. Douglas. “Decision Strategies for the Multiple Use of Winter Wheat in Oklahoma,” unpublished Ph.D. dissertation, Oklahoma State University, Stillwater, July 1974.Google Scholar
[10] LaDue, Eddy L. and Vincent, Warren H.. “Systems Theory and Simulation: A Critique of Literature,” Agricultural Economics Report No. 261, Michigan State University, East Lansing, March 1974.Google Scholar
[11] Mapp, Harry P. Jr.An Economic Analysis of Water-Use Regulation in the Central Ogallala Formation,” unpublished Ph.D. dissertation, Oklahoma State University, Stillwater, May 1972.Google Scholar
[12] Mapp, Harry P. Jr., Eidman, Vernon R., Stone, John F. and Davidson, James M.. Simulating Soil Water and Atmospheric Stress舒Crop Yield Relationships in Economic Analysis, Oklahoma Agricultural Experiment Station Technical Bulletin T-140, Stillwater, February 1975.Google Scholar
[13] Moore, Charles V.A General Analytical Framework for Estimating the Production Function for Crops Using Irrigation Water,” Journal of Farm Economics, Vol. 43, No. 4, November 1961, pp. 876888.CrossRefGoogle Scholar
[14] Shaw, R. H. Estimation of Soil Moisture Under Corn, Iowa Agricultural Experiment Station Research Bulletin 520, Ames, 1963.Google Scholar
[15] Taylor, S. A.A Use of Mean Soil Moisture Tension to Evaluate the Effect of Soil Moisture on Crop Yields,” Soil Science, Vol. 74, 1952, pp. 217226.CrossRefGoogle Scholar