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An Improved Economic Land Classification System for Spatial Linear Programming Models

Published online by Cambridge University Press:  28 April 2015

Ronald J. Williams  and
Daryll E. Ray
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Extract

Spatial linear programming studies in agriculture require establishment of a land resource base so representative enterprise budgets can be constructed to reflect productivity and limitations of each region's agricultural land. To relate the land base to budgeting procedures requires an economic classification of agricultural soils. Ideally, this classification would group together those soils requiring similar cultural practices and having the same yield capabilities. Costs and returns can then be computed for selected agricultural enterprises within each classification. Technical information on agronomically based soil classifications is available through agricultural experiment station reports and the Soil Conservation Service. These reports give an abundance of detailed physical and chemical soil data on a county basis.

Because technical data are extensive, a problem exists in translating this information into economic groupings suitable for use in constructing budgets. Economic classification of soils for a spatial study should be pragmatic but detailed enough to ensure a meaningful linkage of enterprise budgets to the soil.

Type
Research Article
Information
Journal of Agricultural and Applied Economics , Volume 8 , Issue 2 , December 1976 , pp. 51 - 55
Copyright
Copyright © Southern Agricultural Economics Association 1976

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References

[1] Eyvindson, Roger K.A Model of Interregional Competition in Agriculture Incorporation Consuming Regions, Producing Areas, Farm Size Groups and Land Classes, Unpublished Ph.D. Thesis, Iowa State University, 1970.Google Scholar
[2] Gray, Fenton. “Productivity of Key Soils in Oklahoma,Oklahoma State University Experiment Station Bulletin, B-650,1966.Google Scholar
[3] Gray, Fenton and Roositalab, M. Hassan. “Benchmark and Key Soils of Oklahoma, A Modern Classification System,Oklahoma State University Experiment Station Bulletin, MP-97, October 1976.Google Scholar
[4] Jobes, Raleigh A., III. A Comprehensive Model to Develop and Analyze Alternative Beef Farm Organizations in Eastern Oklahoma, Unpublished Ph.D. Thesis, Oklahoma State University, 1972.Google Scholar
[5] Nicol, Kenneth J., Heady, Earl O. and Madsen, Howard C.. Models of Soil Loss, Land and Water Use, Spatial Agricultural Structure, and the Environment, Center for Agricultural and Rural Development, CARD Report 49T, Ames: Iowa State University, 1972.Google Scholar
[6] Oklahoma Soil Conservation Service. Oklahoma Conservation Needs Inventory, U.S. Department of Agriculture, Soil Conservation Service, Stillwater, Oklahoma, March 1970.Google Scholar
[7] Ramsey, A. Frank. A Soils Grouping Scheme for Economic Decision Making in the Mississippi Delta, Unpublished M.S. Thesis, Mississippi State University, 1974.Google Scholar
[8] Rathwell, P. James. Economic and Environmental Impacts of Nitrogen Fertilizer Use, Unpublished Ph.D. Thesis, Oklahoma State University, 1975.Google Scholar
[9] Shumway, Richard C, King, Gordon A., Carter, Harold O. and Dean, Gerald W.. “Regional Resource Use for Agricultural Production in California, 1961-65 and 198,University of California, Davis, California, Giannini Foundation Report 25, September 1970.Google Scholar
[10] United States Bureau of the Census. United States Census of Agriculture, Part 36, Oklahoma, 1969.Google Scholar
[11] United States Department of Agriculture. Conservation Needs Inventory, Various State Issues, Soil Conservation Service, 1970.Google Scholar
[12] United States Department of Agriculture (SCS) and the Agricultural Experiment Stations of the Southern States and Puerto Rico Land-Grant Universities. “Soils of the Southern States and Puerto Rico,” Southern Cooperative Series Bulletin 174, 1973.Google Scholar
[13] United States Department of Agriculture. Soil Classification, A Comprehensive System, 7th Approxima¬tion, 1960 (Supplements issued in March 1967 and September 1968).Google Scholar
[14] United States Soil Conservation Service. Soil Survey, Noble County, Oklahoma, United States Department of Agriculture in cooperation with the Oklahoma Agricultural Experiment Station, 1956.Google Scholar
[15] Whittlesey, Norman K.Linear Programming Models Applied to Interregional Competition and Policy Choices for U.S. Agriculture, Unpublished Ph.D. Thesis, Iowa State University, 1964.Google Scholar