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Title	The Use of Computer-Assisted Mapping Techniques to Delineate Potential Areas of Salinity Development in soils: II. Field Verification of the Threshold Model Approach
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File Information	A study area within the Wellton-Mohawk Irrigation District, which lies east of Yuma, Arizona, was used to verify the threshold model proposed in Part I. Verification results showed that the threshold model could not reliably predict salinization potential; consequently, a modified threshold model, Model 1, was formulated. Model 1 was capable of predicting nearly 60 percent of the salinization potentials correctly, a significant improvement over the original threshold model. Nevertheless, Model 1 fell short of being considered a reliable forecasting tool. It is postulated that the interactions between the factors believed to give rise to salinity development at the study site were too complex to characterize with the simple threshold model approach. Rather, a means of weighting the significance of the individual factors in the overall salinization process may be necessary.
Authors	Corwin, D. L. : D. L. Corwin was a Soil Scientist with the U.S. Salinity Laboratory, USDA-ARS, Riverside, California. Rhoades, J. D. : J. D. Rhoades was a Supervisory Soil Scientist with the U.S. Salinity Laboratory and an Adjunct Professor in the Department of Soil and Environmental Sciences, University of California, Riverside.
Publication Date	May 1, 1988
Date Added	Sep 17, 2014
Copyright	© The Regents of the University of California
Copyright Year	1988
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Title

The Use of Computer-Assisted Mapping Techniques to Delineate Potential Areas of Salinity Development in soils: II. Field Verification of the Threshold Model Approach

Download

Document size is: 4,373 KB
Access the .pdf file

Quick Link

Repository View: https://ucanr.edu/repository/a/?a=152893
Direct to File: https://ucanr.edu/repository/a/?get=152893

File Information

A study area within the Wellton-Mohawk Irrigation District, which lies east of Yuma, Arizona, was used to verify the threshold model proposed in Part I. Verification results showed that the threshold model could not reliably predict salinization potential; consequently, a modified threshold model, Model 1, was formulated. Model 1 was capable of predicting nearly 60 percent of the salinization potentials correctly, a significant improvement over the original threshold model. Nevertheless, Model 1 fell short of being considered a reliable forecasting tool.

It is postulated that the interactions between the factors believed to give rise to salinity development at the study site were too complex to characterize with the simple threshold model approach. Rather, a means of weighting the significance of the individual factors in the overall salinization process may be necessary.

Authors

Corwin, D. L. : D. L. Corwin was a Soil Scientist with the U.S. Salinity Laboratory, USDA-ARS, Riverside, California.

Rhoades, J. D. : J. D. Rhoades was a Supervisory Soil Scientist with the U.S. Salinity Laboratory and an Adjunct Professor in the Department of Soil and Environmental Sciences, University of California, Riverside.

Publication Date

May 1, 1988

Date Added

Sep 17, 2014

1988

Posted By

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