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Experiments with Herbicides in Soils

Published online by Cambridge University Press:  12 June 2017

A. S. Crafts
Affiliation:
University of California, Davis, California
Harold Drever
Affiliation:
University of California, Davis, California
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Extract

Because all agricultural chemicals applied to plants eventually reach the soil, and because many herbicides are applied directly to the soil for absorption through plant roots, it is desirable to test the persistence of these reagents in soils of varied types. Many such tests have already been conducted. Additional studies will be necessary as new phytotoxic chemicals are discovered. In this paper tests on some of the herbicides which have been studied during the past decade are described. Most of these herbicides are already in extensive use and much information has already been obtained relative to their reaction in soils. The data included here are submitted in an effort to round out the available information, particularly as related to long time effects of the herbicides in soils.

Type
Research Article
Information
Weeds , Volume 8 , Issue 1 , January 1960 , pp. 12 - 18
Copyright
Copyright © 1960 Weed Science Society of America 

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References

Literature Cited

1. Ogle, R. E., and Warren, G. W. Fate and activity of herbicides in soils. Weeds 3:257273. 1954.Google Scholar
2. Barrons, K. C., and Hummer, R. W. Some basic herbicidal studies with derivatives of TCA. Proc. SWCC 4:312. 1951.Google Scholar
3. Loustalot, A. J., and Ferrer, R. Studies on the persistence and movement of sodium trichloroacetate in the soil. Agron. Journal 42:323327. 1950.Google Scholar
4. Blouch, Roger, and Fults, Jess. The influence of soil type on the selective action of chloro IPC and sodium TCA. Weeds 2:119124. 1953.Google Scholar
5. Rai, G. S., and Hamner, C. L. Persistence of sodium trichloroacetate in different soil types. Weeds 2:271279. 1953.Google Scholar
6. Holstun, T. J. Jr., and Loomis, W. E. Leaching and decomposition of 2,2-dichloropropionic acid in several Iowa soils. Weeds 4:205217. 1956.Google Scholar
7. Newman, A. S., De Rose, H. R., and De Rigo, H. T. Persistence of isopropyl N-phenylcarbamates in soils. Soil Science Vol. 66 383397. 1948.CrossRefGoogle Scholar
8. Freed, V. W., and Bierman, H. E. IPC and chloro IPC as representative carbamates as herbicides. Proc. WWCC. 13:2127. 1952.Google Scholar
9. Hill, E. D., McGahen, J. W., Baker, H. M., Finnerty, D. W., and Bingeman, C. W. The fate of substituted urea herbicides in agricultural soils. Agron. Jour. 47:93104. 1955.CrossRefGoogle Scholar
10. Sheets, T. J., and Crafts, A. S. The phytotoxicity of four phenylurea herbicides in soil. Weeds 5:93101. 1957.Google Scholar
11. Loustalot, A. J., Muzik, T. J., and Cruzado, H. J. Persistence of CMU in the soil. Agr. Chem. 8(11):52, 53, 97. Nov. 1953.Google Scholar
12. Aldrich, R. J. Herbicide residues in soil. Journal of Agr. and Food Chem. 1:257260. 1953.CrossRefGoogle Scholar
13. Crafts, A. S. Toxicity of sodium arsenite and sodium chlorate in four California soils. Hilgardia 9:459498. 1935.Google Scholar