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Atrazine Degradation in Two Soil Profiles

Published online by Cambridge University Press:  12 June 2017

F. W. Roeth
Affiliation:
Department of Agronomy, University of Nebraska, Lincoln, Nebraska
T. L. Lavy
Affiliation:
Department of Agronomy, University of Nebraska, Lincoln, Nebraska
O. C. Burnside
Affiliation:
Department of Agronomy, University of Nebraska, Lincoln, Nebraska

Abstract

Degradation of 2-chloro-4-ethylamino-6-isopropyl-s-triazine (atrazine) was studied in the 0 to 9, 14 to 24, and 36 to 48-inch depths of Sharpsburg silty clay loam and Keith silt loam soils. The effects of moisture, temperature, and microorganisms on degradation were observed. Atrazine was degraded two to three times faster in the topsoils than in the subsoils. Each 10 C temperature increase from 15 to 35 C caused the degradation rate to increase two to three times in these soils. Increasing the moisture content of the soils from 0.4 to 0.8 field capacity caused 14CO2 evolution from chain-labeled atrazine-14C treated soils to increase zero to six times. At 25 C and 0.8 field capacity, 100 to 194 atrazine molecules were detoxified for each molecule evolved as 14CO2 from chain-labeled atrazine. Solution culture studies showed cleavage of the side chain and ring of atrazine-14C except in the 14 to 24 and 36 to 48-inch depths of Keith silt loam.

Type
Research Article
Copyright
Copyright © 1969 Weed Science Society of America 

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References

Literature Cited

1. Armstrong, D. E., Chesters, G., and Harris, R. F. 1967. Atrazine hydrolysis in soil. Soil Sci. Soc. Amer. Proc. 31:6166.CrossRefGoogle Scholar
2. Bartholomew, W. V. and Broadbent, F. E. 1949. Apparatus for the control of moisture, temperature, and air composition in microbiological respiration experiments. Soil Sci. Soc. Amer. Proc. 14:156160.CrossRefGoogle Scholar
3. Burnside, O. C., Fenster, C. R., and Wicks, G. A. 1963. Dissipation and leaching of monuron, simazine, and atrazine in Nebraska soils. Weeds 11:209213.CrossRefGoogle Scholar
4. Couch, R. W., Gremlick, J. V., Davis, D. E., and Funderburk, H. H. Jr. 1965. The metabolism of atrazine and simazine by soil fungi. Proc. SWC 18:623631.Google Scholar
5. Harris, C. I. 1967. Fate of 2-chloro-s-triazine herbicides in soil. J. Agr. Food Chem. 15:157162.CrossRefGoogle Scholar
6. Harris, C. I. and Warren, G. F. 1964. Adsorption and desorption of herbicides by soil. Weeds 12:120126.CrossRefGoogle Scholar
7. Jeffay, Henry and Alvarez, Julian. 1961. Liquid scintillation counting of carbon-14. Anal. Chem. 33:612615.CrossRefGoogle Scholar
8. Kaufman, D. D., Kearney, P. C., and Sheets, T. J. 1963. Simazine: Degradation by soil microorganisms. Science 142:405406.CrossRefGoogle ScholarPubMed
9. Kaufman, D. D., Kearney, P. C., and Sheets, T. J. 1965. Microbial degradation of simazine. J. Agr. Food Chem. 13:238242.CrossRefGoogle Scholar
10. Kearney, P. C., Kaufman, D. D., and Sheets, T. J. 1965. Metabolites of simazine by Aspergillus fumigatus . J. Agr. Food Chem. 13:369372.CrossRefGoogle Scholar
11. McCormick, L. L. and Hiltbold, A. E. 1966. Microbiological decomposition of atrazine and diuron in soil. Weeds 14:7782.CrossRefGoogle Scholar
12. McGlamery, Marshall D. and Slife, F. W. 1966. The adsorption and desorption of atrazine as affected by pH, temperature, and concentrations. Weeds 14:237240.CrossRefGoogle Scholar
13. Rodgers, Earl G. 1962. Leaching of four triazines in three soils as influenced by varying frequencies and rates of simulated rainfall. Proc. SWC 15:268.Google Scholar
14. Skipper, H. D., Gilmour, C. M., and Furtick, W. R. 1967. Microbial versus chemical degradation of atrazine in soils. Soil Sci. Soc. Amer. Proc. 31:653656.CrossRefGoogle Scholar
15. Talbert, Ronald E. and Hale Fletchall, O. 1965. The adsorption of some s-triazines in soils. Weeds 13:4652.CrossRefGoogle Scholar
16. U. S. Department of Commerce. Environmental Science Services Administration. 1965–1966. Climatological data for Nebraska. Annual Summary.Google Scholar
17. Whiteside, Jean S. and Alexander, M. 1960. Measurement of microbiological effects of herbicides. Weeds 8:204213.CrossRefGoogle Scholar