Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-02T23:37:09.615Z Has data issue: false hasContentIssue false
  • English
  • Français

Metabolism of Atrazine by Susceptible and Resistant Plants

Published online by Cambridge University Press:  12 June 2017

N. S. Negi ,
H. H. Funderburk Jr.  and
D. E. Davis
N. S. Negi
Affiliation:
Auburn University Agricultural Experiment Station, Auburn, Alabama
H. H. Funderburk Jr.
Affiliation:
Auburn University Agricultural Experiment Station, Auburn, Alabama
D. E. Davis
Affiliation:
Auburn University Agricultural Experiment Station, Auburn, Alabama
Get access

Abstract

Metabolism of C14-labeled and unlabeled atrazine (2-chloro-4-ethylamino-6-isopropylamino-s-triazine) was studied in oats, soybeans, and beans (susceptible); cotton and peanuts (intermediate in susceptibility); and Johnsongrass, grain sorghum, and corn (resistant). Atrazine residues were found in all plants 11 days after a preemergence application of 1 lb atrazine/A. Methanol was found to be a better extraction solvent for atrazine and hydroxyatrazine than chloroform. Undegraded atrazine found in plants was roughly correlated with susceptibility, but atrazine absorption was not directly correlated with plant susceptibiliy. Radioactivity remaining in plant residue after methanol extraction likewise was not completely correlated with susceptibility. All plants converted some atrazine to hydroxyatrazine and the amount of hydroxyatrazine formed was somewhat correlated with resistance. The three resistant species converted at least twice as much atrazine to hydroxyatrazine as did the susceptible soybean and oats. Beans converted considerably larger amounts of atrazine than did other susceptible species.

Type
Research Article
Information
Weeds , Volume 12 , Issue 1 , January 1964 , pp. 53 - 57
Copyright
Copyright © 1964 Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

1. Castelfranco, P., Foy, C. L. and Deutsch, D. B. 1961. Non-enzymatic detoxification of 2-chloro-4,6-bis(ethylamino)-s- triazine (simazine) by extracts of Zea Mays . Weeds 9:580591.Google Scholar
2. Castelfranco, P., and Brown, M. S. 1962. Purification and properties of the simazine-resistance factor of Zea Mays . Weeds 10:131136.Google Scholar
3. Crafts, A. S. and Yamaguchi, S. 1960. Gross autoradiography of solute translocation and distribution in plants. Med. and Biol. Illustration 10:103109.Google ScholarPubMed
4. Davis, D. E., Funderburk, H. H. Jr. and Sansing, N. G. 1959. Absorption, translocation, degradation and volatilization of radioactive simazine. Proc. SWC 12:172173.Google Scholar
5. Davis, D. E., Funderburk, H. H. Jr. and Sansing, N. G. 1959. The absorption and translocation of C14-labeled simazine by corn, cotton and cucumber. Weeds 7:300309.Google Scholar
6. Davis, D. E., Roberts, D. R. and Funderburk, H. H. Jr. 1963. Radio-chemical assay procedures for atrazine and atrazine degradation products. Proc. SWC 16:380386.Google Scholar
7. Foy, C. L. 1961. Accumulation of s-triazine herbicides in the lysigenous glands of cotton and its physiological significance. Abstracts, WSA p 41.Google Scholar
8. Funderburk, H. H. Jr. and Davis, D. E. 1963. The metabolism of C14 chain- and ring-labeled simazine by corn and the effect of atrazine on respiratory systems. Weeds 11:101104.CrossRefGoogle Scholar
9. Gysin, H. and Knüsli, E. 1960. Chemistry and herbicidal properties of triazine derivatives. In Metcalf, R. L. [ed.] Advances in pest control research, 3:289358. Interscience Publishers, New York.Google Scholar
10. Hamilton, R. H. 1963. The content of benzoxazinone derivatives, formation of hydroxysimazine and tolerance of several species of Gramineae to atrazine. J. Food Agr. Chem. (In press).Google Scholar
11. Hamilton, R. H. and Moreland, D. E. 1962; Simazine: Degradation by corn seedlings. Science 135:373374.Google Scholar
12. Montgomery, M. and Freed, V. H. 1961. The uptake, translocation and metabolism of simazine and atrazine by corn plants. Weeds 9:231237.Google Scholar
13. Ragab, M. T. H. and McCollum, J. P. 1961. Degradation of C14-labeled simazine by plants and soil microorganisms. Weeds 9:7284.Google Scholar
14. Roth, W. 1957. Étude comparée de la réaction du Maïs et du Blé a la Simazine, substance herbicide. Comptes Rendus. L'Academie des Sciences 245:942944.Google Scholar
15. Roth, W. and Knüsli, E. 1961. Beitrag zur Kenntnis der Resistenzphänomene einzelner Pflanzen gegenüber dem phytotoxischen Wirkstoff Simazin. Experientia 17:312313.Google Scholar
16. Sheets, T. J. 1961. Uptake and distribution of simazine by oat and cotton seedlings. Weeds 9:113.Google Scholar