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Phytotoxicity of Simazine

Published online by Cambridge University Press:  12 June 2017

O. C. Burnside  and
R. Behrens
O. C. Burnside
Affiliation:
Department of Agronomy and Plant Genetics, University of Minnesota Department of Agronomy, University of Nebraska, Lincoln, Nebraska
R. Behrens
Affiliation:
Department of Agronomy and Plant Genetics, University of Minnesota
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Extract

Selective herbicides that will control certain broadleaved but not grassy species or vice versa have been in use for a number of years, but recently selective herbicides have been developed that are toxic to a greater number of weed species. Such an herbicide is 2–chloro–4,6–bis(ethylamino)–s–triazine (simazine) which selectively controls virtually all grassy and broadleaved annual weeds in corn and in some horticultural and woody species. This approaches the ultimate in selective weed control since a farmer usually wants to grow one plant species and eliminate all others.

Type
Research Article
Information
Weeds , Volume 9 , Issue 1 , January 1961 , pp. 145 - 157
Copyright
Copyright © 1961 Weed Science Society of America 

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References

Literature Cited

1. Bouyoucos, G. J. A recalibration of the hydrometer method for making mechanical analysis of soils. Agron. Jour. 43:434438. 1951.CrossRefGoogle Scholar
2. Davis, D. E., Funderburk, H. H. Jr., and Sansing, N. G. The absorption and translocation of C14–labeled simazin in corn, cotton, and cucumber. Weeds 7:300309. 1959.CrossRefGoogle Scholar
3. Derscheid, L. A. Weather effects on pre-emergence applications of CDAA and simazin. NCWCC Proc. 15:23. 1958.Google Scholar
4. Jackson, M. L. Soil Chemical Analysis. Prentice-Hall, Inc., Englewood Cliffs, N. J. 1958.Google Scholar
5. Prianishnikow, D. Quantitative Bestimmung der im Boden vorhandenem absorptiv gebundensen Basen. Landwirtschaftlichen Versuchs-Stationen. 79–80:667680. 1913.Google Scholar
6. Richards, L. A. Pressure-membrane apparatus—construction and use. Agr. Engr. 28:451454. 1947.Google Scholar
7. Robinson, R. G., and Dunham, R. S. A sprayer for experimental plots. Agron. Jour. 42:5758. 1950.CrossRefGoogle Scholar
8. Roth, M. W. Etude comparee de la reaction du Mais et du Ble a la Simazine, substance herbicide. Comptes rendus des seances de l'Academie des Sciences. 245:942944. 1957.Google Scholar
9. Schneider, E. O. A progress report on the physiology of simazin in the corn plant. NCWCC Proc. 15:4. 1958.Google Scholar
10. Schneider, E. O. A discussion of the mode of action, tolerance and soil type effects of triazines. NEWCC Proc. 13:416420. 1959.Google Scholar
11. Sheets, T. J. The comparative toxicities of monuron and simazin in soil. Weeds 7:189194. 1959.CrossRefGoogle Scholar
12. Steel, R. G. D., and Torrie, J. H. Principles and Procedures of Statistics. McGraw-Hill Book Company, Inc. New York, N. Y. 1960.Google Scholar