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Persistence and Movement of CDAA and CDEC in Soil and the Tolerance of Corn Seedlings to These Herbicides

Published online by Cambridge University Press:  12 June 2017

R. L. Gantz  and
F. W. Slife
R. L. Gantz
Affiliation:
University of Illinois, Urbana, Illinois; now Plant Physiologist with Dow Chemical Company, Texas Division, Freeport, Texas
F. W. Slife
Affiliation:
University of Illinois, Urbana, Illinois
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Extract

One of the major characteristics limiting the usefulness of pre-emergence herbicide applications concerns the persistence of chemical activity in the soil. In many instances, the herbicides break down too quickly to obtain satisfactory weed control. On the other hand, there is the possible hazard that a chemical may be too persistent and thus endanger the growth of succeeding crops. Another closely related factor is susceptibility to leaching. It is especially important when chemicals are used that are toxic to the crop plants as well as the weeds.

Type
Research Article
Information
Weeds , Volume 8 , Issue 4 , October 1960 , pp. 599 - 606
Copyright
Copyright © 1960 Weed Science Society of America 

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References

Literature Cited

1. Aldrich, R. J. Herbicides; residues in soil. Jour. Agric. and Food Chem. 1:258. 1953.Google Scholar
2. Aldrich, R. J. and Willard, C. J. Factors affecting pre-emergence use of 2,4–D in corn. Weeds 1:338345. 1952.Google Scholar
3. Audus, L. J., and Symonds, K. V. Further studies on the breakdown of 2,4–dichlorophenoxyacetic acid by a soil bacterium. Ann. Ap. Biol. 42:174182. 1955.Google Scholar
4. Crafts, A. S. Toxicity of 2,4–D in California soils. Hilgardia 19:141158. 1949.CrossRefGoogle Scholar
5. Erickson, L. C., and Gault, H. S. The duration and effect of 2,4–D toxicity to crops grown on calcareous soil under controlled irrigation conditions. Agron. Jour. 42:226229. 1950.CrossRefGoogle Scholar
6. Hanks, R. W. Removal of 2,4–dichlorophenoxyacetic acid and its calcium salt from six different soils by leaching. Bot. Gaz. 108:186191. 1946.Google Scholar
7. Hamm, P. C., and Speziale, A. J. The correlation of structure and activity for a new class of herbicidal chemicals. Proc. NCWCC 11:1618. 1954.Google Scholar
8. Hannah, L. H. Field studies with a new class of herbicidal chemicals. Proc. NCWCC 11:7375. 1954.Google Scholar
9. Helgeson, E. A., and Anderson, H. N. Leaching of alpha–chloro–N,N–diallylacetamide (CDAA) in Fargo clay. NCWCC Res. Report 12:183. 1955.Google Scholar
10. Hernandez, T. P. Effect of organic matter content on the rate that 2,4–D is leached in different soils. Fifth Ann. NCWCC Res. Rept. Sec. VIII. 1948.Google Scholar
11. Jenson, H. L., and Peterson, H. I. Detoxification of hormone insecticides by soil bacteria. Nature 170:3940. 1952.Google Scholar
12. Linder, P. J. Movement and persistence of herbicides following their application to the soil surface. Proc. NEWCC 9:711. 1952.Google Scholar
13. Meadows, M. W., and Smith, Ora. Effect of temperature, organic matter, pH, and rates of application on persistence of 2,4–D in soil. Proc. NEWCC 3:2429. 1949.Google Scholar
14. Muzik, T. J., Loustalot, A. M., and Cruzado, H. J. Movement of 2,4–D in soils. Agron. Jour. 43:149150. 1951.CrossRefGoogle Scholar
15. Ogle, R. E., and Warren, G. F. Fate and activity of herbicides in soils. Weeds 3:257273. 1954.Google Scholar
16. Otten, R. J., Dawson, J. E., and Schreiber, M. M. Persistence and leaching of CDEC and CDAA in soil. Proc. NCWCC 11:111119. 1957.Google Scholar
17. Pray, B. O., and Witman, E. D. Comments on distribution of CIPC in soil. Weeds 2:300301. 1953.Google Scholar
18. Ready, Daniel, and Grant, Virginia Q. A rapid sensitive method for determination of low concentrations of 2,4–dichlorophenoxyacetic acid in aqueous solution. Bot. Gaz. 109:3944. 1947.CrossRefGoogle Scholar
19. Sheets, T. J. Effects of soil type and time on the herbicidal activity of CDAA, CDEC, and EPTC. Weeds 7:442448. 1959.Google Scholar
20. Warren, G. F. Rate of leaching and breakdown of several herbicides in different soils. Proc. NCWCC 11:5. 1954.Google Scholar