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Behavior of 2,4-D in Common Waterplantain (Alisma triviale)

Published online by Cambridge University Press:  12 June 2017

Joel K. Ransom ,
Ervin A. Oelke  and
Donald L. Wyse
Joel K. Ransom
Affiliation:
Univ. of Minnesota
Ervin A. Oelke
Affiliation:
Dep. of Agron. and Plant Genetics, Univ. of Minnesota, St. Paul, MN 55108
Donald L. Wyse
Affiliation:
Dep. of Agron. and Plant Genetics, Univ. of Minnesota, St. Paul, MN 55108
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Abstract

Retention, absorption, translocation, and metabolism of 2,4-D [(2,4-dichlorophenoxy)acetic acid] by common waterplantain (Alisma triviale Pursh. # ALSPA) at three growth stages were investigated to determine the basis for differential susceptibility of common waterplantain at different growth stages. Plants in the five-leaf and scape elongation stages retained more 2,4-D than plants in the early flowering stage. Absorption of 14C-2,4-D by the flower stalk was less than absorption by the treated leaves regardless of growth stage. The majority of the absorbed 14C translocated out of the treated plant part was recovered in the aerial portion of the plant younger than the treated leaves or in the corm, with greater movement of 14C into the corm at the older growth stages. Metabolism of 14C-2,4-D did not differ among the growth stages. The results suggest that the greater sensitivity of common waterplantain at the scape elongation stage to 2,4-D is due to greater translocation to the corm when compared to the five-leaf stage, and greater retention when compared to the early flowering stage.

Keywords

Growth stageretentionabsorptiontranslocationmetabolismALSPA
Type
Research Article
Information
Weed Science , Volume 31 , Issue 6 , November 1983 , pp. 766 - 770
Copyright
Copyright © 1983 Weed Science Society of America 

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References

Literature Cited

1. Agbakoba, C.S.O. and Goodin, J. R. 1969. Effect of stage of growth of field bindweed on absorption and translocation of 14C-labeled 2,4-D and picloram. Weed Sci. 17:436438.CrossRefGoogle Scholar
2. Ashton, F. M. and Crafts, A. S. 1973. Mode of Action of Herbicides. John Wiley and Sons, New York. 504.Google Scholar
3. Coble, H. D. and Slife, F. W. 1970. Development and control of honeyvine milkweed. Weed Sci. 18:352356.CrossRefGoogle Scholar
4. Coble, H. D., Slife, F. W., and Butler, H. S. 1970. Absorption, metabolism, and translocation of 2,4-D by honeyvine milkweed. Weed Sci. 18:653656.CrossRefGoogle Scholar
5. Linder, P. J., Brown, J. W., and Mitchell, J. W. 1949. Movement of externally applied phenoxy compounds in bean plants in relation to conditions favoring carbohydrate translocation. Bot. Gaz. 110:628632.CrossRefGoogle Scholar
6. Linscott, D. L. and McCarty, M. K. 1962. Absorption, translocation, and degradation of 2,4-D in ironwood (Vernonia baldwinii). Weeds 10:6568.CrossRefGoogle Scholar
7. Ransom, J. K. and Oelke, E. A. 1982. Common waterplantain (Alisma triviale) interference with wild rice (Zizania palustris). Weed Sci. 30:1014.CrossRefGoogle Scholar
8. Schultz, M. E. and Burnside, O. C. 1980. Absorption, translocation, and metabolism of 2,4-D and glyphosate in hemp dogbane (Apocynum cannabinum). Weed Sci. 28:1320.CrossRefGoogle Scholar
9. Weintraub, R. L., Brown, J. W., Fields, M., and Rohan, J. 1952. Metabolism of 2,4-dichlorophenoxyacetic acid. I. 14CO2 production by bean plants treated with labeled 2,4-dichlorophenoxyacetic acids. Plant Physiol. 27:293301.CrossRefGoogle Scholar
10. Wiese, A. F. and Rea, H. E. 1962. Factors affecting the toxicity of phenoxy herbicides to field bindweed. Weeds 10:5861.CrossRefGoogle Scholar
11. Wyrill, III, R., J. and Burnside, O. C. 1976. Absorption, translocation, and metabolism of 2,4-D and glyphosate in common milkweed and hemp dogbane. Weed Sci. 24:557566.CrossRefGoogle Scholar