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Sicklepod (Senna obtusifolia) Interference with Soybean (Glycine max) Cultivars Following Herbicide Treatments

Published online by Cambridge University Press:  12 June 2017

David R. Shaw*
Affiliation:
Department of Plant and Soil Sciences, Mississippi State University, Mississippi State, MS 39762
Alfred Rankins Jr.
Affiliation:
Department of Plant and Soil Sciences, Mississippi State University, Mississippi State, MS 39762
Jon T. Ruscoe
Affiliation:
Department of Plant and Soil Sciences, Mississippi State University, Mississippi State, MS 39762
*
1 Address correspondence to David R. Shaw, Mississippi State University, Box 9555, Mississippi State, MS 39762.

Abstract

Three Group V soybean cultivars were grown in the greenhouse to quantify interference when planted at various intervals with sicklepod, and the effects of chlorimuron and imazaquin POST on this interspecific interference. Soybean shoot height or fresh weight was not affected by sicklepod interference when sicklepod was planted 10 d after soybean in most cases. ‘Asgrow 5979’ soybean shoot height was not reduced when planted with sicklepod, but was reduced when planted 10 d after sicklepod and no herbicide treatment was added. When sicklepod was planted 10 d before Asgrow 5979 and ‘9592 Pioneer’ soybean, shoot height was reduced more than ‘Hutcheson,’ regardless of herbicide treatment. The cultivar 9592 Pioneer was more effective in reducing sicklepod shoot height than Asgrow 5979 when no herbicide treatment was used. Chlorimuron or imazaquin had little or no effect on sicklepod interference with soybean under these conditions.

Type
Research
Copyright
Copyright © 1997 by the Weed Science Society of America 

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References

Literature Cited

Adcock, T. E., Banks, P. A., and Bridges, D. C. 1990. Effects of preemergence herbicides on soybean (Glycine max): weed competition. Weed Sci. 38:108112.Google Scholar
Anonymous. 1997. Soybean variety trials. Mississippi State, MS: Mississippi Agricultural Forestry Experiment Station Information Bulletin 315, 124 p.Google Scholar
Banks, P. A. and Hammel, J. E. 1983. Factors affecting soybean growth interference by sicklepod (Cassia obtusifolia L.). Weed Sci. Soc. Am. Abstr. 23:65.Google Scholar
Banks, P. A., Tripp, T. N., Wells, J. W., and Hammel, J. E. 1985. Effects of tillage of sicklepod (Cassia obtusifolia) interference with soybeans (Glycine max) and soil water use. Weed Sci. 34:143149.CrossRefGoogle Scholar
Bridges, D. C. and Walker, R. H. 1985. Influence of weed management and cropping systems on sicklepod (Cassia obtusifolia) seed in the soil. Weed Sci. 33:800804.Google Scholar
Buchanan, G. A. and Burns, E. R. 1971. Weed competition in cotton. I. Sicklepod and tall morningglory. Weed Sci. 19:576579.Google Scholar
Coble, H. D. and Ritter, R. L. 1978. Pennsylvania smartweed (Polygonum pensylvanicum) interference in soybeans (Glycine max). Weed Sci. 26:556559.CrossRefGoogle Scholar
Coble, H. D., Williams, F. M., and Ritter, R. L. 1981. Common ragweed (Ambrosia artemesiifolia) interference in soybeans (Glycine max). Weed Sci. 29:339342.CrossRefGoogle Scholar
Congleton, W. F., Vancantfort, A. M., and Lignowski, E. M. 1987. Imazaquin (Scepter)®: a new soybean herbicide. Weed Technol. 1:186188.Google Scholar
Creel, J. M., Hoveland, C. S., and Buchanan, G. A. 1968. Germination growth, and ecology of sicklepod. Weed Sci. 16:396400.CrossRefGoogle Scholar
Dowler, C. C. 1992. Weed survey—Southern states, broadleaf crop subsection. Proc. South. Weed Sci. Soc. 45:392404.Google Scholar
Dowler, C. C. 1994. Weed survey—Southern states, broadleaf crop subsection. Proc. South. Weed Sci. Soc. 47:279299.Google Scholar
Frazee, R. W. and Stoller, E. W. 1974. Differential growth of corn, soybean, and seven dicotyledonous weed seedlings. Weed Sci. 22:336339.Google Scholar
Green, J. M., Obrigawitch, T. T., Long, J. D., and Hutcheson, J. M. 1988. Metribuzin and chlorimuron mixtures for preemergence broadleaf weed control in soybean, Glycine max . Weed Technol. 2:355363.CrossRefGoogle Scholar
Hagood, E. S. Jr., Bauman, T. T., Williams, J. L. Jr., and Schreiber, M. M. 1980. Growth analysis of soybeans (Glycine max) in competition with velvetleaf (Abutilon theophrasti). Weed Sci. 28:729734.CrossRefGoogle Scholar
Hagood, E. S. Jr., Bauman, T. T., Williams, J. L. Jr., and Schreiber, M. M. 1981. Growth analysis of soybeans (Glycine max) in competition with jimsonweed (Datura stramonium). Weed Sci. 29:500504.Google Scholar
Hauser, W. E., Buchanan, G. A., Nichols, R. L., and Patterson, R. M. 1982. Effects of Florida beggarweed (Desmodium tortuosum) and sicklepod (Cassia obtusifolia) on peanut (Arachis hypogaea) yield. Weed Sci. 30:602604.CrossRefGoogle Scholar
Hinson, K. and Hanson, W. D. 1962. Competitive studies in soybeans. Crop Sci. 2:117123.Google Scholar
Holloway, J. C. Jr., and Shaw, D. R. 1996. Effect of herbicides on ivyleaf morningglory (Ipomoea hederacea) interference in soybean (Glycine max). Weed Sci. 44:860864.CrossRefGoogle Scholar
James, K. L., Banks, P. A., and Karnok, K. J. 1988. Interference of soybean (Glycine max) cultivars with sicklepod (Cassia obtusifolia). Weed Technol. 2:404409.CrossRefGoogle Scholar
Knake, E. L. and Slife, F. W. 1965. Giant foxtail seeded at various times in corn and soybeans. Weeds 13:331334.CrossRefGoogle Scholar
McWhorter, C. G. and Hartwig, E. E. 1972. Competition of johnsongrass and cocklebur with six soybean varieties. Weed Sci. 20:5659.Google Scholar
Murphy, T. R. and Gossett, B. J. 1981. Influence of shading by soybeans (Glycine max) on weed suppression. Weed Sci. 29:610615.CrossRefGoogle Scholar
Newsom, L. J. and Shaw, D. R. 1995. Soybean (Glycine max) response to AC 263,222 and chlorimuron as influenced by soil moisture. Weed Technol. 9:553560.Google Scholar
Rose, S. J., Burnside, O. C., Specht, J. E., and Swisher, B. A. 1984. Competition and allelopathy between soybeans and weeds. Agron. J. 76:523528.CrossRefGoogle Scholar
Shaw, D. R. and Hydrick, D. E. 1993. Effect of imazaquin and chlorimuron plus metribuzin on sicklepod (Cassia obtusifolia) seed production and germination. Weed Technol. 7:681685.Google Scholar
Shaw, D. R., Wixson, M. B., and Smith, C. A. 1991. Effect of imazaquin and chlorimuron plus metribuzin on sicklepod (Cassia obtusifolia) interference in soybean (Glycine max). Weed Technol. 5:206210.Google Scholar
Shurtleff, J. L. and Coble, H. D. 1985. The interaction of soybean (Glycine max) and five weed species in the greenhouse. Weed Sci. 33:669672.Google Scholar
Teem, D. H., Hoveland, C. S., and Buchanan, G. A. 1980. Sicklepod and coffee senna: geographic distribution, germination and emergence. Weed Sci. 28:6871.Google Scholar
Thurlow, D. L. and Buchanan, G. A. 1972. Competition of sicklepod with soybean. Weed Sci. 20:379384.CrossRefGoogle Scholar