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Effect of Herbicides Applied in Winter Wheat (Triticum aestivum) Stubble on Weed Management in Corn (Zea mays)1

Published online by Cambridge University Press:  20 January 2017

Gail A. Wicks
Affiliation:
University of Nebraska, Department of Agronomy, North Platte, NE 69101
Garold W. Mahnken
Affiliation:
University of Nebraska, Department of Agronomy, North Platte, NE 69101
Gordon E. Hanson*
Affiliation:
University of Nebraska, Department of Agronomy, North Platte, NE 69101
*
Corresponding author's E-mail: [email protected].

Abstract

Field studies were conducted in 1992 and 1993 to evaluate weed control by 15 herbicide treatments in wheat stubble and in the succeeding corn crop. Atrazine at 2.24 kg ai/ha plus several herbicide treatments were applied about 13, 21, and 33 d following winter wheat harvest on separate plots in 1992 and 1993 in a soybean–winter wheat–corn rotation. Atrazine with and without 2,4-D isooctyl ester at 1.46 kg ae/ha or dicamba at 0.36 kg ae/ha did not control barnyardgrass, green foxtail, horseweed, kochia, stinkgrass, tumble thistle, or witchgrass in the wheat stubble 30 d after treatment. Atrazine mixtures containing glyphosate or paraquat with or without 2,4-D or dicamba controlled most summer annual weed species. Atrazine plus paraquat at 0.43 kg ai/ha was more effective on redroot pigweed and tumble thistle than atrazine plus glyphosate at 0.43 kg ae/ha plus 2,4-D at 0.95 kg ae/ha. Atrazine plus glyphosate mixtures were more effective on barnyardgrass for the first and second application date than atrazine plus paraquat. Increasing the glyphosate rate from 0.43 to 0.67 kg/ha was necessary to control barnyardgrass 95% at the first date. With the first date of application, kochia control was greater when 2,4-D or dicamba was added to the atrazine plus paraquat (0.43 kg/ha) mixture. Although annual grass control was generally greater when weeds approached maturity, early applications are a more sound weed control strategy because of soil water conservation and prevention of weed seed production. However, corn yields in 1993 were greater on plots treated at the third application in 1992 because weed biomass in corn was less. In 1994, corn yields were highest for the first application in 1993, probably because of better weed control in the corn. Above average rainfall in 1993 and 1994 aided corn yields.

Type
Research Article
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Anonymous. 1992a. Roundup® RT Shuttle™ 100 product label. St. Louis, MO: Monsanto Co.Google Scholar
Anonymous. 1992b. Cyclone® CF product label. Wilmington, DE: Zeneca Inc. Professional Products.Google Scholar
Brengle, K. G. 1982. Principles and methods of summer fallow. In Principles and Practices of Dryland Farming. Boulder, CO: Colorado Associated University Press. pp. 73101.Google Scholar
Burnside, O. C., Wilson, R. G., Weisberg, S., and Hubbard, K. G. 1996. Seed longevity of 41 weed species buried 17 years in eastern and western Nebraska. Weed Sci. 44: 7486.CrossRefGoogle Scholar
Haack, A. E. 1987. Geographic Distribution of Triazine-Resistant Kochia [Kochia scoparia (L.) Schrad.] in Nebraska and Response to Selected Herbicides. . University of Nebraska, Lincoln, NE. 64 p.Google Scholar
Hoefer, R. H., Wicks, G. A., and Burnside, O. C. 1981. Grain yields, soil water storage, and weed growth in a winter wheat-corn-fallow rotation. Agron. J. 73: 10661071.Google Scholar
Isaacs, M. A., Murdock, E. C., Toler, J. E., and Wallace, S. U. 1989. Effects of late-season herbicide applications on sicklepod (Cassia obtusifolia) seed production and viability. Weed Sci. 37: 761765.Google Scholar
Lyon, D. J., Miller, S. D., and Wicks, G. A. 1996. The future of herbicides in weed control systems of the Great Plains. J. Prod. Agric. 9: 209215.Google Scholar
Ramsel, R. E. and Wicks, G. A. 1988. Use of winter wheat (Triticum aestivum) cultivars and herbicides in aiding weed control in an ecofallow corn (Zea mays) rotation. Weed Sci. 36: 394398.Google Scholar
Webster, T. M., Cardina, J., and Loux, M. M. 1998. The influence of weed management in wheat (Triticum aestivum) stubble on weed control in corn (Zea mays). Weed Technol. 12: 522526.Google Scholar
Westra, P. 1996. Response of kochia populations to various rates of dicamba. Weed Sci. Soc. Am. Abstr. 36:29.Google Scholar
Wicks, G. A. and Hanson, G. E. 1995. Effect of rainfall on glyphosate plus 2,4-D performance on Echinochloa crus-galli . Weed Sci. 43: 666670.Google Scholar
Wicks, G. A., Hergert, G. W., and Smika, D. E. 1988. Long term effect of no-tillage in a winter wheat (Triticum aestivum)-sorghum (Sorghum bicolor) rotation. Weed Sci. 36: 384393.Google Scholar
Wicks, G. A., Popken, D. H., and Lowery, S. R. 1989. Survey of winter wheat (Triticum aestivum) stubble fields sprayed with herbicides after harvest in 1986. Weed Technol. 3: 244254.Google Scholar
Wicks, G. A., Martin, A. R., and Mahnken, G. W. 1993. Control of triazine resistant kochia (Kochia scoparia) in conservation tillage corn (Zea mays). Weed Sci. 41: 225231.Google Scholar