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Influence of Adjuvants on Interactions of Sethoxydim with Selected Broadleaf Herbicides Used in Corn (Zea mays)

Published online by Cambridge University Press:  12 June 2017

Christopher B. Corkern
Affiliation:
Department of Plant Pathology and Crop Physiology, Louisiana State University Agricultural Center, 302 Life Sciences Building, Baton Rouge, LA 70803
David L. Jordan*
Affiliation:
Northeast Research Station, Louisiana Slate University Agricultural Center, P.O. Box 438, St. Joseph, LA 71366
James L. Griffin
Affiliation:
Department of Plant Pathology and Crop Physiology, Louisiana State University Agricultural Center, Baton Rouge, LA
P. Roy Vidrine
Affiliation:
Dean Lee Research Station, Louisiana State University Agricultural Center, 8105 East Campus Drive, Alexandria, LA 71302
Bill J. Williams
Affiliation:
Northeast Research Station, Louisiana State University Agricultural Center, St. Joseph, LA
Daniel B. Reynolds
Affiliation:
Mississippi State University, 117 Dorman Hall, Box 9555, Mississippi State, MS 39762
*
Corresponding author's E-mail: david_jordan@ncsu.edu.

Abstract

Field experiments were conducted during 1996 and 1998 to determine the effect of atrazine, bentazon, atrazine + bentazon, the amine salt of 2,4-D, and bromoxynil on broadleaf signalgrass and barnyardgrass control when applied in mixture with sethoxydim. Herbicide combinations were applied with crop oil concentrate, crop oil concentrate + ammonium sulfate, or BCH 815. Bentazon and atrazine + bentazon reduced broadleaf signalgrass and barnyardgrass control by sethoxydim. Bromoxynil reduced barnyardgrass control but had no affect on broadleaf signalgrass control. Including ammonium sulfate with crop oil concentrate or substituting BCH 815 for crop oil concentrate increased barnyardgrass and broadleaf signalgrass control by sethoxydim when applied with bentazon. Ammonium sulfate and BCH 815 increased barnyardgrass control when sethoxydim was applied with bromoxynil but did not affect control when sethoxydim was applied with atrazine + bentazon. Atrazine and the ammonium salt of 2,4-D did not reduce barnyardgrass and broadleaf signalgrass control by sethoxydim regardless of adjuvant.

Type
Research
Copyright
Copyright © 1999 by the Weed Science Society of America 

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Footnotes

Current address of second author. Crop Science Department, Box 7620, North Carolina State University, Raleigh, NC 27695.

References

Literature Cited

Baldwin, F. L., Boyd, J. W., and Guy, C. B. Jr. 1996. Recommended chemicals for weed and brush control. Arkansas Cooperative Ext. Ser. MP-44. Little Rock, AR. 134 p.Google Scholar
Corkern, C. B., Reynolds, D. B., Vidrine, P. R., Griffin, J. L., and Jordan, D. L. 1998. Bromoxynil antagonizes johnsongrass (Sorghum halepense) control with graminicides. Weed Technol. 12:205208.CrossRefGoogle Scholar
Culpepper, A. S., York, A. C., Jennings, K. M., and Batts, R. B. 1998. Interaction of bromoxynil and postemergence graminicides on large crabgrass (Digitaria sanguinalis). Weed Technol. 12:554559.CrossRefGoogle Scholar
Dotray, P. A., Marshall, L. C., Parker, W. B., Wyse, D. L., Somers, D. A., and Gengenbach, B. G. 1993. Herbicide tolerance and weed control in sethoxydim-tolerant corn (Zea mays). Weed Sci. 41:213217.CrossRefGoogle Scholar
Harvey, R. G., Williams, B. J., and Langton, S. J. 1996. Weed management systems using sethoxydim-tolerant field corn. Weed Sci. Soc. Am. Abstr. 36:7.Google Scholar
Harvey, R. G., Langton, S. J., and Albright, A. J. 1997. Residual herbicides plus sethoxydim for weed control in corn. Weed Sci. Soc. Am. Abstr. 37:22.Google Scholar
Hatzios, K. K. and Penner, D. 1985. Interactions of herbicides with other agrichemicals in higher plants. Rev. Weed Sci. 1:163.Google Scholar
Holshouser, D. H. and Coble, H. D. 1990. Compatibility of sethoxydim with five postemergence broadleaf herbicides. Weed Technol. 4:128133.CrossRefGoogle Scholar
Jordan, D. L. and York, A. C. 1989. Effects of ammonium fertilizers and BCH 815 on antagonism with sethoxydim plus bentazon mixtures. Weed Technol. 3:450454.CrossRefGoogle Scholar
Myers, P. F. and Coble, H. D. 1992. Antagonism of graminicide activity on annual grass species by imazethapyr. Weed Technol. 6:333338.CrossRefGoogle Scholar
Rabaey, T. L., Bach, D. J., VanWychen, L. R., and Harvey, R. G. 1997. Wild proso millet (Panicum miliaceum) control in sethoxydim tolerant sweet corn. Weed Sci. Soc. Am. Abstr. 37:17.Google Scholar
Spivey, B. M., York, A. C., Culpepper, A. S., and Batts, R. B. 1999. Weed management in sethoxydim-resistant corn. Proc. South. Weed Sci. Soc. 52:2526.Google Scholar
Wanamarta, G. and Penner, D. 1989. Identification of efficacious adjuvants for sethoxydim and bentazon. Weed Technol. 3:6066.CrossRefGoogle Scholar
Wanamarta, G., Penner, D., and Kells, J. J. 1989. The basis of bentazon antagonism on sethoxydim absorption and activity. Weed Sci. 37:400404.CrossRefGoogle Scholar
York, A. C., Jordan, D. L., and Wilcut, J. W. 1990. Effects of (NH4)2SO4 and BCH 81508 S on efficacy of sethoxydim. Weed Technol. 4:7680.CrossRefGoogle Scholar
Young, B. G., Hart, S. E., and Wax, L. M. 1996. Interactions of sethoxydim and corn (Zea mays) postemergence broadleaf herbicides. Weed Technol. 10:914922.CrossRefGoogle Scholar
Zorner, P., Hazen, J., Evans, R., Gourd, D., and Fitzgerald, T. 1989. The influence of DASH adjuvant on limiting photodegradation of sethoxydim on leaf surfaces. Weed Sci. Soc. Am. Abstr. 29:83.Google Scholar