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DPX-V9360 Efficacy with Adjuvants and Environment

Published online by Cambridge University Press:  12 June 2017

John D. Nalewaja ,
Zenon Woznica  and
Frank A. Manthey
John D. Nalewaja
Affiliation:
Crop and Weed Sci. Dep. N.D. State Univ.
Zenon Woznica
Affiliation:
Crop and Weed Sci. Dep. N.D. State Univ.
Frank A. Manthey
Affiliation:
Crop and Weed Sci. Dep. N.D. State Univ.
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Abstract

Adjuvants enhanced DPX-V9360 control of green foxtail in the greenhouse and field as follows: methylated sunflower oil > petroleum oil > nonionic surfactant WK > nonionic surfactant X-77. DPX-V9360 applied at rates that controlled weeds did not injure corn. Green foxtail control with DPX-V9360 decreased as the amount of simulated rainfall after application increased from 0 to 4 mm and control increased as a 2 mm simulated rainfall was delayed up to 24 h. The influence of simulated rainfall differed with adjuvants, but adjuvants did not overcome the lower green foxtail control with simulated rainfall. DPX-V9360 was more phytotoxic to green foxtail and redroot pigweed at 95 to 100% than 45 to 50% relative humidity and at 20 or 30 C than 10 C after treatment.

Keywords

DPX-V9360, 2-(((((4,6-dimethoxypyrimidin-2-yl)aminocarbonyl))-aminosulfonyl))-N,N-dimethyl-3-pyridinecarboxamide monohydratecorn, Zea mays L.green foxtail, Setaria viridis (L.) Beauv. ♯ SETVI, redroot pigweed, Amaranthus retroflexus L. ♯ AMAREPetroleum oiladjuvantnonionic surfactantmethylated seed oilrelative humiditytemperatureCHEALKCHSCSETLU
Type
Research
Information
Weed Technology , Volume 5 , Issue 1 , March 1991 , pp. 92 - 96
Copyright
Copyright © 1990 by the Weed Science Society of America 

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References

Literature Cited

1. Buhler, D. D., and Burnside, O. C. 1984. Effect of application factors on postemergence phytotoxicity of fluazifop-butyl, haloxyfop-methyl, and sethoxydim. Weed Sci. 32:574583.Google Scholar
2. Feist, D. A. 1988. Adjuvants and grass control herbicides applied with DPX-M6316. M.S. Thesis, N.D. State Univ., Fargo, ND 58105.Google Scholar
3. Green, J. M., Berengut, D., King, M. G., and Brown, P. A. 1989. Influence of nonionic surfactant properties on DPX-M6316 performance on corn and soybeans. Abstr. Weed Sci. Soc. Am., p. 23.Google Scholar
4. Jones, G. E., and Anderson, G. W. 1964. Atrazine as a foliar application in an oil water emulsion. Res. Rep. North Cent. Weed Control Conf. 20:2729.Google Scholar
5. McWhorter, C. G., and Jordan, T. N. 1976. Effect of adjuvants and environment on the toxicity of dalapon to johnsongrass. Weed Sci. 24: 257260.Google Scholar
6. Miller, S. D., and Nalewaja, J. D. 1973. Effect of additives upon phenmedipham for weed control in sugarbeet. Weed Sci. 21:6770.Google Scholar
7. Miller, S. D., Nalewaja, J. D., and Pudelka, J. 1978. Barban-aqueous nitrogen combinations for wild oat (Avena fatua) control. Weed Sci. 26: 344348.Google Scholar
8. Nalewaja, J. D., and Adamczewski, K. A. 1988. Thiameturon phytotoxicity to kochia. Weed Sci. 36:296300.Google Scholar
9. Nalewaja, J. D., and Woznica, Z. 1985. Environment and chlorsulfuron phytotoxicity. Weed Sci. 33:395399.Google Scholar
10. Willingham, G. L., and Graham, L. 1988. Influence of environment and adjuvants on the foliar penetration of acifluorfen in velvetleaf: An analysis using the factorial design. Weed Sci. 36:824829.Google Scholar
11. Wills, G. D., and Jordan, P. M. 1981. Factors affecting toxicity and translocation of metriflufen in cotton. Weed Sci. 29:308313.Google Scholar