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Aminocyclopyrachlor Efficacy for Controlling Virginia Buttonweed (Diodia virginiana) and Smooth Crabgrass (Digitaria ischaemum) in Tall Fescue

Published online by Cambridge University Press:  20 January 2017

Thomas V. Reed
Affiliation:
Crop and Soil Sciences Department, University of Georgia, Griffin, GA 30223
Jialin Yu
Affiliation:
Crop and Soil Sciences Department, University of Georgia, Griffin, GA 30223
Patrick E. McCullough*
Affiliation:
Crop and Soil Sciences Department, University of Georgia, Griffin, GA 30223
*
Corresponding author's E-mail: [email protected]

Abstract

Virginia buttonweed and smooth crabgrass are problematic weeds in tall fescue and may warrant control with herbicides at similar timings. The objectives of these field experiments were to evaluate (1) aminocyclopyrachlor rate and application regimens for controlling Virginia buttonweed and (2) the influence of growth stage on aminocyclopyrachlor efficacy for controlling smooth crabgrass. Single applications of aminocyclopyrachlor at 0.05 and 0.08 kg ai ha−1 provided poor (< 70%) and fair (70 to 79%) control of Virginia buttonweed, respectively, but sequential applications improved control to 83 to 99%. Single and sequential applications of aminocyclopyrachlor at 0.11 kg ai ha−1 provided good (80 to 89%) and excellent (> 90%) control of Virginia buttonweed, respectively. Aminocyclopyrachlor at 0.11 kg ha−1 provided fair control of smooth crabgrass at the multileaf growth stage prior to tillering but control was poor when applied at the multitiller stage. Aminocyclopyrachlor at 0.05 and 0.08 kg ha−1 provided poor control of crabgrass at both timings and were less effective than fenoxaprop at 0.10 kg ai ha−1.

Diodia virginiana y Digitaria ischaemum son malezas problemáticas en Festuca arundinacea, las cuales podrían requerir control con herbicidas en momentos similares. Los objetivos de estos experimentos de campo fueron evaluar (1) dosis y regímenes de aplicación de aminocyclopyrachlor para el control de D. virginiana y (2) la influencia del estado de desarrollo de D. ischaemum en la eficacia de aminocyclopyrachlor para el control de esta maleza. Aplicaciones simples de aminocyclopyrachlor a 0.05 y 0.08 kg ai ha−1 brindaron un control de D. virginiana pobre (<70%) y aceptable (70 a 79%), respectivamente, pero las aplicaciones secuenciales mejoraron el control hasta 83 y 99%. Aplicaciones simples y secuenciales de aminocyclopyrachlor a 0.11 kg ai ha−1 brindaron un control de D. virginiana bueno (80–89%) y excelente (>90%), respectivamente. Aminocyclopyrachlor a 0.11 kg ha−1 brindaron un control aceptable de D. ischaemum en el estado de desarrollo de múltiples hojas antes de la producción de hijuelos, pero el control fue pobre cuando se aplicó en el estado de múltiples hijuelos. Aminocyclopyrachlor a 0.05 y 0.08 kg ha−1 brindó un control pobre de D. ischaemum en ambos momentos de aplicación y fue menos efectivo que fenoxaprop a 0.10 kg ai ha−1.

Type
Weed Management—Major Crops
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Anonymous. 2011. Plateau herbicide label. Research Triangle Park, NC BASF Corp.Google Scholar
Baird, J. H., Dute, R. R., and Dickens, R. 1992. Ontogeny, anatomy and reproductive biology of vegetative reproductive organs of Diodia virginiana . Int. J. Plant Sci. 153:320328.Google Scholar
Brosnan, J. T., Breeden, G. K., and McCullough, P. E. 2010. Efficacy of two dithiopyr formulations for control of smooth crabgrass [Digitaria ischaemum (Schreb) Schreb. ex Muhl.] at various stages of growth. HortScience. 45:961965.Google Scholar
Derr, J. F. 2002. Detection of fenoxaprop-resistant smooth crabgrass (Digitaria ischaemum) in turf. Weed Technol. 16:396400.Google Scholar
Hart, S. E., Lycan, D. W., and Murphy, J. A. 2004. Use of quinclorac for large crabgrass (Digitaria sanguinalis) control in newly summer-seeded creeping bentgrass (Agrostis stolonifera). Weed Technol. 18:375379.Google Scholar
Hutto, K. C., Brecke, B. J., and Unruh, J. B. 2008. Comparison of flazasulfuron to pyridine herbicides for Virginia buttonweed (Diodia virginiana). Weed Technol. 22:351353.Google Scholar
Kelly, S. T. and Coats, G. E. 2000a. Postemergence herbicide options for Virginia buttonweed (Diodia virginiana) control. Weed Technol. 14:246251.Google Scholar
Kelly, S. T. and Coats, G. E. 2000b. Virginia buttonweed control with pyridine herbicides. Weed Technol. 14:591595.Google Scholar
McCullough, P. E., Hart, S. E., Brosnan, J. T., and Breeden, G. K. 2011. Aminocyclopyrachlor enhances fenoxaprop efficacy for smooth crabgrass control. Weed Technol. 25:506510.Google Scholar
Minogue, P. J., Enloe, S. F., Osiecka, A., and Lauer, D. K. 2011. Comparison of aminocyclopyrachlor to common herbicides for kudzu (Pueraria montana) management. Invasive Plant Sci. Manage. 4:419426.Google Scholar
Neal, J. C., Bhowmik, P. C., and Senesac, A. F. 1990. Factors influencing fenoxaprop efficacy in cool-season turfgrass. Weed Technol. 4:272278.Google Scholar
Patton, A. J., Weisenberger, D. V., Hardebeck, G. A., and Reicher, Z. J. 2007. Safety of herbicides on ‘Zenith' zoysiagrass seedlings. Weed Technol. 21:145150.Google Scholar
Radford, A. E., Ables, H. E., and Bell, C. R. 1968. Manual of Vascular Flora of the Carolinas. Chapel Hill, NC University of North Carolina Press. Pp. 979.Google Scholar
Reed, T. V. and McCullough, P. E. 2012. Application timing of aminocyclopyrachlor, fluroxypyr, and triclopyr influences swinecress control in tall fescue. HortScience. 47:15481549.Google Scholar
Strachan, S. D., Casini, M. S., Heldreth, K. M., Scocas, J. A., Wissen, S. J., Bukun, B., Lindenmayer, R. B., Shaner, D. L., Westra, P., and Brunk, G. 2010. Vapor movement of synthetic auxin herbicides: aminocyclopyrachlor, aminocyclopyrachlor-methyl ester, dicamba, and aminopyralid. Weed Sci. 58:103108.Google Scholar
Willis, J. B., Beam, J. B., Barker, W. L., and Askew, S. D. 2006. Weed control options in spring-seeded tall fescue (Festuca arundinacea). Weed Technol. 20:10401046.Google Scholar