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Mesotrione, Topramezone, and Amicarbazone Combinations for Postemergence Annual Bluegrass (Poa annua) Control

Published online by Cambridge University Press:  20 January 2017

Matthew T. Elmore*
Affiliation:
Department of Plant Sciences, The University of Tennessee, 252 Ellington Plant Sciences Bldg., 2431 Joe Johnson Dr., Knoxville, TN 37996
James T. Brosnan
Affiliation:
Department of Plant Sciences, The University of Tennessee, 252 Ellington Plant Sciences Bldg., 2431 Joe Johnson Dr., Knoxville, TN 37996
Gregory K. Breeden
Affiliation:
Department of Plant Sciences, The University of Tennessee, 252 Ellington Plant Sciences Bldg., 2431 Joe Johnson Dr., Knoxville, TN 37996
Aaron J. Patton
Affiliation:
Department of Agronomy, Purdue University, West Lafayette, IN 47907
*
Corresponding author's E-mail: [email protected]

Abstract

Selective annual bluegrass (ABG) control with mesotrione is often inconsistent, and sequential applications might be required for complete control. The complementary nature of p-hydroxyphenylpyruvate dioxygenase (HPPD)- and photosystem II (PSII)-inhibiting herbicides is well documented. The HPPD-inhibiting herbicide mesotrione and the PSII-inhibiting herbicide amicarbazone both have efficacy against annual bluegrass and safety on certain cool-season turfgrasses. Topramezone is a HPPD-inhibiting herbicide being investigated for use in turfgrass. Field and greenhouse experiments were conducted to examine single applications of topramezone and mesotrione alone or in combination with amicarbazone for POST ABG control in spring. In greenhouse experiments, the combination of mesotrione (280 g ai ha−1) and amicarbazone (75 g ai ha−1) controlled ABG 70% by 21 d after treatment, > 29% more than either herbicide applied alone; these combinations were determined to be synergistic. Amicarbazone combined with topramezone (14.5 g ai ha−1) provided < 10% ABG control and was not synergistic. When combined with mesotrione, increasing amicarbazone rate to 150 or 255 g ha−1 did not increase ABG control compared to 75 g ha−1in field experiments. Combining mesotrione with amicarbazone resulted in a synergistic increase in POST ABG control at 1 and 2 wk after treatment (WAT). When applied alone or in combination with amicarbazone, increasing the mesotrione rate from 90 to 280 g ha−1 increased efficacy on ABG in field experiments. The combination of mesotrione at 280 g ha−1 and amicarbazone at 75 g ha−1 provided > 90% ABG control in field experiments. Future research should focus on sequential applications of mesotrione–amicarbazone combinations for ABG control in locations where ABG is historically more difficult to control.

El control selectivo de Poa annua (ABG) con mesotrione es frecuentemente inconsistente, y aplicaciones secuenciales podrían ser requeridas para alcanzar un control completo. La naturaleza complementaria de los herbicidas inhibidores de p-hydroxyphenylpyruvate dioxygenase (HPPD)- y del fotosistema II (PSII) está bien documentada. El herbicida mesotrione, inhibidor de HPPD, y amicarbazone, inhibidor de PSII, son efectivos contra ABG y son seguros en varios céspedes de clima frío. Topramezone es un herbicida inhibidor de HPPD que está siendo investigado para su uso en céspedes. Se realizaron experimentos de campo y de invernadero para examinar aplicaciones simples de topramezone y de mesotrione solos y en combinación con amicarbazone para el control POST de ABG en la primavera. En los experimentos de invernadero, la combinación de mesotrione (280 g ai ha−1) y amicarbazone (75 g ai ha−1) controlaron ABG 70% a 21 días después del tratamiento, >29% más que cualquiera de estos herbicidas aplicados solos; estas combinaciones fueron consideradas sinérgicas. La combinación de amicarbazone con topramezone (14.5 g ai ha−1) brindó <10% de control de ABG y no fue sinérgica. Cuando se combinó con mesotrione, el incrementar la dosis de amicarbazone a 150 ó 255 g ha−1 no incrementó el control de ABG al compararse con 75 g ha−1 en los experimentos de campo. El combinar mesotrione con amicarbazone resultó en un aumento sinérgico en el control POST de ABG a 1 y 2 semanas después del tratamiento (WAT). Cuando se aplicó amicarbazone solo o en combinación, el aumentar la dosis de mesotrione de 90 a 280 g ha−1 incrementó la eficacia sobre ABG en los experimentos de campo. La combinación de mesotrione a 280 g ha−1 con amicarbazone a 75 g ha−1 brindó >90% de control de ABG en los experimentos de campo. Investigaciones futuras deberían enfocarse en aplicaciones secuenciales de combinaciones de mesotrione-amicarbazone para el control en sitios donde históricamente ABG ha sido más difícil de controlar.

Type
Weed Management—Other Crops/Areas
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Abendroth, J. A., Martin, A. R., and Roeth, F. W. 2006. Plant response to combinations of mesotrione and photosystem II inhibitors. Weed Technol. 20:267274.Google Scholar
Anonymous. 2007. Impact herbicide label. Amvac. Los Angeles, CA. 4 p.Google Scholar
Anonymous. 2011. Tenacity herbicide label. Greensboro, NC Syngenta Crop Protection, Inc. 16 p.Google Scholar
Anonymous. 2012a. Xonerate herbicide label. Cary, NC Arysta LifeScience. 34 p.Google Scholar
Anonymous. 2012b. Callisto herbicide label. Greensboro, NC Syngenta Crop Protection, Inc. 32 p.Google Scholar
Armel, G. R., Hall, G. J., Wilson, H. P., and Cullen, N. 2005. Mesotrione plus atrazine mixtures for control of Canada thistle (Cirsium arvense). Weed Sci. 53:202211.Google Scholar
Armel, G. R., Rardon, P. L., McCormick, M. C., and Ferry, N. M. 2007. Differential response of several carotenoid biosynthesis inhibitors in mixture with atrazine. Weed Technol. 21:947953.Google Scholar
Beard, J. B., Rieke, P. E., Turgeon, A. J., and Vargas, J. M. Jr. 1978. Annual bluegrass (Poa annua L.) description, adaptation, culture, and control. Agricultural Experiment Station Research Report 352. East Lansing, MI Michigan State University. 32 p.Google Scholar
Branham, B., Sharp, B., and Skelton, J. 2010. Mesotrione provides postemergence control of Poa annua L. Paper 77-13 in ASA, CSSA, and SSSA Annual Meetings. Long Beach, CA Crop Science Society of America.Google Scholar
Cathcart, R. J., Chandler, K., and Swanton, C. J. 2004. Fertilizer nitrogen rate and the response of weeds to herbicides. Weed Sci. 52:291296.Google Scholar
Colby, S. R. 1967. Calculating synergistic and antagonistic responses of herbicide combinations. Weeds. 15:2022.Google Scholar
Committee on Environmental Health. 1999. Ultraviolet light: A hazard to children. Pediatrics. 104:328333.Google Scholar
Dayan, F. E., Trindale, M.L.B., and Velini, E. D. 2009. Amicarbazone, a new photosystem II inhibitor. Weed Sci. 57:579583.Google Scholar
Demmig-Adams, B., Gilmore, A. M., and Adams, W. W. III. 1996. Carotenoids 3: in vivo function of carotenoids in higher plants. FASEB J. 10:403412.Google Scholar
Dernoeden, P. H. 1998. Use of prodiamine as a preemergence herbicide to control annual bluegrass in Kentucky bluegrass. HortScience. 33:845846.Google Scholar
Elmore, M. T., Brosnan, J. T., and Breeden, G. K. 2012a. Strategies for controlling annual bluegrass (Poa annua L.) using mesotrione. Bioforsk Fokus. 7:121122.Google Scholar
Elmore, M. T., Brosnan, J. T., Kopsell, D. A., and Breeden, G. K. 2012b. Nitrogen-enhanced efficacy of mesotrione and topramezone for smooth crabgrass (Digitaria ischaemum) control. Weed Sci. 60:480485.Google Scholar
Fuerst, E. P. and Norman, M. A. 1991. Interactions of herbicides with photosynthetic electron transport. Weed Sci. 39:458464.Google Scholar
Grossmann, K. and Ehrhardt, T. 2007. On the mechanism and selectivity of the corn herbicide topramezone: a new inhibitor of 4-hydroxyphenylpyruvate dioxygenase. Pest Manag. Sci. 63:429439.Google Scholar
Hugie, J. A., Bollero, G. A., Tranel, P. J., and Riechers, D. E. 2008. Defining the rate requirements for synergism between mesotrione and atrazine in redroot pigweed (Armaranthus retroflexus). Weed Sci. 56:265270.Google Scholar
Johnson, B. J. 1983. Response to ethofumesate of annual bluegrass (Poa annua) and overseeded bermudagrass (Cynodon dactylon). Weed Sci. 31:385390.Google Scholar
Joshi, P., Garita, S., Pradhan, M. K., and Biswal, B. 2011. Photosynthetic response of clusterbean chloroplasts to UV-B radiation: energy imbalance and loss in redox homeostasis between QA and QB of photosystem II. Plant Sci. 181:9095.Google Scholar
Kaminski, J. E. and Dernoeden, P. H. 2007. Seasonal Poa annua L. seedling emergence patterns in Maryland. Crop Sci. 47:775781.Google Scholar
Kim, J., Jung, S., Hwang, I. T., and Cho, K.Y. 1999. Characteristics of chlorophyll a fluorescence induction in cucumber cotyledons treated with diuron, norflurazon, and sulcotrione. Pestic. Biochem. Physiol. 65:7381.Google Scholar
Lee, D. L., Prisbylla, M. P., Cromartie, T. H., Dagarin, D. P., Howard, S. W., Provan, W. M., Ellis, M. K., Fraser, T., and Mutter, L. C. 1997. The discovery and structural requirements of inhibitors of p-hydroxyphenylpyruvate dioxygenase. Weed Sci. 45:601609.Google Scholar
McCullough, P. E., Hart, S. E., Weisenberger, D., and Reicher, Z. J. 2010. Amicarbazone efficacy on annual bluegrass and safety on cool-season turfgrasses. Weed Technol. 24:461470.Google Scholar
McDonald, S. J., Dernoeden, P. H., and Kaminski, J. E. 2006. Creeping bentgrass tolerance and annual bluegrass control with bispyribac-sodium tank-mixed with iron and nitrogen. Appl. Turfgrass Sci. DOI: Google Scholar
McElroy, J. S., Walker, R. H., Wehtje, G. R., and van Santen, E. 2004. Annual bluegrass (Poa annua) populations exhibit variation in germination response to temperature, photoperiod, and fenarimol. Weed Sci. 52:4752.Google Scholar
McIntosh, M. S. 1983. Analysis of combined experiments. Agron. J. 75:153155.Google Scholar
Meyer, J. W. and Branham, B. E. 2006. Response of four turfgrass species to ethofumesate. Weed Technol. 20:123129.Google Scholar
Mitchell, G., Bartlett, D. W., Fraser, T.E.M., Hawkes, T. R., Holt, D. C., Townson, J. K., and Wichert, R. A. 2001. Mesotrione: a new selective herbicide for use in maize. Pest Manag. Sci. 57:120128.Google Scholar
Niyogi, K. K. 1999. Photoprotection revisited: genetic and molecular approaches. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50:333359.Google Scholar
Pallett, K. E. and Young, A. J. 1993. Carotenoids. Pages 5990 in Alscher, R. G. and Hess, J. J. eds. Antioxidants in Higher Plants. Boca Raton, FL CRC Press.Google Scholar
Patton, A., Weisenberger, D., and Branham, B. 2011. Effect of Tenacity on annual bluegrass control in Kentucky bluegrass. West Lafayette, IN: 2010 Purdue University Research Summary. P. 1920.Google Scholar
Perry, D. H., McElroy, J. S., and Walker, R. H. 2011. Effects of soil vs. foliar application of amicarbazone on annual bluegrass (Poa annua). Weed Technol. 25:604608.Google Scholar
Pfündel, E. E., Pan, R., and Dilley, R. A. 1992. Inhibition of violaxanthin deepoxidation by ultraviolet-B radiation in isolated chloroplasts and intact leaves. Plant Physiol. 98:13721380.Google Scholar
Reicher, Z. J., Weisenberger, D. V., Morton, D. E., Branham, B. E., and Sharp, W. 2011. Fall applications of mesotrione for annual bluegrass control in Kentucky bluegrass. Appl. Turfgrass Sci. DOI: Google Scholar
Senseman, S. A. 2007. Herbicide handbook. 9th ed. Lawrence, KS Weed Science Society of America. 458 p.Google Scholar
Skelton, J. J., Sharp, W., and Branham, B. E. 2012. Postemergence control of annual bluegrass with mesotrione in Kentucky bluegrass. HortScience. 47:522526.Google Scholar
Strid, A., Chow, W. S., and Anderson, S. M. 1994. UV-B damage and protection at the molecular level in plants. Photosynth. Res. 39:475489.Google Scholar
Sutton, P., Richards, C., Buren, L., and Glasgow, L. 2002. Activity of mesotrione on resistant weeds in maize. Pest Manag. Sci. 58:981984.Google Scholar
Woodyard, A. J., Hugie, J. A., and Riechers, D. E. 2009. Interactions of mesotrione and atrazine in two weed species with different mechanisms for atrazine resistance. Weed Sci. 57:369378.Google Scholar
Zhang, X., Ervin, E. H., and Schmidt, R. E. 2005. The role of leaf pigment and antioxidant levels in UV-B resistance of dark- and light-green Kentucky bluegrass cultivars. J. Am. Soc. Hortic. Sci. 130:836841.Google Scholar