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Metamifop Rates, Application Timings, and Broadleaf Herbicide Admixtures Affect Smooth Crabgrass Control in Turf

Published online by Cambridge University Press:  20 January 2017

Michael C. Cox
Affiliation:
Department of Plant Pathology, Physiology, and Weed Science, Virginia Polytechnic Institute and State University, 435 Old Glade Road, Blacksburg, VA 24061
Shawn D. Askew*
Affiliation:
Department of Plant Pathology, Physiology, and Weed Science, Virginia Polytechnic Institute and State University, 435 Old Glade Road, Blacksburg, VA 24061
*
Corresponding author's E-mail: [email protected].

Abstract

Metamifop is an aryloxyphenoxypropionate herbicide under evaluation in the United States for annual grass control in cool-season turfgrasses. Insufficient information is available on the most effective metamifop application timings and mixtures for POST smooth crabgrass control. Field trials conducted in Blacksburg, VA, evaluated metamifop for smooth crabgrass control in existing stands of perennial ryegrass, Kentucky bluegrass, and tall fescue at three rates compared to fenoxaprop, metamifop applied twice at three application intervals, and metamifop in combination with the broadleaf herbicides carfentrazone, 2,4-D plus dicamba plus mecoprop (DDM), and mesotrione. Smooth crabgrass control was equivalent with metamifop at 400 g ai ha−1 and fenoxaprop at 195 g ai ha−1. Smooth crabgrass cover was 2% or less, 12 wk after initial treatment, when treated twice with metamifop (300 g ha−1) at a 3-, 6-, or 8-wk interval and significantly better than metamifop applied once. Smooth crabgrass cover was significantly greater at every assessment date in plots treated with metamifop plus DDM than all other metamifop plus broadleaf herbicide admixtures. Metamifop did not appear to significantly injure any turfgrass in these studies, but conclusions about metamifop safety to cool-season turfgrasses cannot be made from these studies due to nonreplication of turfgrass species. According to these data, metamifop is an effective herbicide for controlling smooth crabgrass in cool-season turfgrasses when applied once at 300 or 400 g ha−1 or twice at a 3-, 6-, or 8-wk interval. Although metamifop continues to control smooth crabgrass when added to some broadleaf herbicides, smooth crabgrass control was reduced when metamifop was combined with DDM.

Metamifop es un herbicida aryloxyphenoxypropionate que está siendo evaluado en los Estados Unidos para el control de gramíneas anuales en céspedes de clima frío. La información disponible es insuficiente acerca de los momentos más efectivos de aplicación de metamifop para el control POST de Digitaria ischaemum. Experimentos de campo realizados en Blacksburg, Virginia, evaluaron el control de D. ischaemum con tres dosis de metamifop en céspedes establecidos de Lolium perenne, Poa pratensis, y Lolium arundinaceum y se comparó con fenoxaprop, metamifop aplicado dos veces en tres intervalos de aplicación, y metamifop en combinación con los herbicidas de hoja ancha carfentrazone, 2,4-D más dicamba más mecoprop (DDM), y mesotrione. El control de D. ischaemum fue equivalente con metamifop a 400 g ai ha−1 y fenoxaprop a 195 g ai ha ha−1. La cobertura de D. ischaemum fue 2% o menor, 12 semanas después del tratamiento inicial, cuando se trató dos veces con metamifop (300 g ha−1) a intervalos de 3, 6, u 8 semanas y fue significativamente mejor que metamifop aplicado una sola vez. La cobertura de D. ischaemum fue significativamente mayor en cada fecha de evaluación en parcelas tratadas con metamifop más DDM que en cualquiera de las otras mezclas de metamifop más otros herbicidas de hoja ancha. Parece que metamifop no dañó significativamente ninguna de las especies de césped estudiadas, pero no se pueden hacer conclusiones acerca de la seguridad de metamifop en céspedes de clima frío a partir estos estudios debido a que no hubo replicaciones por especie de césped. De acuerdo a estos resultados, metamifop es un herbicida efectivo para el control de D. ischaemum en céspedes de clima frío cuando se aplica una vez a 300 ó 400 g ha−1 o dos veces a intervalos de 3, 6, u 8 semanas.

Type
Research Article
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Beam, JB, Barker, WL, Askew, SD (2006) Selective creeping bentgrass (Agrostis stolonifera) control in cool-season turfgrass. Weed Technol 20:340344 Google Scholar
Brommer, CL, Shaw, DR, Duke, SO, Reddy, KN, Willeford, KO (2000) Antagonism of clefoxydim by selected broadleaf herbicides and the role of ethanol. Weed Sci 48:181187 CrossRefGoogle Scholar
Buhler, DD, Swisher, BA, Burnside, OC (1985) Behavior of 14C-haloxyfop-methyl in intact plants and cell cultures. Weed Sci 33:291299 Google Scholar
Burke, IC, Thomas, WE, Spears, JF, Wilcut, JW (2003) Influence of environmental factors on after-ripened crowfootgrass (Dactyloctenium aegyptium) seed germination. Weed Sci 51:342347 Google Scholar
Burton, JD, Gronwald, JW, Somers, DA, Connelly, JA, Gengenbach, BG, Wyse, DL (1987) Inhibition of plant acetyl-coenzyme A carboxylase by the herbicides sethoxydim and haloxyfop. Biochem Biophys Res Commun 148:10391044 Google Scholar
Chauhan, BS, Gill, G, Preston, C (2006) Influence of environmental factors on seed germination and seedling emergence of rigid ryegrass (Lolium rigidum). Weed Sci 54:10041012 Google Scholar
Chism, WJ, Bingham, SW (1991) Postemergence control of large crabgrass (Digitaria sanguinalis) with herbicides. Weed Sci 39:6266 CrossRefGoogle Scholar
Corkern, CB, Reynolds, DB, Vidrine, PR, Griffin, JL, Jordan, DL (1998) Bromoxynil antagonizes johnsongrass (Sorghum halepense) control with graminicides. Weed Technol 12:205208 Google Scholar
Cudney, DW, Elmore, CL, Gibeault, VA, Reints, JS (1997) Common bermudagrass (Cynodon dactylon) management in cool-season turfgrass. Weed Technol 11:478483 Google Scholar
Culpepper, AS, York, AC, Jennings, KM, Batts, RB (1998) Interaction of bromoxynil and postemergence graminicides on large crabgrass (Digitaria sanguinalis). Weed Technol 12:554559 Google Scholar
Culpepper, AS, York, AC, Jordan, DL, Corbin, FT, Sheldon, YS (1999) Basis for antagonism in mixtures of bromoxynil plus quizalofop-P applied to yellow foxtail (Setaria glauca). Weed Technol 13:515519 Google Scholar
Dernoeden, PH (1987) Tolerance of perennial ryegrass and tall fescue seedlings to fenoxaprop. Agron J 79:10351037 Google Scholar
Dernoeden, PH, Bigelow, CA, Kaminski, JE, Krouse, JM (2003) Smooth crabgrass control in perennial ryegrass and creeping bentgrass tolerance to quinclorac. HortScience 38:607612 CrossRefGoogle Scholar
Dernoeden, PH, Fidanza, MA (1994) Fenoxaprop activity influenced by auxin-like herbicide application timing. HortScience 29:15181519 CrossRefGoogle Scholar
Derr, JF, Monaco, TJ, Sheets, TJ (1985) Response of three annual grasses to fluazifop. Weed Sci 33:693697 Google Scholar
Devine, M, Duke, SO, Fedtke, C (1993) Herbicide effects on lipid synthesis. Pages 225242 in Physiology of Herbicide Action. Englewood Cliffs, NJ: Prentice-Hall Google Scholar
Doroh, MC, McElroy, JS, van Santen, E (2011) Evaluation of new aryloxyphenoxypropionate herbicides for control of bermudagrass in zoysiagrass. Weed Technol 25:97102 Google Scholar
Elmore, MT, Brosnan, JT, Kopsell, DA, Breeden, GK (2012) Nitrogen-enhanced efficacy of mesotrione and topramezone for smooth crabgrass (Digitaria ischaemum) control. Weed Sci 60:480485 CrossRefGoogle Scholar
Flessner, ML, McElroy, JS (2011) Potential use of metamifop for weed control in turfgrass. Abstract 328-6 in Proceedings of the ASA/CSSA/SSSA International Annual Meeting. San Antonio, TX, Madison WI: ASA-CSSA-SSSA Google Scholar
Giese, MS, Keese, RJ, Christians, NE, Gaussoin, RE (2005) Mesotrione: a potential selective post-emergence herbicide for turf grass. Turfgrass Soc Res J 10:100101 Google Scholar
Gentsch, BJ (1986) Efficacy, Behavior, and Fate of Bromoxynil and Photosynthetic Electron Transport Inhibition by Bromoxynil Following Application in Overhead Irrigation Water. Ph.D Dissertation. Raleigh, NC: North Carolina State University. 92 pGoogle Scholar
Goddard, MJR, Willis, JB, Askew, SD (2010) Application placement and relative humidity affects smooth crabgrass and tall fescue response to mesotrione. Weed Sci 58:6772 Google Scholar
Hart, SE, Lycan, DW, Murphy, JA (2004) Use of quinclorac for large crabgrass (Digitaria sanguinalis) control in newly summer-seeded creeping bentgrass (Agrostis stolonifera). Weed Technol 18:375379 Google Scholar
Holshouser, DH, Coble, HD (1990) Compatibility of sethoxydim with five postemergence broadleaf herbicides. Weed Technol 4:128133 Google Scholar
Hoyle, JA, Straw, C, Henry, G, Brosnan, J, Breeden, G (2012) Efficacy of metamifop for the control of large crabgrass at various growth stages. Abstract 105-8 in Proceedings of the ASA/CSSA/SSSA International Annual Meeting. Cincinnati, OH, Madison WI: ASA-CSSA-SSSA Google Scholar
Jordan, DL, Smith, MC, McClelland, MR, Frans, RE (1993) Weed control with bromoxynil applied alone and with graminicides. Weed Technol 7:835839 Google Scholar
Kim, TJ, Chang, HS, Kim, JS, Hwang, IT, Hong, KS, Kim, DW, Cho, KY, Myung, EJ, Chung, BJ (2003a) Metamifop: mechanism of herbicidal activity and selectivity in rice and barnyardgrass. Pages 833838 in Proceedings BCPC–Crop Science and Technology Hampshire UK: British Crop Production Council Google Scholar
Kim, TJ, Chang, HS, Ryu, JW, Ko, YK, Kim, DW, Cho, KY, Park, CH, Kwon, OY, Chung, BJ (2003b) Metamifop: a new post-emergence grass killing herbicide for use in rice. Pages 8186 in Proceedings of The BCPC International Congress: Crop Science and Technology, Volumes 1 and 2. Glasgow, Scotland, UK, Hampshire UK: British Crop Production Council Google Scholar
Konishi, T, Sasaki, Y (1994) Compartmentalization of two forms of acetyl-CoA carboxylase in plants and the origin of their tolerance toward herbicides. PNAS 91:35983601 CrossRefGoogle ScholarPubMed
Konishi, T, Shinohara, K, Yamada, K, Sasaki, Y (1996) Acetyl-CoA carboxylase in higher plants: most plants other than Gramineae have both the prokaryotic and the eukaryotic forms of this enzyme. Plant Cell Physiol 37:117122 CrossRefGoogle ScholarPubMed
Matsumoto, K, Ide, K, Hayase, Y, Takahashi, T, Takeda, R, Hayashi, Y (1996) Selective herbicidal activity of 3, 5-dichloropyridyloxyphenoxypropionamidoxyacetic acid derivatives between wheat and wild oat. J Pestic Sci 21:165170 Google Scholar
McCurdy, JD, McElroy, JS, Breeden, GK (2009) Yellow nutsedge (Cyperus esculentus) and large crabgrass (Digitaria sanguinalis) response to soil- and foliar-applied mesotrione. Weed Technol 23:6266 CrossRefGoogle Scholar
McIntosh, MS (1983) Analysis of combined experiments. Agron J 75:153155 Google Scholar
Minton, BA, Kurtz, ME, Shaw, DR (1989) Barnyardgrass (Echinochloa crus-galli) control with grass and broadleaf weed herbicide combinations. Weed Sci 37:223227 CrossRefGoogle Scholar
Mueller-Warrant, GW (1990) Control of roughstalk bluegrass (Poa trivialis) with fenoxaprop in perennial ryegrass (Lolium perenne) grown for seed. Weed Technol 4:250257 Google Scholar
Neal, JC, Bhowmik, PC, Senesac, AF (1990) Factors influencing fenoxaprop efficacy in cool-season turfgrass. Weed Technol 4:272278 Google Scholar
Post, AR, Askew, SD (2010) Cool-season turfgrass tolerance and weed control efficacy of metamifop. Korean Soc Pestic Sci 10:5051 Google Scholar
Reicher, ZJ, Weisenberger, DV, Throssell, CS (1999) Turf safety and effectiveness of dithiopyr and quinclorac for large crabgrass (Digitaria sanguinalis) control in spring-seeded turf. Weed Technol 13:253256 Google Scholar
Rhodes, GN Jr., Coble, HD (1984) Influence of bentazon on absorption and translocation of sethoxydim in goosegrass (Eleusine indica). Weed Sci 32:595597 CrossRefGoogle Scholar
Scherder, EF, Talbert, RE, Lovelace, ML (2005) Antagonism of cyhalofop grass activity by halosulfuron, triclopyr, and propanil. Weed Technol 19:934941 Google Scholar
Senseman, SA, ed (2007) Herbicide Handbook. 9th edn. Champaign, IL: Weed Science Society of America. P 37 Google Scholar
Stoltenberg, DE, Gronwald, JW, Wyse, DL, Burton, JD, Somers, DA, Gengenbach, BG (1989) Effect of sethoxydim and haloxyfop on acetyl-coenzyme A carboxylase activity in Festuca species. Weed Sci 37:512516 Google Scholar
Swisher, B, Corbin, FT (1982) Behavior of BAS-9052 in soybean (Glycine max) and johnsongrass (Sorghum halepense) plant and cell cultures. Weed Sci 30:640650 Google Scholar
Turgeon, AJ (2005) Turfgrass Management. 7th edn. Upper Saddle River, NJ: Pearson Education, Inc. P 197 Google Scholar
Walker, KA, Ridley, SM, Lewis, T, Hardwood, JL (1988) Fluazifop, a grass selective herbicide which inhibits acetyl-CoA carboxylase in sensitive plant species. Biochem J 254:307310 Google Scholar
Warren, SL, Skroch, WA, Monaco, TJ, Shribbs, JM (1989) Tolerance of five perennial cool-season grasses to fluazifop. Weed Technol 3:385388 Google Scholar
Willis, JB, Askew, SD, McElroy, JS (2007) Improved white clover control with mesotrione by tank-mixing bromoxynil, carfentrazone, and simazine. Weed Technol 21:739743 Google Scholar