Hostname: page-component-78c5997874-s2hrs Total loading time: 0 Render date: 2024-11-15T09:24:11.726Z Has data issue: false hasContentIssue false
  • English
  • Français

Response of 110 Kentucky Bluegrass Varieties and Winter Annual Weeds to Methiozolin

Published online by Cambridge University Press:  23 February 2017

Sandeep S. Rana  and
Shawn D. Askew
Sandeep S. Rana
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]
Get access Rights & Permissions [Opens in a new window]

Abstract

Methiozolin is a new isoxazoline herbicide that has scarcely been tested in Kentucky bluegrass turf. A field trial was conducted in Blacksburg, VA, to determine response of 110 Kentucky bluegrass varieties and winter annual weeds to sequential fall applications of methiozolin. At 1.5 and 6 mo after initial treatment (MAIT), Kentucky bluegrass injury I30 values (predicted methiozolin rate that causes 30% Kentucky bluegrass injury) ranged between 3.4 to more than 10 times the recommended methiozolin rate for annual bluegrass control. Methiozolin at all rates reduced cover of annual bluegrass, common chickweed, corn speedwell, hairy bittercress, mouseear chickweed, and Persian speedwell but increased cover of parsley-piert. For all varieties, methiozolin at 2 kg ai ha−1 increased Kentucky bluegrass cover, turf quality, and turf normalized difference vegetation index (NDVI) relative to the nontreated check at 6 MAIT. Kentucky bluegrass relative cover change (RCC) was attributed primarily to weed control but was inversely correlated with methiozolin rates because of increased weed control and reduced Kentucky bluegrass growth. Despite the decline in RCC with increasing methiozolin rates, most Kentucky bluegrass varieties treated with the highest methiozolin rate (6 kg ha−1) still had greater Kentucky bluegrass cover than the nontreated check at 6 MAIT. Results from this study indicate that two fall applications of methiozolin at rates beyond that previously reported for annual bluegrass control can safely be applied to a broad range of Kentucky bluegrass varieties spanning most of the known genetic classifications.

Methiozolin es una herbicida isoxazoline nuevo que ha sido escasamente evaluado en el césped Kentucky Bluegrass. Se realizó un estudio de campo en Blacksburg, Virginia para determinar la respuesta de 110 variedades de Kentucky bluegrass y malezas anuales de invierno a aplicaciones secuenciales de methiozolin durante el otoño. A 1.5 y 6 meses después del tratamiento inicial (MAIT), los valores de I30 de daño en Kentucky bluegrass (dosis predicha de methiozolin que causa 30% de daño en Kentucky bluegrass) variaron entre 3.4 y más de 10 veces la dosis recomendada de methiozolin para el control de Poa anua. Todas las dosis de methiozolin redujeron la cobertura de P. annua, Stellaria media, Veronica arvensis, Cardamine hirsuta, Cerastium fontanum, y Veronica persica, pero incrementaron la cobertura de Aphanes arvensis. Para todas las variedades, methiozolin a 2 kg ai ha−1 aumentó la cobertura, la calidad del césped, el índice normalizado de la diferencia en la vegetación del césped (NDVI) de Kentucky bluegrass, en relación al testigo sin tratamiento a 6 MAIT. El cambio relativo en la cobertura (RCC) de Kentucky bluegrass fue atribuido primeramente al control de malezas pero estuvo inversamente correlacionado con las dosis de methiozolin porque se incrementó el control de malezas y se redujo el crecimiento de Kentucky bluegrass. A pesar de la disminución en RCC con el aumento de las dosis de methiozolin, la mayoría de las variedades de Kentucky bluegrass tratadas con la dosis más alta de methiozolin (6 kg ha−1) tuvieron una mayor cobertura de Kentucky bluegrass que el testigo sin tratamiento a 6 MAIT. Los resultados de este estudio indican que dos aplicaciones de methiozolin en el otoño a dosis más allá de las reportadas previamente para el control de P. annua pueden ser aplicadas en forma segura a un amplio rango de variedades de Kentucky bluegrass cubriendo la mayoría de las clasificaciones genéticas conocidas.

Keywords

Methiozolin, 5-(2,6-difluorobenzyl)oxymethyl-5-methyl-3-(3-methylthiophen-2-yl)-1,2-isoxazoline, code names: EK-5229, SJK-03, and MRC-01annual bluegrass, Poa annua L.common chickweed, Stellaria media (L.) Vill.corn speedwell, Veronica arvensis L.hairy bittercress, Cardamine hirsuta L.mouseear chickweed, Cerastium fontanum ssp. vulgare (Hartman) Greuter & Burdetparsley-piert, Aphanes arvensis L.Persian speedwell, Veronica persica Poir.creeping bentgrass, Agrostis stolonifera L.Kentucky bluegrass, Poa pratensis L.Annual bluegrass controlI30Kentucky bluegrass genetic classificationKentucky bluegrass variety classificationNDVIturfgrass injuryturfgrass qualitywinter annual weeds
Type
Research Article
Information
Weed Technology , Volume 30 , Issue 4 , December 2016 , pp. 965 - 978
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

Associate editor for this paper: Patrick E. McCullough, University of Georgia.

References

Literature Cited

Adams, JC (1989) Control of Poa annua in the United States in cool-season turf with ethofumesate. Pages 323324 in Takatoh, H., ed. Proceedings of the Sixth International Turfgrass Research Conference. Fort Lauderdale, FL: International Turfgrass Society Google Scholar
Affeldt, R, Butler, M, Lytle, N (2008) Kentucky Bluegrass Response to Primisulfuron. http://oregonstate.edu/dept/coarc/sites/default/files/publication/sr1093_07.pdf. Accessed April 5, 2016Google Scholar
Anonymous (2010a) Beacon® herbicide label. Greensboro, NC: Syngenta Crop Protection Inc. 6 pGoogle Scholar
Anonymous (2010b) Velocity® SG herbicide label. Walnut Creek, CA: Valent US Co. 1 pGoogle Scholar
Askew, SD, McNulty, BMS (2014) Methiozolin and cumyluron for preemergence annual bluegrass (Poa annua) control in creeping bentgrass (Agrostis stolonifera) putting greens. Weed Technol 28: 535542 Google Scholar
Askew, SD, Wilcut, JW (2001) Tropic croton interference in cotton. Weed Sci 49: 184189 Google Scholar
Bashaw, EC, Funk, CR (1987) Apomictic grasses. Pages 4082 in Fehr, WR, ed. Principles of Variety Development. Volume 2: Crop Species. New York: Macmillan Google Scholar
Beard, JB, Ricke, PE, Turgeon, AJ, Vargas, JM (1978) Annual bluegrass (Poa annua L.) description, adaptation, culture, and control. East Lansing, MI: Michigan State University Agricultural Experiment Station Research report 352. 32 pGoogle Scholar
Bell, GE, Martin, DL, Wiese, SG, Dobson, DD, Smith, MW, Stone, ML, Solie, JB (2002) Vehicle-mounted optical sensing: an objective means for evaluating turf quality. Crop Sci 42: 197201.Google Scholar
Berry, CD, Glover, DV, Daniel, WH (1969) Phenotypic and genotypic variation and covariation of some quantitative turf characters of Poa pratensis L. Crop Sci 9: 470473 Google Scholar
Bicknell, RA, Koltunow, AM (2004) Understanding apomixes: recent advances and remaining conundrums. Plant Cell 16:S228S245 Google Scholar
Bonos, SA, Clarke, BB, Meyer, WA (2006) Breeding for disease resistance in the major cool-season turfgrasses. Annu Rev Phytopathol 44: 213234 Google Scholar
Bonos, SA, Meyer, WA, Murphy, JA (2000) Classification of Kentucky bluegrass genotypes grown as spaced plants. Hortscience 35: 910913 Google Scholar
Bonos, SA, Murphy, JA (1999) Growth responses and performance of Kentucky bluegrass under summer stress. Crop Sci 39: 770774 Google Scholar
Brede, AD, Duich, JM (1982) Variety and seeding rate effects on several physical characteristics of Kentucky bluegrass turf. Agron J 74: 865870 Google Scholar
Brosnan, JT, Ebdon, JS, and Dest, WM (2005) Characteristics in diverse wear tolerant genotypes of Kentucky bluegrass. Crop Sci 45: 19171926 Google Scholar
Brosnan, JT, Henry, GM, Breeden, GK, Cooper, T, Serensits, TJ (2013) Methiozolin efficacy for annual bluegrass (Poa annua) control on sand- and soil-based creeping bentgrass putting greens. Weed Technol 27: 310316 Google Scholar
Czembor, E, Feuerstein, U, Zurek, G (2001) Preliminary observations on resistance to rust disease of Kentucky bluegrass ecotypes from Poland. J Phytopathol 149: 8389 Google Scholar
Dernoeden, PH (1998) Use of prodiamine as a preemergence herbicide to control annual bluegrass in Kentucky bluegrass. Hortscience 33: 845846 Google Scholar
Dernoeden, PH, Turner, TR (1988) Annual bluegrass control and tolerance of Kentucky bluegrass and perennial ryegrass to ethofumesate. Hortscience 26: 565567 Google Scholar
Draper, NW, Smith, H (1981) Applied regression analysis. 3rd edn. New York: J. Wiley. Pp 3342, 511Google Scholar
Frans, RE, Talbert, R, Marx, D, Crowley, H (1986) Experimental design and techniques for measuring and analyzing plant responses to weed control practices. Pages 3738 in Camper, ND, ed. Research Methods in Weed Science. 3rd edn. Champaign, IL: Southern Weed Science Society Google Scholar
Funk, R (2000) Long live Kentucky bluegrass, the king of the grasses. Diversity 16: 2628 Google Scholar
Gausman, HW (1977) Reflectance of leaf components. Remote Sens Environ 6: 19 Google Scholar
Hart, SE, McCullough, PE (2007) Annual bluegrass (Poa annua) control in Kentucky bluegrass with bispyribac-sodium, primisulfuron, and sulfosulfuron. Weed Technol 21: 702708 Google Scholar
Hoisington, NR, Flessner, ML, Schiavon, M, McElroy, JS, Baird, JH (2014) Tolerance of bentgrass (Agrostis) species and cultivars to methiozolin. Weed Technol 28: 501509 Google Scholar
Honig, JA (2011) The Use of Molecular Genetics Tools to Complement a Traditional Field Based Turfgrass Breeding Program. Ph.D dissertation. New Brunswick, NJ: Rutgers, State University of New Jersey. Pp 234308 Google Scholar
Jasieniuk, M, Maxwell, BD, Anderson, RL, Evans, JO, Lyon, DJ, Miller, SD, Morishita, DW, Ogg AG, JR, Seefeldt, S, Stahlman, PW, Northam, FE, Westra, P, Kebede, Z, Wicks, GA (1999) Site-to-site and year-to-year variation in Triticum aestivum–Aegilops cylindrical interference relationships. Weed Sci 47: 529537 Google Scholar
Jensen, JR (2007) Remote sensing of vegetation. Pages 355408 in Remote Sensing of the Environment; An Earth Resource Perspective. 2nd edn. Upper Saddle River, NJ: Pearson Prentice Hall Google Scholar
Koo, SJ, Hwang, KH, Jeon, MS, Kim, SH, Lim, J, Lee, DG, Cho, NG (2014) Methiozolin [5-(2,6-difluorobenzyl)oxymethyl-5-methyl-3,3(3-methylthiophen-2-yl)-1,2-isoxazoline], a new annual bluegrass (Poa annua L.) herbicide for turfgrasses. Pest Manag Sci 70: 156162 Google Scholar
Lee, H, Bremer, DJ, Su, K, Keeley, SJ (2011) Relationships between normalized difference vegetation index and visual quality in turfgrasses: effects of mowing height. Crop Sci 51: 323332 Google Scholar
Lush, WM (1989) Adaptation and differentiation of golf course populations of annual bluegrass. Weed Sci 37: 5459 Google Scholar
McCullough, PE, de Barreda, DG, Yu, J (2013) Selectivity of methiozolin for annual bluegrass (Poa annua) control in creeping bentgrass as influenced by temperature and application timing. Weed Sci 61: 209216 Google Scholar
McCullough, PE, Hart, SE, Weisenberger, D, Reicher, ZJ (2010) Amicarbazone efficacy on annual bluegrass and safety on cool-season turfgrasses. Weed Technol 24: 461470 Google Scholar
McIntosh, MS (1983) Analysis of combined experiments. Agron J 75: 153155 Google Scholar
McNulty, BMS, Askew, SD (2011) Controlling annual bluegrass and roughstalk bluegrass in cool season lawns with methiozolin. Page 21 in Proceedings of the 65th Northeastern Weed Science Society Annual Meeting. Baltimore, MD: Northeastern Weed Science Society Google Scholar
Moghu Research Center (2016) Methiozolin Use Direction. http://www.moghu.com/eng/02_product/02_science_06.php. Accessed January 13, 2016Google Scholar
Mueller-Warrant, GW, Culver, DS, Rosato, SC, Crowe, FJ (1997) Kentucky bluegrass variety tolerance to primisulfuron. Pages 5152 in Young, WC, ed. Seed Production Research. Corvallis, OR: Oregon State University Google Scholar
Park, BS, Murphy, JA, Lawson, TJ, Dickson, WK, Clark, JB (2010) Response of Kentucky bluegrass to wear stress in 2010. Pages 245248 in Proceedings of the GREEN EXPO Turf and Landscape Conference. Wayne, NJ: New Jersey Turfgrass Association Google Scholar
Penuelas, J, Filella, I, Biel, C, Serrano, L, Save, R (1993) The reflectance at the 950–970 nm region is an indicator of plant water stress. Int J Remote Sens 14: 18871995 Google Scholar
Raggi, L, Albertini, E, Marconi, G, Sharbel, T, Falcinelli, M (2007) Genetic and Reproductive Diversity within and among Kentucky Bluegrass (Poa pratensis L.) Worldwide Accessions. http://www.agr.unipg.it/dbvba/sgmg/eucarpiaproc.zip. Accessed February 18, 2016Google Scholar
Rana, SS, Askew, SD, and Koo, SJ (2015) Roughstalk bluegrass control in creeping bentgrass and Kentucky bluegrass fairway. Page 55 in Proceedings of the 69th Northeastern Weed Science Society Annual Meeting. Williamsburg, VA: Northeastern Weed Science Society Google Scholar
Shortell, RR, Hart, SE, Bonos, SA (2008) Response of Kentucky bluegrass (Poa pratensis L.) varieties and selections to bispyribac-sodium herbicide. Hortscience 43: 22522255 Google Scholar
Shortell, RR, Meyer, WA, Bonos, SA (2006) Morphological characteristics of Kentucky bluegrass varieties and selections grown in New Jersey turf trials. Pages 183192 in Proceedings of the 37th Rutgers Turfgrass Conference. New Brunswick, NJ: Center for Turfgrass Science.Google Scholar
Shortell, RR, Meyer, WA, Bonos, SA (2009) Classification and inheritance of morphological and agronomic characteristics in Kentucky bluegrass (Poa pratensis L.). Hortscience 44: 274279 Google Scholar
Sprague, HB, Burton, GW (1937) Annual bluegrass (Poa annua L.) and its requirements for growth. New Brunswick, NJ: New Jersey Agricultural Experiment Station Bulletin 630. 24 pGoogle Scholar
Stiegler, J, Bell, G, Maness, N, Smith, M (2005) Spectral detection of pigment concentrations in creeping bentgrass golf greens. Int Turfgrass Soc Res J 10: 818825 Google Scholar
Trenholm, LE, Carrow, RN, Duncan, RR (1999) Relationship of multispectral radiometry data to qualitative data in turfgrass research. Crop Sci 39: 763769 Google Scholar
Trenholm, LE, Schlossberg, MJ, Lee, G, Parks, W (2000) An evaluation of multi-spectral responses on selected turfgrass species. Int J Remote Sens 21: 709721 Google Scholar
Turgeon, AJ (1999) Turfgrass Management. 5th edn. Upper Saddle River, NJ: Prentice Hall. Pp 227301 Google Scholar
Wang, Z, Huang, B (2004) Physiological recovery of Kentucky bluegrass from simultaneous drought and heat stress. Crop Sci 44: 17291736 Google Scholar
Welch, BL (1951) On the comparison of several mean values: an alternative approach, Biometrika 38: 330336.Google Scholar
Xiong, X, Moss, JQ, Haguewood, JB, Koh, K (2015) Safety of sequential fall methiozolin applications on creeping bentgrass putting greens. Crop Forage Turfgrass Manag 1. doi:10.2134/cftm2014.0079Google Scholar
Yu, J, McCullough, P (2014) Methiozolin efficacy, absorption, and fate in six cool-season grasses. Crop Sci 3: 1211219 Google Scholar