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Interactions Between Quizalofop-p-ethyl and Acetolactate Synthase–Inhibiting Herbicides in Acetyl-coA Carboxylase Inhibitor–Resistant Rice Production

Published online by Cambridge University Press:  04 April 2018

Samer Y. Rustom ,
Eric P. Webster ,
David C. Blouin  and
Benjamin M. McKnight
Samer Y. Rustom
Affiliation:
Graduate Research Assistant, School of Plant, Environmental, and Soil Science, Louisiana State University Agricultural Center, Baton Rouge, LA, USA
Eric P. Webster*
Affiliation:
Professor, School of Plant, Environmental, and Soil Science, Louisiana State University Agricultural Center, Baton Rouge, LA, USA
David C. Blouin
Affiliation:
Professor, Department of Experimental Statistics, Louisiana State University Agricultural Center, Baton Rouge, LA, USA
Benjamin M. McKnight
Affiliation:
Research Associate, School of Plant, Environmental, and Soil Science, Louisiana State University Agricultural Center, Baton Rouge, LA, USA
*
Author for correspondence: Eric P. Webster, Department of Plant, Environmental, and Soil Science, Louisiana State University, Baton Rouge, LA, 70803. (E-mail: [email protected])
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Abstract

A field study was conducted in 2015 and 2016 at the H. Rouse Caffey Rice Research Station (RRS) to evaluate antagonistic, synergistic, or neutral interactions of quizalofop when mixed with ALS-inhibiting herbicides labeled in rice production. Quizalofop was applied at 120 g ai ha−1. Mixture herbicides included penoxsulam at 40 g ai ha−1, penoxsulam+triclopyr at 352 g ai ha−1, halosulfuron at 53 g ai ha−1, bispyribac at 34 g ai ha−1, orthosulfamuron+halosulfuron at 94 g ai ha−1, orthosulfamuron+quinclorac at 491 g ai ha−1, imazosulfuron at 211 g ai ha−1, and bensulfuron at 43 g ai ha−1. All ALS herbicides mixed with quizalofop indicated antagonistic responses for red rice, CL-111, CLXL 745, or barnyardgrass control at either 14 or 28 days after treatment (DAT). At 28 DAT, quizalofop mixed with penoxsulam or bispyribac controlled barnyardgrass 34 to 38%, compared with an expected control of 97%. In addition, these same mixtures controlled red rice, CL-111, and CLXL-745 61 to 67% at 28 DAT compared with an expected control of 96 to 97%. A second application of quizalofop at 120 g ha−1 was applied at 28 DAT. At 42 DAT, neutral responses were indicated for all mixtures except with quizalofop mixed with penoxsulam containing products.

Keywords

Jason Bond, Mississippi State Universitybensulfuronbispyribachalosulfuronimazosulfuronorthosulfamuronpenoxsulamquizalofop-p-ethylbarnyardgrass, Echinochloa crus-galli (L.) P. Beauv.rice, Oryza sativa L.Antagonismmixturepostemergence herbicideweed control
Type
Weed Management-Major Crops
Information
Weed Technology , Volume 32 , Issue 3 , June 2018 , pp. 297 - 303
Copyright
© Weed Science Society of America, 2018 

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References

Anonymous (2017) Provisia® herbicide product label. BASF Corporation Publication No. 2017-04-522-0004. Research Triangle Park, NC: BASF. 12 pGoogle Scholar
Askew, SD, Shaw, DR, Street, JE (1998) Red rice (Oryza sativa) control and seedhead reduction with glyphosate. Weed Technol 12:504506 CrossRefGoogle Scholar
Barnwell, P, Cobb, AH (1994) Graminicide antagonism by broadleaf weed herbicides. Pesticide Sci 41:7785 Google Scholar
Berenbaum, MC (1981) Criteria for analyzing interactions between biologically active agents. Adv Cancer Res 35:269335 CrossRefGoogle ScholarPubMed
Beste, CE (1983) Herbicide Handbook of the Weed Science Society of America. 5th edn. Champaign, IL: Weed Science Society of America. 515 pGoogle Scholar
Blackshaw, RE, Harker, KN, Clayton, GW, O’Donovan, JT (2006) Broadleaf herbicide effects on clethodim and quizalofop-p efficacy on volunteer wheat (Triticum aestivum). Weed Technol 20:221226 Google Scholar
Blouin, DC, Webster, EP, Bond, JA (2010) On a method for synergistic and antagonistic joint-action effects with fenoxaprop mixtures in rice. Weed Technol 24:583589 Google Scholar
Burton, JD, Gronwald, JW, Somers, DA, Gengenbach, BG, Wyse, DI (1989) Inhibition of corn Acetyl-CoA Carboxylase by cyclohexanedione and aryloxyphenoxypropionate herbicides. Pest Biochem Physiol 34:7685 CrossRefGoogle Scholar
Carlson, TP, Webster, EP, Salassi, ME, Hensley, JB, Blouin, DC (2011) Imazethapyr plus propanil programs in imidazolinone-resistant rice. Weed Technol 25:205211 Google Scholar
Carmer, SG, Nyuist, WE, Walker, WM (1989) Least significant differences for combined alalysis of experiments with two or three factor treatment designs. Agron J 81:665672 Google Scholar
Chen, LJ, Lee, DS, Song, ZP, Suh, HS, LU, BR (2004) Gene flow from cultivated rice (Oryza sativa) to its weedy and wild relatives. Annals Bot 93:6773 CrossRefGoogle ScholarPubMed
Croughan, TP (2003) Clearfield rice: it’s not a GMO. Louisi Agric 46:2426 Google Scholar
Drury, RE (1980) Physiological interaction, its mathematical expression. Weed Sci 28:573579 Google Scholar
Estorninos, LE Jr, Gealy, DR, Gbur, EE, Talbert, RE, McClelland, MR (2005) Rice and red rice interference II. Rice response to population densities of three red rice (Oryza sativa) ecotypes. Weed Sci 53:683689 Google Scholar
Fish, JC, Webster, EP, Blouin, DC, Bond, JA (2015) Imazethapyr co-application interactions in imidazolinone-resistant rice. Weed Technol 29:689696 Google Scholar
Fish, JC, Webster, EP, Blouin, DC, Bond, JA (2016) Imazamox plus propanil mixtures for grass weed management in imidazolinone-resistant rice. Weed Technol 30:2935 Google Scholar
Focke, M, Lichtenthaler, HK (1987) Notes: inhibition of the Acetyl-CoA Carboxylase of barley chloroplasts by cycloxydim and sethoxydim. Zeitschrift für Naturforschung 42:13611363 Google Scholar
Gealy, DR, Mitten, DH, Rutger, JN (2003) Gene flow between red rice (Oryza sativa) and herbicide-resistant rice (O. sativa): implications for weed management. Weed Technol 17:627645 CrossRefGoogle Scholar
Gressel, J, Valverde, BE (2009) A strategy to provide long‐term control of weedy rice while mitigating herbicide resistance transgene flow, and its potential use for other crops with related weeds. Pest Manage Sci 65:723731 Google Scholar
Hager, AG, Wax, LM, Bollero, GA, Stroller, EW (2003) Influence of diphenylether herbicide application rate and timing on common waterhemp (Amaranthus rudis) control in soybean (Glycine max.). Weed Technol 17:1420 CrossRefGoogle Scholar
Hatzios, KK, Penner, D (1985) Interactions of herbicides with other agrochemicals in higher plants. Rev Weed Sci 1:163 Google Scholar
Kwon, SL, Smith, RJ Jr, Talbert, RE (1992) Comparative growth and development of red rice (Oryza sativa) and rice. Weed Sci 40:5762 Google Scholar
Majumder, ND, Ram, T, Sharma, AC (1997) Cytological and morphological variation in hybrid swarms and introgressed population of interspecific hybrids (Oryza rufipogon Griff. ×Oryza sativa L.) and its impact on evolution of intermediate types. Euphytica 94:295302 Google Scholar
Messeguer, VM, Catala, MM, Guiderdoni, E, Mele, E (2004) A field study of pollen-mediated gene flow from Mediterranean GM rice to conventional rice and the red rice weed. Mol Breed 13:103112 Google Scholar
Minton, BW, Shaw, DR, Kurtz, ME (1989) Postemergence grass and broadleaf herbicide interactions for red rice (Oryza sativa) control in soybeans (Glycine max). Weed Technol 3:329334 Google Scholar
Morse, PM (1978) Some comments on the assessment of joint action in herbicide mixtures. Weed Sci 26:5871 Google Scholar
Nash, RG (1981) Phytotoxic interaction studies—techniques for evaluation and presentation of results. Weed Sci 29:147155 CrossRefGoogle Scholar
Pellerin, KJ, Webster, EP (2004) Imazethapyr at different rates and timings in drill- and water-seeded imidazolinone-tolerant rice. Weed Technol 18:223227 CrossRefGoogle Scholar
Pellerin, KJ, Webster, EP, Zhang, W, Blouin, DC (2003) Herbicide mixtures in water-seeded imidazolinone-resistant rice (Oryza sativa). Weed Technol 17:836841 Google Scholar
Rajguru, SN, Burgos, NR, Shivrain, VK, Stewart, JM (2005) Mutations in the red rice ALS gene associated with resistance to imazethapyr. Weed Sci 53:567577 CrossRefGoogle Scholar
Riar, DS, Norsworthy, JK, Srivastava, V, Nandula, V, Bond, J A, Scott, RC (2013) Physiological and molecular basis of acetolactate synthase-inhibiting herbicide resistance in barnyardgrass (Echinochloa crus-galli). J Agric Food Chem 61:278289 Google Scholar
Rustom, SY, Webster, EP, Bergeron, EA, McKnight, BM (2015a) Management of weedy rice utilizing crop rotation. Proc South Weed Sci Soc 69:108 Google Scholar
Rustom, SY, Webster, EP, McKnight, BM, Bergeron, EA (2015b) Use of crop rotation for weedy rice management. Pages 906908 in 9th Brazilian Irrigated Rice Congress Rio Grande do Sul, Pelotas Google Scholar
Rustom, SY, Webster, EP, McKnight, BM, Telo, GM, Webster, LC, Osterholt, MJ (2017) Evaluation of quizalofop mixtures with ALS-inhibiting herbicides in ACCase-Resistant rice production. in 10th Brazilian Irrigated Rice Congress Gramado, RS, Brazil. http://www.cbai2017.eventos.dype.com.br/arquivo/downloadpublic?q=YToyOntzOjY6InBhcmFtcyI7czozNDoiYToxOntzOjEwOiJJRF9BUlFVSVZPIjtzOjM6IjU0OCI7fSI7czoxOiJoIjtzOjMyOiIzNzNlYWJkNzJkNzg5ZjYzZTMzYTAyZjgzOTM2ZjMyMSI7fQ%3D%3D Google Scholar
SAS Institute (2013) Base SAS 9.4 Procedure Guide. Cary, NC: SAS Institute Google Scholar
Scherder, EF, Talbert, RE, Lovelace, ML (2005) Antagonism of cyhalofop grass activity by halosulfuron, triclopyr, and propanil. Weed Technol 19:934941 Google Scholar
Shaner, DL (2014) Herbicide Handbook. 10th edn. Lawrence, KS: Weed Science Society of America. Pp 254255 Google Scholar
Shivrain, VK, Burgos, NR, Anders, MM, Rajguru, SN, Moore, J, Sales, MA (2007) Gene flow between Clearfield™ rice and red rice. Crop Protect 26:349356 Google Scholar
Song, ZP, Lu, BR, Zhu, YG, Chen, JK (2002) Pollen competition between cultivated and wild rice species (Oryza sativa and O. rufipogon). New Phytol 153:289296 Google Scholar
Song, ZP, Lu, BR, Zhu, YG, Chen, JK (2003) Gene flow from cultivated rice to the wild species Oryza rufipogon under experimental field conditions. New Phytol 157:657665 CrossRefGoogle Scholar
Smith, RJ Jr (1965) Propanil and mixtures with propanil for weed control in rice. Weeds 13:236238 Google Scholar
Smith, RJ (1968) Weed competition in rice. Weed Sci 16:252255 Google Scholar
Smith, RJ (1974) Competition of barnyardgrass by rice cultivars. Weed Sci 22:423426 Google Scholar
Smith, RJ Jr, Hill, JE (1990) Weed control technology in U.S. rice. Pages 314327 in Grayson BT, Green MB, & Copping LG, eds. Pest Management in Rice. London, United Kingdom: Elsevier Science Google Scholar
Streibig, JC, Kudsk, P, Jensen, JE (1998) A general joint action model for herbicide mixtures. Pestic Sci 53:2128 Google Scholar
Sudianto, E, Beng-Kah, S, Ting-Xiang, N, Saldain, NE, Scott, RC, Burgos, NR (2013) Clearfield® rice: its development, success, and key challenges on a global perspective. Crop Protect 49:4051 Google Scholar
Talbert, RE, Burgos, NR (2007) History and management of herbicide-resistant barnyardgrass (Echinochloa crus-galli) in Arkansas rice. Weed Technol 21:324331 CrossRefGoogle Scholar
Vidrine, PR, Reynolds, DB, Blouin, DC (1995) Grass control in soybean (Glycine max) with graminicides applied alone and in mixtures. Weed Technol 9:6872 Google Scholar
Webster, EP, Carlson, TP, Salassi, ME, Hensley, JB, Blouin, DC (2012) Imazethapyr plus residual herbicide programs for imidazolinone-resistant rice. Weed Technol 26:410416 CrossRefGoogle Scholar
Webster, EP, Teló, GM, Blouin, DC, McKnight, BM (2017a) Imazethapyr plus propanil mixtures in imidazolinone-resistant rice. Weed Technol 32:4551 Google Scholar
Webster, EP, Telo, GM, Blouin, DC, McKnight, BM, Bergeron, EA (2017b) Synergism with imazamox co-applications for red rice control. Weed Technol 31:373379 Google Scholar
Zhang, W, Webster, EP, Blouin, DC, Leon, CT (2005) Fenoxaprop interactions for barnyardgrass (Echinochloa crus-galli) control in rice. Weed Technol 19:293297 Google Scholar