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Tolerance of Bell Pepper to Herbicides Applied through a Drip Irrigation System

Published online by Cambridge University Press:  20 January 2017

Peter J. Dittmar ,
David W. Monks  and
Katherine M. Jennings
Peter J. Dittmar
Affiliation:
Horticultural Sciences Department, University of Florida, Gainesville, FL 32611
David W. Monks
Affiliation:
Department of Horticultural Sciences, North Carolina State University, Raleigh, NC 27695
Katherine M. Jennings
Affiliation:
Department of Horticultural Sciences, North Carolina State University, Raleigh, NC 27695
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Abstract

Drip irrigation is installed under polyethylene mulch to supply irrigation and nutrients to vegetables grown in plasticulture. This irrigation system also provides an alternative method for application of herbicides into the plant bed for control of yellow and purple nutsedge. Greenhouse and field studies were conducted to determine bell pepper tolerance to halosulfuron, imazosulfuron, and trifloxysulfuron applied POST (over the top of pepper in greenhouse study, POST-directed in the field study) or soil applied (applied by hand with water in greenhouse study or through drip irrigation in the field study). In greenhouse studies, pepper injury from halosulfuron, imazosulfuron, and trifloxysulfuron applied POST was similar at 14 and 21 d after treatment (DAT; 21 to 35% and 54 to 60%, respectively). Halosulfuron, imazosulfuron, and trifloxysulfuron soil applied in greenhouse studies caused 6 to 8% and 13 to 20% injury to pepper at 14 and 21 DAT, respectively. Pepper injury in greenhouse studies increased as rate of halosulfuron, imazosulfuron, and trifloxysulfuron increased regardless of application method (soil or POST applied). Dry pepper weight at 28 DAT followed an inverse linear response to increasing rates of halosulfuron, imazosulfuron, and trifloxysulfuron. In field studies, bell pepper height among herbicide treatments ranged from 32 to 37 cm at 14 DAT and was not different from the nontreated check (36 cm). Number one grade (7.8 to 14.7 MT ha−1) and fancy grade (2.1 to 2.8 MT ha−1) pepper fruit yield was not different in herbicide-treated pepper compared with yield of pepper in the nontreated check (10.0 to 26.6 MT ha−1, respectively). Based on these studies, pepper has excellent crop tolerance to halosulfuron, imazosulfuron, and trifloxysulfuron applied through drip irrigation or POST-directed but is not tolerant to POST applications.

El riego por goteo es instalado bajo una cobertura plástica (polyethylene) para suplir riego y nutrientes a vegetales producidos en plasticultura. Este sistema de riego también brinda un método alternativo para la aplicación de herbicidas dentro de la cama de siembra para el control de Cyperus esculentus y Cyperus rotundus. Se realizaron experimentos de invernadero y de campo para determinar la tolerancia del pimiento a halosulfuron, imazosulfuron, y trifloxysulfuron aplicados POST (sobre el pimiento en el estudio de invernadero y POST-dirigido en el estudio de campo) o aplicados al suelo (aplicados manualmente con agua en el estudio de invernadero o a través del riego por goteo en el estudio de campo). En los estudios de invernadero, el daño al pimiento causado por halosulfuron, imazosulfuron, y trifloxysulfuron aplicados POST fue similar a 14 y 21 d después del tratamiento (DAT; 21 a 35% y 54 a 60%, respectivamente). Halosulfuron, imazosulfuron, y trifloxysulfuron aplicados al suelo en los estudios de invernadero causaron 6 a 8% y 13 a 20% de daño al pimiento a 14 y 21 DAT, respectivamente. El daño al pimiento, en los estudios de invernadero, aumentó al incrementarse la dosis de halosulfuron, imazosulfuron, y trifloxysulfuron sin importar el método de aplicación (aplicados al suelo o POST). El peso seco del pimiento a 28 DAT siguió una respuesta inversa lineal a dosis incrementales de halosulfuron, imazosulfuron, y trifloxysulfuron. En los estudios de campo, la altura del pimiento varió entre los tratamientos de herbicidas desde 32 a 37 cm a 14 DAT y no fue diferente del testigo sin tratamiento (36 cm). El rendimiento de fruto grado uno (7.8 a 14.7 MT ha−1) y fancy (2.1 a 2.8 MT ha−1) del pimiento no fue diferente en pimiento tratado con herbicidas al compararse con el rendimiento del pimiento en el testigo sin tratamiento (7.8 a 26.6 MT ha−1, respectivamente). Con base en estos estudios, el pimiento tiene una excelente tolerancia a halosulfuron, imazosulfuron, y trifloxysulfuron aplicados a través del riego por goteo o POST-dirigido, pero no es tolerante a las aplicaciones POST.

Keywords

Halosulfuronimazosulfurontrifloxysulfuronpurple nutsedge, Cyperus rotundus L.yellow nutsedge, Cyperus esculentus L.bell pepper, Capsicum annuum L.Application methodmethyl bromide alternativessulfonylurea
Type
Research Article
Information
Weed Technology , Volume 30 , Issue 2 , June 2016 , pp. 486 - 491
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Armel, GR, Richardson, RJ, Wilson, HP, Trader, BW, Whaley, CM, Hines, TE (2009) Evaluation of acetolactate synthase-inhibiting herbicides for weed control in transplanted bell pepper. Horttechnology 19:400404 Google Scholar
Bangarwa, SK, Norsworthy, JK, Gbur, EE (2009) Cover crop and herbicide combinations for weed control in polyethylene-mulched bell pepper. Horttechnology 19:405410 Google Scholar
Bowen, P, Frey, B (2002) Response of plasticultured bell pepper to staking, irrigation frequency, and fertigated nitrogen rate. Hortscience 37:95100 Google Scholar
Buckelew, JK, Monks, DW, Jennings, KM (2007) Response of transplanted plasticulture tomato to post-directed thifensulfuron and trifloxysulfuron. Proc South Weed Sci Soc 60:142 [Abstract]Google Scholar
Candole, BL, Csinos, AS, Wang, D (2007) Distribution and efficacy of drip-applied metam-sodium against the survival of Rhizoctonia solani and yellow nutsedge in plastic-mulched sandy soil beds. Pest Manag Sci 63:468475 Google Scholar
Dittmar, PJ, Jennings, KM, Monks, DW (2010) Response of diploid watermelon to imazosulfuron POST. Weed Technol 24:127129 Google Scholar
Dittmar, PJ, Monks, DW, Jennings, KM (2012a) Effect of drip-applied herbicides on yellow nutsedge (Cyperus esculentus) in plasticulture. Weed Technol 26:243247 Google Scholar
Dittmar, PJ, Monks, DW, Jennings, KM, Fitzgerald, LB (2012b) Tolerance of tomato to herbicides applied through drip irrigation. Weed Technol 26:684690 Google Scholar
Gunsolus, JL, Curran, WS (1999) Herbicide Mode of Action and Injury Symptoms. Minneapolis, MN: North Central Regional Extension Publication 377. 20 pGoogle Scholar
Henson, IE, Little, CS (1969) Penetration of polyethylene film by the shoots of Cyperus rotundus . PANS Pest Artic News Summ 15:6466 Google Scholar
Jennings, KM (2010) Tolerance of fresh-market tomato to postemergence-directed imazosulfuron, halosulfuron, and trifloxysulfuron. Weed Technol 24:117120 Google Scholar
Kemble, JM, ed (2008) Vegetable Crop Handbook for Southeastern United States—2010. Lincolnshire, IL: Vance Google Scholar
MacRae, AW, Culpepper, AS, Batts, RB, Lewis, KL (2008) Seeded watermelon and weed response to halosulfuron applied preemergence and postemergence. Weed Technol 22:8690 Google Scholar
McElroy, S, Yelverton, FH, Troxler, SC, Wilcut, JW (2003) Selective exposure of yellow (Cyperus esculentus) and purple nutsedge (Cyperus rotundus) to postemergence treatments of CGA-362622, imazaquin, and MSMA. Weed Technol 17:554559 Google Scholar
Miller, D, Smith, T, Matthews, M (2009) Weed control and sweet potato tolerance with V-10142. Proc South Weed Sci Soc 62:50 [Abstract]Google Scholar
Miller, MR and Dittmar, PJ (2014) Effect of PRE and POST-directed herbicides for season-long nutsedge (Cyperus spp.) control in bell pepper. Weed Technol 28:518526 Google Scholar
Motis, TN, Locascio, SJ, Gilreath, JP, Stall, WM (2003) Season-long interference of yellow nutsedge (Cyperus esculentus) with polyethylene-mulched bell pepper (Capsicum annuum). Weed Technol 17:543549 Google Scholar
Motis, TN, Locascio, SJ, Gilreath, JP (2004) Critical yellow nutsedge-free period for polyethylene-mulched bell pepper. Hortscience 39:10451049 Google Scholar
Norsworthy, JK, Oliveira, MJ, Jha, P, Malik, M, Buckelew, JK, Jennings, KM, Monks, DW (2008) Palmer amaranth and large crabgrass growth with plasticulture-grown bell pepper. Weed Technol 22:296302 Google Scholar
Norsworthy, JH, Schroeder, J, Thomas, SH, Murray, LW (2007) Purple nutsedge (Cyperus rotundus) management in direct-seeded chile pepper using halosulfuron and cultivation. Weed Technol 21:636641 Google Scholar
Pekarek, RA, Monks, DW, Jennings, KM, Hoyt, GD (2013) Bell Pepper (Capsicum annuum) tolerance to imazosulfuron and thifensulfuron-methyl. Weed Technol 27:741746 Google Scholar
Shrefler, JW, Brandenberger, LP, Webber, CL III, Roberts, W, Payton, ME, Wells, LK (2007) POST weed control using halosulfuron in direct-seeded watermelon. Weed Technol 21:851856 Google Scholar
[USDA, AMS] U.S. Department of Agriculture, Agricultural Marketing Service (2005) United States Standards for Grades of Sweet Peppers. Washington, DC: USDA Google Scholar
VanDerken, JE, Wilcox-Lee, D (1988) Influence of plastic mulch and type and frequency of irrigation on growth and yield of bell pepper. Hortscience 23:985988 Google Scholar
Vencill, WK, Richburg, JS III, Wilcut, JW, Hawf, LR (1995) Effect of MON-12037 on purple (Cyperus rotundus) and yellow (Cyperus esculentus) nutsedge. Weed Technol 9:148152 Google Scholar
Webster, TM (2005) Mulch type affects growth and tuber production of yellow nutsedge (Cyperus esculentus) and purple nutsedge (Cyperus rotundus). Weed Sci 53:834838 Google Scholar