Carryover of ACCase inhibitors for corn

Autores

  • Mateus Dalpubel Mattiuzzi UEM
  • Daniel Nalin UEM
  • Luiz Augusto Inojosa Ferreira UEM
  • Henrique Fabrício Placido UEM
  • Denis Fernando Biffe UEM
  • Rubem Silvério De Oliveira Junior UEM

Palavras-chave:

clethodim, haloxyfop-P-methyl, quizalofop-p-ethyl, Zea mays

Resumo

Sequential crops may be affected by herbicide residuals in the soil. In corn crop there are reports of problems when the crop is sown soon after application of ACCase-inhibiting herbicides. The aim of this study was to evaluate safety intervals for the application of ACCase-inhibiting herbicides before sowing corn in different soils. Two experiments were conducted in a greenhouse, and in the field conditions. In both, the experimental design were completely randomized in factorial scheme 6x4+1 (6 periods of application x 4 herbicides + 1 control) with five replications. The treatments were: haloxyfop-P-methyl (124.7 g ha-1), clethodim – formulation 1 (192 g ha-1), quizalofop-P-ethyl (100 g ha-1) and clethodim formulation 2 (192 g ha-1) in applications at 15, 10, 5, 3, 1 and 0 days before sowing in sandy and clayey soil. In the greenhouse, formulations based on clethodim were more safety in both types of soils, and safety intervals for clethodim-based herbicides were 5 days and greater than 15 days for quizalofop-P-ethyl and haloxyfop. Haloxyfop should not be applied on day of sowing in clay soil. In the field none of the treatments compromised the development and yield of the crop, even when applied on the day of sowing.

Referências

Anonymous (2023a) Select 240 EC product label. Available at: <https://www.adapar.pr.gov.br/sites/adapar/arquivos_restritos/files/documento/202010/select240ec.pdf> Accessed on: March 21rst, 2023.

Anonymous (2023b) Select One Pack product label. Available at: <https://www.adapar.pr.gov.br/sites/adapar/arquivos_restritos/files/documento/2020-10/selectonepack0220.pdf> Accessed on: March 21rst, 2023.

Anonymous (2023c) Targa® Max product label. Available at: <https://ihara.com.br/wp-content/uploads/sites/96/2021/07/targa-max-bula-3104503-2.pdf> Accessed on: March 21rst, 2023.

Anonymous (2023d) Verdict® R product label. Available at: <https://www.adapar.pr.gov.br/sites/adapar/arquivos_restritos/files/documento/2022-12/verdictr.pdf >Accessed on: March 21rst, 2023.

Barber LT, Norsworthy JK & Scott RC (2015) Row crop plant-back intervals for common herbicides. Fayetteville, University of Arkansas Cooperative Extension Service. Available at: <https://asl.contentdm.oclc.org/digital/api/collection/p266101coll7/id/27104/download> Accessed on: September 20th, 2018.

Becker AS, Placido HF, Albrecht LP, Albrecht AJP & Santos WG (2019) Residual effect of clethodim applied to pre-seeded corn. Revista Brasileira de Herbicidas, 18:01-06.

Chaplain V, Mamy L, Vieuble-Gonod L, Mougin C, Benoit P, Barriuso E & Nelieu S (2011) Fate of pesticides in soils: toward an integrated approach on influential factors. In: Stoytcheva M (Ed.) Pesticides in the Modern World: Risks and Benefitis. Baja California, IntechOpen. p.535-560.

Christoffoleti PJ & López-Ovejero R (2003) Main aspects on weed herbicide resistance to glyphosate. Planta Daninha, 21:507-515.

Dayan FE, Barker AL, Bough R, Ortiz M, Takano HK & Duke SO (2019) Herbicide mechanisms of action and resistance. In: Moo-Young M (Ed.) Comprehensive biotechnology. Amsterdam, Elsevier. p.36-48.

Garcia RA, Ceccon G, Sutier GAS & Santos ALF (2018). Soybean-corn succession according to seeding date. Pesquisa Agropecuária Brasileira, 53:09-22.

Gazziero DLP (1995) Procedures for installing, evaluating and analyzing herbicide experiments. Brasil, Sociedade Brasileira da Ciência das Plantas Daninhas. 42p.

Heap I (2023) The international survey of herbicide resistant weeds. Available at: . Accessed on: March 20th, 2023.

Huang Y, Liu Z, He Y & Li Y (2015) Impact of soil primary size fractions on sorption and desorption of atrazine on organo-mineral fractions. Environmental Science and Pollution Research, 22:4396-4405.

Kaudun SS (2014) Resistance to acetyl-CoA carboxylase-inhibiting herbicides. Pest Management Science, 70:1405-1417.

Kukorelli G, Reisinger P & Pinke G (2013) ACCase Inhibitor herbicides - selectivity, weed resistance and fitness cost: a review. International Journal of Pest Management, 59:165-173.

Lancaster ZD, Norsworthy JK & Scott RC (2018) Residual activity of

ACCase-inhibiting herbicides on monocot crops and weeds. Weed Technology, 32:364-370.

Lopez Ovejero RF, Takano HK, Nicolai M, Ferreira A, Melo MS, Cavenaghi AL, Christoffoleti PJ & Oliveira RS (2017) Frequency and dispersal of glyphosate-resistant sourgrass (Digitaria insularis) populations across Brazilian agricultural production areas. Weed Science, 65:285-294.

Mahoney KJ, Shropshire C & Sikkema PH (2016) Examining the plant-back interval for glyphosate/glufosinate-resistant corn after the application of ACCase inhibitors. Canadian Journal of Plant Science, 96:06-10.

Mancuso MAC, Negrisoli E & Perim L (2011) Residual effect of herbicides in the soil (“Carryover”). Revista Brasileira de Herbicidas, 10:151-164.

Mendes RR, Franchini LHM, Lucio FR, Zobiole LHS & Oliveira Júnior RS (2020) Aryloxyphenoxypropionates tolerant and non-tolerant corn: plant-back interval after acetyl-coA-carboxylase inhibitors applications. Planta Daninha, 38:e020230783.

Oliveira Júnior RS (2011) Mechanism of action of herbicides. In: Oliveira Júnior RS, Constantin J & Inoue MH (Eds.) Weed biology and management. Curitiba, Omnipax. p.141-192.

Polati S, Angioi S, Gianotti V, Gosetti F & Gennaro MC (2006) Sorption of pesticides on kaolinite and montmorillonite as a function of hydrophilicity. Journal of Environmental Science and Health Part B, 41:333-344.

Riar DS, Norsworthy JK, Bararpour MT, Bell HD & Schrage BW (2012) Activation and length of residual herbicides under furrow and sprinkler irrigation. In: Oosterhuis DM (Ed.) Summaries of Arkansas Cotton Research. Arkansas, Research Series. p.108-113.

Silva FAZ & Azevedo CAV (2002) Versão do programa computacional Assistat para o sistema operacional Windows. Revista Brasileira de Produtos Agroindustriais, 4:71-78.

Stasievski A (2015) Management to glyphosate - resistant Italian ryegrass (Lolium multiflorum Lam.), with the use of different herbicides. Master Dissertation. Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu. 120p.

Spader V, Lopes ECP, Fabbrin EG, Mendonça CG & Pelissari A (2012) Residual activity of ACCase inhibitor herbicides applied at pre-sowing of corn crop. Revista Brasileira de Herbicidas, 11:42-48.

Takano HK, López-Ovejero RF, Belchior GG, Maymone GPL & Dayan FE (2021) ACCase-inhibiting herbicides: mechanism of action, resistance Evolution and stewardship. Scientia Agricola, 78:e20190102.

Takeshita V, Mendes KF, Christoffoleti PJ, Tornisielo VL & Guimaraes ACD (2019) Sorption-desorption isotherms of diuron alone and in a mixture in soils with different physico-chemical properties. African Journal of Agricultural Research, 14:672-679.

Tomlin CDS (2009) A world compendium: the pesticide manual. England, The British Crop Protection Council. 1457p

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Publicado

2025-06-04

Como Citar

Dalpubel Mattiuzzi, M., Nalin, D., Inojosa Ferreira, L. A., Placido, H. F., Biffe, D. F., & Silvério De Oliveira Junior, R. (2025). Carryover of ACCase inhibitors for corn. Revista Ceres, 70(5), e70519. Recuperado de https://ojs.ceres.ufv.br/ceres/article/view/8171

Edição

v. 70 n. 5 (2023)

Seção

PLANT HEALTH

Licença

Creative Commons License
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

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