Leaching of the S-Metolachlor Herbicide Associated with Paraquat Or Glyphosate in a No‑Tillage System1

Leaching of the S-Metolachlor Herbicide Associated with Paraquat Or Glyphosate in a No‑Tillage System1

e-ISSN 1983-4063 - www.agro.ufg.br/pat - Pesq. Agropec. Trop., Goiânia, v. 46, n. 3, p. 254-258, Jul./Sep. 2016 Leaching of the S-metolachlor herbicide associated with paraquat or glyphosate in a no-tillage system1 Anderson Luis Nunes2, Ribas Antonio Vidal3 ABSTRACT RESUMO Lixiviação do herbicida S-metolachlor The combined use of desiccant and residual herbicides associado a paraquat ou glyphosate em plantio direto is a common management practice under no-tillage systems. However, the effect of desiccant herbicides and mulch on the A associação de herbicidas dessecantes com herbicidas leaching of residual herbicide is unknown. This study aimed at residuais constitui manejo comum, em áreas sob semeadura direta. assessing the leaching of the S-metolachlor herbicide applied Entretanto, não se conhece o efeito do herbicida dessecante e da to ryegrass sequentially or in association with paraquat or palhada sobre a lixiviação do herbicida residual. Objetivou-se glyphosate. A randomized blocks design was used, with determinar a lixiviação do herbicida S-metolachlor, aplicado four repetitions and treatments distributed over split-plots. sequencialmente ou associado a paraquat ou glyphosate, sobre The desiccant herbicides paraquat (600 g ha-1) or glyphosate azevém. Utilizou-se delineamento em blocos casualizados, com (720 g ha-1) were used in the main plot, while S-metolachlor quatro repetições, sendo os tratamentos distribuídos em parcelas (2,800 g ha-1) was applied sequentially or in association with the subdivididas. Nas parcelas principais, foram alocados os herbicidas desiccant herbicides in the subplots. There was also a control dessecantes paraquat (600 g ha-1) ou glyphosate (720 g ha-1) e, nas containing only desiccant herbicide, with no application of subparcelas, S-metolachlor (2.800 g ha-1) aplicado sequencialmente residual herbicide. The type of desiccant did not affect the ou associado aos herbicidas dessecantes, assim como uma leaching of the residual herbicide. In addition, the chosen testemunha contendo apenas herbicida dessecante, sem aplicação method to apply the residual herbicide, sequentially or in do herbicida residual. O tipo de herbicida dessecante não interferiu association with the desiccant, did not impact the S-metolachlor na lixiviação do herbicida residual. Além disso, a modalidade de behavior in the soil. The bioavailable concentration in the soil, aplicação do herbicida residual, sequencialmente ou em associação 25 days after the application, was 90 g a.i. ha-1, at a depth of ao dessecante, não afetou o comportamento do S-metolachlor no 18 cm. solo. A concentração biodisponível no solo, aos 25 dias após a aplicação, foi de 90 g i.a. ha-1, à profundidade de 18 cm. KEY-WORDS: Lolium multiflorum; bioassay; percolation; PALAVRAS-CHAVE: Lolium multiflorum; bioensaio, residual herbicide; plant cover. percolação; herbicida residual; cobertura vegetal. INTRODUCTION The presence of plant cover may inhibit herbicide leaching, due to the interception and The combined use of residual herbicides sorption of components in the plant cover. The and glyphosate to manage plant cover for crop atrazine herbicide shows less leaching in a no-tillage establishment is increasingly common in no-tillage system, when compared to conventional tillage systems. The use of residual herbicides improves (Weber et al. 2006b), likely due to the fact that the weed control during early crop growth and is an plant cover exhibits greater sorption capacity than alternative for controlling herbicide-resistant weeds the soil. (Zemolin et al. 2014). However, the presence The association with a desiccant may also of plant cover on the soil at the application time affect the leaching dynamics of residual herbicides, causes changes that affect the dynamics of residual since S-metolachlor is less persistent in the presence herbicides (Cassigneul et al. 2015). of glyphosate, if compared to paraquat (Nunes & 1. Manuscript received in Mar./2016 and accepted for publication in Aug./2016 (http://dx.doi.org/10.1590/1983-40632016v4640405). 2. Instituto Federal do Rio Grande do Sul, Campus Sertão, Sertão, RS, Brazil. E-mail: [email protected]. 3. Universidade Federal do Rio Grande do Sul, Faculdade de Agronomia, Departamento de Plantas de Lavoura, Porto Alegre, RS, Brazil. E-mail: [email protected]. 255 Leaching of the S-metolachlor herbicide associated with paraquat or glyphosate in a no-tillage system 255 Vidal 2008). Low persistence means that there is analysis. The second experiment was conducted likely less leaching, since the time required in the soil in a growth chamber, where the plant indicator for leaching to occur is shorter. In addition, chemical (Raphanus sativus L.) was planted across the soil reactions may occur between the residual herbicide columns, to quantify S-metolachlor in the soil. The and desiccant, potentially affecting the leaching of field experiment was conducted in soil classified S-metolachlor. as a typical dystrophic Ultisol (Embrapa 2006) S-metolachlor is a nonionizable compound containing 2.3 % of organic matter and 28 % of that belongs to the acetamides chemical group. clay. A randomized blocks design was used, with It has been applied as a preemergent or preplant four repetitions and experimental units measuring incorporated herbicide to control monocots and 2 m x 5 m. Treatments were distributed over split- dicots, acting to selectively inhibit shoots of maize plots. The desiccant herbicides paraquat (600 g ha-1) (Arantes et al. 2014), soybean (Steckel et al. 2015), or glyphosate (720 g ha-1) were used in the main cotton (Barroso et al. 2012) and sorghum crops, plot and S-metolachlor (2,800 g ha-1) was applied via association with herbicide safeners (Silva et al. sequentially or in association with the desiccants in 2014). the subplots. There was also a control containing only Metolachlor is formed by an R-isomer and the desiccants, with no application of the residual S-isomer pair, present in the herbicide in equal herbicide. Sequential application was performed at proportions. The S-isomer pair is more active on 5 min after desiccation. weeds than the R-isomer pair. This knowledge The herbicides were sprayed using a spray -1 prompted the development of a new catalytic volume of 110 L ha and a CO2- pressurized backpack system that produces a novel substance enriched sprayer, with a constant pressure of 200 kPa and (> 80 %) with S-isomers, denominated S-metolachlor TeeJet 8001 spray nozzles spaced 0.50 m apart, on (Senseman 2007). a 1.5 m long boom. Applications were performed In general, it is known that the leaching of between 4 p.m. and 4:55 p.m., when the mean metolachlor depends on factors such as the occurrence temperature and relative humidity were 27 ºC and and intensity of rainfall or irrigation, temperature and 71 %, respectively. The herbicides were applied soil surface area, as well as humic acid, clay and to live plant cover consisting of flowering Lolium organic matter content in the soil (Patakioutas & multiflorum Lam. plants. The total dry mass of Albanis 2002, Weber et al. 2006a, Baran & Gourcy the plant cover was 2,800 kg ha-1. Rainfall was 2013, Long et al. 2014). However, mathematical measured using a rain gauge installed in the study models demonstrate that metolachlor has leaching area (Figure 1). potential (Inoue et al. 2003). Under field conditions, The soil samples used to assess leaching were research has shown different levels of leaching for collected at 25 days after the application (DAA) this herbicide. In soil with 5.7 % of organic matter, of herbicides in the field. This period was chosen 90 % of the metolachlor applied is concentrated in for sample collection to allow sufficient rainfall the first 10 cm. By contrast, over 45 % of the product are found at more than 30 cm below the surface, in soil with 0.9 % of organic matter. This study aimed at assessing the leaching of the residual herbicide S-metolachlor, when applied to ryegrass sequentially or in association with desiccant herbicides. MATERIAL AND METHODS Two experiments were conducted at the Universidade Federal do Rio Grande do Sul, in 2008. The first experiment was conducted in the field, where herbicides were applied and soil Figure 1. Rainfall and cumulative rainfall between the herbicide columns were subsequently collected for leaching application and soil column collection. e-ISSN 1983-4063 - www.agro.ufg.br/pat - Pesq. Agropec. Trop., Goiânia, v. 46, n. 3, p. 254-258, Jul./Sep. 2016 256 A. L. Nunes & R. A. Vidal (2016) for herbicide percolation. First, plant material was submitted to analysis of variance, using the F-test. removed from the surface of the soil and a PVC tube The means of the variables were compared using the (25 cm long x 25 mm wide) was inserted, using a least significant difference (LSD) approach at 5 % rubber hammer, until the end of the tube was in line (p ≥ 0.05). with the soil surface. Next, the tubes were removed without disturbing the soil samples and placed in RESULTS AND DISCUSSION polystyrene boxes. The upper third of the tube was cut horizontally, using a table saw, in order to plant Statistical analysis found no significant the plant indicator. effect for the desiccants (paraquat and glyphosate), Next, a bioassay was carried out in a growth application (combined and sequential) or any of the chamber, using Raphanus sativus L. (common possible interactions. As such, the results for the radish) as a bioindicator of S-metolachlor leaching. effects of depth are shown in the means for the types Pre-germinated seeds were sown every 2 cm across of application. the soil column collected in the 2-18 cm soil layer. The radish plant indicators exhibited low The plants were grown under a mean temperature toxicity symptoms at 7 DAP, when planted in of 25.3 ± 3.1 ºC and relative humidity of 85.4 ± soil permeated with S-metolachlor, at depths 9.8 %, with a 12 h photoperiod and sprinkler irrigation.

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