Abstract
ABSTRACT Herbicide interactions can be synergic, additive, or antagonist when mixed in the spray tank. A good example is an association between 2,4-D and graminicides. One hypothesis is that 2,4-D contributes to increasing the Cytochrome P450 activity, which may be one of the causes of antagonism. This study aimed to investigate the use of CYP450 enzymes inhibitor associated with the herbicide mixtures 2,4-D and ACCase inhibitors in vivo on the control of Digitaria insularis. The experiment was performed using a randomized block design in a factorial scheme of 6x2 with four replications. Factor A consisted of untreated check, 2,4-D (1005 g a.e ha-1), clethodim (192 g a.i ha-1) and haloxyfop (62.4 g a.i ha-1), 2,4-D + clethodim (1005 g a.e ha-1+192 g a.i ha-1), and 2,4-D + haloxyfop (1005 g a.e ha-1 +62.4 g a.i ha-1). Factor B represented the presence or absence of malathion (1000 g ha-1) applied two hours before applying the herbicides. A physicochemical test was performed to verify the compatibility of the herbicides in the tank. Malathion application performed two hours before applying the herbicide mixtures (2,4-D and clethodim/haloxyfop) did not provide adequate control of sourgrass, suggesting that CYP450 enzymes inhibited by malathion are not involved in the antagonistic effect between 2,4-D and both graminicides in the management of sourgrass. The 2,4-D + haloxyfop in tank mix demonstrated less efficacy in controlling sourgrass than 2,4-D + clethodim, but both mixtures were incompatible in the tank mix, which may be associated with reduced efficacy in sourgrass management.
Highlights
Sourgrass (Digitaria insularis) is one of the most important weeds in Brazilian agriculture
Based on the results mentioned above, higher control of sourgrass was expected with graminicides mixed with 2,4-D and associated with malathion sprays; this behavior was not observed
This is likely due to the fact the Cytochrome P450 (CYP450) enzymes, which are inhibited by malathion, are not involved in the process that results in antagonism
Summary
Sourgrass (Digitaria insularis) is one of the most important weeds in Brazilian agriculture. It is a perennial grass, reaching up to 150 cm in height, with rhizomes and high seed production, facilitating dissemination (Kissmann; Groth, 1997). Due to these characteristics, this species is aggressive, with a high competitive ability (Gazola et al, 2016). The phenological stage is very important in the management of sourgrass, and it is crucial to control in the initial stages. Studies indicate the complexity of controlling sourgrass once the rhizome is formed since it helps the regrowth; impacting the management (Gemelli et al, 2012; Machado et al, 2008). The number of glyphosate-resistant (GR) sourgrass cases is increasing in Brazil (Takano et al, 2018), which makes acetyl-CoA carboxylase (ACCase) inhibitors, known as graminicides, the main herbicide class to control this species (Barroso; Albrecht; Reis, 2014)
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