Physical Compatibility and Stability of Pesticide Mixtures at Different Spray Volumes

Moraes, Hugo Marcus Fialho e; Costa, Jéfferson de Oliveira; Pereira, Gustavo Antônio Mendes; Souza, Wendel Magno de; Silva, A.A.; Paixão, Gefferson Pereira da

doi:10.1590/s0100-83582019370100125

Cited by 3 publications

(3 citation statements)

References 9 publications

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“…Tank mixtures among herbicides Clincher ® + Ricer ® , Clincher ® + Kifix ® , Clincher ® + Imazethapyr Plus Nortox ® , Clincher ® + Ricer ® + Kifix ® , Clincher ® + Ricer ® + Sirius ® 250 CS, Imazethapyr Plus Nortox ® + Basagran ® 600, between herbicides and insecticides Clincher ® + Ricer ® + Arrivo ® 200 EC, Clincher ® + Kifix ® + Arrivo ® 200 EC, Clincher ® + Imazethapyr Plus Nortox ® + Arrivo ® 200 EC, Clincher ® + Ricer ® + Kifix ® + Arrivo ® 200 EC, Clincher ® + Ricer ® + Sirius ® 250 CS + Arrivo ® 200 EC, Imazethapyr Plus Nortox ® + Basagran ® 600 + Arrivo ® 200 EC, among fungicides Alterne ® + Bim ® 750 BR + Priori ® 250 CS, and between fungicides and insecticides Bim ® 750 BR + Actara ® 250 WG, Alterne ® + Bim ® 750 BR + Priori ® 250 CS + Actara ® 250 WG, and Alterne ® + Bim ® 750 BR + Priori ® 250 CS + Talisman ® did not present any physicochemical change in the spray mix and are therefore compatible to be used in mixtures in the spray tank in plant treatments in rice crops. Moraes et al (2019) found compatibility between the Deltamethrinae + Ghyphosate insecticide interaction in spray solution with consistent physicochemical parameters even after 24 hours of rest.…”

Section: Discussionmentioning

confidence: 66%

Chemical characteristics and compatibility of mixtures at different agricultural application rates

Pessoa,

Silva,

Lima

et al. 2024

Braz. J. of Sci.

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Tank mixes are widely used to control weeds, fungi, insects, and nematodes to increase the control spectrum. However, little is known about the interactions that may occur due to the different types of formulations and products used. This study aimed to evaluate the interaction and compatibility between different classes of products (herbicides, fungicides, insecticides, biostimulants, foliar fertilizers, and adjuvants) on the physical-chemical parameters of sprays commonly used in farming. The concentration of the sprays was stipulated by adopting a spray volume between 100, 50, and 10 L ha-1 and the dose recommended by the manufacturers. The characteristics evaluated were physical compatibility (presence or absence of flocculation, sedimentation, phase separation, formation of lumps, oil separation, formation of crystals and cream, and foam formation) and chemical compatibility (pH and electrical conductivity). The products tested have different affinities with the adjuvants and it is not possible to generalize the recommendations. The physicochemical compatibility between products of different classes of action and the adjuvants evaluated is dependent on the rest period, with constant agitation being essential before and during application for Glifotal®, 2.4 D®, Smart Trio®, and B-Moly®, in addition to molecular incompatibility separation occurring between 5-30 min after preparation of syrup for 2.4 D®, Smart Trio®, B-Moly®, Fosert®, Glyphosate®, Zethamaxx®, Bravonil®, Engeo®, Completo®, Plant Start®, Smart Cooper®, Manni Plex cal mg®, Manni Plex k® and Smart Zn®. pH also has a strong influence in some mixtures of syrups where flocculation occurred for the products Bravonil®, Engeo®, Completo®, Plant Start®, Smart Cooper®, and Smart Zn®, as well as the formation of lumps due to the concentration for Engeo®, Completo®, Plant Start®, and Smart Cooper®. It is concluded that dosages, homogenization, interactions between molecules of the same or different classes, and physicochemical parameters such as pH and electrical conductivity influence the obtaining of compatible application grouts.

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Section: Discussionmentioning

confidence: 66%

Chemical characteristics and compatibility of mixtures at different agricultural application rates

Pessoa,

Silva,

Lima

et al. 2024

Braz. J. of Sci.

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“…However, its importance and applicability are notorious, as it is a strategy with a high operational yield and high efficiency (Antolin et al, 2021). In this sense, landing spraying is one of the most commonly used forms of applying pesticides (Moraes et al, 2019). In most cases, much attention is paid to the product to be used in the application, neglecting the spraying technique (Contiero et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Application rate and nozzles associated with droplet electrification affect the spraying quality in common bean

Mello,

Carmo,

Braz

et al. 2024

Rev. bras. eng. agríc. ambient.

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The objective of this work was to evaluate the application efficiency of different nozzle tips associated with increasing application rates. A field experiment was conducted in a factorial 3 × 4 randomized block design with four replicates. The first factor consisted of three types of nozzle tips (simple flat fan, hollow cone, and hollow cone with the electrification of the drops), and the second factor constituted the four application rates (50, 100, 200, and 250 L ha-1). Electrostatic technology and a hollow cone tip increased the deposited volume on leaves on the upper and medium strata of the common bean plant, regardless of the application rate used. The increase in the application rate increased the volume of spray solution captured in the upper, medium, and lower strata, the drop density, the volumetric median diameter (VMD), and the percentage of foliar coverage, regardless of the spray tip evaluated. The percentage of leaf coverage on the adaxial and abaxial leaf was not influenced by the simple fan or hollow cone spray tips, with or without the association of electrostatic technology.

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“…Therefore, they are also essential for resistance management programs. However, inappropriate chemical control can cause irreversible environmental and economic impact (Moraes et al, 2019), e.g. change the efficacy or biological activity (synergism and antagonism, phytotoxicity or persistence).…”

Section: Introductionmentioning

confidence: 99%

Impact of water quality on pesticides and fertilizer compatibility

et al. 2021

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Mixtures of two or more pesticides are very common in contemporary agriculture. However, changes in their efficacy or biological activity, such as synergism and antagonism, phytotoxicity, persistence, toxicity to non-target organisms, may occur as a consequence. This study was conducted in order to evaluate the compatibility of insecticides (cyantraniliprole - Exirel, chlorantraniliprole - Coragen 20 SC), a fungicide (captan - Merpan 50 WP) and a foliar fertilizer (Folia Stim Mix TE), as well their mixtures, in spray liquids, depending on water quality (well water from two locations in Serbia - Mala Remeta and Cerevic). These products are used to control the most significant peach pests, and as an additional source of nutrients. Water analysis (pH, hardness, electroconductivity, chloride, nitrate, nitrite, ammonia, calcium and iron content) and tests of physico-chemical properties of the spray liquids (pH, suspensibility, dispersibility, surface tension, and electroconductivity) were performed in a laboratory experiment according to standard methods. The physico-chemical properties of the liquids changed depending on water quality and components incorporated in the mixture. However, all tested spray liquids showed consistency and compatibility over a period of 24 hours.

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Physical Compatibility and Stability of Pesticide Mixtures at Different Spray Volumes

Cited by 3 publications

References 9 publications

Chemical characteristics and compatibility of mixtures at different agricultural application rates

Chemical characteristics and compatibility of mixtures at different agricultural application rates

Application rate and nozzles associated with droplet electrification affect the spraying quality in common bean

Impact of water quality on pesticides and fertilizer compatibility

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