Can herbicides of different mode of action cause injury symptoms in non-herbicide-tolerant young soybean due to simulated drift?

Accidental herbicide drift onto neighboring crops, such as soybeans, can seriously harm non-target plants, affecting their growth and productivity. This study examined the impact of simulated drift from ten different herbicides (2,4-D, dicamba, glyphosate, saflufenacil, oxyfluorfen, hexazinone, diuron, diquat, nicosulfuron, and isoxaflutole) on young soybean plants. These herbicides were applied at three simulated drift levels (1/4, 1/16, and 1/32) equivalent to recommended commercial doses, and the resulting symptoms were carefully evaluated. Simulated drift caused distinctive symptoms, including chlorosis, twisting, necrosis, and growth abnormalities, varying depending on each herbicide's mode of action. Dicamba proved more toxic than 2,4-D, and symptom severity increased with drift proportion, with all herbicides causing over 30% injury at the 1/16 proportion. Notably, 2,4-D, dicamba, glyphosate, hexazinone, and diquat exceeded the half-maximal inhibitory concentration (IC50) value, significantly reducing total biomass. Dicamba consistently caused 50% injury at all proportions, while hexazinone, at the highest dose proportion, led to plant mortality. Dicamba also had biomass accumulation beyond the growth reduction (GR50), whereas hexazinone exhibited less than 10% accumulation due to its capacity to induce plant mortality. This study emphasizes the importance of understanding herbicide drift effects on non-target crops for more effective and safe weed management strategies.

Acute toxicity of three herbicide formulations of Astyanax altiparanae (Characiformes, Characidae), an emerging neotropical fish model species.

Herbicides are used in agriculture to control harmful crop weeds, prevent algae proliferation, and enhance macrophyte growth. Herbicide contamination of water bodies might exert toxic effects on fish in different development stages. Sperm, embryos, and adults of Astyanax altiparanae were used as a model to examine the detrimental effects of the following herbicide formulations: Roundup Transorb® (glyphosate), Arsenal® NA (imazapyr), and Reglone® (diquat). The lethal concentration 50 (LC50) values for adults using glyphosate and imazapyr were 3.14 mg/L and 4.59 mg/L, respectively, while the LC50 was higher than 28 mg/L for diquat. For the initial stages of embryo development, LC50 values were 16.52 mg/L glyphosate, 9.33 mg/L imazapyr, and 1084 mg/L diquat. Inhibition of sperm motility was noted at 252 mg/L glyphosate, 137 mg/L imazapyr, and 11,300 mg/L diquat, with an average sperm viability of 12.5%, 73.2%, and 89.3%, respectively, compared to 87.5% detected to control. A. altiparanae exhibited different sensitivities to the herbicide formulations investigated in the developmental stages evaluated. Roundup Transorb® exposure was more toxic for adults, while Arsenal® NA was most harmful for early embryonic development and inhibited sperm motility. Reglone® demonstrated low toxicity for A. altiparanae compared to Roundup Transorb® and Arsenal® NA. A. altiparanae may be considered an emerging fish model for toxicological studies for the neotropical region due to its wide distribution and biological characteristics.

Pre-harvest desiccation strategies of soybean culture: a scenario without paraquat.

The objective of this study was to evaluate the use of diquat, glufosinate ammonium, saflufenacil and flumioxazim, positioned alone and/or combined, in the pre-harvest desiccation of soybean crops. For this purpose, a field experiment was conducted, with application of the treatments in the phenological stage R 7.2 of soybean. At 3 DAA, the herbicides diquat and their combinations with flumioxazin and ammonium glufosinate, at all doses, resulted in defoliation and desiccation percentages greater than 90%. At 5 DAA, only the flumioxazin and glufosinate ammonium treatments, alone, did not show indices for harvesting. At 10 DAA, only the control differed from the other treatments in relation to desiccation, demonstrating the need to apply desiccants to enable harvest. The results indicate that the combination of herbicides may represent an alternative to reduce doses and increase the efficacy of isolated products through synergism, in addition to operational gains.

Deposition of diquat with different spray tips, efficiency on common water hyacinth, and effect on water quality

Eichhornia crassipes, known as common water hyacinth, has a high growth rate and produces large amounts of biomass when there are imbalances in water bodies, making it one of the worst aquatic weeds in the world. A study was carried out under small water reservoir field conditions to evaluate the herbicide diquat (960 g ha−1) in controlling this species, at the adult stage development. Four spray tips (AI 11002VS, XR 11002VS and, TXVK-8 with spray volume of 200 L ha−1 and XR 11003VS with 400 L ha−1) were tested. Spraying was performed using a CO2-pressurized sprayer under constant pressure attached to a boat. Plant control was visually evaluated at 1, 3, 7, 11, 14, 21, 29, 60, 87, and 98 days after herbicide application and dry matter accumulation was determined at the end of the experimental period, as well as the spray solution deposition in the application area and water physical and chemical quality. The herbicide diquat was efficient in controlling E. crassipes plants at the dose applied and in development stage of the studied plants, regardless of the type of spray tip at the end of the evaluations. At the beginning of evaluations, the spray tip XR 11002VS was the least effectivity in controlling water hyacinth plants. Spray solution losses were high in all tips tested for control of E. crassipes plants, and the spray tips AI 11002VS and XR 11003VS provided the lowest losses during spraying. No water physical or chemical characteristics were negatively affected by diquat application.

Mortalidade de abelhas sem ferrão Scaptotrigona bipunctata sob os efeitos dos herbicidas paraquat e diquat / Mortality of Scaptotrigona bipunctata stingless bees under the effects of paraquat and diquat herbicides / Mortalidad de abejas sin aguijón Scaptotrigona bipunctata bajo los efectos de los herbicidas paraquat y diquat

As abelhas exercem essencial atividade polinizadora, além de fundamentais na manutenção ecossistêmica, também polinizam diversos sistemas agrícolas. São crescentes os relatos sobre o desaparecimento de abelhas, possivelmente em decorrência do intenso uso de agrotóxicos, os quais não possuem seus efeitos sobre a biodiversidade, de fato, conhecidos. A maioria dos estudos nessa área é voltada para a compreensão dos efeitos de inseticidas, porém, os herbicidas também podem influenciar na mortandade dos insetos polinizadores. Referente aos herbicidas paraquat e diquat, amplamente utilizados na agricultura, pouco se conhece sobre os efeitos que atingem organismos não-alvo, como as abelhas. Este trabalho avaliou a mortalidade das abelhas Scaptotrigona bipunctata submetidas aos herbicidas paraquat e diquat, via contato e ingestão. Dois experimentos foram conduzidos no delineamento de blocos casualizados em esquema fatorial 2 x 2 com tratamento adicional, em três repetições. Os tratamentos foram: dois herbicidas (paraquat e diquat), duas doses (50 e 100%) e um tratamento adicional sem exposição ao produto (controle). Cada parcela consistiu em dez indivíduos, expostos aos tratamentos e incubados à 28oC durante 72 horas em ambiente controlado. Para o experimento de ingestão, ambas as doses dos herbicidas resultaram em maior mortalidade de abelhas em relação à condição controle. Ademais, a dose 100% resultou em maior toxicidade comparada à dose 50%. Para a contaminação via contato, não houve aumento na mortalidade das abelhas perante a exposição. Conclui-se que a contaminação por ingestão com os herbicidas paraquat e diquat pode afetar a sobrevivência das abelhas sem ferrão, podendo em longo prazo alterar a viabilidade e a dinâmica das populações das abelhas Scaptotrigona bipunctata.(AU)

Bees have essential pollinating activities and are fundamental to the maintenance of the ecosystem since they also pollinate various agricultural systems. There are growing reports about the disappearance of bees, possibly due to the intense use of pesticides, which do not have their effects on biodiversity fully known. Most studies in this area are aimed at understanding the effects of insecticides; however, herbicides can also influence the mortality of pollinating insects. Regarding the paraquat and diquat herbicides, widely used in agriculture, little is known about the effects on non-target organisms, such as bees. This work evaluated the mortality of Scaptotrigona bipunctata bees submitted to the paraquat and diquat herbicides via contact and ingestion. Two experiments were conducted in a randomized block design in a 2 x 2 factorial scheme with additional treatment, in three replications. The treatments were: two herbicides (paraquat and diquat), two doses (50 and 100%), and an additional treatment without contamination (control). Each plot consisted of ten individuals exposed to treatments and incubated at 28 ºC for 72 hours in a controlled environment. For the ingestion experiment, both doses of the herbicides resulted in higher bee mortality when compared to the control condition. In addition, the 100% dose resulted in greater toxicity when compared to the 50% dose. For contact contamination, there was no increase in bee mortality on exposure. It can be concluded that contamination by ingestion of paraquat and diquat can affect the survival of stingless bees, which in the long term may alter the viability and population dynamics of Scaptotrigona bipunctata bees.(AU)

Las abejas ejercen una actividad polinizadora esencial, además de ser fundamentales en el mantenimiento de los ecosistemas, también polinizan varios sistemas agrícolas. Cada vez hay más informes sobre la desaparición de abejas, posiblemente como consecuencia del uso intenso de pesticidas, que no tienen sus efectos sobre la biodiversidad, de hecho, conocidos. La mayoría de los estudios en esta área tienen como objetivo comprender los efectos de los insecticidas, sin embargo, los herbicidas también pueden influir en la mortalidad de los insectos polinizadores. Con respecto a los herbicidas paraquat e diquat, ampliamente utilizados en la agricultura, se sabe poco sobre los efectos que afectan a organismos no objetivo, como las abejas. Esta investigación evaluó la mortalidad de abejas Scaptotrigona bipunctata sometidas a herbicidas paraquat y diquat, por contacto e ingestión. Dos experimentos fueron conducidos en el delineamiento de bloques casualizados en esquema factorial 2 x 2 con tratamiento adicional, en tres repeticiones. Los tratamientos fueron: dos herbicidas (paraquat y diquat) dos dosis (50 y 100%) y un tratamiento adicional sin exposición al producto (control). Cada parcela estuvo compuesta por diez individuos, expuestos a tratamientos e incubados a 28ºC durante 72 horas en ambiente controlado. Para el experimento de ingestión, ambas dosis de herbicidas resultaron en mayor mortalidad de abejas en comparación con la condición de control. Además, la dosis del 100% resultó en mayor toxicidad en comparación con la dosis del 50%. Para la contaminación por contacto, no hubo un aumento en la mortalidad de las abejas debido a la exposición. Se concluye que la contaminación por ingestión con herbicidas paraquat y diquat puede afectar la supervivencia de las abejas sin aguijón, lo que a largo plazo puede alterar la viabilidad y la dinámica poblacional de las abejas Scaptotrigona bipunctata.(AU)

Mortalidade de abelhas sem ferrão Scaptotrigona bipunctata sob os efeitos dos herbicidas paraquat e diquat / Mortality of Scaptotrigona bipunctata stingless bees under the effects of paraquat and diquat herbicides / Mortalidad de abejas sin aguijón Scaptotrigona bipunctata bajo los efectos de los herbicidas paraquat y diquat

As abelhas exercem essencial atividade polinizadora, além de fundamentais na manutenção ecossistêmica, também polinizam diversos sistemas agrícolas. São crescentes os relatos sobre o desaparecimento de abelhas, possivelmente em decorrência do intenso uso de agrotóxicos, os quais não possuem seus efeitos sobre a biodiversidade, de fato, conhecidos. A maioria dos estudos nessa área é voltada para a compreensão dos efeitos de inseticidas, porém, os herbicidas também podem influenciar na mortandade dos insetos polinizadores. Referente aos herbicidas paraquat e diquat, amplamente utilizados na agricultura, pouco se conhece sobre os efeitos que atingem organismos não-alvo, como as abelhas. Este trabalho avaliou a mortalidade das abelhas Scaptotrigona bipunctata submetidas aos herbicidas paraquat e diquat, via contato e ingestão. Dois experimentos foram conduzidos no delineamento de blocos casualizados em esquema fatorial 2 x 2 com tratamento adicional, em três repetições. Os tratamentos foram: dois herbicidas (paraquat e diquat), duas doses (50 e 100%) e um tratamento adicional sem exposição ao produto (controle). Cada parcela consistiu em dez indivíduos, expostos aos tratamentos e incubados à 28oC durante 72 horas em ambiente controlado. Para o experimento de ingestão, ambas as doses dos herbicidas resultaram em maior mortalidade de abelhas em relação à condição controle. Ademais, a dose 100% resultou em maior toxicidade comparada à dose 50%. Para a contaminação via contato, não houve aumento na mortalidade das abelhas perante a exposição. Conclui-se que a contaminação por ingestão com os herbicidas paraquat e diquat pode afetar a sobrevivência das abelhas sem ferrão, podendo em longo prazo alterar a viabilidade e a dinâmica das populações das abelhas Scaptotrigona bipunctata.(AU)

Bees have essential pollinating activities and are fundamental to the maintenance of the ecosystem since they also pollinate various agricultural systems. There are growing reports about the disappearance of bees, possibly due to the intense use of pesticides, which do not have their effects on biodiversity fully known. Most studies in this area are aimed at understanding the effects of insecticides; however, herbicides can also influence the mortality of pollinating insects. Regarding the paraquat and diquat herbicides, widely used in agriculture, little is known about the effects on non-target organisms, such as bees. This work evaluated the mortality of Scaptotrigona bipunctata bees submitted to the paraquat and diquat herbicides via contact and ingestion. Two experiments were conducted in a randomized block design in a 2 x 2 factorial scheme with additional treatment, in three replications. The treatments were: two herbicides (paraquat and diquat), two doses (50 and 100%), and an additional treatment without contamination (control). Each plot consisted of ten individuals exposed to treatments and incubated at 28 ºC for 72 hours in a controlled environment. For the ingestion experiment, both doses of the herbicides resulted in higher bee mortality when compared to the control condition. In addition, the 100% dose resulted in greater toxicity when compared to the 50% dose. For contact contamination, there was no increase in bee mortality on exposure. It can be concluded that contamination by ingestion of paraquat and diquat can affect the survival of stingless bees, which in the long term may alter the viability and population dynamics of Scaptotrigona bipunctata bees.(AU)

Las abejas ejercen una actividad polinizadora esencial, además de ser fundamentales en el mantenimiento de los ecosistemas, también polinizan varios sistemas agrícolas. Cada vez hay más informes sobre la desaparición de abejas, posiblemente como consecuencia del uso intenso de pesticidas, que no tienen sus efectos sobre la biodiversidad, de hecho, conocidos. La mayoría de los estudios en esta área tienen como objetivo comprender los efectos de los insecticidas, sin embargo, los herbicidas también pueden influir en la mortalidad de los insectos polinizadores. Con respecto a los herbicidas paraquat e diquat, ampliamente utilizados en la agricultura, se sabe poco sobre los efectos que afectan a organismos no objetivo, como las abejas. Esta investigación evaluó la mortalidad de abejas Scaptotrigona bipunctata sometidas a herbicidas paraquat y diquat, por contacto e ingestión. Dos experimentos fueron conducidos en el delineamiento de bloques casualizados en esquema factorial 2 x 2 con tratamiento adicional, en tres repeticiones. Los tratamientos fueron: dos herbicidas (paraquat y diquat) dos dosis (50 y 100%) y un tratamiento adicional sin exposición al producto (control). Cada parcela estuvo compuesta por diez individuos, expuestos a tratamientos e incubados a 28ºC durante 72 horas en ambiente controlado. Para el experimento de ingestión, ambas dosis de herbicidas resultaron en mayor mortalidad de abejas en comparación con la condición de control. Además, la dosis del 100% resultó en mayor toxicidad en comparación con la dosis del 50%. Para la contaminación por contacto, no hubo un aumento en la mortalidad de las abejas debido a la exposición. Se concluye que la contaminación por ingestión con herbicidas paraquat y diquat puede afectar la supervivencia de las abejas sin aguijón, lo que a largo plazo puede alterar la viabilidad y la dinámica poblacional de las abejas Scaptotrigona bipunctata.(AU)

Mortalidade de abelhas sem ferrão Scaptotrigona bipunctata sob os efeitos dos herbicidas paraquat e diquat / Mortality of Scaptotrigona bipunctata stingless bees under the effects of paraquat and diquat herbicides / Mortalidad de abejas sin aguijón Scaptotrigona bipunctata bajo los efectos de los herbicidas paraquat y diquat

As abelhas exercem essencial atividade polinizadora, além de fundamentais na manutenção ecossistêmica, também polinizam diversos sistemas agrícolas. São crescentes os relatos sobre o desaparecimento de abelhas, possivelmente em decorrência do intenso uso de agrotóxicos, os quais não possuem seus efeitos sobre a biodiversidade, de fato, conhecidos. A maioria dos estudos nessa área é voltada para a compreensão dos efeitos de inseticidas, porém, os herbicidas também podem influenciar na mortandade dos insetos polinizadores. Referente aos herbicidas paraquat e diquat, amplamente utilizados na agricultura, pouco se conhece sobre os efeitos que atingem organismos não-alvo, como as abelhas. Este trabalho avaliou a mortalidade das abelhas Scaptotrigona bipunctata submetidas aos herbicidas paraquat e diquat, via contato e ingestão. Dois experimentos foram conduzidos no delineamento de blocos casualizados em esquema fatorial 2 x 2 com tratamento adicional, em três repetições. Os tratamentos foram: dois herbicidas (paraquat e diquat), duas doses (50 e 100%) e um tratamento adicional sem exposição ao produto (controle). Cada parcela consistiu em dez indivíduos, expostos aos tratamentos e incubados à 28oC durante 72 horas em ambiente controlado. Para o experimento de ingestão, ambas as doses dos herbicidas resultaram em maior mortalidade de abelhas em relação à condição controle. Ademais, a dose 100% resultou em maior toxicidade comparada à dose 50%. Para a contaminação via contato, não houve aumento na mortalidade das abelhas perante a exposição. Conclui-se que a contaminação por ingestão com os herbicidas paraquat e diquat pode afetar a sobrevivência das abelhas sem ferrão, podendo em longo prazo alterar a viabilidade e a dinâmica das populações das abelhas Scaptotrigona bipunctata.(AU)

Bees have essential pollinating activities and are fundamental to the maintenance of the ecosystem since they also pollinate various agricultural systems. There are growing reports about the disappearance of bees, possibly due to the intense use of pesticides, which do not have their effects on biodiversity fully known. Most studies in this area are aimed at understanding the effects of insecticides; however, herbicides can also influence the mortality of pollinating insects. Regarding the paraquat and diquat herbicides, widely used in agriculture, little is known about the effects on non-target organisms, such as bees. This work evaluated the mortality of Scaptotrigona bipunctata bees submitted to the paraquat and diquat herbicides via contact and ingestion. Two experiments were conducted in a randomized block design in a 2 x 2 factorial scheme with additional treatment, in three replications. The treatments were: two herbicides (paraquat and diquat), two doses (50 and 100%), and an additional treatment without contamination (control). Each plot consisted of ten individuals exposed to treatments and incubated at 28 ºC for 72 hours in a controlled environment. For the ingestion experiment, both doses of the herbicides resulted in higher bee mortality when compared to the control condition. In addition, the 100% dose resulted in greater toxicity when compared to the 50% dose. For contact contamination, there was no increase in bee mortality on exposure. It can be concluded that contamination by ingestion of paraquat and diquat can affect the survival of stingless bees, which in the long term may alter the viability and population dynamics of Scaptotrigona bipunctata bees.(AU)

Las abejas ejercen una actividad polinizadora esencial, además de ser fundamentales en el mantenimiento de los ecosistemas, también polinizan varios sistemas agrícolas. Cada vez hay más informes sobre la desaparición de abejas, posiblemente como consecuencia del uso intenso de pesticidas, que no tienen sus efectos sobre la biodiversidad, de hecho, conocidos. La mayoría de los estudios en esta área tienen como objetivo comprender los efectos de los insecticidas, sin embargo, los herbicidas también pueden influir en la mortalidad de los insectos polinizadores. Con respecto a los herbicidas paraquat e diquat, ampliamente utilizados en la agricultura, se sabe poco sobre los efectos que afectan a organismos no objetivo, como las abejas. Esta investigación evaluó la mortalidad de abejas Scaptotrigona bipunctata sometidas a herbicidas paraquat y diquat, por contacto e ingestión. Dos experimentos fueron conducidos en el delineamiento de bloques casualizados en esquema factorial 2 x 2 con tratamiento adicional, en tres repeticiones. Los tratamientos fueron: dos herbicidas (paraquat y diquat) dos dosis (50 y 100%) y un tratamiento adicional sin exposición al producto (control). Cada parcela estuvo compuesta por diez individuos, expuestos a tratamientos e incubados a 28ºC durante 72 horas en ambiente controlado. Para el experimento de ingestión, ambas dosis de herbicidas resultaron en mayor mortalidad de abejas en comparación con la condición de control. Además, la dosis del 100% resultó en mayor toxicidad en comparación con la dosis del 50%. Para la contaminación por contacto, no hubo un aumento en la mortalidad de las abejas debido a la exposición. Se concluye que la contaminación por ingestión con herbicidas paraquat y diquat puede afectar la supervivencia de las abejas sin aguijón, lo que a largo plazo puede alterar la viabilidad y la dinámica poblacional de las abejas Scaptotrigona bipunctata.(AU)

Simultaneous determination of the quaternary ammonium pesticides paraquat, diquat, chlormequat, and mepiquat in barley and wheat using a modified quick polar pesticides method, diluted standard addition calibration and hydrophilic interaction liquid chromatography coupled to tandem mass spectrometry.

In this study, a modified Quick Polar Pesticides (QuPPe) method, optimized by a central composite design, was developed to determine quaternary ammonium pesticides (QUATs) residues in barley and wheat by ultra-high-performance liquid chromatographic tandem mass spectrometry (UHPLC-MS/MS) using a hydrophilic interaction chromatography (HILIC) column. Considering the high polarity of these compounds, special conditions of sample preparation and analysis are required. Different mobile phases, extraction procedure and clean-up were evaluated. An isocratic elution with aqueous solution of ammonium formate 60 mmol L-1 (pH 3.7) and acetonitrile, 40:60 (v/v), was selected. Water and acidified methanol as extraction solvent, without heating, and a clean-up with dichloromethane, chitosan and acetonitrile presented good results. The validated method presented satisfactory selectivity, linearity, matrix effect, trueness and precision, providing recoveries from 93 to 110% with RSD < 13% for barley, and 70 to 115% with RSD < 18% for wheat. The complexity of these matrices requires the calibration in matrix and the diluted standard addition calibration (DSAC) procedure has been shown to be an excellent option to compensate for the matrix effect and the losses of the analytes in the extraction. Real samples of barley and wheat were analyzed and 60% presented concentrations of paraquat above the maximum limits allowed by the European Union. The modified QuPPe method combined with DSAC and HILIC-UHPLC-MS/MS demonstrated to be an effective approach to determine QUATs in barley and wheat, and is a good alternative for routine analysis. The use of the biosorbent chitosan is effective, low cost and more ecological when compared to others conventional sorbents.

Intoxicação por diquat / Diquat intoxication

O paraquat e o diquat são herbicidas de contacto do grupo dos bipiridilos, utilizados largamente para controlo de ervas daninhas. A importância deste grupo de herbicidas reside na sua utilização frequente para fins suicidas e pela inexistência de antídoto ou tratamento médico específico. O envenenamento com diquat é muito menos comum que com o paraquat e por isso existem poucos casos descritos na literatura. A dose letal de ambos é sobreponível, contudo o diquat é considerado menos tóxico devido ao menor dano pulmonar. Por outro lado, o diquat tem efeitos tóxicos graves sobre o sistema nervoso central. Por este motivo os sinais de neurotoxicidade pelo diquat são os mais relevantes e incluem sinais de parkinsonismo. O rim é a principal via excretora do diquat e a necrose tubular aguda é a lesão tipicamente identificada. A sobrevida depende de dois fatores: a concentração da substância no plasma e o tempo após a ingestão. O tratamento centra-se em três pontos essenciais: prevenção da absorção, rápida excreção e modificação dos efeitos tecidulares. A hemoperfusão é mais eficaz na clearance do diquat do que a hemodiálise e a sua utilização nas primeiras 12 horas de intoxicação pode reduzir a mortalidade.

Paraquat and diquat are contact herbicides from bipyridyl group, commonly used in weed control. The importance of this herbicide group is due to its frequent use with suicidal purpose and because there is neither an antidote nor a specific treatment. Poisoning with diquat is much less common that with paraquat, so there are few cases published in literature. The lethal dose of both is similar, however diquat is considered less toxic because it causes less lung damage. On the other side, diquat has severe toxic effects on central nervous system and neurotoxic signs are the more relevant, and include Parkinsonism. The kidney is the main excretory pathway of diquat and acute tubular necrosis is typical. Survival depends on two factors: plasma concentration and time of ingestion. Treatment focus in three key points: preventing absorption, rapid excretion and tissue effects. Hemoperfusion is more effective in diquat clearance than haemodialysis and its use in first 12 hours can reduce mortality.

Adsorption of the herbicides diquat and difenzoquat on polyurethane foam: Kinetic, equilibrium and computational studies.

This work reports a study about the adsorption of the herbicides diquat and difenzoquat from aqueous medium employing polyurethane foam (PUF) as the adsorbent and sodium dodecylsulfate (SDS) as the counter ion. The adsorption efficiency was shown to be dependent on the concentration of SDS in solution, since the formation of an ion-associate between cationic herbicides (diquat and difenzoquat) and anionic dodecylsulfate is a fundamental step of the process. A computational study was carried out to identify the possible structure of the ion-associates that are formed in solution. They are probably formed by three units of dodecylsulfate bound to one unit of diquat, and two units of dodecylsulfate bound to one unit of difenzoquat. The results obtained also showed that 95% of both herbicides present in 45mL of a solution containing 5.5mgL-1 could be retained by 300mg of PUF. The experimental data were well adjusted to the Freundlich isotherm (r2 ≥ 0.95) and to the pseudo-second-order kinetic equation. Also, the application of Morris-Weber and Reichenberg equations indicated that an intraparticle diffusion process is active in the control of adsorption kinetics.

Polyurethane foam loaded with sodium dodecylsulfate for the extraction of 'quat' pesticides from aqueous medium: Optimization of loading conditions.

The cationic herbicides paraquat, diquat and difenzoquat are largely used in different cultures worldwide. With this, there is an intrinsic risk of environmental contamination when these herbicides achieve natural waters. The goal of this work was to propose a novel and low-cost sorbent for the removal of the cited herbicides from aqueous medium. The proposed sorbent was prepared by loading polyurethane foam with sodium dodecylsulfate. The influence of several parameters (SDS concentration, HCl concentration and shaking time) on the loading process was investigated. The results obtained in this work demonstrated that all studied variables influenced the loading process, having significant effect on the extraction efficiency of the resulted PUF-SDS. At optimized conditions, the PUF was loaded by shaking 200mg of crushed foam with 200mL of a solution containing 5.0×10(-3)molL(-1) SDS and 0.25molL(-1) HCl, for 30min. The obtained PUF-SDS was efficient for removing the three herbicides from aqueous medium, achieving extraction percentages higher than 90%. The sorption process followed a pseudo second-order kinetics, which presented excellent predictive capacity of the amount of herbicide retained with time.

Sorption of the herbicides diquat and difenzoquat from aqueous medium by polymeric resins in the presence of sodium dodecylsulfate: Kinetic and mechanistic study.

The goal of this work was to propose a novel method for the solid-phase extraction of the herbicides diquat (DQT(2+)) and difenzoquat (DFQT(+)) from aqueous medium using polymeric Amberlite XAD-2 and XAD-4 resins in the presence of sodium dodecylsulfate (SDS). The addition of SDS to the medium was of fundamental importance in order to allow the formation of a negatively charged surface able to sorb the cationic solutes. Several factors that could influence the sorption process, such as SDS concentration in the medium, sorbent mass, pH, ionic strength, and initial concentration of the solutes were investigated. Kinetic studies were also performed to model the system and to identify the mechanisms that operate the sorption process of the herbicides. SDS concentration in the medium presented remarkable influence on the extraction efficiency, achieving maximum values when the ratios [SDS]/[herbicide] were approximately 90, for XAD-2, and 22 and 11 for DQT(2+) and DFQT(+), respectively, for XAD-4. The sorption process followed a pseudo second-order kinetic in all cases studied. It was also found that an intraparticle diffusion process controlled exclusively the sorption of the herbicides by the Amberlite XAD-2 and XAD-4 resins in the first 15 min, becoming less active with time.

Diquat associated with copper sources for algae control: Efficacy and ecotoxicology.

The aims of this research were to evaluate the efficacy of copper oxychloride (CuCl2.3Cu(OH)2), copper hydroxide (Cu(OH)2) and diquat (1.1'-ethylene-2.2'-bipyridyldiylium dibromide), isolated and in association with 0.1% of both copper sources, in the control of the unicellular algae Ankistrodesmus gracilis and the filamentous algae Pithophora kewesis, and to determine the acute toxicity of the tested chemicals in Hyphressobrycon eques, Pomacea canaliculata, Lemna minor and Azolla caroliniana. The efficacy was estimated by the methods of chlorophyll a and pheophytin a readings, changed into growth inhibition percentage. Both algae were exposed to the following concentrations: 0.2; 0.4; 0.8; 1.2 mg L(-1) of diquat and its association with the copper sources; and 0.1; 0.3; 0.5; 0.7; 1.0 and 1.5 mg L(-1) in the isolated applications of copper hydroxide and copper oxychloride. An untreated control was kept. The acute toxicity was estimatedby 50% lethal concentration (LC50). The copper sources were effective for A. gracilis control, at rates as high as 0.1 mg L(-1) (>95% efficacy). Isolated diquat and its association with copper hydroxide were both effective at rates as high as 0.4 mg L(-1), with 95 and 88% control efficacy, respectively. The copper oxychloride was effective at 0.2 mg L(-1), with 93% efficacy. None of the tested chemicals and associations was effective on P. kewesis control. The most sensitive non target organism to the tested chemicals was L. minor; the less sensitive was H. eques.

Efeito da dessecação em estádios fenológicos antecipados na cultura da soja / Effects of early desiccation in phenological phases in soybean

O Estado do Mato Grosso detém a maior área plantada de soja, mas perdas de produtividade vêem ocorrendo nessas áreas, não sendo consideradas as que ocorrem por manejo no momento da dessecação, cujos critérios dependem do conhecimento da cultura. Objetivou-se com este trabalho determinar a perda de produtividade de grãos ocorrida pela dessecação em estádios fenológicos antecipados, em cultivares de soja com diferentes tipos de crescimento, em relação ao tratamento sem dessecação. O experimento foi instalado na safra 2008/2009, no município de Lucas do Rio Verde, em delineamento de blocos casualizados, em esquema fatorial (4x5), representado por quatro cultivares (TMG123 RR, NK7074 RR, P98Y11 e SYN9070 RR) em quatro estádios de dessecação (R6, R6+2DD, R6+4DD e R7), além do tratamento testemunha sem dessecação. As plantas colhidas foram divididas em terço superior (TS) e terço médio e inferior (TMI), debulhadas manualmente e depois determinada a massa de 100 grãos. Concluí-se que os valores de maior massa foram obtidos nas cultivares de crescimento determinado e estes decresceram com a dessecação antecipada, aumentando linearmente com o atraso da dessecação. Existem diferentes respostas para cada cultivar causadas pela dessecação, com perdas de rendimento, sendo o terço superior o mais afetado pela dessecação, causando até 15% de perda de produtividade na cultura.

State of Mato Grosso has the largest soybean area planted, yield losses occurring in these areas, not considering the ones that occur by handling during the desiccation, the criteria adopted depend on the knowledge of the culture. The goal of this study was to determine the loss occurred by desiccation in early stages, when compared with no desiccation in soybean fields. The experiment was installed in 2008/2009 season, in the municipality of Lucas do Rio Verde, in a randomized block design in a (4x5) factorial arrangements, represented by four varieties (TMG123 RR, NK7074 RR, P98Y11 and SYN9070 RR) in four stages desiccation (R6, R6+2DD, R6+4DD and R7), and controls without desiccation. The harvested plants were divided into upper third (TS) and medium and lower third (TMI) and manually threshed and after determined the mass of 100 grains. Concluded that the values of the higher mass were obtained in cultivars of determinate growth habit, and these decreased with early desiccation, and increased linearly with the delay of desiccation. There are different answers for each cultivar caused by desiccation, with yield losses, being the upper third the most affected by desiccation, which can causing up to 15% to loss of crop productivity.

Gas chromatographic-mass spectrometric method for the determination of the herbicides paraquat and diquat in plasma and urine samples.

In the present work, a method was developed and optimized aiming to determinate the herbicides paraquat (PQ) and diquat (DQ) in human plasma and urine samples. An initial procedure of chemical reduction of the analytes by adding NaBH4 directly in the buffered samples (pH 8.0) was performed. This procedure was necessary to convert the quaternary ammonium substances into more volatile compounds for gas chromatographic analysis. The reduction compounds were extracted with C18 cartridges (solid-phase extraction). Ethyl paraquat (EPQ) was used as internal standard (IS). Gas chromatography-mass spectrometry (GC-MS) was used to identify and quantify the analytes in selected ion monitoring (SIM) mode. The limits of detection were 0.05 mg/l for both PQ and DQ. By using the weighted least squares linear regression (1/x1/2 for plasma and 1/y for urine), the accuracy of the analytical method was improved at the lower end of the calibration curve (from 0.1 to 50 mg/l; r>0.98). This method can be readily utilized as an important tool to confirm the suspicion of PQ and/or DQ poisoning and evaluate the extent of the intoxication.

Processos de biodegradação dos herbicidas paraquat e diquat por fungos Basideomicetos. Uma proposta par biorremediação de solos / Falta

Para o controle da diversidade de organismos que prejudicam a produção agropecuária mundial o ser humano passou a utilizar controladores os quais convenciona-se chamar de agrotóxicos, pesticidas, entre outros. Apesar da quantidade e variedade de produtos usados no campo para esse fim, durante muito tempo não houve preocupação com os problemas ambientais que os mesmos pudessem causar. Um desses problemas é a poluição do solo pelos princípios ativos dos fitosanitários, já que a grande maioria destes agrega-se as partículas que compõe o solo, podendo causar contaminação do próprio solo, podendo causar contaminação do próprio solo, das águas subterrâneas e da flora, podendo incorporar-se no ciclo das cadeias alimentares. Determinados grupos de microorganismos tem a propriedade de descontaminar áreas afetadas por grandes cargas de agrotóxicos, mediante processo de biorremediação destacando o grupo dos basideomicetos, fungos que tem capacidade de utilizar a lignina como fonte de subsistência, devido a essa característica presumi-se que eles também usam as formas dos princípios ativos agrotóxicos como fonte, já que assemelham-se em alguns casos quanto a composição da lignina. O objetivo desse trabalho foi verificar a ação descontaminante do fungo Pleurotus ostreatus juntos aos herbicidas Paraquat e Diquat em teste laboratoriais. Verificou-se resistência dos fungos e a biodegradabilidade dos herbicidas usando o ensaio repirométrico de BARTHA e PRAMER em frasco GLENDHILL, confirmando por espectrofotometria de absorção molecular. Conclui-se que das 4 linhagens de P. ostreatus testadas, apenas CCB004 e 021 foram eficazes na degradação dos herbicidas Paraquat e Diquat respectivamente

Application of calorimetry to microbial biodegradation studies of agrochemicals in oxisols.

Calorimetry was used to monitor the inhibitory effect caused by the bipyridynium diquaternary salts paraquat, diquat, and phosphamidon on microbial activity in a Red Latosol soil (Oxisol). The thermal effect was recorded on samples composed of 1.50 g of soil, 6.0 mg of glucose, 6.0 mg of ammonium sulfate, and different masses of an inhibitor ranging from zero to 8.00 mg, under a controlled moisture content of 35%. Thermal effects of each pollutant on the degradation curves of glucose in the soil were compared. Increasing amounts of the inhibitor caused a decrease in the thermal effect from -2234 to -1987 kJ mol(-1) for paraquat, -1670 to -1306 kJ mol(-1) for diquat, and -2239 to -589 kJ mol(-1) for phosphamidon. The last xenobiotic agent caused a significant inhibitory effect on the microbial activity of the soil. The results of relative efficiency, eta = deltaH/deltaH', referring to the enthalpic value with (deltaH) and without (deltaH') agrochemical in the soil, exhibited a significant correlation. From this correlation obtained for the ranges 2.00 to 8.00, 1.30 to 8.00, and 1.20 to 5.80 mg of the agrochemicals paraquat, diquat, and phosphamidon, respectively, the following eta values were calculated: 0.993 to 0.894, 0.668 to 0.522, and 0.896 to 0.236, respectively, during the degradation of glucose in the soil. The largest relative efficiency for paraquat implies that this agrochemical can be metabolized by microbial activity.

Nitric oxide protects against cellular damage produced by methylviologen herbicides in potato plants.

Methylviologen compounds are normally used in agronomy as herbicides. They cause an overproduction of reactive oxygen species (ROS) within chloroplasts, subjecting the plant to a severe oxidative stress. Since nitric oxide (NO) is a bioactive ROS scavenger, we analyzed its effect over some toxic processes caused by the methylviologens diquat and paraquat in potato leaves (Solanum tuberosum L. cv. Pampeana). Three NO donors, (i) sodium nitroprusside (SNP), (ii) S-nitroso-N-acetylpenicillamine, and (iii) a mixed solution of ascorbic acid and NaNO2, were able to prevent chlorophyll loss. Residual products from NO generation and decomposition failed to prevent chlorophyll decline and a specific NO scavenger, carboxy-PTIO, arrested NO-mediated chlorophyll protection. Dichlorophenyldimethylurea, an inhibitor of chloroplastic electron transport, mimicked NO-mediated chlorophyll protection. During oxidative stress, cell ion leakage to intercellular compartments occurs as an early step, leading to a special kind of programmed cell death. NO proved to specifically decrease the extent of ion leakage originated by diquat, since the protection originated by 100 microM SNP was completely arrested by carboxy-PTIO. These results suggest that NO can strongly protect plants from methylviologen damage and strengthen the evidence in favor of NO as a potent antioxidant in some situations.

[Use of the herbicide diquat for the control of the aquatic plant Pistia stratiotes and its importance in the control of mosquitoes (Diptera: Culicidae)]. / Utilización del herbicida Diquat para el control de la planta acuática Pistia stratiotes y su importancia en el control de los mosquitos (Dipteria: Culicidae).

The feasibility of the use of the Diquat herbicide (reglone) in the control of the Pistia stratiotes aquatic plant is tested. This facilitates the reduction of mosquito larva densities by the action of natural enemies present in the ecosystem. The associated fauna is not affected by the employed concentrations of the herbicide under these conditions.