Thermodynamics of aqueous solutions of 1-Naphthyl methylcarbamate

Huerta Diaz, Miguel Angel

01 January 1984

Accurate solubility measurements for the pesticide l-naphthyl-N-methylcarbamate (carbaryl) in water, natural and artificial seawater, NaCl, Na2SO4, CaCl2 and (CH3)4NBr, at different temperatures covering the range 5-45 °C, were obtained using a combination of the generator column method and absorption spectroscopy techniques. As a rule, it was found that the solubility of carbaryl in water and in the electrolyte solution increased with an increase in temperature. The thermodynamic parameter ΔG°, ΔH°, ΔS°, and ΔC°p at 298.15 K, for the dissolution process carbaryl(s) to carbaryl(aq) and carbaryl(s) to carbaryl(aq. elect.), were calculated by fitting the solubility information to the Clarke and Glew equation. The results were consistent with the model which considers carbaryl and (CH3)4NBr to be solvent-structure-promoters and the rest of the electrolytes used in this work as solvent-structure-breakers. The salt-effect as a function of temperature on the nonelectrolyte pesticide was obtained by calculating the Setchenov constants for each one of the electrolyte solutions mentioned above. Salting-out was observed in solutions prepared with NaCl, Na2SO4, and CaCl2 was well as in natural and artificial seawater, while salting-in was obtained with (CH3)4NBr solutions. Pseudo-first order rate constants and half-life times for carbaryl in water were determined for different pH values ranging from 9.70 ± 0.02 to 11.60 ± 0.02 and covering the temperature range 25.5 ± 0.2 to 34.7 ± 0.2 °C. A direct relationship between SDS concentration and pesticide solubility was found by showing that the presence of micelles increased the solubility of an otherwise sparingly soluble molecule like carbaryl. Under high pressures (1356±34, 1797±34, and 2203±34 atm) and using NaCl as cosolute, carbaryl was readily degraded at 30 °C, giving deprotonated l-naphthol as one of the final products, in agreement with previous observations reported in the literature with esters and substituted phenols. Pseudo-first order high-pressure rate constants were calculated and, according to the results, it was found that there was a direct relationship between these constants and pressure.

Carbamates

Carbaryl

Thermodynamics

Pesticides

Physical Sciences and Mathematics

Sublethal dosage effects of carbaryl on honey bee (Apis mellifera (L.)) colonies

Loyd, Chapman Kemper

January 1982

The sublethal dosage effects of carbaryl were studied in honey bee (Apis mellifera L.) colonies. Carbaryl was fed to colonies during a 14-day period in a 0.95 M sucrose solution. Carbaryl dosages were based on 0.0036, 0.0178, and 0.0356 ug/bee/day, and concentrations approximated 0.09, 0.44, and 0.86 ppm, respectively. Five potential areas of sublethal effect were examined: brood production, brood mortality, adult mortality, colony weight change, and worker resistance to the toxicant. The carbaryl dosages appeared to fall within the sublethal range. No significant differences (P≤0.05) in adult mortality were found between Control and carbaryl treatments during or following carbaryl application. Statistically-significant increases in brood production and brood mortality were observed at the median dosage, but no significant differences were found at the highest dosage. The lowest dosage also caused no significant differences in brood production. A significant increase in worker resistance to carbaryl was observed at the median dosage, but a significant decrease occurred at the highest dosage and the Control. No significant differences in colony weight change were observed during the treatment or post-treatment periods at any dosage. Although statistically-significant differences were observed, they were not felt to be biologically significant. Intra-treatment colony variation was considered to be partly responsible for the differences observed. This variation is great enough to make honey bee colonies unsuitable for general insecticide screening, although they may be useful when prior evidence of sublethal effects exists / Master of Science

LD5655.V855 1982.L692

Bees

Carbaryl

Sublethal effects of an acetylcholinesterase-inhibiting pesticide on fitness-related traits in the western fence lizard (Sceloporous occidentalis)

DuRant, Sarah E.

12 January 2007

Pesticides are commonly used around the world for a multitude of different purposes and on diverse habitats, including agricultural fields, wetlands, and personal lawns and gardens. Currently, acetylcholinesterase (AChE)-inhibiting pesticides are among the most prevalently used chemical pesticides in the United States. A wealth of information exists on sub-cellular responses of organisms, primarily birds, mammals, and fish, exposed to these compounds. However, the effects of AChE-inhibiting pesticides at the whole-organism level, most importantly effects relevant to an individual's fitness, have received less attention. My Master's research focused on describing the effects of carbaryl, an AChE-inhibiting pesticide, on several fitness-related traits in the western fence lizard (Sceloporus occidentalis). Reptiles are the least studied vertebrate taxon in ecotoxicological studies even though contaminants are suspected in contributing to recent population declines. Using multiple dose concentrations within the range expected to occur in nature (based on EPA application rates and published pesticide residues on insects), I quantified the effects of carbaryl on sprint performance energy acquisition, and energy allocation, traits which could have important implications for the animal's ability to avoid predators, capture prey, and grow and reproduce. I found that at the highest dose concentration, lizards experienced a decrease in arboreal and terrestrial locomotor performance, a decrease in energy acquisition, and alterations in energy allocation. My findings suggest that acute exposure to high concentrations of carbaryl can have important sublethal consequences on fitness-related traits in S. occidentalis. Future studies should examine the consequences of multiple-pulse exposures to AChE-inhibiting pesticides on reptiles. / Master of Science

respiration

Acetylcholinesterase

bioenergetics

lizard

carbaryl

locomotor performance

Aplicação do eletrodo de diamante dopado com boro modificado pelo método Sol-Gel para determinação e degradação de carbaril / Application of boron-doped diamond electrode modified by Sol-Gel method for determination and degradation of carbaryl

Teixeira, Milena Elias

21 September 2012

São apresentados os resultados do estudo das propriedades eletroquímicas do eletrodo de diamante dopado com boro (DDB) e do eletrodo de DDB modificado diretamente pelo método Sol-Gel com PbOx, para a determinação de carbaril. Mostrou-se que uma polarização anódica (3,0 V vs Ag/AgCl, 30 min) seguida de uma catódica (-3,0 V vs Ag/AgCl, 30 min), em meio ácido, são apropriadas para otimizar o desempenho catalítico da superfície. As imagens de AFM mostraram alterações topológicas significativas no eletrodo de PbOx/DDB, assim como as imagens digitais apresentaram uma provável mistura de óxidos de chumbo depositados na superfície do DDB. Caracterizações físicas do modificador PbOx foram realizadas com as técnicas de Microscopia Eletrônica de Varredura (MEV), Difratometria de raios-X (DRX) e Energia Dispersiva de raios-X (EDS). A MEV verificou os aspectos morfológicos da amostra e revelou que as partículas do modificador tinham formatos e tamanhos diferentes, distribuídas irregularmente. O difratograma de DRX confirmou a existência de uma mistura de óxidos de chumbo, produzida pelo método Sol-Gel e a análise por EDS mostrou a presença dos elementos chumbo e oxigênio, com proporção atômica de 43:57 (Pb:O). Para a determinação eletroanalítica do pesticida carbaril, empregou-se a técnica de Voltametria de Onda Quadrada (SWV) em tampão Britton-Robinson 4,0 x 10-2 mol L-1 (pH 6,0), com acréscimo de alíquotas obtidas de uma solução estoque de carbaril 1,0 x 10-2 mol L-1 em acetonitrila. Os parâmetros utilizados foram: frequência de 10 s-1, amplitude de pulso de 100 mV, incremento de potencial de 2 mV, potencial de pré-tratamento catódico de -1,1 V no tempo de 10 s. Curvas analíticas foram apresentadas para os dois eletrodos, mostrando que o eletrodo de DDB apresentou um limite de detecção (LD) de 2,0 µmol L-1. Já o eletrodo PbOx/DDB, um LD de 0,9 µmol L-1, baixo o suficiente em relação ao limite máximo de resíduo permitido pela ANVISA para a presença do pesticida em amostras de culturas agrícolas. A repetibilidade das medidas com o eletrodo de PbOx/DDB resultou em um desvio padrão relativo de 4,6% e a reprodutibilidade, em 5,2%. Em um estudo das velocidades de varredura, mostrou que a oxidação do carbaril é controlada por difusão e ocorre de maneira irreversível na superfície do eletrodo de PbOx/DDB. A técnica de SWV também foi aplicada em amostras reais de água artificialmente contaminadas de dois córregos da cidade de São Carlos - SP (Córrego Santa Maria do Leme e Córrego do Gregório), ambas tamponadas (pH 6,0), utilizando o eletrodo de PbOx/DDB. Com o objetivo de se comparar a precisão e a sensibilidade da SWV, foram obtidos espectros de UV-Vis em 280 nm e as correspondentes curvas analíticas para o carbaril em tampão BR e nas amostras dos córregos, num intervalo de concentrações de 5,0 x 10-6 a 3,5 x 10-5 mol L-1. O LD e o limite de quantificação (LQ) em solução tampão BR, calculados a partir dos experimentos de SWV, foram de 0,9 x 10-6 mol L-1 e 7,44 x 10-6 mol L-1, respectivamente. Para a técnica de UV-Vis, o LD foi de 2,6 x 10-5 mol L-1 e o LQ de 8,68 x 10-5 mol L-1, indicando que o método eletroanalítico é capaz de apresentar melhores resultados para a análise da oxidação de carbaril. Experimentos de eletrólises potenciostáticas a 3,0 V por 21 horas, acopladas a um detector de UV-Vis, mostraram que em solução tampão BR, o decaimento da concentração de carbaril para o eletrodo de DDB foi de 14,9%, ao passo que, para o eletrodo de PbOx/DDB, foi de 39,3%. Sendo assim, o eletrodo de PbOx/DDB mostrou melhores resultados, com uma excelente atividade catalítica, superior ao eletrodo de DDB sem modificação. / It is presented the results obtained in the study of electrochemical properties of the boron doped electrode (BDD) and of the BDD modified with PbOx by the Sol-Gel method, for the quantitative determination of carbaryl. It has been showed that an anodic polarization (3.0 V vs Ag/AgCl, 30 min) followed by a cathodic one (-3.0 V vs Ag/AgCl, 30 min), in acid medium, are appropriated to enhance the catalytic activity of the surface. The AFM images showed significant topologic alterations in the PbOx/DDB surface, moreover the digital imaging showed a mixture of lead oxides deposited in the DDB surface. Physical modifications of the PbOx modifier were carried out with Scanning Electron Microscopy (SEM), X-ray Diffraction Spectroscopy (XRD) and Energy Dispersive X-ray Spectroscopy (EDS). SEM measurements illustrated the morphologic aspects of the samples surfaces and showed that the modifier coating had shape and size distinct from the bare BDD surface and that it was irregularly distributed throughout the surface. The XRD difractogram confirmed the existence of a mixture of lead oxides, provided by the Sol-Gel procedure and the EDS indicated the presence of lead and oxygen in a 43:57 atomic proportion (Pb:O). For the electroanalytical determination of carbaryl, the Square Wave Voltammetry (SWV) technique was employed in Britton-Robinson buffer solution 4.0 x 10-2 mol L-1 (pH 6.0), with the additions of aliquots from a 1.0 x 10-2 mol L-1 cabaryl in acetonitrile. The voltammetric parameters were optimized and used as frequency of 10 s-1, pulse amplitude of 100 mV, potential increment of 2 mV, cathodic pre-treatment potential of -1.1 V during 10 s. Analytical curves were obtained for both electrodes (BDD and BDD modified with PbOx) with the limit of detection limit (LOD) calculated for BDD of 2.0 µmol L-1. On the other hand, for PbOx modified electrode the calculated LOD was 0.9 µmol L-1, below the maximum residue limit allowed by ANVISA for the presence of pesticide in agricultural samples. The repeatability of PbOx/BDD electrode revealed a relative standard deviation of 4.6% and a reproducibility of 5.2%. A voltammetry study in different scan rates showed that carbaryl oxidation occurs irreversibly with diffusion control on the modified electrode surface. The SWV was also applied in artificially contaminated water samples from two urban creeks in São Carlos-SP city (Santa Maria do Leme and Gregorio creeks), both water samples were buffered (pH 6.0) and analyzed with the modified electrode. Aiming to compare the precision and sensitivity of SWV in those samples, analyzes were also performed using UV-Vis absorption at 280 nm and the corresponding analytical curves for carbaryl in BR buffer were obtained for a pesticide concentration between 5.0 x 10 -6 to 3.5 x 10-5 mol L-1. The LOD and limit of quantification (LOQ) were obtained as 0.9 x 10-6 mol L-1 and 7.44 x 10-6 mol L-1 for each creek water sample, respectively. In the UV-Vis measurements, the LOD was 2.6 x 10-5 mol L-1 and LOQ was 8.68 x 10-5 mol L-1 for both water samples, pointing out the excellence of the electroanalytical methodology to quantify carbaryl concentrations in those matrices. Potentiostatic electrolysis experiments at 3.0 V for 21 hours were also conducted for BDD and PbOx/BDD surfaces, with \"in situ\" UV-Vis detection, in BR buffer solutions. After the time period the carbaryl concentration diminished 14.9% of its initial value for the BDD electrode, while for the modified one the diminishing was of 39.3 %. In this way, the PbOx/BDD electrode has demonstrated its excellent catalytic performance, quite superior to that of the bare BDD one.

BDD electrode

carbaril

carbaryl

eletrodo de DDB

Sol-Gel

Sol-Gel

Preparação e caracterização de biossensores baseado na eletrocodeposição de grafeno/polipirrol/acetilcolinesterase para determinação de pesticidas em amostras de frutas e vegetais / Preparation and characterization of biosensors based on the electrocodeposition of graphene/polypyrrole/acetylcholinesterase for the determination of pesticides in fruit and vegetable samples

Camargo, João Pedro Corrêa [UNESP]

09 February 2017

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Agradecemos a compreensão. on 2017-03-22T14:32:46Z (GMT) / Submitted by JOAO PEDRO CORREA DE CAMARGO null (joaoquimica1991@hotmail.com) on 2017-03-22T15:13:54Z No. of bitstreams: 1 Autoarquivamento da dissertação corrigido .pdf: 2162415 bytes, checksum: 64ada6268776f57730601f9cd0ffc35b (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-03-24T16:41:36Z (GMT) No. of bitstreams: 1 camargo_jpc_me_bot.pdf: 2162415 bytes, checksum: 64ada6268776f57730601f9cd0ffc35b (MD5) / Made available in DSpace on 2017-03-24T16:41:36Z (GMT). No. of bitstreams: 1 camargo_jpc_me_bot.pdf: 2162415 bytes, checksum: 64ada6268776f57730601f9cd0ffc35b (MD5) Previous issue date: 2017-02-09 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Um novo biossensor foi desenvolvido baseado na simples eletrocodeposição do óxido de grafeno reduzido (rGO), polipirrol (PPy) e da enzima acetilcolinesterase (AChE) na superfície do eletrodo de platina (Pt). No intervalo de potencial -0,2 a +0,5 V vs. Ag/AgCl/KCl (3,0 mol L-1), utilizando voltametria de pulso diferencial (DPV), observou-se um processo em +0,1 V e este corresponde a dimerização dos produtos de oxidação eletroquímica da tiolcolina, formando ditio-bis-colina. O biossensor desenvolvido foi avaliado utilizando DPV na análise do pesticida carbaril, o qual inibe a ação da enzima AChE. Os melhores resultados obtidos foram com as seguintes condições otimizadas: 75 mV amplitude de pulso, incremento de potencial de 4 mV, e uma solução tampão fosfato (PBS) 0,2 mol L-1 pH 6,0. Usando tais parâmetros observou-se uma resposta linear para o carbaril no intervalo de 0,1 a 0,5 mol L-1, com um limite de detecção de 11,6 nmolL-1 (2,3 µg/kg), que é um limite adequado para determinar carbaril nas culturas em que este pesticida é aplicado considerando o limite máximo de resíduo permitido pelas legislações brasileiras. O biossensor proposto, Pt/rGO/PPy/AChE, foi aplicado com sucesso na determinação de carbaril em amostras de tomate e repolho. / A new biosensor was developed by a simple electrocodeposition of reduced graphene oxide (rGO), polypyrrole (PPy) and the enzyme acetylcholinesterase (AChE) on surface of platinum (Pt) electrode. In potential range of -0.2 to +0.5 V vs. Ag/AgCl/KCl (3.0 mol L-1), using differential pulse voltammetry (DPV), it was observed a process in + 0.1 V and this corresponds to the dimerization of electrochemical oxidation products of thiocholine, resulting in ditio-bis-choline. The biosensor developed was evaluated using DPV in the analysis of carbaryl, which inhibits the AChE enzyme action. The best results achieved were with the followings optimized conditions: 75 mV pulse amplitude, step potential of 4 mV, and a phosphate buffer solution (PBS) 0.2 mol L-1 and pH 6.0. Using these parameters was observed a linear response to carbaryl in a range of 0.1 to 0.5 µmol L-1, with a detection limit of 11.6 nmol L-1 (2.3 µg/kg), which is an appropriate limit for determination of carbaryl in the cultures which these pesticide is applied, considering the maximum reside limit allowed by Brazilian legislation. The biosensor proposed, Pt/rGO/PPy/AChE, was applied successfully in the determination of carbaryl in samples of cabbage and tomato. / FAPESP: 2015/02136-2

Biossensores

Nanotecnologia

Carbaril

Imobilização

Acetilcolinesterase

Biosensor

Nanotechnology

Carbaryl

Immobilization

Acetylcholinesterase

Aplicação do eletrodo de diamante dopado com boro modificado pelo método Sol-Gel para determinação e degradação de carbaril / Application of boron-doped diamond electrode modified by Sol-Gel method for determination and degradation of carbaryl

Milena Elias Teixeira

21 September 2012

São apresentados os resultados do estudo das propriedades eletroquímicas do eletrodo de diamante dopado com boro (DDB) e do eletrodo de DDB modificado diretamente pelo método Sol-Gel com PbOx, para a determinação de carbaril. Mostrou-se que uma polarização anódica (3,0 V vs Ag/AgCl, 30 min) seguida de uma catódica (-3,0 V vs Ag/AgCl, 30 min), em meio ácido, são apropriadas para otimizar o desempenho catalítico da superfície. As imagens de AFM mostraram alterações topológicas significativas no eletrodo de PbOx/DDB, assim como as imagens digitais apresentaram uma provável mistura de óxidos de chumbo depositados na superfície do DDB. Caracterizações físicas do modificador PbOx foram realizadas com as técnicas de Microscopia Eletrônica de Varredura (MEV), Difratometria de raios-X (DRX) e Energia Dispersiva de raios-X (EDS). A MEV verificou os aspectos morfológicos da amostra e revelou que as partículas do modificador tinham formatos e tamanhos diferentes, distribuídas irregularmente. O difratograma de DRX confirmou a existência de uma mistura de óxidos de chumbo, produzida pelo método Sol-Gel e a análise por EDS mostrou a presença dos elementos chumbo e oxigênio, com proporção atômica de 43:57 (Pb:O). Para a determinação eletroanalítica do pesticida carbaril, empregou-se a técnica de Voltametria de Onda Quadrada (SWV) em tampão Britton-Robinson 4,0 x 10-2 mol L-1 (pH 6,0), com acréscimo de alíquotas obtidas de uma solução estoque de carbaril 1,0 x 10-2 mol L-1 em acetonitrila. Os parâmetros utilizados foram: frequência de 10 s-1, amplitude de pulso de 100 mV, incremento de potencial de 2 mV, potencial de pré-tratamento catódico de -1,1 V no tempo de 10 s. Curvas analíticas foram apresentadas para os dois eletrodos, mostrando que o eletrodo de DDB apresentou um limite de detecção (LD) de 2,0 µmol L-1. Já o eletrodo PbOx/DDB, um LD de 0,9 µmol L-1, baixo o suficiente em relação ao limite máximo de resíduo permitido pela ANVISA para a presença do pesticida em amostras de culturas agrícolas. A repetibilidade das medidas com o eletrodo de PbOx/DDB resultou em um desvio padrão relativo de 4,6% e a reprodutibilidade, em 5,2%. Em um estudo das velocidades de varredura, mostrou que a oxidação do carbaril é controlada por difusão e ocorre de maneira irreversível na superfície do eletrodo de PbOx/DDB. A técnica de SWV também foi aplicada em amostras reais de água artificialmente contaminadas de dois córregos da cidade de São Carlos - SP (Córrego Santa Maria do Leme e Córrego do Gregório), ambas tamponadas (pH 6,0), utilizando o eletrodo de PbOx/DDB. Com o objetivo de se comparar a precisão e a sensibilidade da SWV, foram obtidos espectros de UV-Vis em 280 nm e as correspondentes curvas analíticas para o carbaril em tampão BR e nas amostras dos córregos, num intervalo de concentrações de 5,0 x 10-6 a 3,5 x 10-5 mol L-1. O LD e o limite de quantificação (LQ) em solução tampão BR, calculados a partir dos experimentos de SWV, foram de 0,9 x 10-6 mol L-1 e 7,44 x 10-6 mol L-1, respectivamente. Para a técnica de UV-Vis, o LD foi de 2,6 x 10-5 mol L-1 e o LQ de 8,68 x 10-5 mol L-1, indicando que o método eletroanalítico é capaz de apresentar melhores resultados para a análise da oxidação de carbaril. Experimentos de eletrólises potenciostáticas a 3,0 V por 21 horas, acopladas a um detector de UV-Vis, mostraram que em solução tampão BR, o decaimento da concentração de carbaril para o eletrodo de DDB foi de 14,9%, ao passo que, para o eletrodo de PbOx/DDB, foi de 39,3%. Sendo assim, o eletrodo de PbOx/DDB mostrou melhores resultados, com uma excelente atividade catalítica, superior ao eletrodo de DDB sem modificação. / It is presented the results obtained in the study of electrochemical properties of the boron doped electrode (BDD) and of the BDD modified with PbOx by the Sol-Gel method, for the quantitative determination of carbaryl. It has been showed that an anodic polarization (3.0 V vs Ag/AgCl, 30 min) followed by a cathodic one (-3.0 V vs Ag/AgCl, 30 min), in acid medium, are appropriated to enhance the catalytic activity of the surface. The AFM images showed significant topologic alterations in the PbOx/DDB surface, moreover the digital imaging showed a mixture of lead oxides deposited in the DDB surface. Physical modifications of the PbOx modifier were carried out with Scanning Electron Microscopy (SEM), X-ray Diffraction Spectroscopy (XRD) and Energy Dispersive X-ray Spectroscopy (EDS). SEM measurements illustrated the morphologic aspects of the samples surfaces and showed that the modifier coating had shape and size distinct from the bare BDD surface and that it was irregularly distributed throughout the surface. The XRD difractogram confirmed the existence of a mixture of lead oxides, provided by the Sol-Gel procedure and the EDS indicated the presence of lead and oxygen in a 43:57 atomic proportion (Pb:O). For the electroanalytical determination of carbaryl, the Square Wave Voltammetry (SWV) technique was employed in Britton-Robinson buffer solution 4.0 x 10-2 mol L-1 (pH 6.0), with the additions of aliquots from a 1.0 x 10-2 mol L-1 cabaryl in acetonitrile. The voltammetric parameters were optimized and used as frequency of 10 s-1, pulse amplitude of 100 mV, potential increment of 2 mV, cathodic pre-treatment potential of -1.1 V during 10 s. Analytical curves were obtained for both electrodes (BDD and BDD modified with PbOx) with the limit of detection limit (LOD) calculated for BDD of 2.0 µmol L-1. On the other hand, for PbOx modified electrode the calculated LOD was 0.9 µmol L-1, below the maximum residue limit allowed by ANVISA for the presence of pesticide in agricultural samples. The repeatability of PbOx/BDD electrode revealed a relative standard deviation of 4.6% and a reproducibility of 5.2%. A voltammetry study in different scan rates showed that carbaryl oxidation occurs irreversibly with diffusion control on the modified electrode surface. The SWV was also applied in artificially contaminated water samples from two urban creeks in São Carlos-SP city (Santa Maria do Leme and Gregorio creeks), both water samples were buffered (pH 6.0) and analyzed with the modified electrode. Aiming to compare the precision and sensitivity of SWV in those samples, analyzes were also performed using UV-Vis absorption at 280 nm and the corresponding analytical curves for carbaryl in BR buffer were obtained for a pesticide concentration between 5.0 x 10 -6 to 3.5 x 10-5 mol L-1. The LOD and limit of quantification (LOQ) were obtained as 0.9 x 10-6 mol L-1 and 7.44 x 10-6 mol L-1 for each creek water sample, respectively. In the UV-Vis measurements, the LOD was 2.6 x 10-5 mol L-1 and LOQ was 8.68 x 10-5 mol L-1 for both water samples, pointing out the excellence of the electroanalytical methodology to quantify carbaryl concentrations in those matrices. Potentiostatic electrolysis experiments at 3.0 V for 21 hours were also conducted for BDD and PbOx/BDD surfaces, with \"in situ\" UV-Vis detection, in BR buffer solutions. After the time period the carbaryl concentration diminished 14.9% of its initial value for the BDD electrode, while for the modified one the diminishing was of 39.3 %. In this way, the PbOx/BDD electrode has demonstrated its excellent catalytic performance, quite superior to that of the bare BDD one.

carbaril

eletrodo de DDB

Sol-Gel

BDD electrode

carbaryl

Sol-Gel

Preparação e caracterização de biossensores baseado na eletrocodeposição de grafeno/polipirrol/acetilcolinesterase para determinação de pesticidas em amostras de frutas e vegetais

Camargo, João Pedro Corrêa

January 2017

Orientador: Ivana Cesarino / Abstract: A new biosensor was developed by a simple electrocodeposition of reduced graphene oxide (rGO), polypyrrole (PPy) and the enzyme acetylcholinesterase (AChE) on surface of platinum (Pt) electrode. In potential range of -0.2 to +0.5 V vs. Ag/AgCl/KCl (3.0 mol L-1), using differential pulse voltammetry (DPV), it was observed a process in + 0.1 V and this corresponds to the dimerization of electrochemical oxidation products of thiocholine, resulting in ditio-bis-choline. The biosensor developed was evaluated using DPV in the analysis of carbaryl, which inhibits the AChE enzyme action. The best results achieved were with the followings optimized conditions: 75 mV pulse amplitude, step potential of 4 mV, and a phosphate buffer solution (PBS) 0.2 mol L-1 and pH 6.0. Using these parameters was observed a linear response to carbaryl in a range of 0.1 to 0.5 µmol L-1, with a detection limit of 11.6 nmol L-1 (2.3 µg/kg), which is an appropriate limit for determination of carbaryl in the cultures which these pesticide is applied, considering the maximum reside limit allowed by Brazilian legislation. The biosensor proposed, Pt/rGO/PPy/AChE, was applied successfully in the determination of carbaryl in samples of cabbage and tomato. / Resumo: Um novo biossensor foi desenvolvido baseado na simples eletrocodeposição do óxido de grafeno reduzido (rGO), polipirrol (PPy) e da enzima acetilcolinesterase (AChE) na superfície do eletrodo de platina (Pt). No intervalo de potencial -0,2 a +0,5 V vs. Ag/AgCl/KCl (3,0 mol L-1), utilizando voltametria de pulso diferencial (DPV), observou-se um processo em +0,1 V e este corresponde a dimerização dos produtos de oxidação eletroquímica da tiolcolina, formando ditio-bis-colina. O biossensor desenvolvido foi avaliado utilizando DPV na análise do pesticida carbaril, o qual inibe a ação da enzima AChE. Os melhores resultados obtidos foram com as seguintes condições otimizadas: 75 mV amplitude de pulso, incremento de potencial de 4 mV, e uma solução tampão fosfato (PBS) 0,2 mol L-1 pH 6,0. Usando tais parâmetros observou-se uma resposta linear para o carbaril no intervalo de 0,1 a 0,5 mol L-1, com um limite de detecção de 11,6 nmolL-1 (2,3 µg/kg), que é um limite adequado para determinar carbaril nas culturas em que este pesticida é aplicado considerando o limite máximo de resíduo permitido pelas legislações brasileiras. O biossensor proposto, Pt/rGO/PPy/AChE, foi aplicado com sucesso na determinação de carbaril em amostras de tomate e repolho. / Mestre

Biossensores.

Nanotecnologia.

Carbaril.

Imobilização

Acetilcolinesterase

Biosensor

Nanotechnology

Carbaryl

Immobilization

Acetylcholinesterase

Effectiveness of Carbaryl and Pyrethroid Insecticides for Protection of Engelmann Spruce from Attack by Spruce Beetle (Coleoptera: Scolytidae)

Johnson, Karen J.

01 May 1996

A field experiment tested the effectiveness of carbaryl and two pyrethroid insecticides, cyfluthrin and esfenvalerate, in protecting high-value Engelmann spruce trees from attack by Dendroctonus rufipennis Kirby. Carbaryl suspension at the 2% registered rate and a reduced rate of 1 % were both effective in protecting Engelmann spruce from attack by D. rufipennis through two pheromone baiting periods and 24 months following insecticide application . Cyfluthrin at 0.025% rate and esfenvalerate at 0.025 and 0.05% rates provided effective protection through one pheromone baiting and 12 months following insecticide application. Only cyfluthrin at 0.008% rate was judged ineffective protection 12 months following insecticide application. A laboratory evaluation utilizing a 32-h bioassay on D. rufipennis adults determined all three insecticides were toxic by contact. Carbaryl and piperonyl butoxide bioassays testing synergism were inconclusive. The methodology presented provides a means for forest land managers to quantify insecticide toxicity and monitor for resistance development.

Effectiveness

carbaryl

pyrethroid

insecticides

engelmann spruce

spruce beetle

Forest Sciences

Phototransformation de polluants organiques à la surface de sol : études cinétique et analytique sur supports modèles et sur sol réel / Phototransformation of organic polluants at the surface of soil : kinetic and analytical studies at the surface of model supports and on real soil

Siampiringue, Marie

21 June 2011

Cette thèse porte sur l’étude de la transformation de polluants organiques à la surface du sol sous l’effet de la lumière. Deux principaux composés organiques ont été utilisés : une molécule modèle, la phénylbenzo-quinone (PhQ) ; et un pesticide de la famille des carbamates, le carbaryl. Nous avons travaillé sur différents supports : trois supports modèles (silice, sable de Fontainebleau et kaolinite) et sur un sol de la région d’Orange. La phototransformation a été réalisée en utilisant un dispositif qui simule le rayonnement solaire (l>300nm). L’étude des propriétés spectroscopiques de PhQ sur support solide a permis de montrer un élargissement de la bande d’absorption et des effets bathochrome et hyperchrome. Lors de l’irradiation, la concentration et l’épaisseur des films se sont avérés être des paramètres importants à considérer afin de tenir compte respectivement l’effet d’écran et le phénomène de diffusion. Une valeur limite de l’épaisseur égale à 100 μm a été déterminée afin de s’affranchir du processus de diffusion. Le mécanisme de transformation de PhQ s’est avéré être identique à celui observé dans l’eau avec la formation d’un unique produit, la 2-hydroxydibenzofuranne, et la mise en évidence de l’état excité triplet de PhQ. La présence d’eau influence la phototransformation du composé en augmentant la vitesse de transformation. Ceci s’explique par une modification des propriétés d’absorption du support humide qui favorise la pénétration de la lumière. Suite à cette première étude, un travail plus complexe a été entrepris sur la photodégradation du carbaryl à la surface de supports modèles. Le coefficient d’absorption molaire sur la kaolinite et le rendement quantique de transformation ont pu être déterminés pour le carbaryl et d’autres composés organiques. Ceci nous a permis de confirmer l’effet bathochrome, l’effet hyperchrome, ainsi que l’augmentation du rendement quantique : augmentation d’un facteur 10 pour le carbaryl. Les études cinétiques ont montré que la dégradation du carbaryl est effective sur tous les supports. A l’aide des propriétés physico-chimiques des supports, nous avons pu émettre l’hypothèse que la taille des particules contrôle la photodégradation. Celle-ci est plus efficace avec des particules de grande taille, du fait de la meilleure pénétration des photons. Enfin à l’aide d’une étude analytique poussée et de la mise en évidence de la formation de HO• et 1O2, nous avons proposé un mécanisme de photodégradation impliquant des réactions de PhotoFries, de photohydrolyse, de dimérisation et d’hydroxylation. Dans la deuxième partie des travaux sur le sol réel, un protocole original a été mis en oeuvre. Il consiste en un fractionnement préalable du sol suivi d’un traitement chimique afin d’atténuer l’impact de la matière organique. Il a été montré que la dégradation sur le sol et ses fractions est efficace et que la matière organique a un effet bénéfique, à faible concentration, et inhibiteur, à forte concentration, sur la transformation du carbaryl. De plus, le fractionnement a révélé que la photodégradation est d’autant plus importante que les fractions sont constituées de particules de grande taille. Enfin, la formation d’espèces réactives (HO• et 1O2) a été observée systématiquement et plus efficacement pour les fractions sans matière organique suggérant des processus de transformation attribuables à la partie minérale des supports. / This study focuses on the transformation of organic pollutants on soil surface under the influence of the light excitation. Two main organic compounds were used as model molecules, phenylbenzoquinone (PhQ) and a carbamate pesticide, carbaryl. We used several supports : three model supports (silica, sand of Fontainebleau and kaolinite) and a real soil of the region of Orange (France). The phototransformation was carried out using a device that simulates the solar radiation (l > 300 nm). The study of the spectroscopic features of PhQ on solid support shows a broad band of absorption that presents bathochromic and hyperchromic effects. During irradiation, the concentration and the thickness of film were found to be important parameters to be considered in order to avoid the screen as well as diffusion effect. The optimal value of the thickness was determined roughly to 100 μm in order to minimise the diffusion effect. The mechanism of transformation of PhQ is similar to that observed in aqueous solution with the formation of the unique photoproduct 2-hydroxybenzofuran. The process involves the triplet excited state of PhQ. After this work, the first studies are on the phototransformation of carbaryl and other pesticides on model supports. Furthermore, the molar absorption coefficient and quantum yield have been determined in order to confirm the bathochromic and hyperchromic effect and also the increase of the quantum yield (10 times for carbaryl). The degradation process was most effective when the particle size increases. Moreover, from the analytical studies the photodegradation mechanism was suggested involving several reactions such as photofries, photohydrolyse, dimerisation and hydroxylation. The second part of the present work was dedicated to the study on real soil. An original protocol had to be set up. It consisted on a prefractionation of soil followed by a chemical treatment to minimise the impact of organic matter. Concerning the phototransformation of carbaryl, it was shown that the degradation at the surface of soil and its fractions is effective and that the organic matter has a beneficial effect at low concentrations and inhibition effect at high concentrations. Furthermore, fractionation revealed that photodegradation is more important when the fractions are composed of large particles. Finally, the formation of reactive species (HO• and 1O2) was observed consistently and efficiently for fractions without organic matter suggesting transformation processes induced by the mineral part of the supports.

Photochimie

Sol

Argiles

Rendement quantique

Matière organique

Irradiation solaire

Carbaryl

Phénylbenzoquinone

Phototransformation

Photochemistry

Soil

Clay

Quantum yield

Organic matter

Solar irradiation

Carbaryl

Phenylbenzoquine

Phototransformation

Sublethal effects of estuarine carbaryl applications on juvenile English sole (Pleuronectes vetulus)

Pozarycki, Scott V.

23 April 1999

The pesticide carbaryl is applied annually to tidelands in Willapa Bay and Grays Harbor, WA to control populations of burrowing shrimp which modify sediments making the habitat unsuitable for oyster culture. Fish trapped on sprayed mudflats are often killed, but little is known about effects on fish present in subtidal channels or migrating over treated mudflats with a flood tide. The purpose of this work was to determine the effect of estuarine carbaryl applications on fish present in these areas. Field studies with caged juvenile English sole (Pleuronectes vetulus) indicated that brain acetylcholinesterase (AChE) activity is decreased following carbaryl application. Mean brain AChE inhibition was 26% in fish placed on treated mudflats and 24% in fish placed subtidally. Maximum individual values approached 50%. Maximum carbaryl water concentration measured by HPLC was 1.2 ug/ml at the cage sites. Sediment concentrations on treated mudflats were as high as 2300 ug/g OC 24 hrs post application. The concentration of carbaryl in invertebrates collected from treated mudflats has been measured as high as 76 ug/g, and English sole likely ingest these contaminated prey in the field. Laboratory studies conducted to evaluate the effect of such an oral exposure indicated that brain AChE activity is decreased with the ingestion of as little as 1% body weight of food pellets spiked to field concentrations. AChE inhibition exceeding 25% is predicted in wild fish based on the ingestion of average quantities of food (5% body weight) at average measured concentrations (30 ug/g). Limited recovery occurs 24 hrs after exposure indicating effects can be compounded with further ingestion. This oral exposure coupled with the effect measured in caged fish suggests AChE inhibitions exceeding 50% are possible assuming the effects are additive. The significance of this decrease in AChE activity was then evaluated in terms of two ecologically important endpoints. First, the effect of carbaryl on the ability of English sole to bury in sediments was determined Results indicate this behavior is affected by carbaryl in a dose-dependent manner with fish not burying at higher concentrations. A regression model indicated that 50-60% brain AChE inhibition is a threshold value below which burying decreased sharply. This is within the range of estimated field exposures. Recovery of burying behavior occurs shortly after the removal of the exposure with all exposed fish in the present study recovering the ability to bury in sediments within 24 hrs. Mean brain AChE inhibition at the time of recovery was 60%. The effect of carbaryl on the English sole nonspecific immune response was also evaluated. Head kidney phagocytes were isolated from English sole and exposed to carbaryl in vitro. Phagocytosis was then evaluated based on the percentage of cells ingesting heat killed yeast. The percentage of phagocytic cells decreased at doses of 10 and 100 ug/ml. These concentrations are likely higher than can be attained during an in vivo exposure. Effects on this immune response are thus unlikely in field exposed English sole. / Graduation date: 1999