Controle de mosca doméstica em área de disposição de resíduos sólidos no Brasil House fly control in solid waste disposal area in Brazil

Desenvolveu-se uma metodologia de controle de Musca domestica (L.) em áreas de disposição de resíduos sólidos. Dois mosquicidas à base de azametifós foram aplicados em diferentes superfícies: nas verticais, a formulação pó molhável foi aplicada com rolos de pintura e, através de pulverização, na superfície de leiras; nas horizontais, foi empregado o mosquicida na formulação granulada. O nível de infestação de moscas foi avaliado por meio do monitoramento em placas (Scudder Fly Grill). Nas áreas das leiras, reduções de 98,5% e 100% foram atingidas em 18 e 30 dias, respectivamente, após a aplicação do produto. Na estação de transferência do lixo, observaram-se reduções de 85,6% e 98,7% no mesmo período de tempo. A aplicação de azametifós em diferentes formulações mostrou ser eficiente no controle da Musca domestica por um período de 30 dias.<br>A Musca domestica (L.) control method in solid waste disposal areas was developed. Two fly control products based on azamethiphos were applied to different surfaces: on vertical surfaces, the wettable powder was used as spray or paint-on and on windrows, as spray; on horizontal surfaces granular bait was used. Fly infestation was evaluated by Scudder Fly Grills. In the windrows areas, reductions of 98,5% and 100 % were achieved 18 and 30 days respectively after application. In the waste transfer station 85,6% and 98,7 % reductions were achieved over the same period of time. Application of azamethiphos in different formulations was effective against M. domestica for 30 days

Cupriavidus pinatubonensis AEO106 deals with copper-induced oxidative stress before engaging in biodegradation of the herbicide 4-chloro-2-methylphenoxyacetic acid

Abstract Background Microbial degradation of phenoxy acid (PA) herbicides in agricultural soils is important to minimize herbicide leaching to groundwater reservoirs. Degradation may, however, be hampered by exposure of the degrader bacteria to toxic metals as copper (Cu) in the soil environment. Exposure to Cu leads to accumulation of intracellular reactive oxygen species (ROS) in some bacteria, but it is not known how Cu-derived ROS and an ensuing oxidative stress affect the degradation of PA herbicides. Based on the previously proposed paradigm that bacteria deal with environmental stress before they engage in biodegradation, we studied how the degradation of the PA herbicide 2-methyl-4-chlorophenoxyacetic acid (MCPA) by the model PA degrader Cupriavidus pinatubonensis AEO106 was affected by Cu exposure. Results Exposure of C. pinatubonensis in batch culture to sublethal concentrations of Cu increased accumulation of ROS measured by the oxidant sensing probe 2,7-dichlorodihydrofluorescein diacetate and flow cytometry, and resulted in upregulation of a gene encoding a protein belong to the Ohr/OsmC protein family. The ohr/osmC gene was also highly induced by H2O2 exposure suggesting that it is involved in the oxidative stress response in C. pinatubonensis. The increased ROS accumulation and increased expression of the oxidative stress defense coincided with a delay in the catabolic performance, since both expression of the catabolic tfdA gene and MCPA mineralization were delayed compared to unexposed control cells. Conclusions The current study suggests that Cu-induced ROS accumulation in C. pinatubonensis activates a stress response involving the product of the ohr/osmC gene. Further, the stress response is launched before induction of the catabolic tfdA gene and mineralization occurs