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Rivers provide essential water resources for humans. However, appear to be reservoirs of antimicrobial-resistant genes and dispersal routes of resistant pathogens because human activities promptly influence them. Sediments are the most propitious substrates for bacteria survival and can act as an antimicrobial reservoir. Three sediment samples were collected upstream of the water catchment point of the Guandu Water Treatment Plant (ETA Guandu) to evaluate microbial diversity and antimicrobial resistance genes to sulfonamide (sul1, sul2), tetracycline (tetA, tetB) and beta-lactam (blaCTX-M, blaoxa24 and blaoxa58) by PCR. The most abundant phylum in all samples was Proteobacteria, which was also the most dominant in sediments presenting a pattern already reported in the literature for diversity in tropical and temperate climate rivers. Sulfonamide resistance genes were detected in all samples. The blaCTX-M gene was detected only in one sample, and tetA, tetB, blaoxa24 and blaoxa58 genes were not found in any sample. The presence of antimicrobial resistance genes sul1, sul2, and blaCTX-M indicate that sediments can act as a reservoir of resistance. These findings will provide new data about the bacterial community and antimicrobial resistance genes in Brazilians river sediments.
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Animal wastes have been commonly reused in agriculture due to improve organic matter and nutritional input. However, organic animal fertilizers can be sources of antimicrobials, bacteria resistant to antimicrobials, and antimicrobial resistance genes. In this perspective, this work aimed to investigate the pr essence of antimicrobial resistance genes in organic animal wastes, such as fresh bovine manure from organic and conventional production systems, fresh and tanned organic poultry litter, conventional poultry litter tanned and bone meal. Sulfonamide resistance genes were detected in all residues. On the other hand, colistin and carbapenem resistance genes were not detected in any samples. A tetracycline resistance gene was detected in poultry litter. Quinolone resistance genes were detected in all samples, except bone meal. Despite the advantage of applying animal wastes in agricultural production, the existence of resistance genes in all residues, regardless of whether they come from organic or conventional systems, fresh or tanned, represents a public health risk since we can increase antimicrobial resistance genes in the soil which can favor the transfer to pathogenic bacteria of humans and animals.
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