The frequency of plastic debris entering agricultural land is likely going to increase due to increased discharge into surface waters and more frequent flood events. Microbial biofilm on the surfaces of plastic pollution (known as the 'plastisphere') in freshwater environments often includes human pathogenic bacteria capable of causing disease. Pathogens have been detected on the surface of plastics in freshwater environments, but it is yet to be determined whether plastic debris can also transport pathogens into agricultural fields during flooding. Therefore, this study quantified the presence of viable pathogenic bacteria on the surface of plastic pollution at five agricultural fields along two rivers. All visible plastic debris, including sewage-associated plastic waste, were collected along a perpendicular 100 m transect from the riparian zone into each field. All plastic pieces were screened for five target bacteria (Escherichia coli, intestinal enterococci, Salmonella spp., Campylobacter spp., and Klebsiella spp.) using selective media, and positively identified colonies subsequently tested for antimicrobial resistance. In all five fields, there were higher volumes of plastic in the areas closer to the river, with 75% ± 24% of plastic collected within 30 m from the riverbank. Overall, 49% of all plastic collected in agricultural fields was colonised by phenotypically positive colonies for at least one or more target bacteria, with resistance to commonly prescribed antibiotics detected among several of these target bacteria. Therefore, the transport of contaminated plastic debris from fluvial floodwater into agricultural fields could pose an as yet unquantified risk of introducing potentially harmful bacteria into agricultural systems and the ultimately into the food chain.
Keywords: Agricultural pollution; Enteric pathogens; Environmental pathogens; Microbial pollution; Plastisphere; Water contamination.
Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.