INVESTIGADORES
SATHICQ Maria Belen
artículos
Título:
Contribution of microplastic particles to the spread of resistances and pathogenic bacteria in treated wastewaters
Autor/es:
GALAFASSI, SILVIA; SABATINO, RAFFAELLA; SATHICQ, MARÍA BELÉN; ECKERT, ESTER M.; FONTANETO, DIEGO; CORNO, GIANLUCA; VOLTA, PIETRO; DALLA FONTANA, GIULIA; MOSSOTTI, RAFFAELLA; DI CESARE, ANDREA
Revista:
WATER RESEARCH
Editorial:
PERGAMON-ELSEVIER SCIENCE LTD
Referencias:
Lugar: Amsterdam; Año: 2021
ISSN:
0043-1354
Resumen:
Microplastic Particles (MPs) are ubiquitous pollutants widely found in aquatic ecosystems. Although MPs are mostly retained in wastewater treatment plants (WWTPs), a high number of MPs reaches the open waters potentially contributing to the spread of pathogenic bacteria and antibiotic resistance genes in the environment. Nowadays, a limited number of studies have focused on the role of MPs as carriers of potentially pathogenic and antibiotic resistant bacteria in WWTPs. Thus, an investigation on the community composition (by 16S rRNA gene amplicon sequencing) and the abundance of antibiotic and metal resistance genes (by qPCR) of the biofilm on MPs (the plastisphere) and of planktonic bacteria in treated (pre- and post-disinfection) wastewaters was per-formed. MPs resulted to be very similar in terms of type, color, size, and chemical composition, before and after the disinfection. The bacterial community on MPs differed from the planktonic community in terms of richness, composition, and structure of the community network. Potentially pathogenic bacteria generally showed higher abundances in treated wastewater than in the biofilm on MPs. Furthermore, among the tested resistance genes, only sul2 (a common resistance gene against sulfonamides) resulted to be more abundant in the plastisphere than in the planktonic bacterial community. Our results suggest that the wastewater plastisphere could promote the spread of pathogenic bacteria and resistance genes in aquatic environment although with a relatively lower contribution than the wastewater planktonic bacterial community.