Assessment of the impact of three pesticides on microbial dynamics and functions in a lab-to-field experimental approach

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TitreAssessment of the impact of three pesticides on microbial dynamics and functions in a lab-to-field experimental approach
Type de publicationJournal Article
Year of Publication2018
AuteursKaras P.A, Baguelin C., Pertile G., Papadopoulou E.S, Nikolaki S., Storck V., Ferrari F., Trevisan M., Ferrarini A., Fornasier F., Vasileiadis S., Tsiamis G., Martin-Laurent F., Karpouzas D.G
JournalSCIENCE OF THE TOTAL ENVIRONMENT
Volume637
Pagination636-646
Date PublishedOCT 1
Type of ArticleArticle
ISSN0048-9697
Mots-clésAmmonia-oxidizing microorganisms, Chlorpyrifos, Environmental risk assessment, Isoproturon, Pesticides soil microbial toxicity, Tebuconazole
Résumé

The toxicity of pesticides on soil microorganisms is as an emerging area of concern. Novel and well-standardized tools could be now used to provide a robust assessment of the ecotoxicity of pesticides on soil microorganisms. We followed a tiered lab-to-field approach to assess the toxicity of three pesticides, widely used at EU level, (chlorpyrifos (CHL), isoproturon (IPU) and tebuconazole (TBZ)) on (i) the abundance of 11 microbial taxa and 8 functional microbial groups via q-PCR and (ii) the activity of enzymes involved in biogeochemical cycles via fluorometric analysis. Correlation of microbial measurements with the concentration of pesticides, and their transformation products (TPs) in soil enabled the identification of the compounds driving the effects observed. At lab tests (x1, x2 and x10 the recommended dose), CHL and TBZ significantly reduced the relative abundance of ammonia-oxidizing bacteria (AOB) and archaea (AOA) which recovered by the end of the study, while all pesticides induced a persistent reduction in the relative abundance of sulfur-oxidizing bacteria (SOB). The two demethylated metabolites of IPU (MD-IPU and DD-IPU) adversely affected P-cycling enzymes and leucine aminopeptidase (Leu). At field tests (x1, x2 and x5 the recommended dose), a persistent reduction on the relative abundance of AOA was induced by all pesticides, but only CHL and its hydrolysis product 3,5,6 trichloro-2-pyridynol (TCP) soil levels were negatively correlated with AOA relative abundance. Our findings suggest that ammonia-oxidizing microorganisms constitute the most responsive microbial group to pesticides and could be potential candidates for inclusion in pesticide risk assessment. (C) 2018 Elsevier B.V. All rights reserved.

DOI10.1016/j.scitotenv.2018.05.073