The effect of natural products used as pesticides on the soil microbiota: OECD 216 nitrogen transformation test fails to identify effects that were detected via q‐PCR microbial abundance measurement

BACKGROUND Natural products present an environmentally attractive alternative to synthetic pesticides which have been implicated in the off‐target effect. Currently, the assessment of pesticide toxicity on soil microorganisms relies on the OECD 216 N transformation assay (OECD stands for the Organis...

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Bibliographic Details
Published in:Pest management science 2024-06, Vol.80 (6), p.2563-2576
Main Authors: Pedrinho, Alexandre, Karas, Panagiotis A., Kanellopoulos, Alexandros, Feray, Emma, Korman, Ido, Wittenberg, Gal, Ramot, Ofir, Karpouzas, Dimitrios G.
Format: Article
Language:English
Subjects:
Abundance
Ammonia
Ammonium
Archaea - drug effects
Archaea - genetics
Bacteria
Bacteria - drug effects
Bacteria - genetics
Biological Products
Chemical pest control
dose response
Fungi
Fungi - drug effects
Fungi - genetics
Insecticides
International standards
isoflavones
Microbiota
Microbiota - drug effects
Microorganisms
Natural products
Nitrates
Nitrogen
OECD 216 test
Pest control
Pesticide toxicity
Pesticides
Pesticides - toxicity
pesticides ecotoxicity
phenol
Phenols
Phylogeny
Polymerase chain reaction
quantitative polymerase chain reaction
soil
Soil - chemistry
Soil Microbiology
Soil microorganisms
Soil Pollutants - toxicity
Soils
Spinosad
Toxicity
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Summary:BACKGROUND Natural products present an environmentally attractive alternative to synthetic pesticides which have been implicated in the off‐target effect. Currently, the assessment of pesticide toxicity on soil microorganisms relies on the OECD 216 N transformation assay (OECD stands for the Organisation Economic Co‐operation and Development, which is a key international standard‐setting organisation). We tested the hypotheses that (i) the OECD 216 assay fails to identify unacceptable effects of pesticides on soil microbiota compared to more advanced molecular and standardized tests, and (ii) the natural products tested (dihydrochalcone, isoflavone, aliphatic phenol, and spinosad) are less toxic to soil microbiota compared to a synthetic pesticide compound (3,5‐dichloraniline). We determined the following in three different soils: (i) ammonium (NH4+) and nitrate (NO3−) soil concentrations, as dictated by the OECD 216 test, and (ii) the abundance of phylogenetically (bacteria and fungi) and functionally distinct microbial groups [ammonia‐oxidizing archaea (AOA) and bacteria (AOB)] using quantitative polymerase chain reaction (q‐PCR). RESULTS All pesticides tested exhibited limited persistence, with spinosad demonstrating the highest persistence. None of the pesticides tested showed clear dose‐dependent effects on NH4+ and NO3− levels and the observed effects were
ISSN:1526-498X
1526-4998
DOI:10.1002/ps.7961