Assessment of the ecotoxicological impact of natural and synthetic β-triketone herbicides on the diversity and activity of the soil bacterial community using omic approaches

Assessment of the ecotoxicological impact of natural and synthetic β-triketone herbicides on the diversity and activity of the soil bacterial community using omic approaches

The emergence of pesticides of natural origin appears as an environmental-friendly alternative to synthetic pesticides for managing weeds. To verify this assumption, leptospermone, a natural β-triketone herbicide, and sulcotrione, a synthetic one, were applied to soil microcosms at 0× (control), 1×...

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Veröffentlicht in:The Science of the total environment 2019-02, Vol.651 (Pt 1), p.241-249
Hauptverfasser: Romdhane, Sana, Devers-Lamrani, Marion, Beguet, Jérémie, Bertrand, Cédric, Calvayrac, Christophe, Salvia, Marie-Virginie, Jrad, Amani Ben, Dayan, Franck E., Spor, Aymé, Barthelmebs, Lise, Martin-Laurent, Fabrice
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Sprache:eng
Schlagworte:
Bacteria - drug effects
Bacteria - genetics
Bacterial community
Cyclohexanones - toxicity
Ecotoxicology
Environment and Society
Environmental Monitoring
Environmental Sciences
Herbicides - toxicity
Life Sciences
Mesylates - toxicity
Metabolome
Metabolomics
Phloroglucinol - analogs & derivatives
Phloroglucinol - toxicity
Pyrosequencing
RNA, Bacterial - analysis
RNA, Ribosomal, 16S - analysis
Soil Microbiology
Soil Pollutants - toxicity
Toxicology
β-Triketone
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container_end_page 249
container_issue Pt 1
container_start_page 241
container_title The Science of the total environment
container_volume 651
creator Romdhane, Sana
Devers-Lamrani, Marion
Beguet, Jérémie
Bertrand, Cédric
Calvayrac, Christophe
Salvia, Marie-Virginie
Jrad, Amani Ben
Dayan, Franck E.
Spor, Aymé
Barthelmebs, Lise
Martin-Laurent, Fabrice
description The emergence of pesticides of natural origin appears as an environmental-friendly alternative to synthetic pesticides for managing weeds. To verify this assumption, leptospermone, a natural β-triketone herbicide, and sulcotrione, a synthetic one, were applied to soil microcosms at 0× (control), 1× or 10× recommended field dose. The fate of these two herbicides (i.e. dissipation and formation of transformation products) was monitored to assess the scenario of exposure of soil microorganisms to natural and synthetic herbicides. Ecotoxicological impact of both herbicides was explored by monitoring soil bacterial diversity and activity using next-generation sequencing of 16S rRNA gene amplicons and soil metabolomics. Both leptospermone and sulcotrione fully dissipated over the incubation period. During their dissipation, transformation products of natural and synthetic β-triketone were detected. Hydroxy-leptospermone was almost completely dissipated by the end of the experiment, while CMBA, the major metabolite of sulcotrione, remained in soil microcosms. After 8 days of exposure, the diversity and structure of the soil bacterial community treated with leptospermone was significantly modified, while less significant changes were observed for sulcotrione. For both herbicides, the diversity of the soil bacterial community was still not completely recovered by the end of the experiment (45 days). The combined use of next-generation sequencing and metabolomic approaches allowed us to assess the ecotoxicological impact of natural and synthetic pesticides on non-target soil microorganisms and to detect potential biomarkers of soil exposure to β-triketones. [Display omitted] •Leptospermone strongly affected the soil bacterial diversity and structure.•Less effects were observed for sulcotrione.•Both leptospermone and sulcotrione modified the soil meta-metabolome.•Ecotoxicological effects of both triketones were resilient at recommended field dose.
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To verify this assumption, leptospermone, a natural β-triketone herbicide, and sulcotrione, a synthetic one, were applied to soil microcosms at 0× (control), 1× or 10× recommended field dose. The fate of these two herbicides (i.e. dissipation and formation of transformation products) was monitored to assess the scenario of exposure of soil microorganisms to natural and synthetic herbicides. Ecotoxicological impact of both herbicides was explored by monitoring soil bacterial diversity and activity using next-generation sequencing of 16S rRNA gene amplicons and soil metabolomics. Both leptospermone and sulcotrione fully dissipated over the incubation period. During their dissipation, transformation products of natural and synthetic β-triketone were detected. Hydroxy-leptospermone was almost completely dissipated by the end of the experiment, while CMBA, the major metabolite of sulcotrione, remained in soil microcosms. After 8 days of exposure, the diversity and structure of the soil bacterial community treated with leptospermone was significantly modified, while less significant changes were observed for sulcotrione. For both herbicides, the diversity of the soil bacterial community was still not completely recovered by the end of the experiment (45 days). The combined use of next-generation sequencing and metabolomic approaches allowed us to assess the ecotoxicological impact of natural and synthetic pesticides on non-target soil microorganisms and to detect potential biomarkers of soil exposure to β-triketones. [Display omitted] •Leptospermone strongly affected the soil bacterial diversity and structure.•Less effects were observed for sulcotrione.•Both leptospermone and sulcotrione modified the soil meta-metabolome.•Ecotoxicological effects of both triketones were resilient at recommended field dose.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2018.09.159</identifier><identifier>PMID: 30236841</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Bacteria - drug effects ; Bacteria - genetics ; Bacterial community ; Cyclohexanones - toxicity ; Ecotoxicology ; Environment and Society ; Environmental Monitoring ; Environmental Sciences ; Herbicides - toxicity ; Life Sciences ; Mesylates - toxicity ; Metabolome ; Metabolomics ; Phloroglucinol - analogs &amp; derivatives ; Phloroglucinol - toxicity ; Pyrosequencing ; RNA, Bacterial - analysis ; RNA, Ribosomal, 16S - analysis ; Soil Microbiology ; Soil Pollutants - toxicity ; Toxicology ; β-Triketone</subject><ispartof>The Science of the total environment, 2019-02, Vol.651 (Pt 1), p.241-249</ispartof><rights>2018 Elsevier B.V.</rights><rights>Copyright © 2018 Elsevier B.V. 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To verify this assumption, leptospermone, a natural β-triketone herbicide, and sulcotrione, a synthetic one, were applied to soil microcosms at 0× (control), 1× or 10× recommended field dose. The fate of these two herbicides (i.e. dissipation and formation of transformation products) was monitored to assess the scenario of exposure of soil microorganisms to natural and synthetic herbicides. Ecotoxicological impact of both herbicides was explored by monitoring soil bacterial diversity and activity using next-generation sequencing of 16S rRNA gene amplicons and soil metabolomics. Both leptospermone and sulcotrione fully dissipated over the incubation period. During their dissipation, transformation products of natural and synthetic β-triketone were detected. Hydroxy-leptospermone was almost completely dissipated by the end of the experiment, while CMBA, the major metabolite of sulcotrione, remained in soil microcosms. 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To verify this assumption, leptospermone, a natural β-triketone herbicide, and sulcotrione, a synthetic one, were applied to soil microcosms at 0× (control), 1× or 10× recommended field dose. The fate of these two herbicides (i.e. dissipation and formation of transformation products) was monitored to assess the scenario of exposure of soil microorganisms to natural and synthetic herbicides. Ecotoxicological impact of both herbicides was explored by monitoring soil bacterial diversity and activity using next-generation sequencing of 16S rRNA gene amplicons and soil metabolomics. Both leptospermone and sulcotrione fully dissipated over the incubation period. During their dissipation, transformation products of natural and synthetic β-triketone were detected. Hydroxy-leptospermone was almost completely dissipated by the end of the experiment, while CMBA, the major metabolite of sulcotrione, remained in soil microcosms. After 8 days of exposure, the diversity and structure of the soil bacterial community treated with leptospermone was significantly modified, while less significant changes were observed for sulcotrione. For both herbicides, the diversity of the soil bacterial community was still not completely recovered by the end of the experiment (45 days). The combined use of next-generation sequencing and metabolomic approaches allowed us to assess the ecotoxicological impact of natural and synthetic pesticides on non-target soil microorganisms and to detect potential biomarkers of soil exposure to β-triketones. [Display omitted] •Leptospermone strongly affected the soil bacterial diversity and structure.•Less effects were observed for sulcotrione.•Both leptospermone and sulcotrione modified the soil meta-metabolome.•Ecotoxicological effects of both triketones were resilient at recommended field dose.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>30236841</pmid><doi>10.1016/j.scitotenv.2018.09.159</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0002-8806-1777</orcidid><orcidid>https://orcid.org/0000-0002-4707-9559</orcidid><orcidid>https://orcid.org/0000-0001-9410-8319</orcidid><orcidid>https://orcid.org/0000-0003-0295-2278</orcidid><orcidid>https://orcid.org/0000-0001-9639-9324</orcidid></addata></record>
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subjects Bacteria - drug effects
Bacteria - genetics
Bacterial community
Cyclohexanones - toxicity
Ecotoxicology
Environment and Society
Environmental Monitoring
Environmental Sciences
Herbicides - toxicity
Life Sciences
Mesylates - toxicity
Metabolome
Metabolomics
Phloroglucinol - analogs & derivatives
Phloroglucinol - toxicity
Pyrosequencing
RNA, Bacterial - analysis
RNA, Ribosomal, 16S - analysis
Soil Microbiology
Soil Pollutants - toxicity
Toxicology
β-Triketone
title Assessment of the ecotoxicological impact of natural and synthetic β-triketone herbicides on the diversity and activity of the soil bacterial community using omic approaches
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