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Successful aerobic bioremediation of groundwater contaminated with higher chlorinated phenols by indigenous degrader bacteria

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dc.contributor.author Mikkonen A.
dc.contributor.author Yläranta K.
dc.contributor.author Tiirola M.
dc.contributor.author Dutra L.
dc.contributor.author Salmi P.
dc.contributor.author Romantschuk M.
dc.contributor.author Copley S.
dc.contributor.author Ikäheimo J.
dc.contributor.author Sinkkonen A.
dc.date.accessioned 2019-01-22T20:35:02Z
dc.date.available 2019-01-22T20:35:02Z
dc.date.issued 2018
dc.identifier.issn 0043-1354
dc.identifier.uri https://dspace.kpfu.ru/xmlui/handle/net/147818
dc.description.abstract © 2018 Elsevier Ltd The xenobiotic priority pollutant pentachlorophenol has been used as a timber preservative in a polychlorophenol bulk synthesis product containing also tetrachlorophenol and trichlorophenol. Highly soluble chlorophenol salts have leaked into groundwater, causing severe contamination of large aquifers. Natural attenuation of higher-chlorinated phenols (HCPs: pentachlorophenol + tetrachlorophenol) at historically polluted sites has been inefficient, but a 4-year full scale in situ biostimulation of a chlorophenol-contaminated aquifer by circulation and re-infiltration of aerated groundwater was remarkably successful: pentachlorophenol decreased from 400 μg L−1 to <1 μg L−1 and tetrachlorophenols from 4000 μg L−1 to <10 μg L−1. The pcpB gene, the gene encoding pentachlorophenol hydroxylase - the first and rate-limiting enzyme in the only fully characterised aerobic HCP degradation pathway - was present in up to 10% of the indigenous bacteria already 4 months after the start of aeration. The novel quantitative PCR assay detected the pcpB gene in situ also in the chlorophenol plume of another historically polluted aquifer with no remediation history. Hotspot groundwater HCPs from this site were degraded efficiently during a 3-week microcosm incubation with one-time aeration but no other additives: from 5400 μg L−1 to 1200 μg L−1 and to 200 μg L−1 in lightly and fully aerated microcosms, respectively, coupled with up to 2400% enrichment of the pcpB gene. Accumulation of lower-chlorinated metabolites was observed in neither in situ remediation nor microcosms, supporting the assumption that HCP removal was due to the aerobic degradation pathway where the first step limits the mineralisation rate. Our results demonstrate that bacteria capable of aerobic mineralisation of xenobiotic pentachlorophenol and tetrachlorophenol can be present at long-term polluted groundwater sites, making bioremediation by simple aeration a viable and economically attractive alternative.
dc.relation.ispartofseries Water Research
dc.subject In situ bioremediation
dc.subject Ion PGM amplicon sequencing
dc.subject pcpB gene
dc.subject Pentachlorophenol hydroxylase
dc.subject Quantitative PCR
dc.subject Sphingomonas sensu lato
dc.title Successful aerobic bioremediation of groundwater contaminated with higher chlorinated phenols by indigenous degrader bacteria
dc.type Article
dc.relation.ispartofseries-volume 138
dc.collection Публикации сотрудников КФУ
dc.relation.startpage 118
dc.source.id SCOPUS00431354-2018-138-SID85044139007


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  • Публикации сотрудников КФУ Scopus [24551]
    Коллекция содержит публикации сотрудников Казанского федерального (до 2010 года Казанского государственного) университета, проиндексированные в БД Scopus, начиная с 1970г.

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