Multi-method assessment of the intrinsic biodegradation potential of an aquifer contaminated with chlorinated ethenes at an industrial area in Barcelona (Spain)

Multi-method assessment of the intrinsic biodegradation potential of an aquifer contaminated with chlorinated ethenes at an industrial area in Barcelona (Spain)

The bioremediation potential of an aquifer contaminated with tetrachloroethene (PCE) was assessed by combining hydrogeochemical data of the site, microcosm studies, metabolites concentrations, compound specific-stable carbon isotope analysis and the identification of selected reductive dechlorinatio...

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Veröffentlicht in:Environmental pollution (1987) 2019-01, Vol.244, p.165-173
Hauptverfasser: Blázquez-Pallí, Natàlia, Rosell, Mònica, Varias, Joan, Bosch, Marçal, Soler, Albert, Vicent, Teresa, Marco-Urrea, Ernest
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Sprache:eng
Schlagworte:
Bacteria - metabolism
Biodegradation, Environmental - drug effects
Biostimulation
Carbon Isotopes - analysis
Chloroflexi - genetics
DCE stall
Dehalococcoides mccartyi
Groundwater - chemistry
Halogenation
Lactic Acid - pharmacology
Reductive dehalogenase
Spain
Stable isotope
Tetrachloroethylene - analysis
Water Pollutants, Chemical - analysis
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container_end_page 173
container_issue
container_start_page 165
container_title Environmental pollution (1987)
container_volume 244
creator Blázquez-Pallí, Natàlia
Rosell, Mònica
Varias, Joan
Bosch, Marçal
Soler, Albert
Vicent, Teresa
Marco-Urrea, Ernest
description The bioremediation potential of an aquifer contaminated with tetrachloroethene (PCE) was assessed by combining hydrogeochemical data of the site, microcosm studies, metabolites concentrations, compound specific-stable carbon isotope analysis and the identification of selected reductive dechlorination biomarker genes. The characterization of the site through 10 monitoring wells evidenced that leaked PCE was transformed to TCE and cis-DCE via hydrogenolysis. Carbon isotopic mass balance of chlorinated ethenes pointed to two distinct sources of contamination and discarded relevant alternate degradation pathways in the aquifer. Application of specific-genus primers targeting Dehalococcoides mccartyi species and the vinyl chloride-to-ethene reductive dehalogenase vcrA indicated the presence of autochthonous bacteria capable of the complete dechlorination of PCE. The observed cis-DCE stall was consistent with the aquifer geochemistry (positive redox potentials; presence of dissolved oxygen, nitrate, and sulphate; absence of ferrous iron), which was thermodynamically favourable to dechlorinate highly chlorinated ethenes but required lower redox potentials to evolve beyond cis-DCE to the innocuous end product ethene. Accordingly, the addition of lactate or a mixture of ethanol plus methanol as electron donor sources in parallel field-derived anoxic microcosms accelerated dechlorination of PCE and passed cis-DCE up to ethene, unlike the controls (without amendments, representative of field natural attenuation). Lactate fermentation produced acetate at near-stoichiometric amounts. The array of techniques used in this study provided complementary lines of evidence to suggest that enhanced anaerobic bioremediation using lactate as electron donor source is a feasible strategy to successfully decontaminate this site. [Display omitted] •Assessment of the biodegradation potential of an aquifer with chlorinated ethenes.•Hydrogeochemical data and CSIA describe aquifer and determine source apportionment.•DCE stall caused by lack of electron donors in groundwater.•Lactate-amended microcosms showed improved PCE-to-ethene dechlorination rates.•Dehalococcoides mccartyi and gene vcrA detected in field-derived cultures. The combination of complementary diagnostic techniques provides different lines of evidence for in situ bioremediation potential of a tetrachloroethene-contaminated aquifer.
doi_str_mv 10.1016/j.envpol.2018.10.013
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The characterization of the site through 10 monitoring wells evidenced that leaked PCE was transformed to TCE and cis-DCE via hydrogenolysis. Carbon isotopic mass balance of chlorinated ethenes pointed to two distinct sources of contamination and discarded relevant alternate degradation pathways in the aquifer. Application of specific-genus primers targeting Dehalococcoides mccartyi species and the vinyl chloride-to-ethene reductive dehalogenase vcrA indicated the presence of autochthonous bacteria capable of the complete dechlorination of PCE. The observed cis-DCE stall was consistent with the aquifer geochemistry (positive redox potentials; presence of dissolved oxygen, nitrate, and sulphate; absence of ferrous iron), which was thermodynamically favourable to dechlorinate highly chlorinated ethenes but required lower redox potentials to evolve beyond cis-DCE to the innocuous end product ethene. 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Accordingly, the addition of lactate or a mixture of ethanol plus methanol as electron donor sources in parallel field-derived anoxic microcosms accelerated dechlorination of PCE and passed cis-DCE up to ethene, unlike the controls (without amendments, representative of field natural attenuation). Lactate fermentation produced acetate at near-stoichiometric amounts. The array of techniques used in this study provided complementary lines of evidence to suggest that enhanced anaerobic bioremediation using lactate as electron donor source is a feasible strategy to successfully decontaminate this site. 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The characterization of the site through 10 monitoring wells evidenced that leaked PCE was transformed to TCE and cis-DCE via hydrogenolysis. Carbon isotopic mass balance of chlorinated ethenes pointed to two distinct sources of contamination and discarded relevant alternate degradation pathways in the aquifer. Application of specific-genus primers targeting Dehalococcoides mccartyi species and the vinyl chloride-to-ethene reductive dehalogenase vcrA indicated the presence of autochthonous bacteria capable of the complete dechlorination of PCE. The observed cis-DCE stall was consistent with the aquifer geochemistry (positive redox potentials; presence of dissolved oxygen, nitrate, and sulphate; absence of ferrous iron), which was thermodynamically favourable to dechlorinate highly chlorinated ethenes but required lower redox potentials to evolve beyond cis-DCE to the innocuous end product ethene. Accordingly, the addition of lactate or a mixture of ethanol plus methanol as electron donor sources in parallel field-derived anoxic microcosms accelerated dechlorination of PCE and passed cis-DCE up to ethene, unlike the controls (without amendments, representative of field natural attenuation). Lactate fermentation produced acetate at near-stoichiometric amounts. The array of techniques used in this study provided complementary lines of evidence to suggest that enhanced anaerobic bioremediation using lactate as electron donor source is a feasible strategy to successfully decontaminate this site. 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identifier ISSN: 0269-7491
ispartof Environmental pollution (1987), 2019-01, Vol.244, p.165-173
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subjects Bacteria - metabolism
Biodegradation, Environmental - drug effects
Biostimulation
Carbon Isotopes - analysis
Chloroflexi - genetics
DCE stall
Dehalococcoides mccartyi
Groundwater - chemistry
Halogenation
Lactic Acid - pharmacology
Reductive dehalogenase
Spain
Stable isotope
Tetrachloroethylene - analysis
Water Pollutants, Chemical - analysis
title Multi-method assessment of the intrinsic biodegradation potential of an aquifer contaminated with chlorinated ethenes at an industrial area in Barcelona (Spain)
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