Evidence of polycyclic aromatic hydrocarbon biodegradation in a contaminated aquifer by combined application of in situ and laboratory microcosms using 13C-labelled target compounds

The number of approaches to evaluate the biodegradation of polycyclic aromatic hydrocarbons (PAHs) within contaminated aquifers is limited. Here, we demonstrate the applicability of a novel method based on the combination of in situ and laboratory microcosms using 13C-labelled PAHs as tracer compoun...

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Published in:	Water research (Oxford) Vol. 69; pp. 100 - 109
Main Authors:	Bahr, Arne, Fischer, Anko, Vogt, Carsten, Bombach, Petra
Format:	Journal Article
Language:	English
Published:	Elsevier Ltd 01-02-2015
Subjects:	Aerobic PAH degradation Amino acid-SIP Aquifers BACTRAP Biodegradation Contamination Groundwater In situ microcosms Laboratories Naphthalene Natural attenuation Phenanthrene Polyallylamine hydrochloride Polycyclic aromatic hydrocarbons Aerobic PAH degradation In situ microcosms Natural attenuation BACTRAP Amino acid-SIP
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Abstract	The number of approaches to evaluate the biodegradation of polycyclic aromatic hydrocarbons (PAHs) within contaminated aquifers is limited. Here, we demonstrate the applicability of a novel method based on the combination of in situ and laboratory microcosms using 13C-labelled PAHs as tracer compounds. The biodegradation of four PAHs (naphthalene, fluorene, phenanthrene, and acenaphthene) was investigated in an oxic aquifer at the site of a former gas plant. In situ biodegradation of naphthalene and fluorene was demonstrated using in situ microcosms (BACTRAP®s). BACTRAP®s amended with either [13C6]-naphthalene or [13C5/13C6]-fluorene (50:50) were incubated for a period of over two months in two groundwater wells located at the contaminant source and plume fringe, respectively. Amino acids extracted from BACTRAP®-grown cells showed significant 13C-enrichments with 13C-fractions of up to 30.4% for naphthalene and 3.8% for fluorene, thus providing evidence for the in situ biodegradation and assimilation of those PAHs at the field site. To quantify the mineralisation of PAHs, laboratory microcosms were set up with BACTRAP®-grown cells and groundwater. Naphthalene, fluorene, phenanthrene, or acenaphthene were added as 13C-labelled substrates. 13C-enrichment of the produced CO2 revealed mineralisation of between 5.9% and 19.7% for fluorene, between 11.1% and 35.1% for acenaphthene, between 14.2% and 33.1% for phenanthrene, and up to 37.0% for naphthalene over a period of 62 days. Observed PAH mineralisation rates ranged between 17 μg L−1 d−1 and 1639 μg L−1 d−1. The novel approach combining in situ and laboratory microcosms allowed a comprehensive evaluation of PAH biodegradation at the investigated field site, revealing the method's potential for the assessment of PAH degradation within contaminated aquifers. [Display omitted] •Novel approach combined in situ and laboratory microcosms.•Biodegradation of naphthalene and fluorene was assessed by in situ microcosms.•In situ microcosms enable to enrich microbial communities for laboratory microcosms.•Mineralisation of naphthalene, fluorene, phenanthrene, acenaphthene was quantified.
AbstractList	The number of approaches to evaluate the biodegradation of polycyclic aromatic hydrocarbons (PAHs) within contaminated aquifers is limited. Here, we demonstrate the applicability of a novel method based on the combination of in situ and laboratory microcosms using 13C-labelled PAHs as tracer compounds. The biodegradation of four PAHs (naphthalene, fluorene, phenanthrene, and acenaphthene) was investigated in an oxic aquifer at the site of a former gas plant. In situ biodegradation of naphthalene and fluorene was demonstrated using in situ microcosms (BACTRAP registered s). BACTRAP registered s amended with either [13C6]-naphthalene or [13C5/13C6]-fluorene (50:50) were incubated for a period of over two months in two groundwater wells located at the contaminant source and plume fringe, respectively. Amino acids extracted from BACTRAP registered -grown cells showed significant 13C-enrichments with 13C-fractions of up to 30.4% for naphthalene and 3.8% for fluorene, thus providing evidence for the in situ biodegradation and assimilation of those PAHs at the field site. To quantify the mineralisation of PAHs, laboratory microcosms were set up with BACTRAP registered -grown cells and groundwater. Naphthalene, fluorene, phenanthrene, or acenaphthene were added as 13C-labelled substrates. 13C-enrichment of the produced CO2 revealed mineralisation of between 5.9% and 19.7% for fluorene, between 11.1% and 35.1% for acenaphthene, between 14.2% and 33.1% for phenanthrene, and up to 37.0% for naphthalene over a period of 62 days. Observed PAH mineralisation rates ranged between 17 mu g L-1 d-1 and 1639 mu g L-1 d-1. The novel approach combining in situ and laboratory microcosms allowed a comprehensive evaluation of PAH biodegradation at the investigated field site, revealing the method's potential for the assessment of PAH degradation within contaminated aquifers. The number of approaches to evaluate the biodegradation of polycyclic aromatic hydrocarbons (PAHs) within contaminated aquifers is limited. Here, we demonstrate the applicability of a novel method based on the combination of in situ and laboratory microcosms using 13C-labelled PAHs as tracer compounds. The biodegradation of four PAHs (naphthalene, fluorene, phenanthrene, and acenaphthene) was investigated in an oxic aquifer at the site of a former gas plant. In situ biodegradation of naphthalene and fluorene was demonstrated using in situ microcosms (BACTRAP®s). BACTRAP®s amended with either [13C6]-naphthalene or [13C5/13C6]-fluorene (50:50) were incubated for a period of over two months in two groundwater wells located at the contaminant source and plume fringe, respectively. Amino acids extracted from BACTRAP®-grown cells showed significant 13C-enrichments with 13C-fractions of up to 30.4% for naphthalene and 3.8% for fluorene, thus providing evidence for the in situ biodegradation and assimilation of those PAHs at the field site. To quantify the mineralisation of PAHs, laboratory microcosms were set up with BACTRAP®-grown cells and groundwater. Naphthalene, fluorene, phenanthrene, or acenaphthene were added as 13C-labelled substrates. 13C-enrichment of the produced CO2 revealed mineralisation of between 5.9% and 19.7% for fluorene, between 11.1% and 35.1% for acenaphthene, between 14.2% and 33.1% for phenanthrene, and up to 37.0% for naphthalene over a period of 62 days. Observed PAH mineralisation rates ranged between 17 μg L−1 d−1 and 1639 μg L−1 d−1. The novel approach combining in situ and laboratory microcosms allowed a comprehensive evaluation of PAH biodegradation at the investigated field site, revealing the method's potential for the assessment of PAH degradation within contaminated aquifers. [Display omitted] •Novel approach combined in situ and laboratory microcosms.•Biodegradation of naphthalene and fluorene was assessed by in situ microcosms.•In situ microcosms enable to enrich microbial communities for laboratory microcosms.•Mineralisation of naphthalene, fluorene, phenanthrene, acenaphthene was quantified.
Author	Bahr, Arne Bombach, Petra Fischer, Anko Vogt, Carsten
Author_xml	– sequence: 1 givenname: Arne surname: Bahr fullname: Bahr, Arne organization: UFZ – Helmholtz Centre for Environmental Research, Department of Isotope Biogeochemistry, Permoserstrasse 15, 04318 Leipzig, Germany – sequence: 2 givenname: Anko surname: Fischer fullname: Fischer, Anko organization: Isodetect GmbH, Deutscher Platz 5b, 04103 Leipzig, Germany – sequence: 3 givenname: Carsten surname: Vogt fullname: Vogt, Carsten organization: UFZ – Helmholtz Centre for Environmental Research, Department of Isotope Biogeochemistry, Permoserstrasse 15, 04318 Leipzig, Germany – sequence: 4 givenname: Petra surname: Bombach fullname: Bombach, Petra email: petra.bombach@ufz.de organization: UFZ – Helmholtz Centre for Environmental Research, Department of Isotope Biogeochemistry, Permoserstrasse 15, 04318 Leipzig, Germany
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Snippet	The number of approaches to evaluate the biodegradation of polycyclic aromatic hydrocarbons (PAHs) within contaminated aquifers is limited. Here, we...
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SubjectTerms	Aerobic PAH degradation Amino acid-SIP Aquifers BACTRAP Biodegradation Contamination Groundwater In situ microcosms Laboratories Naphthalene Natural attenuation Phenanthrene Polyallylamine hydrochloride Polycyclic aromatic hydrocarbons
Title	Evidence of polycyclic aromatic hydrocarbon biodegradation in a contaminated aquifer by combined application of in situ and laboratory microcosms using 13C-labelled target compounds
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