In Situ Anaerobic Transformation of Trichlorofluoroethene in Trichloroethene-Contaminated Groundwater

Hageman, Kimberly J.; Istok, Jonathan D.; Field, Jennifer A.; Buscheck, Timothy E.; Semprini, Lewis

doi:10.1021/es001577j

Cited by 42 publications

(48 citation statements)

References 17 publications

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“…These rates are orders of magnitude slower than TCFE transformation rates (0.05 to 1.6/day) reported in previous field tests by Hageman et al (2001Hageman et al ( , 2003 and Field et al (2005). The slower rates in this study may be attributed to differences in aquifer and experimental conditions dechlorination.…”

Section: Transformation Testscontrasting

confidence: 51%

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Vangelas¹,

Istok²,

Field³

et al. 2007

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Section: Transformation Testscontrasting

confidence: 51%

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Vangelas¹,

Istok²,

Field³

et al. 2007

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“…As mentioned in the introduction, a long-standing criticism of this approach is that resultant data may be misleading because of artifacts imposed on microbial reactions by unrealistic laboratory conditions (34,55). Other approaches to measure biodegradation have ranged from empirical observation of diminished effectiveness of intentionally released chemicals (e.g., herbicides [38]) to rare field release of 14 C-labeled substrates (8,30) to the use of conservative tracers during injection and retrieval of substrates in subsurface environments (16,22,25,47). Issues surrounding the effectiveness and interpretations of such assays have been previously addressed (34,39).…”

Section: Discussionmentioning

confidence: 99%

“…In field-based investigations, the prospects for radiolabeling of active microbial populations are dim due to the unlikelihood of quantitative isotope retrieval from the field and to safety and environmental regulations. If experiments that release substrates to field sites are implemented, then nonradioactive surrogate compounds are likely to be employed (with or without conservative tracers that assist in mass-balance accounting [16,49]). …”

mentioning

confidence: 99%

Respiration of ¹³ C-Labeled Substrates Added to Soil in the Field and Subsequent 16S rRNA Gene Analysis of ¹³ C-Labeled Soil DNA

Parameswaran

Padmanabhan

DeRito

et al. 2003

Appl Environ Microbiol

198

133

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Our goal was to develop a field soil biodegradation assay using 13 C-labeled compounds and identify the active microorganisms by analyzing 16S rRNA genes in soil-derived 13 C-labeled DNA. Our biodegradation approach sought to minimize microbiological artifacts caused by physical and/or nutritional disturbance of soil associated with sampling and laboratory incubation. The new field-based assay involved the release of 13 Clabeled compounds (glucose, phenol, caffeine, and naphthalene) to soil plots, installation of open-bottom glass chambers that covered the soil, and analysis of samples of headspace gases for 13 CO 2 respiration by gas chromatography/mass spectrometry (GC/MS). We verified that the GC/MS procedure was capable of assessing respiration of the four substrates added (50 ppm) to 5 g of soil in sealed laboratory incubations. Next, we determined background levels of 13 CO 2 emitted from naturally occurring soil organic matter to chambers inserted into our field soil test plots. We found that the conservative tracer, SF 6 , that was injected into the headspace rapidly diffused out of the soil chamber and thus would be of little value for computing the efficiency of retaining respired 13 CO 2 . Field respiration assays using all four compounds were completed. Background respiration from soil organic matter interfered with the documentation of in situ respiration of the slowly metabolized (caffeine) and sparingly soluble (naphthalene) compounds. Nonetheless, transient peaks of 13 CO 2 released in excess of background were found in glucose-and phenol-treated soil within 8 h. Cesium-chloride separation of 13 C-labeled soil DNA was followed by PCR amplification and sequencing of 16S rRNA genes from microbial populations involved with 13 C-substrate metabolism. A total of 29 full sequences revealed that active populations included relatives of Arthrobacter, Pseudomonas, Acinetobacter, Massilia, Flavobacterium, and Pedobacter spp. for glucose; Pseudomonas, Pantoea, Acinetobacter, Enterobacter, Stenotrophomonas, and Alcaligenes spp. for phenol; Pseudomonas, Acinetobacter, and Variovorax spp. for naphthalene; and Acinetobacter, Enterobacter, Stenotrophomonas, and Pantoea spp. for caffeine.Achieving a mechanistic understanding of microorganisms where they dwell, in terrestrial and aquatic field habitats, is one of the major goals of microbial ecology; such understanding is facilitated by an ability to directly measure microbial metabolic processes and to identify microorganisms responsible for particular field biogeochemical reactions (4,24,35,41,48). But a variety of methodological obstacles have traditionally prevented investigators from simultaneously documenting identity and activity in real-world habitats such as soil. The most notable obstacles are the size discrepancy between humans and microorganisms, incomplete understanding of microhabitat physicochemical characteristics, a large reservoir of inactive, but potentially responsive cells in environmental samples, and the related propensity for microbial comm...

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“…Push-pull tests have been previously used to obtain quantitative information on a variety of aquifer physical, chemical, and microbiological characteristics (Istok et al, 1997;Schroth et al, 1998;Istok et al, 1999;Schroth et al 2001;Hageman et al, 2001). Currently, the push-pull method is under investigation as a tool for measuring in situ rates of microbially mediated uranium reduction (Istok et al, 2004) and of anaerobic BTEX degradation (Reusser et al, 2002).…”

Section: Previous Testing Of the Technologymentioning

confidence: 99%

Push-Pull Tests for Evaluating the Aerobic Cometabolism of Chlorinated Aliphatic Hydrocarbons

Semprini¹

2005

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In Situ Anaerobic Transformation of Trichlorofluoroethene in Trichloroethene-Contaminated Groundwater

Cited by 42 publications

References 17 publications

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Respiration of ¹³ C-Labeled Substrates Added to Soil in the Field and Subsequent 16S rRNA Gene Analysis of ¹³ C-Labeled Soil DNA

Push-Pull Tests for Evaluating the Aerobic Cometabolism of Chlorinated Aliphatic Hydrocarbons

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In Situ Anaerobic Transformation of Trichlorofluoroethene in Trichloroethene-Contaminated Groundwater

Cited by 42 publications

References 17 publications

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Detecting and Quantifying Reductive Dechlorination During Monitored Natural Attenuation at the Savannah River CBRP Site

Respiration of 13 C-Labeled Substrates Added to Soil in the Field and Subsequent 16S rRNA Gene Analysis of 13 C-Labeled Soil DNA

Push-Pull Tests for Evaluating the Aerobic Cometabolism of Chlorinated Aliphatic Hydrocarbons

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Product

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Respiration of ¹³ C-Labeled Substrates Added to Soil in the Field and Subsequent 16S rRNA Gene Analysis of ¹³ C-Labeled Soil DNA