posted on 2014-05-20, 00:00authored byAlfredo Pérez-de-Mora, Anna Zila, Michaye
L. McMaster, Elizabeth A. Edwards
The
use of enhanced in situ anaerobic bioremediation (EISB) and
bioaugmentation in fractured bedrock is limited compared to its use
in granular media. We evaluated EISB for the treatment of trichloroethene
(TCE)-impacted groundwater in fractured carbonate rock at a site in
Southern Ontario, Canada, with cool average groundwater temperature
(∼ 13 °C). Borehole-connectivity, contaminant concentrations,
and groundwater properties were investigated. Changes in dechlorinating
and nondechlorinating populations (fermenters, acetogens, methanogens,
and sulfate reducers) were assessed via quantitative PCR (qPCR). During
biostimulation with ethanol, concentrations of TCE daughter products cis-dichloroethene (cDCE) and vinyl chloride (VC) decreased
in association with an enrichment of vcrA (VC reductive
dehalogenase)-carrying Dehalococcoides, whereas ethene
production was only moderate. Following bioaugmentation with the mixed
dechlorinating culture KB-1, greater concentrations of chloridea
product of dechlorinationwas observed in most wells; in addition,
ethene production increased significantly in monitoring well locations
that had strong hydraulic connectivity to the groundwater recirculation
system, while Dehalococcoides and vcrA concentrations did not appreciably vary. Interestingly, increases
of 3–4 orders of magnitude of an ethanol-fermenting Bacteroidetes population also present in KB-1 were correlated
to improved conversion to ethene, an observation which suggests there
could be a causal relationshipfor example, better syntrophy
and/or synergy among bacterial populations.