Relationships
between the Abundance and Expression
of Functional Genes from Vinyl Chloride (VC)-Degrading Bacteria and
Geochemical Parameters at VC-Contaminated Sites
posted on 2017-10-05, 00:00authored byYi Liang, Xikun Liu, Michael A. Singletary, Kai Wang, Timothy E. Mattes
Bioremediation
of vinyl chloride (VC) contamination in groundwater
could be mediated by three major bacterial guilds: anaerobic VC-dechlorinators,
methanotrophs, and ethene-oxidizing bacteria (etheneotrophs) via metabolic
or cometabolic pathways. We collected 95 groundwater samples across
6 chlorinated ethene-contaminated sites and searched for relationships
among VC biodegradation gene abundance and expression and site geochemical
parameters (e.g., VC concentrations). Functional genes from the three
major VC-degrading bacterial guilds were present in 99% and expressed
in 59% of the samples. Etheneotroph and methanotroph functional gene
abundances ranged from 102 to 109 genes per
liter of groundwater among the samples with VC reductive dehalogenase
gene (bvcA and vcrA) abundances
reaching 108 genes per liter of groundwater. Etheneotroph
functional genes (etnC and etnE)
and VC reductive dehalogenase genes (bvcA and vcrA) were strongly related to VC concentrations (p < 0.001). Methanotroph functional genes (mmoX and pmoA) were not related to VC concentration
(p > 0.05). Samples from sites with bulk VC attenuation
rates >0.08 year–1 contained higher levels of
etheneotroph
and anaerobic VC-dechlorinator functional genes and transcripts than
those with bulk VC attenuation rates <0.004 year–1. We conclude that both etheneotrophs and anaerobic VC-dechlorinators
have the potential to simultaneously contribute to VC biodegradation
at these sites.