Response of chlorinated hydrocarbon transformation and microbial community structure in an aquifer to joint H and O.

Hydrogen (H) and oxygen (O) are critical electron donors and acceptors to promote the anaerobic and aerobic microbial transformation of chlorinated hydrocarbons (CHCs), respectively. Electrochemical technology can effectively supply H and O directly to an aquifer. However, the response of CHC transformation and microbial community structure to joint H and O are still unclear. In this work, microcosms containing different combinations of H and O were constructed with natural sediments and nine mixed CHCs. The joint H and O microcosm (H/O microcosm) significantly promoted the biotransformation of trichloroethylene (TCE), -dichloroethene (DCE) and chloroform (CF). Illumina sequencing analyses suggested that a particular microbial community was formed in the H/O microcosm. The specific microbial species included , , , , , , and , and the relative abundance of the , and genes synchronously increased. These results suggested that some specific microbes are potential CHC converters using H and O as energy sources, and aerobic and anaerobic transformations exist simultaneously in the H/O microcosm. It provides a theoretical basis for establishing efficient green remediation technologies for CHC contaminated aquifers.