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Ability of a haloalkaliphilic bacterium isolated from Soap Lake, Washington to generate electricity at pH 11.0 and 7% salinity

Author:
Paul, Varun G., Minteer, Shelley D., Treu, Becky L., Mormile, Melanie R.
Source:
Environmental technology 2014 v.35 no.8 pp. 1003-1011
ISSN:
1479-487X
Subject:
Halanaerobium, bacteria, electricity, electrodes, electron transfer, electrons, environmental technology, genes, image analysis, iron, lakes, methylene blue, microbial fuel cells, oxidation, pH, restriction fragment length polymorphism, ribosomal RNA, salinity, scanning electron microscopy, sediments, Washington
Abstract:
A variety of anaerobic bacteria have been shown to transfer electrons obtained from organic compound oxidation to the surface of electrodes in microbial fuel cells (MFCs) to produce current. Initial enrichments for iron (III) reducing bacteria were set up with sediments from the haloalkaline environment of Soap Lake, Washington, in batch cultures and subsequent transfers resulted in a culture that grew optimally at 7.0% salinity and pH 11.0. The culture was used to inoculate the anode chamber of a MFC with formate as the electron source. Current densities up to 12.5 mA/m ² were achieved by this bacterium. Cyclic voltammetry experiments demonstrated that an electron mediator, methylene blue, was required to transfer electrons to the anode. Scanning electron microscopic imaging of the electrode surface did not reveal heavy colonization of bacteria, providing evidence that the bacterium may be using an indirect mode of electron transfer to generate current. Molecular characterization of the 16S rRNA gene and restriction fragment length profiles (RFLP) analysis showed that the MFC enriched for a single bacterial species with a 99% similarity to the 16S rRNA gene of Halanaerobium hydrogeniformans . Though modest, electricity production was achieved by a haloalkaliphilic bacterium at pH 11.0 and 7.0% salinity.
Agid:
1226819