Publikation: Humic Acid Reduction by Propionibacterium freudenreichii and Other Fermenting Bacteria
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Iron-reducing bacteria have been reported to reduce humic acids and low-molecular-weight quinones with electrons from acetate or hydrogen oxidation. Due to the rapid chemical reaction of amorphous ferric iron with the reduced reaction products, humic acids and low-molecular-weight redox mediators may play an important role in biological iron reduction. Since many anaerobic bacteria that are not able to reduce amorphous ferric iron directly are known to transfer electrons to other external acceptors, such as ferricyanide, 2,6-anthraquinone disulfonate (AQDS), or molecular oxygen, we tested several physiologically different species of fermenting bacteria to determine their abilities to reduce humic acids. Propionibacterium freudenreichii, Lactococcus lactis, and Enterococcus cecorum all shifted their fermentation patterns towards more oxidized products when humic acids were present; P. freudenreichii even oxidized propionate to acetate under these conditions. When amorphous ferric iron was added to reoxidize the electron acceptor, humic acids were found to be equally effective when they were added in substoichiometric amounts. These findings indicate that in addition to iron-reducing bacteria, fermenting bacteria are also capable of channeling electrons from anaerobic oxidations via humic acids towards iron reduction. This information needs to be considered in future studies of electron flow in soils and sediments.
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BENZ, Marcus, Bernhard SCHINK, Andreas BRUNE, 1998. Humic Acid Reduction by Propionibacterium freudenreichii and Other Fermenting Bacteria. In: Applied and Environmental Microbiology. 1998, 64(11), pp. 4507-4512BibTex
@article{Benz1998Humic-6861, year={1998}, title={Humic Acid Reduction by Propionibacterium freudenreichii and Other Fermenting Bacteria}, number={11}, volume={64}, journal={Applied and Environmental Microbiology}, pages={4507--4512}, author={Benz, Marcus and Schink, Bernhard and Brune, Andreas} }
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