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Cable bacteria
Microbial Carbon Metabolism Associated with Electrogenic Sulphur Oxidation in Coastal Sediments
Cable Bacteria Generate a Firewall Against Euxinia in Seasonally Hypoxic Basins
Mineral Formation Induced by Cable Bacteria Performing Long-Distance Electron Transport in Marine Sediments
Effects of Meiofauna and Cable Bacteria on Oxygen, Ph and Sulphide Dynamics in Baltic Sea Hypoxic Sediment
Impact of Seasonal Hypoxia on Activity and Community Structure of Chemolithoautotrophic Bacteria in A
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Sediment Microbial Fuel Cells As a Barrier to Sulfide Accumulation And
Quantification of Cable Bacteria in Marine Sediments Via Qpcr
Phosphorus Sequestration in Sediments Populated by Cable
Inducing the Attachment of Cable Bacteria on Oxidizing Electrodes Cheng Li1, Clare E
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Inducing the Attachment of Cable Bacteria on Oxidizing Electrodes
On the Evolution and Physiology of Cable Bacteria
Electrogenic Sulfide Oxidation Mediated by Cable Bacteria
Electroactive Microorganisms in Bioelectrochemical Systems
Impact of Cable Bacteria on the Biogeochemical Cycling in a Seasonally Hypoxic Basin
Microbial Communities That Hook up to Swap Electrons
Cable Bacteria, Living Electrical Conduits in the Microbial World COMMENTARY Andreas Teskea,1
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Mineral Formation Induced by Cable Bacteria Performing Long- Distance Electron Transport in Marine Sediments
Biogeochemical Impact of Cable Bacteria on Coastal Black Sea Sediment
Long-Distance Electron Transfer by Cable Bacteria in Aquifer Sediments
Division of Labor and Growth During Electrical Cooperation in Multicellular Cable Bacteria
Ubiquitous Gammaproteobacteria Dominate Dark Carbon Fixation in Coastal Sediments
Inducing the Attachment of Cable Bacteria on Oxidizing Electrodes Cheng Li1, Clare E
Cable Bacteria Generate a Firewall Against Euxinia in Seasonally Hypoxic Basins
Biogeochemical Impact of Cable Bacteria on Coastal Black Sea Sediment