Location, specific topography, and hydrographic setting together with climate change and
strong anthropogenic pressure are the main factors shaping the biogeochemical functioning …

Cable bacteria have been identified and detected worldwide since their discovery in marine
sediments in Aarhus Bay, Denmark. Their activity can account for the majority of oxygen …

Cable bacteria are filamentous members of the Desulfobulbaceae family that oxidize sulfide
with oxygen or nitrate by transferring electrons over centimeter distances in sediments …

Cable bacteria are sulfide‐oxidising, filamentous bacteria that reduce toxic sulfide levels,
suppress methane emissions and drive nutrient and carbon cycling in sediments. Recently …

This study tested two sediment amendments with active sorbents: injection of aluminum (Al)
into sediments and thin-layer capping with Polonite (calcium–silicate), with and without the …

Degradation of petroleum hydrocarbons (HC) in sediments is often limited by the availability
of electron acceptors. By allowing long-distance electron transport (LDET) between anoxic …

Cable bacteria (CB) are filamentous Desulfobulbaceae that split the energy-conserving
reaction of sulfide oxidation into two half reactions occurring in distinct cells. CB can use …

Periodic oxygen permeation is critical for pollutant removal within intertidal sediments.
However, tidal effects on the vertical redox profile associated with cable bacterial activity is …

Previous studies have demonstrated that e-SO x can regulate the sedimentary release of
phosphorus (P) in brackish and marine sediments. When e-SO x is active, an iron (Fe) and …

Microbial bioremediation based on nano-to micrometer-scale electron transport has been
intensively studied during the past decade, but its application can be hindered by a …