Add to ORKGSulfur cycling in marine sediments undergoes dramatic changes with changing redox conditions of the overlying waters. The upper sediments of the anoxic Gotland Basin, central Baltic Sea represent a dynamic redox environment with extensive mats of sulfide oxidizing bacteria covering the seafloor beneath the chemocline. In order to investigate sulfur redox cycling at the sediment-water interface, sediment cores were sampled over a transect covering 65 – 174 m water depth in August-September 2013. High resolution (0.25 mm minimum) vertical microprofiles of electroactive redox species including dissolved sulfide and iron were obtained with solid state Au-Hg voltammetric microelectrodes. This approach enabled a fine-scale comparison of porewate...
Sediment-hosted marine sulfur cycling has played a significant role in regulating Earth’s surface ch...
The restricted bathymetry of the Baltic Sea allows a strong halocline to form, limiting downward oxy...
Despite the importance of marine sediments as a carbon sink and many efforts to integrate microbiolo...
The sediment-water interface is an important site for material exchange in marine systems and harbor...
Suboxic waters and sediments are complex hotspots of nutrient recycling, metal mobilizat...
The biogeochemistry of the sulfur cycle in a ca. 5-m-long sediment core from the eastern slope (221 ...
Enhanced release of alkalinity from the seafloor, principally driven by anaerobic degradation of org...
AbstractFilamentous sulfide oxidizing cable bacteria are capable of linking the oxidation of free su...
The Baltic Sea is characterized by the largest area of hypoxic (oxygen <2 mg/L) bottom waters in the...
The Baltic Sea is the largest brackish inland sea in the world with the salinity gradient decrease f...
My Ph.D thesis deals with biogeochemical cycling of carbon, sulfur and iron compounds in marine sedi...
Filamentous sulfide oxidizing cable bacteria are capable of linking the oxidation of free sulfide in...
Electrogenic sulfur oxidation (e-SOx) is a newly discovered pathway of microbial sulfide oxidation, ...
The Baltic Sea is characterized by the largest area of hypoxic (oxygen (O-2) <2 mg L-1) bottom water...
Sulfate reduction and sulfur–iron geochemistry were studied in 5–6 m deep gravity cores of Holocene ...
Sediment-hosted marine sulfur cycling has played a significant role in regulating Earth’s surface ch...
The restricted bathymetry of the Baltic Sea allows a strong halocline to form, limiting downward oxy...
Despite the importance of marine sediments as a carbon sink and many efforts to integrate microbiolo...
The sediment-water interface is an important site for material exchange in marine systems and harbor...
Suboxic waters and sediments are complex hotspots of nutrient recycling, metal mobilizat...
The biogeochemistry of the sulfur cycle in a ca. 5-m-long sediment core from the eastern slope (221 ...
Enhanced release of alkalinity from the seafloor, principally driven by anaerobic degradation of org...
AbstractFilamentous sulfide oxidizing cable bacteria are capable of linking the oxidation of free su...
The Baltic Sea is characterized by the largest area of hypoxic (oxygen <2 mg/L) bottom waters in the...
The Baltic Sea is the largest brackish inland sea in the world with the salinity gradient decrease f...
My Ph.D thesis deals with biogeochemical cycling of carbon, sulfur and iron compounds in marine sedi...
Filamentous sulfide oxidizing cable bacteria are capable of linking the oxidation of free sulfide in...
Electrogenic sulfur oxidation (e-SOx) is a newly discovered pathway of microbial sulfide oxidation, ...
The Baltic Sea is characterized by the largest area of hypoxic (oxygen (O-2) <2 mg L-1) bottom water...
Sulfate reduction and sulfur–iron geochemistry were studied in 5–6 m deep gravity cores of Holocene ...
Sediment-hosted marine sulfur cycling has played a significant role in regulating Earth’s surface ch...
The restricted bathymetry of the Baltic Sea allows a strong halocline to form, limiting downward oxy...
Despite the importance of marine sediments as a carbon sink and many efforts to integrate microbiolo...