Add to ORKGTo indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted measurements of the physiochemical speciation of Fe in the euphotic zone at three different locations in the Baltic Sea. In addition to sampling across a salinity gradient, we conducted this study over the spring and summer season. Moving from the riverine input characterized low salinity Bothnian Sea, via the Landsort Deep near Stockholm, towards the Gotland Deep in the Baltic Proper, total Fe concentrations averaged 114, 44, and 15 nM, respectively. At all three locations, a decrease in total Fe of 80–90% from early spring to summer was observed. Particulate Fe (PFe) was the dominating phase at all stations and accounted for 75–85% of the t...
Physicochemical speciation of iron (Fe) and the trace metals Cd, Cu, Co, Mn, Ni, and Zn were perform...
The estuaries of the Northern Baltic Sea (Gulf of Bothnia) receive an abundance of diagenetically re...
Rivers discharge a notable amount of dissolved Fe (1:5×109 mol yr-1) to coastal waters but are still...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
In object to measure the physico-chemical speciation of iron, water samples were taken at 4 m dept...
Size fractionated classes of Fe in surface water at two stations, one in central Baltic Sea (the Lan...
The geochemistry of iron (Fe) during freshwater transport and estuarine mixing has been investigated...
The cycling of iron (Fe) is a key component for understanding water quality and biogeochemical proce...
Riverine Fe input is the primary Fe source for the ocean. This study is focused on the distribution ...
Recent sediments from the Gotland Deep display enrichments in reactive Fe, associated with elevated ...
Holocene sediments from the Gotland Deep basin in the Baltic Sea were investigated for their Fe isot...
Iron chemistry measurements were conducted during summer 2007 at two distinct locations in the Balti...
Physicochemical speciation of iron (Fe) and the trace metals Cd, Cu, Co, Mn, Ni, and Zn were perform...
The estuaries of the Northern Baltic Sea (Gulf of Bothnia) receive an abundance of diagenetically re...
Rivers discharge a notable amount of dissolved Fe (1:5×109 mol yr-1) to coastal waters but are still...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
In object to measure the physico-chemical speciation of iron, water samples were taken at 4 m dept...
Size fractionated classes of Fe in surface water at two stations, one in central Baltic Sea (the Lan...
The geochemistry of iron (Fe) during freshwater transport and estuarine mixing has been investigated...
The cycling of iron (Fe) is a key component for understanding water quality and biogeochemical proce...
Riverine Fe input is the primary Fe source for the ocean. This study is focused on the distribution ...
Recent sediments from the Gotland Deep display enrichments in reactive Fe, associated with elevated ...
Holocene sediments from the Gotland Deep basin in the Baltic Sea were investigated for their Fe isot...
Iron chemistry measurements were conducted during summer 2007 at two distinct locations in the Balti...
Physicochemical speciation of iron (Fe) and the trace metals Cd, Cu, Co, Mn, Ni, and Zn were perform...
The estuaries of the Northern Baltic Sea (Gulf of Bothnia) receive an abundance of diagenetically re...
Rivers discharge a notable amount of dissolved Fe (1:5×109 mol yr-1) to coastal waters but are still...