Add to ORKGIron chemistry measurements were conducted during summer 2007 at two distinct locations in the Baltic Sea (Gotland Deep and Landsort Deep) to evaluate the role of iron for cyanobacterial bloom development in these estuarine waters. Depth profiles of Fe(II) were measured by chemiluminescent flow injection analysis (CL-FIA). Up to 0.9 nmol Fe(II) L−1 were detected in light penetrated surface waters, which constitutes up to 20% to the dissolved Fe pool. This bioavailable iron source is a major contributor to the Fe requirements of Baltic Sea phytoplankton and apparently plays a major role for cyanobacterial bloom development during our study. Measured Fe(II) half life times in oxygenated water exceed predicted values and indicate organic Fe(II...
Organic complexation of dissolved iron (dFe) was investigated in the Atlantic sector of the Southern...
The speciation of dissolved iron (DFe) in the ocean is widely assumed to consist almost exclusively ...
On voyages in the Iceland Basin in 2007 and 2009, we observed low (ca. 0.1 nM) total dissolved iron ...
Iron chemistry measurements were conducted during summer 2007 at two distinct locations in the Balti...
In object to measure the physico-chemical speciation of iron, water samples were taken at 4 m dept...
Iron is an essential, yet scarce, nutrient in marine environments. Phytoplankton, and especially cya...
Recent years have seen an increased occurrence of large icebergs in the Southern Ocean originating f...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
The distribution of dissolved iron and its chemical speciation (organic complexation and redox speci...
Iron is an essential micronutrient for the growth of planktonic species. It is an integral element o...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
Iron is an essential micronutrient that is required by some microorganisms in relatively large quant...
The knowledge of iron biogeochemistry is constrained by paucity in the understanding of its uptake, ...
Dissolved Fe(II) was isolated and preconcentrated in situ in the euphotic waters of the equatorial P...
Organic complexation of dissolved iron (dFe) was investigated in the Atlantic sector of the Southern...
The speciation of dissolved iron (DFe) in the ocean is widely assumed to consist almost exclusively ...
On voyages in the Iceland Basin in 2007 and 2009, we observed low (ca. 0.1 nM) total dissolved iron ...
Iron chemistry measurements were conducted during summer 2007 at two distinct locations in the Balti...
In object to measure the physico-chemical speciation of iron, water samples were taken at 4 m dept...
Iron is an essential, yet scarce, nutrient in marine environments. Phytoplankton, and especially cya...
Recent years have seen an increased occurrence of large icebergs in the Southern Ocean originating f...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
The distribution of dissolved iron and its chemical speciation (organic complexation and redox speci...
Iron is an essential micronutrient for the growth of planktonic species. It is an integral element o...
To indentify sources and transport mechanisms of iron in a coastal marine environment, we conducted ...
Iron is an essential micronutrient that is required by some microorganisms in relatively large quant...
The knowledge of iron biogeochemistry is constrained by paucity in the understanding of its uptake, ...
Dissolved Fe(II) was isolated and preconcentrated in situ in the euphotic waters of the equatorial P...
Organic complexation of dissolved iron (dFe) was investigated in the Atlantic sector of the Southern...
The speciation of dissolved iron (DFe) in the ocean is widely assumed to consist almost exclusively ...
On voyages in the Iceland Basin in 2007 and 2009, we observed low (ca. 0.1 nM) total dissolved iron ...