Evidence for active microbial nitrogen transformations in sea ice (Gulf of Bothnia, Baltic Sea) in midwinter
H Kaartokallio - Polar Biology, 2001 - Springer
Polar Biology, 2001•Springer
Nutrient concentrations, chlorophyll-a, bacterial biomass and relative activity of denitrifying
organisms were investigated from ice-core, brine and underlying water samples in February
1998 in the Gulf of Bothnia, Baltic Sea. Examined sea ice was typical for the Baltic Sea; ice
bulk salinity varied from 0.1 to 1.6 psu, and in underlying water salinity was from 4.2 to 4.7
psu. In 2-to 3-months-old sea ice (thickness 0.4–0.6 m), sea-ice communities were at the
winter stage; chl-a concentrations were generally below 1 mg m− 3 and heterotrophic …
organisms were investigated from ice-core, brine and underlying water samples in February
1998 in the Gulf of Bothnia, Baltic Sea. Examined sea ice was typical for the Baltic Sea; ice
bulk salinity varied from 0.1 to 1.6 psu, and in underlying water salinity was from 4.2 to 4.7
psu. In 2-to 3-months-old sea ice (thickness 0.4–0.6 m), sea-ice communities were at the
winter stage; chl-a concentrations were generally below 1 mg m− 3 and heterotrophic …
Abstract
Nutrient concentrations, chlorophyll-a, bacterial biomass and relative activity of denitrifying organisms were investigated from ice-core, brine and underlying water samples in February 1998 in the Gulf of Bothnia, Baltic Sea. Examined sea ice was typical for the Baltic Sea; ice bulk salinity varied from 0.1 to 1.6 psu, and in underlying water salinity was from 4.2 to 4.7 psu. In 2- to 3-months-old sea ice (thickness 0.4–0.6 m), sea-ice communities were at the winter stage; chl-a concentrations were generally below 1 mg m−3 and heterotrophic organisms composed 7–20% of organism assemblage. In 1-month-old ice (thickness 0.2–0.25 m), an ice spring bloom was already developing and chl-a concentrations were up to 5.6 mg m−3. In relation to low salinity, high concentrations of NH+ 4, NO− 2, PO3+ 4 and SiOH4 were found in the ice column. The results suggest that the upper part of ice accumulates atmospheric nutrient load during the ice season, and nutrients in the upper 10–20 cm of ice are mainly of atmospheric origin. The most important biological processes controlling the sea-ice nutrient status are nutrient regeneration, nutrient uptake and nitrogen transformations. Nutrient regeneration is specially active in the middle parts of the 50- to 60-cm-thick ice and subsequent accumulation of nutrients probably enhances the ice spring bloom. Nitrite accumulation and denitrifying activity were located in the same ice layers with nutrient regeneration, which together with the observed significant correlation between the concentrations of nitrogenous nutrients points to active nitrogen transformations occurring in the interior layers of sea ice in the Baltic Sea.
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