Autotrophic and heterotrophic activity in Arctic first-year sea ice:seasonal study from Malene Bight, SW Greenland

We present a study of autotrophic and heterotrophic activities of Arctic sea ice (Malene Bight, SW Greenland) as measured by 2 different approaches: (1) standard incubation techniques (H14CO3– and [3H]thymidine incubation) on sea ice cores brought to the laboratory and (2) cores incubated in situ in...

Full description

Bibliographic Details
Published in:Marine Ecology Progress Series
Main Authors: Søgaard, Dorte Haubjerg, Kristensen, Morten, Rysgaard, Søren, Glud, Ronnie Nøhr, Hansen, Per Juel, Hillingsøe, Karen Marie
Format: Article in Journal/Newspaper
Language:English
Published: 2010
Subjects:
Arctic
Greenland
Sea ice
Online Access:https://curis.ku.dk/portal/da/publications/autotrophic-and-heterotrophic-activity-in-arctic-firstyear-sea-ice(7d4dc6b2-a61f-48c0-b562-490f02c3eb05).html
https://doi.org/10.3354/meps08845
https://curis.ku.dk/ws/files/165175340/S_gaard_2010_Autotrophic_and_heterotrophic.pdf
Description
Summary:We present a study of autotrophic and heterotrophic activities of Arctic sea ice (Malene Bight, SW Greenland) as measured by 2 different approaches: (1) standard incubation techniques (H14CO3– and [3H]thymidine incubation) on sea ice cores brought to the laboratory and (2) cores incubated in situ in plastic bags with subsequent melting and measurements of changes in total O2 concentrations. The standard incubations showed that the annual succession followed a distinctive pattern, with a low, almost balancing heterotrophic and autotrophic activity during February and March. This period was followed by an algal bloom in late March and April, leading to a net autotrophic community. During February and March, the oxygen level in the bag incubations remained constant, validating the low balanced heterotrophic and autotrophic activity. As the autotrophic activity exceeded the heterotrophic activity in late March and April, it resulted in a significant net oxygen accumulation in the bag incubations. Integrated over the entire season, the sea ice of Malene Bight was net autotrophic with an annual net carbon fixation of 220 mg C m– 2, reflecting the net result of a sea ice-related gross primary production of 350 mg C m– 2 and concurrent bacterial carbon demand of 130 mg C m– 2. Converting the O2 net exchange of the bag incubations into carbon turnover estimated an annual net carbon fixation of 1700 ± 760 mg C m– 2 (mean ± SD), which was higher than the annual net carbon fixation quantified in the standard incubations

Similar Items