期刊
MARINE ECOLOGY PROGRESS SERIES
卷 600, 期 -, 页码 21-39出版社
INTER-RESEARCH
DOI: 10.3354/meps12663
关键词
Arctic; Carbon cycling; Sediment; Respiration; C-13; Bacteria; Benthic-pelagic coupling; Sea ice cover
资金
- University of Aberdeen The North theme
- Natural Environment Research Council ArcDEEP project [NE/J023094]
- ArcticNet
- Green Edge (Takuvik)
- NERC [NE/J023094/1] Funding Source: UKRI
Benthic ecosystems play a significant role in the carbon (C) cycle through remineralization of organic matter reaching the seafloor. Ice algae and phytoplankton are major C sources for Arctic benthic consumers, but climate change-mediated loss of summer sea ice is predicted to change Arctic marine primary production by increasing phytoplankton and reducing ice algal contributions. To investigate the impact of changing algal C sources on benthic C processing, 2 isotope tracing experiments on C-13-labelled ice algae and phytoplankton were conducted in the North Water Polynya (NOW; 709 m depth) and Lancaster Sound (LS; 794 m) in the Canadian Arctic, during which the fate of ice algal (C-IA) and phytoplankton (C-PP) C added to sediment cores was traced over 4 d. No difference in sediment community oxygen consumption (SCOC, indicative of total C turnover) between the background measurements and ice algal or phytoplankton cores was found at either site. Most of the processed algal C was respired, with significantly more CPP than C-IA being released as dissolved inorganic C at both sites. Macroinfaunal uptake of algal C was minor, but bacterial assimilation accounted for 33-44% of total algal C processing, with no differences in bacterial uptake of C-PP and C-IA found at either site. Overall, the total processing (i.e. assimilation and respiration) of C-PP was 33 and 37% higher than processing of C-IA in NOW and in LS, respectively, suggesting that the future changes in quality of organic matter sinking to the seafloor could impact the C residence time at the seafloor.
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