Supplementary material from "Does Arctic warming reduce preservation of organic matter in Barents Sea sediments?"

Over the last few decades, the Barents Sea experienced substantial warming, an expansion of relatively warm Atlantic water and a reduction in sea ice cover. This environmental change forces the entire Barents Sea ecosystem to adapt and restructure and therefore changes in pelagic–benthic coupling, o...

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Bibliographic Details
Main Authors: Faust, Johan C., Stevenson, Mark A., Abbott, Geoffrey D., Knies, Jochen, Tessin, Allyson, Mannion, Isobel, Ailbe Ford, Hilton, Robert, Peakall, Jeffrey, März, Christian
Format: Article in Journal/Newspaper
Language:unknown
Published: The Royal Society 2020
Subjects:
Geology
FOS Earth and related environmental sciences
Geochemistry
Arctic
Arctic Ocean
Barents Sea
Sea ice
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.5056733.v1
https://rs.figshare.com/collections/Supplementary_material_from_Does_Arctic_warming_reduce_preservation_of_organic_matter_in_Barents_Sea_sediments_/5056733/1
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Summary:Over the last few decades, the Barents Sea experienced substantial warming, an expansion of relatively warm Atlantic water and a reduction in sea ice cover. This environmental change forces the entire Barents Sea ecosystem to adapt and restructure and therefore changes in pelagic–benthic coupling, organic matter sedimentation and long-term carbon sequestration are expected. Here we combine new and existing organic and inorganic geochemical surface sediment data from the western Barents Sea and show a clear link between the modern ecosystem structure, sea ice cover and the organic carbon and CaCO 3 contents in Barents Sea surface sediments. Furthermore, we discuss the sources of total and reactive iron phases and evaluate the spatial distribution of organic carbon bound to reactive iron. Consistent with a recent global estimate we find that on average 21.0 ± 8.3 per cent of the total organic carbon is associated to reactive iron (fOC-Fe R ) in Barents Sea surface sediments. The spatial distribution of fOC-Fe R , however, seems to be unrelated to sea ice cover, Atlantic water inflow or proximity to land. Future Arctic warming might, therefore, neither increase nor decrease the burial rates of iron-associated organic carbon. However, our results also imply that ongoing sea ice reduction and the associated alteration of vertical carbon fluxes might cause accompanied shifts in the Barents Sea surface sedimentary organic carbon content, which might result in overall reduced carbon sequestration in the future.This article is part of the theme issue ‘The Changing Arctic Ocean: consequences for biological communities, biogeochemical processes and ecosystems’.

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