Variability in transport of terrigenous material on the shelves and the deep Arctic Ocean during the Holocene
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https://hdl.handle.net/10037/26767Date
2015-12-09Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Wegner, C.; Bennet, K.; Vernal, Anne de; Forwick, Matthias; Fritz, M.; Heikkilä, Maija; Łącka, Magdalena; Lantuit, Hugues; Laska, Michał; Moskalik, Mateusz; O’Regan, Matt; Pawłowska, J; Promińska, Agnieszka; Rachold, Volker; Vonk, Jorien E.; Werner, KirstinAbstract
Arctic coastal zones serve as a sensitive filter for terrigenous matter input onto
the shelves via river discharge and coastal erosion. This material is further
distributed across the Arctic by ocean currents and sea ice. The coastal regions
are particularly vulnerable to changes related to recent climate change. We
compiled a pan-Arctic review that looks into the changing Holocene sources,
transport processes and sinks of terrigenous sediment in the Arctic Ocean.
Existing palaeoceanographic studies demonstrate how climate warming and
the disappearance of ice sheets during the early Holocene initiated eustatic
sea-level rise that greatly modified the physiography of the Arctic Ocean.
Sedimentation rates over the shelves and slopes were much greater during
periods of rapid sea-level rise in the early and middle Holocene, as a result of
the relative distance to the terrestrial sediment sources. However, estimates of
suspended sediment delivery through major Arctic rivers do not indicate
enhanced delivery during this time, which suggests enhanced rates of coastal
erosion. The increased supply of terrigenous material to the outer shelves and
deep Arctic Ocean in the early and middle Holocene might serve as analogous
to forecast changes in the future Arctic.
Publisher
The Norwegian Polar InstituteCitation
Wegner C, Bennet K, Vernal Ad, Forwick M, Fritz M, Heikkilä M, Łącka, Lantuit H, Laska, Moskalik M, O’Regan, Pawłowska, Promińska, Rachold V, Vonk, Werner K. Variability in transport of terrigenous material on the shelves and the deep Arctic Ocean during the Holocene. Polar Research. 2015;34Metadata
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Copyright 2015 The Author(s)