Pliocene sea ice evolution in the Iceland and Labrador Sea – A biomarker approach

Sea ice plays a crucial role in the climate system. Although this is broadly acknowledged, the role of sea ice is not fully understood, especially during warmer periods such as the Pliocene (5.88–2.58 Million years (Ma) ago). Fragmentary evidence suggests that the Arctic sea ice was reduced in the P...

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Bibliographic Details
Published in:Earth and Planetary Science Letters
Main Author: Clotten, Caroline
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: The University of Bergen 2017
Subjects:
Arctic
Arctic Ocean
Greenland
Norwegian Sea
East Greenland
east greenland current
Ice Sheet
Iceland
Labrador Sea
Nordic Seas
North Atlantic
Sea ice
Online Access:https://hdl.handle.net/1956/16992
Description
Summary:Sea ice plays a crucial role in the climate system. Although this is broadly acknowledged, the role of sea ice is not fully understood, especially during warmer periods such as the Pliocene (5.88–2.58 Million years (Ma) ago). Fragmentary evidence suggests that the Arctic sea ice was reduced in the Pliocene, but that it could have been transported into the Nordic Seas, when the East Greenland Current (EGC) developed, which established the modern Nordic Seas circulation. Today the EGC is the main exporter of cooler and fresher Arctic water masses into the Nordic Seas and carries 90% of the total sea ice exported from the Arctic Ocean with it. The main objectives of this thesis are to determine the presence of (seasonal) sea ice in the Pliocene Iceland and Labrador Seas and to identify the role of the EGC and sea ice on the Pliocene (sub-)Arctic climate. The Iceland Sea and the Labrador Sea are important and sensitive regions for determining the occurrence of sea ice and changes in the EGC and Greenland Ice Sheet (GIS). Therefore, Early Pliocene to Early Quaternary sediments were investigated from the Iceland Sea (ODP Site 907) and the Labrador Sea (IODP Site U1307) using biomarkers (IP25, sterols, alkenones) to reconstruct the Pliocene paleoceanography and especially the sea ice cover in both areas. Additional information was obtained from palynological analysis of the same sites. My analyses revealed, that sea ice occurred for the first time in the Pliocene Iceland Sea around 4.5 Ma, together with a cooling of the entire Nordic Seas. The development of a proto EGC replaced warmer Atlantic water masses in the Iceland Sea and either favored the local formation of sea ice or directly exported sea ice from the Arctic Ocean. At ~4.0 Ma, an extended interval of seasonal sea ice in the Iceland Sea occurred contemporaneously with the establishment of a large sea surface temperature (SST) gradient in the Nordic Seas: the Iceland Sea cooled further, whereas the Norwegian Sea warmed. Increased warming in the North Atlantic ...

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