Microfossil content and paleoenvironmental reconstructions from sediment profile JM06-WP-04-MCB

A sediment core located on the West Spitzbergen margin in the Fram Strait (78°54.931'N, 6°46.005'E, water depth: 1497 m) was analyzed for its dinocyst content in order to reconstruct hydroclimatic variations of the last 2500 years. The relative abundance of dinocyst taxa and principal comp...

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Bibliographic Details
Main Authors: Bonnet, Sophie, de Vernal, Anne, Hillaire-Marcel, Claude, Radi, Taoufik, Husum, Katrine
Format: Dataset
Language:English
Published: PANGAEA 2012
Subjects:
4
Fram Strait
Jan Mayen
JM06-WP
JM06-WP-04-MCB
MUC
MultiCorer
WarmPast 2006
Arctic
Arctic Ocean
North Atlantic
Sea ice
Spitzbergen
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.780179
https://doi.org/10.1594/PANGAEA.780179
Description
Summary:A sediment core located on the West Spitzbergen margin in the Fram Strait (78°54.931'N, 6°46.005'E, water depth: 1497 m) was analyzed for its dinocyst content in order to reconstruct hydroclimatic variations of the last 2500 years. The relative abundance of dinocyst taxa and principal component analysis show a major transition at about 300 cal. years BP. It is characterized by the disappearance of thermophilic taxa Spiniferites mirabilis-hyperacanthus and Impagidinium sphaericum and the increase of polar-subpolar taxa Impagidinium pallidum and Pentapharsodinium dalei. Sea-surface temperature (SST) estimates suggest warmer conditions than present (anomaly ab. +2 °C) averaging at 7 °C in summer until 300 cal. years BP, although cooling pulses are recorded around 1700, 1500, 1200 and 800 cal. years BP. The last 300 years were marked by a cooling from 7.6 to 3.5 °C and sea-ice cover increasing up to 7 months/yr. The results demonstrate that the Fram Strait area is sensitive to hydroclimatic variations, notably with respect to sea-ice and SSTs, which are linked to the relative strength of northward flow of North Atlantic waters to the East and southward outflow of cold and fresh waters from the Arctic Ocean. Based on our data, the warmest part of our record around 1320 cal. years BP is the only interval of the last 2500 years that provides a possible analogue for the modern post-AD 2000 interval, which is characterized by sea-ice free conditions.

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