Organic marker compounds in surface sediments from the Nordic Seas

Organic geochemical analyses of marine surface sediments from the continental margins of East Greenland and West Spitsbergen provide for a biomarker-based estimate of recent sea ice conditions in the northern North Atlantic. By means of the sea ice proxy IP25 and phytoplankton derived biomarkers (e....

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Bibliographic Details
Main Authors: Müller, Juliane, Wagner, Axel, Fahl, Kirsten, Stein, Ruediger, Prange, Matthias, Lohmann, Gerrit
Format: Dataset
Language:English
Published: PANGAEA 2011
Subjects:
2,6,10,14-Tetramethyl-7-(3-methylpent-4-enyl)pentadecane
per unit mass total organic carbon
2,6,10,14-Tetramethyl-7-(3-methylpent-4-enyl)pentadecane per unit sediment mass
24-Methylcholesta-5,22E-dien-3beta-ol
24-Methylcholesta-5,22E-dien-3beta-ol per unit sediment mass
4alpha,23,24-Trimethyl-5alpha-cholest-22E-en-3beta-ol
4alpha,23,24-Trimethyl-5alpha-cholest-22E-en-3beta-ol per unit sediment mass
ARK-X/2
ARK-XIX/4a
ARK-XVI/1
ARK-XVIII/1
AWI_Paleo
Calculated
see reference(s)
DEPTH
sediment/rock
East Greenland Sea
Elevation of event
Event label
Gas chromatography - Mass spectrometry (GC-MS)
Giant box corer
GKG
Greenland Sea
HG_II
Hurry Inlet
East Greenland
Iceland Sea
Integrierte Analyse zwischeneiszeitlicher Klimadynamik
INTERDYNAMIK
Kempe Fjord
Latitude of event
Location of event
Longitude of event
MUC
MultiCorer
n-Alkane C15
n-Alkane C17
n-Alkane C19
North Greenland Sea
OBS
OBS314
Arctic
Greenland
Kempe
Iceland
Nordic Seas
North Atlantic
North Greenland
Phytoplankton
Sea ice
Spitsbergen
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.759566
https://doi.org/10.1594/PANGAEA.759566
Description
Summary:Organic geochemical analyses of marine surface sediments from the continental margins of East Greenland and West Spitsbergen provide for a biomarker-based estimate of recent sea ice conditions in the northern North Atlantic. By means of the sea ice proxy IP25 and phytoplankton derived biomarkers (e.g. brassicasterol, dinosterol) we reconstruct sea ice and sea surface conditions, respectively. The combination of IP25 with a phytoplankton marker (in terms of a phytoplankton marker-IP25 index; PIP25) proves highly valuable to properly interpret the sea ice proxy signal as an under- or overestimation of sea ice coverage can be circumvented. A comparison of this biomarker-based assessment of the sea ice distribution in the study area with (1) modern remote sensing data and (2) numerical modelling results reveals a good agreement between organic geochemical, satellite and modelling observations. The reasonable simulation of modern sea ice conditions by means of a regional ocean-sea ice model demonstrates the feasibility to effectively integrate the complex atmospheric and oceanic circulation features as they prevail in the study area. The good correlation between modelled sea ice parameters and the biomarker-based estimate of sea ice coverage substantiates that linking proxy and model data occurs to be a promising concept in terms of a cross-evaluation. This combinatory approach may provide a first step towards quantitative sea ice reconstructions by means of IP25. Future IP25 studies on marine surface sediments from the Arctic realm, however, are recommended to extend and validate this new attempt of using IP25 in combination with a phytoplankton marker as a quantitative measure for sea ice reconstructions.

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