Perner, Kerstin; Moros, Matthias; Jennings, Anne E; Lloyd, Jeremy M; Knudsen, Karen Luise (2019): Holocene palaeoceanographic evolution off West Greenland [dataset publication series]. Deutsche Forschungsgemeinschaft, Bonn, PANGAEA, https://doi.org/10.1594/PANGAEA.898319, Supplement to: Perner, K et al. (2013): Holocene palaeoceanographic evolution off West Greenland. The Holocene, 23(3), 374-387, https://doi.org/10.1177/0959683612460785
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Abstract:
Benthic foraminiferal assemblages from a core southwest of Disko Bugt provide a Holocene perspective (last ~7 ka BP) on ice-sheet/ocean interactions between the West Greenland Current (WGC) and the West Greenland ice sheet. Changes in the fauna reveal significant variations in the water mass properties (temperature and salinity) of the WGC through time. From 7.3 to 6.2 ka BP, a relatively warm/strong WGC influences ice-sheet melt in Disko Bugt and causes enhanced meltwater production, resulting in low surface-water productivity. The most favourable oceanographic conditions occur from 5.5 to 3.5 ka BP, associated with 'thermal optimum-like' conditions, encompassing minimum ice sheet extent in the Disko Bugt area. These conditions are attributed to: (1) reduced meltwater influence as the ice sheet is land based and (2) enhanced contribution of warm/saline water masses from the Irminger Current to the WGC. The transition into the late Holocene (last ~3.5 ka BP) is characterized by a cooling of oceanographic conditions, caused by increased advection of cold/low-salinity water masses from the East Greenland Current. A longer-term late-Holocene cooling trend within the WGC is attributed to the onset of Neoglacial cooling within the North Atlantic region. Superimposed on this cooling trend, multicentennial-scale variability within the WGC matches reconstructions from a nearby coring site in Disko Bugt as follows: (1) cooling at ~2.5 ka BP, linked to the 2.7 ka BP 'cooling event'; (2) a warm phase centred at 1.8 ka BP, associated with the 'Roman Warm Period'; (3) slight warming between 1.4 and 0.9 ka BP, linked to the 'Medieval Climate Anomaly'; (4) severe cooling of the WGC after 0.9 ka BP, culminating at 0.3 ka BP during the 'Little Ice Age'. We show that multicentennial-scale palaeoceanography variability along the West Greenland margin is driven by ocean forcing, i.e. variations in the relative contribution of Atlantic (Irminger Current) and Polar (East Greenland Current) water masses to the WGC during the last ~7 ka BP, influencing ice sheet dynamics.
Coverage:
Latitude: 68.470000 * Longitude: -54.001000
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
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3 datasets
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Datasets listed in this publication series
- Perner, K; Moros, M; Jennings, AE et al. (2019): Benthic foraminifera from sediment core MSM05/3_343300 off West Greenland. https://doi.org/10.1594/PANGAEA.898315
- Perner, K; Moros, M; Jennings, AE et al. (2019): Silt and age analysis from sediment core MSM05/3_343300 off West Greenland. https://doi.org/10.1594/PANGAEA.898318
- Perner, K; Moros, M; Jennings, AE et al. (2019): Total organic carbon (TOC) from sediment core MSM05/3_343300 off West Greenland. https://doi.org/10.1594/PANGAEA.898317