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Late Weichselian relative sea-level changes and ice sheet history in southeast Greenland
Long, A.J.; Roberts, D.H.; Simpson, M.J.R.; Dawson, S.; Milne, G.A.; Huybrechts, P. (2008). Late Weichselian relative sea-level changes and ice sheet history in southeast Greenland. Earth Planet. Sci. Lett. 272(1-2): 8-18. dx.doi.org/10.1016/j.epsl.2008.03.042
In: Earth and Planetary Science Letters. Elsevier: Amsterdam. ISSN 0012-821X, more
Peer reviewed article  

Available in Authors 
    VLIZ: Open Repository 230682 [ OMA ]

Author keywords
    Greenland Ice Sheet; relative sea-level; isolation basin; ice sheet

Authors  Top 
  • Long, A.J.
  • Roberts, D.H.
  • Simpson, M.J.R.
  • Dawson, S.
  • Milne, G.A.
  • Huybrechts, P., more

Abstract
    Relative sea-level (RSL) observations from the margins of the Greenland Ice Sheet (GIS) provide information regarding the timing and rate of deglaciation and constraints on geophysical models of ice sheet evolution. In this paper we present the first RSL record for the southeast sector of the GIS based on field observations completed close to Ammassalik. The local marine limit is c. 69 m above sea-level (asl) and is dated to c. 11 k cal. yrs BP (thousand calibrated years before present) and is a minimum date for ice free conditions at the study site. RSL fell to c. 24 in asl by 9.5 k cal. yrs BP and continued to fall at a decreasing rate to reach close to present by 6.5 k cal. yrs BR Our chronology agrees with radiocarbon dates from offshore cores that indicate ice free conditions on the adjacent mid-shelf by 15 k cal. yrs BR We compare the new RSL data with predictions generated using two recently published glaciological models of the CIS that differ in the amount and timing of ice loading and unloading over our study area. These two CIS models are coupled to the same Earth viscosity model and background (global) ice model to aid in the data-model comparison. Neither model provides a close fit to the RSL observations. Based on a preliminary sensitivity study using a suite of Earth viscosity models, we conclude that the poor data-model fit is most likely due to an underestimate of the local ice unloading. An improved fit could be achieved by delaying the retreat of a thicker ice sheet across the continental shelf. A thick ice sheet extending well onto the continental shelf is in agreement with other recent observations elsewhere in east and South Greenland.

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