2014
DOI: 10.1016/j.quascirev.2014.07.018
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A model of Greenland ice sheet deglaciation constrained by observations of relative sea level and ice extent

Abstract: . (2014) 'A model of Greenland ice sheet deglaciation constrained by observations of relative sea level and ice extent.', Quaternary science reviews., 102 . pp. 54-84. Further information on publisher's website:http://dx.doi.org/10.1016/j.quascirev.2014.07.018Publisher's copyright statement: NOTICE: this is the author's version of a work that was accepted for publication in Quaternary Science Reviews. Changes resulting from the publishing process, such as peer review, editing, corrections, structural format… Show more

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Cited by 215 publications
(374 citation statements)
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References 142 publications
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“…On the timescales of this study, the main processes driving this spatial and temporal variability is GIA (Rovere et al, 2016). The variability results from the interplay between the GrIS-driven local changes, as is typical for near-field regions and the non-local changes driven by the LIS and the IIS (Lecavalier et al, 2014). This is because Greenland sits on the resulting forebulge of the LIS.…”
Section: Relative Sea Level or Water Depth Forcingmentioning
confidence: 83%
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“…On the timescales of this study, the main processes driving this spatial and temporal variability is GIA (Rovere et al, 2016). The variability results from the interplay between the GrIS-driven local changes, as is typical for near-field regions and the non-local changes driven by the LIS and the IIS (Lecavalier et al, 2014). This is because Greenland sits on the resulting forebulge of the LIS.…”
Section: Relative Sea Level or Water Depth Forcingmentioning
confidence: 83%
“…This is mostly due to the reduction in the estimated contribution from the Antarctic Ice Sheet (AIS), derived from both modelling and observational studies. In addition, glacial isostatic adjustment (GIA) modelling studies have estimated the contribution of the GrIS to the LGM GMSL budget to be ∼ 5 m (Lecavalier et al, 2014), whereas most ice-sheet modelling-based studies indicate significantly less (typically < 2.5 m; average < 1 m) (Fyke et al, 2011;Letreguilly et al, 1991;Ritz et al, 1996). These lower estimates are possibly caused by restricting the glacial maximum extent to the PD coastline.…”
Section: Introductionmentioning
confidence: 99%
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“…(LGM at~24 ka) n/r n/r n/r n/r n/r n/r 5.6 to 14.3 n/r n/r n/r Argus et al, 2014. (ICE-6G) n/r n/r n/r n/r n/r n/r 13.6 n/r n/r n/r Huybrechts, 2002 (LGM at~21 ka) n/r n/r n/r n/r 2 to 3 n/r 14 to 18 n/r n/r n/r Huy2 (Simpson et al, 2009) n/r n/r n/r n/r 4.1 n/r n/r n/r n/r n/r Huy3 (Lecavalier et al, 2014) n/r n/r n/r n/r >4.7 n/r n/r n/r n/r n/r layer without planktonic foraminifera (e.g., Fenton et al, 2000 and references therein); only a few sea-level values could be recovered from this "aplanktonic" layer (Fig. 2b).…”
Section: Denton and Hughes 2002mentioning
confidence: 99%
“…This has progressed from hand-tuned models (e.g. Tarasov and Peltier, 2002) to approaches that explore and quantify (to varying extents) uncertainties due 44 to climate forcing and glaciological model components Briggs et al, 2014) as well as uncertainties in the regional Earth rheology (Whitehouse et al, 2012;Lecavalier et al, 2014). The much expanded constraint of glaciological-self-consistency, however, can come with an expected cost.…”
Section: Constraining Ice Sheet Thickness and Palaeotopography Using mentioning
confidence: 99%