Publication Date:
2017-04-04
Description:
The response of the Earth to the melting of the Late Pleistocene ice sheets is commonly
studied by spherically layered models, based on well-established analytical methods. In parallel,
a few models have been recently proposed to circumvent the limitations imposed by
spherical symmetry, and to reproduce the actual structure of the lithosphere and of the upper
mantle. Their main outcome is that laterally varying rheological structures may significantly
affect various geophysical quantities related to glacial isostatic adjustment (GIA), and particularly
post-glacial relative sea-level (RSL) variations and 3-D crustal velocities in formerly
ice-covered regions. In this paper, we contribute to the ongoing debate about the role of
lithospheric and mantle heterogeneities by new 3-D spherical Newtonian finite elements models
and we directly compare their outcomes with publicly available global RSL data. This
differs from previous investigations, in that have mainly focused on extensive sensitivity analyses
or have considered a limited number of RSL observations from formerly glaciated regions
and their periphery. In our study the lithospheric thickness mimics the global structure of the
cratons based on geological evidence, and the upper mantle includes a low-viscosity zone
beneath the oceanic lithosphere.We use two distinct global surface loads, based upon the ICE1
and ICE3G deglaciation chronologies, respectively. Our main finding is that using all of the
available RSL observations in the last 6000 years it is not possible to discern between homogeneous
and heterogeneous GIA models. This result, which holds for both ICE1 and ICE3G,
suggests that the cumulative effects of laterally varying structures on the synthetic RSL curves
cancel out globally, yielding signals that do not significantly differ from those based on the
1-D models. We have also considered specific subsets of the global RSL database, sharing
similar geographical settings and distances from the main centres of deglaciation. When we
consider the data from the margins of the Baltic region, a laterally varying lithospheric thickness
improves significantly the agreement with the observations. This is not observed in other
relevant situations, including the Hudson bay region. In the regions where the disagreement between
predictions and observations is particularly evident, further investigations are needed to
improve the geometry of the heterogeneous structures and of the surface ice-sheets distribution.
Description:
Published
Description:
692-702
Description:
JCR Journal
Description:
reserved
Keywords:
glacial rebound
;
mantle viscosity
;
sea-level variations.
;
04. Solid Earth::04.01. Earth Interior::04.01.05. Rheology
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
article
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