Ongoing glacial isostatic contributions to observations of sea level change
Tamisiea, M. E.. 2011 Ongoing glacial isostatic contributions to observations of sea level change. Geophysical Journal International, 186 (3). 1036-1044. 10.1111/j.1365-246X.2011.05116.x
Full text not available from this repository. (Request a copy)Abstract/Summary
Studies determining the contribution of water fluxes to sea level rise typically remove the ongoing effects of glacial isostatic adjustment (GIA). Unfortunately, use of inconsistent terminology between various disciplines has caused confusion as to how contributions from GIA should be removed from altimetry and GRACE measurements. In this paper, we review the physics of the GIA corrections applicable to these measurements and discuss the differing nomenclature between the GIA literature and other studies of sea level change. We then examine a range of estimates for the GIA contribution derived by varying the Earth and ice models employed in the prediction. We find, similar to early studies, that GIA produces a small (compared to the observed value) but systematic contribution to the altimetry estimates, with a maximum range of -0.15 to -0.5 mm yr-1. Moreover, we also find that the GIA contribution to the mass change measured by GRACE over the ocean is significant. In this regard, we demonstrate that confusion in nomenclature between the terms 'absolute sea level' and 'geoid' has led to an overestimation of this contribution in some previous studies. A component of this overestimation is the incorrect inclusion of the direct effect of the contemporaneous perturbations of the rotation vector, which leads to a factor of ˜two larger value of the degree two, order one spherical harmonic component of the model results. Aside from this confusion, uncertainties in Earth model structure and ice sheet history yield a spread of up to 1.4 mm yr-1 in the estimates of this contribution. However, even if the ice and Earth models were perfectly known, the processing techniques used in GRACE data analysis can introduce variations of up to 0.4 mm yr-1. Thus, we conclude that a single-valued 'GIA correction' is not appropriate for sea level studies based on gravity data; each study must estimate a bound on the GIA correction consistent with the adopted data-analysis scheme
Item Type: | Publication - Article |
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Digital Object Identifier (DOI): | 10.1111/j.1365-246X.2011.05116.x |
Programmes: | Oceans 2025 > Climate, ocean circulation and sea level |
ISSN: | 0956-540X |
Additional Keywords: | SATELLITE GEODESY; SEA LEVEL CHANGE; TIME VARIABLE GRAVITY; GRACE |
NORA Subject Terms: | Marine Sciences |
Date made live: | 07 Sep 2011 15:53 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/15083 |
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