Abstract
Arctic Ocean sea-level change is an important indicator of climate change. Contemporary geodetic observations, including data from tide gages, satellite altimetry and Gravity Recovery and Climate Experiment (GRACE), are sensitive to the effect of the ongoing glacial isostatic adjustment (GIA) process. To fully exploit these geodetic observations to study climate related sea-level change, this GIA effect has to be removed. However, significant uncertainty exists with regard to the GIA model, and using different GIA models could lead to different results. In this study we use an ensemble of 14 contemporary GIA models to investigate their differences when they are applied to the above-mentioned geodetic observations to estimate sea-level change in the Arctic Ocean. We find that over the Arctic Ocean a large range of differences exists in GIA models when they are used to remove GIA effect from tide gage and GRACE observations, but with a relatively smaller range for satellite altimetry observations. In addition, we compare the derived sea-level trend from observations after applying different GIA models in the study regions, sea-level trend estimated from long-term tide gage data shows good agreement with altimetry result over the same data span. However the mass component of sea-level change obtained from GRACE data does not agree well with the result derived from steric-corrected altimeter observation due primarily to the large uncertainty of GIA models, errors in the Arctic Ocean altimetry or steric measurements, inadequate data span, or all of the above. We conclude that GIA correction is critical for studying sea-level change over the Arctic Ocean and further improvement in GIA modelling is needed to reduce the current discrepancies among models.
Highlights
Sea-level change is an important indicator of anthropogenic climate change especially in the Arctic region, which is undergoing significant changes in climate and environmental conditions
The comparison between the glacial isostatic adjustment (GIA) models are studied in Guo et al (2012) by using two approximate relationships developed by Wahr (Wahr et al 1995), results show unacceptable differences between those models when they are used in the Gravity Recovery And Climate Experiment (GRACE) study
In this study we focus on the Arctic Ocean and compare the differences when they are used to remove GIA contribution from contemporary geodetic observations
Summary
Sea-level change is an important indicator of anthropogenic climate change especially in the Arctic region, which is undergoing significant changes in climate and environmental conditions. Contemporary observations used to study Arctic sealevel changes are obtained from long-term tide gage, and more recently, data from satellite radar altimetry and Gravity Recovery And Climate Experiment (GRACE) (e.g., Proshutinsky et al 2001, 2004; Kuo 2006; Morison et al 2007; Killett et al 2011). Those observations include contributions from ongoing glacial isostatic adjustment (GIA) process, which is the Earth’s continuing viscoelastic response to the loading of glaciation and deglaciation since the last Ice Age. To study climate related sea-level change, this GIA effect should be removed from the derived sealevel trend, the straightforward way to do so is based upon GIA forward models. Arctic altimetry data sets have been improved and higher quality altimetry data are obtained and validated in sea-ice free oceans (e.g., Lebedev et al 2011; Cheng et al 2012; Volkov and Pujol 2012)
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