Abstract
SEA-LEVEL variations, as recorded by the global network of tide gauges, represent a rich data set for studying a wide range of natural and anthropogenic phenomena, such as the sea-level rise induced by possible global warming. For this purpose, long-term sea-level trends must be corrected for the 'contaminating' effects of continuing glacial isostatic adjustment1–5 (GIA). The numerical correction procedure has, for sites on the east coast of North America, yielded a set of highly anomalous sea-level rates characterized by systematic geographical trends2,4,5. We demonstrate that these trends are a consequence of inadequacies in the previous 'standard' numerical prediction for GIA. In particular, we find that the well-known trends in the GIA-corrected tide gauge rates are eliminated if the lower-mantle viscosity of the Earth model used in the GIA prediction is increased. This result obviates the need to explain the anomalous trend as a manifestation of Gulf Stream ocean circulation4 or neotectonic processes2.
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Davis, J., Mitrovica, J. Glacial isostatic adjustment and the anomalous tide gauge record of eastern North America. Nature 379, 331–333 (1996). https://doi.org/10.1038/379331a0
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DOI: https://doi.org/10.1038/379331a0
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