Affiliation:
1. Department of Geodesy and Earth Observations Technical University of Denmark Kgs. Lyngby Denmark
2. Department of Glaciology and Climate Geological Survey of Denmark and Greenland Copenhagen Denmark
3. School of Earth Sciences Ohio State University Columbus OH USA
4. Lantmäteriet Gävle Sweden
Abstract
AbstractGreenland's bedrock responds to ongoing ice loss with an elastic vertical land motion (VLM) that is measured by Greenland's Global Navigation Satellite System (GNSS) Network (GNET). The measured VLM also contains other contributions, including the long‐term viscoelastic response of the Earth to the deglaciation of the last glacial period. Greenland's ice sheet (GrIS) produces the most significant contribution to the total VLM. The contribution of peripheral glaciers (PGs) from both Greenland (GrPGs) and Arctic Canada (CanPGs) has not carefully been accounted for in previous GNSS analyses. This is a significant concern, since GNET stations are often closer to PGs than to the ice sheet. We find that, PGs produce significant elastic rebound, especially in North and East Greenland. Across these regions, the PGs produce up to 32% of the elastic rebound. For a few stations in the North, the VLM from PGs is larger than that due to the GrIS.
Publisher
American Geophysical Union (AGU)
Subject
General Earth and Planetary Sciences,Geophysics