Solid earth deformation due to glacial mass changes above low-viscosity upper mantle: Model development, importance of contemporary ice melt, and an application to southeast Greenland
Abstract
Changes to Earth’s climate redistribute masses of ice and water on Earth's surface. These loads cause the solid earth to deform, and it is commonly thought that this happens in two ways: ice age ice melting caused a long-term viscous flow that is still occurring, and modern ice melting drives an instantaneous elastic deformation. However, regions in West Antarctica and southeast Greenland are currently uplifting so rapidly that another deformation mechanism must be important. Here we study how confined regions of unusually weak rocks within Earth’s upper mantle can deform viscously, generating rapid surface uplift. This doctoral thesis presents a new viscoelastic earth deformation model that can accommodate large lateral variations in Earth structure. We benchmark this code and use it to investigate the poorly understood role of small (~100s km) regions of unusually low-viscosity mantle beneath rapidly melting ice. We then apply our code to southeast Greenland, a region likely weakened by the Iceland plume ~40 Ma ago. We show that the uplift here is dominated by a viscous response to recent and rapid deglaciation, occurring within the past few decades. This viscous contribution is not usually considered, but will become increasingly important in the future as deglaciation accelerates.List of papers
Paper I. Weerdesteijn, Maaike F. M., Naliboff, John B., Conrad, Clinton P., Reusen, Jesse M., Steffen, Rebekka, Heister, Timo, and Zhang, Jiaqi. (2023). Modeling Viscoelastic Solid Earth Deformation Due To Ice Age and Contemporary Glacial Mass Changes in ASPECT. Geochemistry, Geophysics, Geosystems, 24, e2022GC010813. doi: 10.1029/2022GC010813. The article is included in the thesis. Also available at: https://doi.org/10.1029/2022GC010813 |
Paper II. Weerdesteijn, Maaike F. M., Conrad, Clinton P., and Naliboff, John B. (2022). Solid Earth Uplift Due To Contemporary Ice Melt Above Low-Viscosity Regions of the Upper Mantle. Geophysical Research Letters, 49, e2022GL099731. doi: 10.1029/2022GL099731. The article is included in the thesis. Also available at: https://doi.org/10.1029/2022GL099731 |
Paper III. Weerdesteijn, Maaike F. M., and Conrad, Clinton P. (in preparation). Rapid Earth uplift in southeast Greenland driven by recent ice melt above low-viscosity upper mantle. In manuscript stage, and will be submitted to Science Advances. To be published. The paper is not available in DUO awaiting publishing. |