Plate flexure and tectonic tilt along the Emperor Seamount Chain
- 1Department of Earth Sciences, University of Oxford, UK
- 2College of Marine Geosciences, Ocean University of China, China
- 3Department of Earth Sciences, University of Hawaii at Manoa, USA
- 4Department of Geosciences, Auburn University, USA
- 5School of Earth and Sustainability, Northern Arizona University, USA
The Hawaii-Emperor seamount chain stretches westward from the “Big Island” of Hawaii for over 6000 km until the oldest part of the chain are subducted at the Kuril and Aleutian trenches. Still regarded as the iconic hotspot-generated seamount chain it has been sampled, mapped, and studied to give insights into numerous oceanic phenomena, including seamount and volcano formation and associated intraplate magma budgets, the past absolute motions of the Pacific plate, the drift of the Hawaiian plume, and the thermal and mechanical properties of oceanic lithosphere. Previous work (Wessel et al., EGU 2023 abstract) used a high-resolution free-air gravity anomaly and high-resolution bathymetry data set, together with fully 3-dimensional flexural models with variable volcano load and infill densities, to estimate the optimal effective elastic thickness, Te, and load and infill densities along the Emperor Seamount chain. Here, we use these parameters to calculate the tectonic tilt of a pre-existing volcano that occurs as each new volcano in a seamount chain is progressively added by flexure to the Pacific oceanic plate. We found tilts in the range 0.1-2.1 degrees which are modest compared to other cases of progressive flexure, for example, at seaward dipping reflector sequences in volcanic rifted margins (~5-15 degrees) but may be significant enough to modify the morphology of volcano summits and the stratigraphy of the sequences that accumulate in their flanking moats. They may also modify the physical properties of the edifice such as their magnetisation vectors.
Wessel, P., A. B. Watts, B. Boston, C. Xu, R. Dunn, and D. J. Shillington “Variation in Elastic Thickness along the Emperor Seamount Chain”, EGU 2023 Abstract
How to cite: Xu, C., Wessel, P., Watts, A., Boston, B., Dunn, R., and Shillington, D.: Plate flexure and tectonic tilt along the Emperor Seamount Chain , EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-18822, https://doi.org/10.5194/egusphere-egu24-18822, 2024.