EGU21-1050, updated on 18 May 2023
https://doi.org/10.5194/egusphere-egu21-1050
EGU General Assembly 2021
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Unveiling the volcanic evolution of the Mohns Ridge

Håvard Stubseid1,2, Anders Bjerga1,2, Haflidi Haflidason1,2, and Rolf Birger Pedersen1,2
Håvard Stubseid et al.
  • 1University of Bergen, Faculty of Mathematics and Natural Sciences, Department of Earth Science, Bergen, Norway (havard.stubseid@uib.no)
  • 2K.G. Jebsen Centre for Deep Sea Research, University of Bergen, Bergen, Norway

Volcanic eruptions are far less common along slow-spreading ridges compared to fast-spreading ridges. Consequently, knowledge of the volcanic rejuvenation along close to 1/3 of the global mid-ocean ridges is poorly constrained. To determine the temporal evolution of the rift valley of one of the slowest spreading-ridges in the world, the Mohns Ridge in the Norwegian-Greenland Sea, we have interpreted more than 3000 km of sub-bottom profiles. Sedimentation rates derived from several core locations along the ridge are used to calculate the age of the underlying volcanic crust. Here we present a framework for understanding the geological evolution of rift valleys of slow-spreading ridges using an integrated approach combining geological and geophysical data. The high-resolution dataset acquired using autonomous underwater vehicles, cover more than 50% of the 575 km long Mohns Ridge. The results unravel large variation in sediment thickness inside the central rift area, from exposed basalts to several meters of sediments, within only a few hundreds of meters. Studied sub-bottom profiles reveal active volcanism in the deepest parts of the ridge, areas thought to be inactive, surrounded by significantly older crust covered in meters of sediments. We find that all axial volcanic ridge systems (AVRs) in our area completely renewed their surface within the last 30-50 ka. Detailed volcanological investigation of the central parts of an AVR reveal at least 72 individual eruptions during the last 20 ka ranging in size from 1.2x103 m2 - 2.6 x105 m2. These estimates have been verified with visual observations and sampling using an ROV. Our estimates indicate that more than 230 eruptions are required to renew the surface of an average AVR. Based on the acquired age assessments a volcanic eruption is anticipated to occur approximately every 200 years. Volcanic renewal is a first order control on the lifetime of magmatically driven hydrothermal systems.

How to cite: Stubseid, H., Bjerga, A., Haflidason, H., and Pedersen, R. B.: Unveiling the volcanic evolution of the Mohns Ridge, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-1050, https://doi.org/10.5194/egusphere-egu21-1050, 2021.