Oligocene North American kinematic change driven by Canary plume activity

Progressively denser mapping of ocean-floor magnetization has led to detailed reconstructions of past plate motions in the Cenozoic. These reconstructions often reveal rapid kinematic changes that provide crucial information for identifying geodynamic mechanisms that may have caused them, and for quantifying force budgets upon plates. In parallel to these advances, the notion of thin, low-viscosity asthenosphere beneath tectonic plates that facilitates their motions has emerged and consolidated. This weak, mobile layer promotes the formation of the pressure-driven Poiseuille flow that, in turn, generates basal shearing upon plates. In addition, it can be linked to dynamic topography variations due to pulsing plume activity. In this study, we use publicly available finite-rotation compilations of the North American plate (NA) to investigate its kinematic history since Oligocene time. After removing data that are possibly impacted by significant noise, we find that NA experienced a westward speedup near 27 Ma. Next, we explore the role that asthenospheric Poiseuille-type flow caused by increased Canary plume activity may have had in generating this kinematic change. Such plume activity is inferred from the combination of anomalously shallow residual bathymetry and records of past ocean-floor magmatism offshore northwestern Africa. We compare estimates of torque variation upon NA that are (i) required to explain the reconstructed kinematic change, and (ii) predicted by the Poiseuille-type flow associated with the Canary plume activity. Our results indicate that these two torque-variations estimates are in agreement with each other, both in terms of direction and magnitude. This inference suggests that the increased Canary plume activity is a geodynamically-plausible process to explain the Oligocene plate-motion change of NA.

@article{id3083,
  author = {Wang, Zhirui Ray  and Iaffaldano, Giampiero  and Hopper, John R.  },
  doi = {https://doi.org/10.1093/gji/ggaf284},
  journal = {Geophysical Journal International},
  language = {en},
  title = {Oligocene North American kinematic change driven by Canary plume activity},
  year = {2025},
}

%O Journal Article
%A Wang, Zhirui Ray 
%A Iaffaldano, Giampiero 
%A Hopper, John R.  
%R https://doi.org/10.1093/gji/ggaf284
%J Geophysical Journal International
%G en
%T Oligocene North American kinematic change driven by Canary plume activity
%D 2025