Communications Earth & Environment (Jul 2023)

Dyke swarms record the plume stage evolution of the Atla Regio superplume on Venus

  • Hafida El Bilali,
  • Richard E. Ernst,
  • Kenneth L. Buchan,
  • James W. Head

DOI
https://doi.org/10.1038/s43247-023-00901-7
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 10

Abstract

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Abstract Atla Regio, Venus, is interpreted as a young major mantle plume centre, and we address whether it is at plume head or plume tail stage. Our approach uses graben-fissure lineaments, interpreted as the surface expression of dykes. Mapping > 40,000 such lineaments reveals giant radiating dyke swarms associated with major volcanic centres of Maat (>1500 km dyke swarm radius), Ozza (>2000 km), Ongwuti (>1100 km) and Unnamed montes (>1100 km), indicating that each is due to plume head magmatism rather than plume tail magmatism (maximum swarm length ~ 100 km). The size of an underlying flattened plume head is estimated by the radius where the swarm transitions from a radiating to linear pattern. All four centres and their plume heads group within the 1200 km radius of the Ozza Mons plume head, consistent with a single event. Atla Regio is at the plume head stage with coeval triple-junction rifting, which on Earth would typically precede attempted continental breakup.