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Blind magmatism abets nonvolcanic continental rifting

Rasheed Ajala, Folarin Kolawole, William Menke

2024Communications Earth & Environment14 citationsDOIOpen Access PDF

Abstract

Abstract Tectonic forces alone cannot drive rifting in old and thick continental lithosphere. Geodynamic models suggest that thermal weakening is critical for lithospheric extension, yet many active rifts lack volcanism, seeming to preclude this process. We focus on one such rift, the Tanganyika-Rukwa segment of the East African Rift System, where we analyze local seismicity for shear wave anisotropy and couple the results with numerical modeling. The strongest splitting measurements are from earthquakes with paths sampling lower crustal regions of high compressional-to-shear wave velocity ratios and have fast polarization directions parallel to the local mantle flow, implying the existence of oriented melt lenses. This lower crustal magmatism and observed high surface heat flow are consistent with substantial lithospheric weakening and explain the enigmatic relief and increasing strain accommodation along the rift axis. We conclude that progressive nonvolcanic rifting is assisted by deep crustal melts yet to breach the surface.

Topics & Concepts

MagmatismRiftGeologyContinental marginGeochemistryEarth sciencePaleontologyTectonicsGeological and Geochemical AnalysisHigh-pressure geophysics and materialsearthquake and tectonic studies
Blind magmatism abets nonvolcanic continental rifting | Litcius