@misc{56344, type = "Article", year = "2018", title = "The offshore east african rift system: new insights from the sakalaves seamounts (Davie Ridge, SW Indian Ocean)", journal = "Terra Nova", editor = "Wiley", volume = "30", number = "5", pages = "380-388", author = "Courgeon Simon, Bachelery Patrick, Jouet Gwenael, Jorry Stephan, Bou Esther, Boudagher-Fadel Marcelle K., Revillon Sidonie, Camoin Gilbert, Poli Emmanuelle", url = "", organization = "", address = "SWITZERLAND, FRANCE, UK", doi = "https://doi.org/10.1111/ter.12353", abstract = "
The offshore branch of the East African Rift System (EARS) has developed during late Cenozoic time along the eastern Africa continental margin. While Neogene–Pleistocene extensional tectonic deformation has been evidenced along the northern segment of the Davie Ridge, the spatial extent of deformation further south remains poorly documented. Based on recent and various oceanographic data sets (bathymetric surveys, dredge samples and seismic profiles), our study highlights active normal faulting, modern east–west extensional tectonic deformation and Late Cenozoic alkaline volcanism at the Sakalaves Seamounts (18°S, Davie Ridge) that seem tightly linked to the offshore EARS development. In parallel, rift‐related tectonic subsidence appears responsible for the drowning of the Sakalaves Miocene shallow‐water carbonate platform. Our findings bring new insights regarding the development of the EARS offshore branch and support recent kinematic models proposing the existence of a plate boundary across the Mozambique Channel.
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