Silurian magmatism in eastern Senegal and its significance for the Paleozoic evolution of NW-Gondwana

Silurian magmatism in eastern Senegal and its significance for the Paleozoic evolution of NW-Gondwana

► The existence of Silurian rift magmatism is shown for the first time in eastern Senegal. ► Petrography of the mafic rocks suggest their deposition under submarine conditions. ► Geochemistry and isotopes constrain the alkaline to transitional character and an intraplate origin. ► The magmatism docu...

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Bibliographic Details
Published in:Journal of African earth sciences (1994) 2013-02, Vol.78, p.66-85
Main Authors: Fullgraf, Thomas, Ndiaye, Papa Moussa, Blein, Olivier, Buscail, François, Lahondère, Didier, Métour, Joël Le, Sergeev, Sergey, Tegyey, Monique
Format: Article
Language:eng
Subjects:
Earth Sciences
Eastern Senegal
Gondwana break-up
Mauritanides
Sciences of the Universe
Silurian magmatism
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Summary:► The existence of Silurian rift magmatism is shown for the first time in eastern Senegal. ► Petrography of the mafic rocks suggest their deposition under submarine conditions. ► Geochemistry and isotopes constrain the alkaline to transitional character and an intraplate origin. ► The magmatism documents at regional scale continued fragmentation of NW-Gondwana that started in the Cambrian period. Submarine basalt and trachyte of the Nandoumba group occur in eastern Senegal within the Bassarides branch of the Mauritanides orogen. The unit forms part of the parautochthonous domain which is stacked between underlying Neoproterozoic to Paleozoic foreland and overlying Variscan nappes. The crystallisation age of the volcanic to subvolcanic rocks has been determined by U–Pb single zircon SHRIMP method at 428±5.2Ma whereas zircon xenocryst ages vary from 500 to 2200Ma. The shape of the xenocryst grains document proximal Neo- and Paleoproterozoic and distal Mesoproterozoic provenance areas for assimilated sediments. This is compatible with the Paleoproterozoic Birimian basement and Neoproterozoic cover rocks nearby whereas an origin from the Amazonian craton could be assumed for distal Mesoproterozoic zircons. Geochemical and Sm–Nd isotope whole rock analysis show that basalts of the Nandoumba group are similar to modern transitional to alkaline volcanic lavas in intraplate settings. Those basalts have a deep mantle source with a great contribution of a recycled mantle component such as EM1 and/or EM2. The basalts resemble in their composition those from the Meguma terrane of Nova Scotia which are of similar age suggesting a common source and therefore connection of Meguma with Gondwana during this period. Review of circum-Atlantic Silurian magmatism indicates ongoing fragmentation of NW-Gondwana that started in Cambro/Ordovician times.
ISSN:1464-343X
1879-1956