Structure and LA-ICP-MS zircon U–Pb dating of syntectonic plutons emplaced in the Pan-African Banyo-Tcholliré shear zone (central north Cameroon)

The Tcholliré massif, in central north Cameroon, consists of elongated granite plutons that crop out along the Pan-African Tcholliré-Banyo shear zone (TBSZ), a potential suture zone within the Central Africa Orogenic Belt. New structural and geochronological data on these granites constrain the tect...

Full description

Saved in:
Bibliographic Details
Published in:Journal of African earth sciences (1994) 2017-07, Vol.131, p.251-271
Main Authors: Nomo, Emmanuel Negue, Tchameni, Rigobert, Vanderhaeghe, Olivier, Sun, Fenguye, Barbey, Pierre, Tekoum, Léontine, Tchunte, Periclex Martial Fosso, Eglinger, Aurélien, Fouotsa, Nicaise Alliance Saha
Format: Article
Language:English
Subjects:
Central African Orogenic Belt
Collision
Earth Sciences
Magmatic arc
Sciences of the Universe
Syntectonic plutons
Tcholliré-Banyo shear zone
Transpressional shear zone
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The Tcholliré massif, in central north Cameroon, consists of elongated granite plutons that crop out along the Pan-African Tcholliré-Banyo shear zone (TBSZ), a potential suture zone within the Central Africa Orogenic Belt. New structural and geochronological data on these granites constrain the tectonic regime and timing of the TBSZ. The plutons consist of syntectonic granites and granodiorite containing dioritic mafic enclaves. They show an S2 sub-vertical foliation, that trends NE-SW to ENE-WSW. The related L2 lineation is subhorizontal to shallowly plunging to the SW or NE. Kinematic indicators such as asymmetric folds, sigmoidal-shape boudins, shear bands, imbricated feldspar phenocrysts along antithetic fractures point to a sinistral sense of shear. Microstructural analysis shows that structures are acquired from the submagmatic to the low temperature solid state suggesting progressive deformation of the magma during its emplacement, crystallization and cooling. U-Pb zircon dating on this massif yields emplacement ages of 719 ± 12 Ma for the biotite-amphibole granite and muscovite granite, 652.2 ± 5.4 Ma for the biotite-granite and 632 ± 13 Ma for the leucogranite. These geochronological data show in addition, Palaeoproterozoic inherited ages of 1631 ± 30 Ma on the leucogranites of this massif, and point to a Palaeoproterozoic contribution in their genesis. The range of ages (ca. 87 Ma) points to the timing of syntectonic emplacement of felsic magmas coeval with sinistral transpression along the TBSZ during the Pan-African orogeny. These results show that the TBSZ has recorded prolonged deformation associated with crustal magmatism between the Palaeoproterozoic Adamawa-Yadé domain to the southeast and the Sinassi-Mayo Kebbi Neoproterozoic magmatic arc to the Northwest. Satellite map of the study area with the location of dated samples, some structures, microstructures and kinematic markers in the Tcholliré batholith. [Display omitted] •The syntectonic emplacement of plutons of the Tcholliré massif is demonstrated.•Structural studies show emplacement in sinistral transpressional shear zone.•The studied plutons are emplaced during and after their complete crystallization.•Geochronological data obtained on Plutons give emplacement and inherited ages.•The studied shear zone is correlated to Chad lineament and Macururé shear zone.
ISSN:1464-343X
1879-1956
DOI:10.1016/j.jafrearsci.2017.04.002