Petrography and Geochemistry of the Mbip Granitic Massif, SW Tchollir&amp;#233; (Central North Cameroon): Petrogenetic and Geodynamic Implication

Emmanuel Nomo Negue,Pierre Barbey,Brice Yanick Lemdjou,Nicaise Alliance Saha Fouotsa,Rigobert Tchameni,Periclex Martial Fosso Tchunte,Olivier Vanderhaeghe,Jonas Didero Takodjou Wambo

doi:10.4236/ijg.2015.67062

Abstract

In this article, we discussed about the petrography and geochemistry of magmatic rocks of the Mbip massif located SW of Tcholliré, in Central North Cameroon (Central African Fold Belt). Petrographic study shows that this massif is made of granodiorite, amphibole-biotite granite, and biotite granite which often contain enclave of mafic rocks (gabbro). Granodiorites and granites show porphyritic texture and consist dominantly of plagioclase and alkaline feldspar phenocrysts, quartz, biotite and often few amphibole. The gabbro enclaves are characterized by a granular porphyroid texture constituted of amphibole, plagioclase and olivine phenocrysts, all in a matrix of small crystals of plagioclase, olivine, amphibole, pyroxene and opaque minerals. All the analyzed rocks provide geochemical features of sublkaline serie and have nothing to do with the alkaline nature previously signaled in the former works. Granodiorites and granites are shoshonitic to calc-alkaline strongly potassic affinity consistent with emplacement in the continental collision setting. They present positive anomalies in Rb, Th, U; negative anomalies in Sr, P, Ti, Nb, Ta and some facies contain hydrated minerals such as amphibole. These characters are consistent with crustal and mantle contribution in their genesis. The mafic rocks (gabbro) have geochemical characteristics conferring a mantle origin, as confirmed by the high Mg# value (49.9). On the whole, the fractional crystallization of the magma formed by melting of crustal material and the magmatic mixing are the main petrogenetic process in the Mbip massif. Petrographic studies and geochemical data shows that the Mbip massif was emplaced in an active continental margin, into transitional regime from the end of maximum compression to the beginning of relaxation.

Highlights

The orogenic belt in Cameroon, studied in the Tcholliré region in north-central Cameroon, is part of the Central-African fold belt (CAFB, Figure 1, [1] [2]) and is still called North Equatorial fold Belt [3]-[6] or Oubanguides orogenic belt
In the previous regional geological maps [24]-[26], this relief is in form of circular pluton and the entire massif is often regarded as an alkaline granite [10] intruding the lower Proterozoic orthogneiss of Faro-Jibao [11]
Petrographic and geochemical data obtained on the Mbip massif in Tcholliré region reveal abundan sub-alkaline granitic rocks

Summary

Introduction

The orogenic belt in Cameroon, studied in the Tcholliré region in north-central Cameroon, is part of the Central-African fold belt (CAFB, Figure 1, [1] [2]) and is still called North Equatorial fold Belt [3]-[6] or Oubanguides orogenic belt. In Cameroon this Belt has been divided into three lithological domains (Figure 1) separated by major late Pan-African transcurrent shear zones [2]. These fault zones from the south to the north are the Sanaga shear zone (SSZ), the Central Cameroon shear zone (CCSZ) and the Tcholliré-Banyo shear zone (TBSZ). In Cameroon, the Central African African Fold Belt is characterized by a wide distribution of granitoids of various ages and origins. These granitoids are classified into three groups and associated to different stages of orogenic evolution [1]. These are: 1) pre-tectonic granitoids that are calc-alkaline, associated to the pre-collisional evolution stage and emplaced between 660 and 670 Ma; 2) syn-tectonic granitoids that are calc-alkaline, of S type, associated to the syn-collisional evolution stage and emplaced between 640 and 610 Ma; 3) late-tectonic granitoids that are calc-alkaline to sub-alkaline, linked to the post-collisional evolution stage and emplaced between 600 - 570 Ma

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