Neoproterozoic crustal evolution in Southern Chad: Pan-African ocean basin closing, arc accretion and late- to post-orogenic granitic intrusion

Pouclet, André; Vidal, Max; Doumnang, Jean-Claude; Vicat, Jean-Paul; Tchameni, Rigobert

doi:10.1016/j.jafrearsci.2005.11.019

Cited by 65 publications

(37 citation statements)

References 18 publications

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“…This regional pressure, related to the major direction (Figure 10) of the gravity lineaments, is in line with the Panafrican faults which are similar to those observed at the edge of the West African crater and which are said to have played an essential role in controling the geodynamic evolution of the region région [34][35][36]. The tectonic evolution of this region leads to the understanding that the Precambrian was marked by the putting in place of great fractures which is the result of a compressive tectonic corresponding to the Panafrican orogenic.…”

Section: Discussionsupporting

confidence: 65%

Geophysical Signature Location in the South-West of Chad: Structural Implications

Benoit¹,

Nouayou²,

Victor³

et al. 2017

J Geol Geophys

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IntroductionChad corresponds to the mobile zone formed during the PanAfrican orogenesis that occurred at Proterozoic between 830 and 665Ma [1]. This mobile zone is bounded to the south by the Congo Craton, to the West by the West African Craton and to the NorthEast by the metacraton of the Sahara. It appears that the whole of the Precambrian formations were marked by a strong imprint during the Pan-African events.These Precambrian formations identified in Chad are distributed between the Tibesti massifs in the north, Ouaddaï in the east, Yadé (Mbaibokoum) in the south and the Mayo-kebbi in the South-west. They cover 15 to 20% of the surface of the national territory [2].The secondary formations appear in the Erdis basin (Cretaceous Nubian sandstone) and the Mayo-Kebbi (Lower Cretaceous and Middle Cretaceous) basin. They also constitute the filling of several pits in Southern Chad (Lake Chad, Bousso, Doba, Salamat). They are sandstones of the intercalary continental and those of the Cretaceous with lagoon and marine features. The Pala-Lame basin located in Mayo-Kebbi, in the Southwest of Chad near the border with Cameroon, is part of the Yadé massif, a large outcrop of the Precambrian basement which extends to Cameroon, the Republic of Central Africa, Congo and Gabon, and includes the Congo Craton [3].The region consists essentially of a large granite batholith (MayoKebbi batholith), containing septa of metamorphites and two strips of volcano-sedimentary metamorphic epikeal formations similar to the greenstone belts [3,4]. The whole is intersected by a series of intrusive and vein rocks, ranging from alkaline granite to ultrabasic rocks.Although the results of the various works cited above provided useful information over the study area, none of them proposed the cartography of the lineaments therein in a precise way. The latter is the objective of the present study. The Bouguer anomaly map of the study area has strong contrasts (gradients) that indicate discontinuities such as faults and flexures. In order to study these discontinuities, we conducted an analysis based on the horizontal gradient of the vertical derivative coupled with upward continuation and Euler's deconvolution. These approaches that have been successfully used in AbstractA Study is conducted in South-West of Chad with the goal of underlining the different lineaments of the region, which are entirely or partially hidden by the sedimentary cover. Different gravity data processing techniques including horizontal gradient of vertical derivative coupled with upward continuation and Euler's de-convolution are used. These methods revealed a number of lineaments describing gravity density discontinuities whose directions are N-S, NE-SW, ENE-WSW, and WNW-ESE at NNW-SSE. However, the predominant direction for major lineaments is WNW-ESE. The major lineaments associated to the faults are: F1, F2, F3, F6, F7, F8, F9, F10, F14, F21, F22, F23, F24 and F28. Euler's solutions indicate depths up to 9.2 km for the anomaly sources. Such lineaments are very usefu...

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Section: Discussionsupporting

confidence: 65%

Geophysical Signature Location in the South-West of Chad: Structural Implications

Benoit¹,

Nouayou²,

Victor³

et al. 2017

J Geol Geophys

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“…The RBGB is made of mafic to intermediate and felsic metavolcanic rocks; and by metasedimentary rocks all metamorphosed under low grade at 600 Ma [28,29]. The RBGB is actually considered as remnants of back arc basin [30,31] related to the TBSZ. The mylonitic hornblende-biotite gneiss of Mbé quarry which have been dated at 580 ± 11 Ma (U-Pb titanite age) was interpreted as dating the minimum age of sinistral deformation event in this area [25].…”

Section: Geological Settingmentioning

confidence: 99%

Polyphase deformation in the Mbé - Sassa-Bersi area: Implications on the tectono-magmatic history of the area and the tectonic evolution of the Tcholliré-Banyo and Central Cameroon Shear Zones (Central North Cameroon)

Nicaise¹,

Tchameni²,

Emmanuel³

et al. 2018

JGG

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“…Petrological and structural similarities between Mongo [8], Mayo Kebbi [4,7] and Léré basements in Southern Chad [5] suggest that these regions are parts of the same terrane, which was welded during the Pan-African orogeny to the Adamawa-Yadé Domain [21], i.e. outside of the "Saharan metacraton".…”

Section: Field Evidencementioning

confidence: 99%

“…Precambrian massifs are exposed in Chad as five terranes (review in [1]): Tibesti to the north [2], Waddai to the east, Mbaibokoum, or Yade, to the south [3], Mayo Kebbi to the south-west [4][5][6][7] ( Figure 1A) and Guéra to the south [8]. Mayo-Kebbi and Mbaibokoum/Yade constitute terranes of the Neoproterozoic Central African Orogenic Belt (CAOB) [4,5].…”

Section: Introductionmentioning

confidence: 99%

“…Mayo-Kebbi and Mbaibokoum/Yade constitute terranes of the Neoproterozoic Central African Orogenic Belt (CAOB) [4,5]. Tibesti, Waddaï and Guera are parts of a large area coined by [9] as the "Saharan Metacraton", defined as "a craton that has been remobilized during an orogenic event but that is still recognizable dominantly through its rheological, geochronological and isotopic characteristics" [9].…”

Section: Introductionmentioning

confidence: 99%

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The dolerite dyke swarm of Mongo, Guéra Massif (Chad, Central Africa): Geological setting, petrography and geochemistry

et al. 2017

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Dolerite dykes are widespread in the Mongo area within the granitic Guéra Massif (Chad, Central Africa). Dykes are several hundred metres to several kilometres long, a metre to decametre thick, and vertical, crosscutting the Pan-African granitic basement rocks. They are controlled by major Pan-African NNE-SSW, NE-SW and ENE-WSW faults. Rocks constituting the dykes exhibit typical doleritic textures (i.e. intergranular, ophitic or subophitic). They are mainly composed of phenocrysts, microcrysts and microlites of clinopyroxene, amphibole, plagioclase, alkali feldspar and Fe-Ti oxides. Mongo dolerites are classified into two groups: Group 1 of basalt and trachybasalt and Group 2 of basaltic trachyandesite, which follow a trend with continental tholeiite affinities, and are differentiated through fractional crystallization. Trace element enrichment and REE contents show the high melting degree at shallow depths of enriched sub-continental lithospheric mantle, whose composition is intermediate between OIB and MORB, contaminated by small amounts of sediment during older subduction. Mongo dolerites are interpreted as imprints of either the final stage of stabilization of ancient continental crust, or the initiation of tectonic activity related to Pan-African mobile belts.

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Neoproterozoic crustal evolution in Southern Chad: Pan-African ocean basin closing, arc accretion and late- to post-orogenic granitic intrusion

Cited by 65 publications

References 18 publications

Geophysical Signature Location in the South-West of Chad: Structural Implications

Geophysical Signature Location in the South-West of Chad: Structural Implications

Polyphase deformation in the Mbé - Sassa-Bersi area: Implications on the tectono-magmatic history of the area and the tectonic evolution of the Tcholliré-Banyo and Central Cameroon Shear Zones (Central North Cameroon)

The dolerite dyke swarm of Mongo, Guéra Massif (Chad, Central Africa): Geological setting, petrography and geochemistry

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