The Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of three separate intrusions, each with a specific emplacement age and petrological composition. Three main units are recognized: an outer unit with silica-saturated plutonic rocks (from gabbro to granite), an inner unit with silica-undersaturated plutonic rocks (feldspathoidal syenite with subordinate feldspathoidal monzonite and ijolite) and a carbonatitic body in the subsoil, known by drilling. The URAPC is quite large in size (∼24 km long and up to 10 km wide). It is considered to have been intruded syntectonically in an overall extensional context, thanks to the kilometric shear zones that accommodated its emplacement. Radiometric ages from literature range from 748...
International audienceThe Mayo-Kebbi massif (Chad) exposes a Neoproterozoic juvenile crustal segment...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...
International audienceThe Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of thre...
International audienceThe Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of thre...
The Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of three separate intrusions,...
The Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of three separate intrusions,...
The Neoproterozoic Upper Ruvubu Alkaline Plutonic Complex (URAPC), Burundi, is located along the wes...
The Matongo carbonatite intrusion belongs to the Neoproterozoic Upper Ruvubu alkaline plutonic compl...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
peer reviewedA succession of mafic-ultramafic layered intrusions forms an alignment in the boundary ...
A succession of mafic-ultramafic layered intrusions forms an alignment in the boundary zone between ...
International audienceThe Mayo-Kebbi massif (Chad) exposes a Neoproterozoic juvenile crustal segment...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...
International audienceThe Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of thre...
International audienceThe Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of thre...
The Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of three separate intrusions,...
The Upper Ruvubu Alkaline Plutonic Complex (URAPC) in Burundi consists of three separate intrusions,...
The Neoproterozoic Upper Ruvubu Alkaline Plutonic Complex (URAPC), Burundi, is located along the wes...
The Matongo carbonatite intrusion belongs to the Neoproterozoic Upper Ruvubu alkaline plutonic compl...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
International audienceAlkaline massifs worldwide are generally atectonic. In Burundi, during the bre...
peer reviewedA succession of mafic-ultramafic layered intrusions forms an alignment in the boundary ...
A succession of mafic-ultramafic layered intrusions forms an alignment in the boundary zone between ...
International audienceThe Mayo-Kebbi massif (Chad) exposes a Neoproterozoic juvenile crustal segment...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...
The evolution of craton margins creates the ideal conditions for Ni–Cu–(PGE) ore formation, though t...