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Journal articles on the topic 'Panafrican'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Soulaimani, Abderrahmane, Mohamed Bouabdelli, and Alain Piqué. "The Upper Neoproterozoic-Lower Cambrian continental extension in the Anti-Atlas (Morocco)." Bulletin de la Société Géologique de France 174, no. 1 (January 1, 2003): 83–92. http://dx.doi.org/10.2113/174.1.83.

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Abstract Introduction. – In the Anti-Atlas, south of Morocco (fig. 1), the Precambrian terrains are usually divided into several “series” (fig. 2) : the Paleoproterozoic (PI) is an old crystalline basement, at least Eburnean ; the Neoproterozoic (PII) is constituted by metasedimentary rocks, quartzites and limestones, indicative of a shelf, in which volcano-sedimentary and volcanic flows are intercalated, laterally grading to an ophiolitic complex along the Sirwa-Bou Azzer axis. These PII rocks have been deformed in the course of the Panafrican orogeny ; above the underlying upper Proterozoic terrains and in major unconformity on the Panafrican structures, the Saghro group (PII3) and Ouarzazate group (PIII) series are volcanic and volcano-clastic sequences, often considered as late-Panafrican molasses. Above them, the Tata group (Adoudounian), constituted by marine carbonates and siltstones, represents the earliest Cambrian. Recent structural and sedimentological observations Recent observations have been realized through all the Anti-Atlas, of which the present note gives only examples that are the most significant and easily accessible. They show that the PII3 conglomerates were not everywhere deposited around Panafrican paleoreliefs ; they often contain large bodies of quartzites embedded within the conglomerates (fig. 3). Clearly, the PII3 is an olistostrome at the base of the PIII détrital and volcanic series, which were deposited at the base of active faults. The development of these reliefs took place several tens of millions of years after the end of the Panafrican paroxysm and therefore the PII3 and the PIII are post-Panafrican deposits, unrelated to the Panafrican orogeny. Study of synsedimentary structures (folds, faults, progressive unconformities : fig. 4 to 7) reveals the extensive character of this faulting event that extends even in basal Cambrian. Between the PII3 series and PIII an angular unconformity due to tilting can exist, but we did not find there plicative structures clearly related to the compressive late-Panafrican « B2 » phase sometimes described in the litterature. In the western Anti-Atlas, the extension is pure, with a NW-SE direction ; it is N-S in the central Anti-Atlas and it is transtensive according to N070°E faults, en échelon between sinistral N110°E trending faults in the central-eastern Anti-Atlas. In the detail, nevertheless, the synsedimentary structures suggest slidings from raised zones that correspond to the future inliers (fig. 7). Magmatic and metallogenic activity This extension accompanies various events : (1) a marine transgression, from west to east ; (2) the emplacement of extrusive magmas, first calco-alkaline then tholeiitic ; (3) an hydrothermal activity responsible for the concentration of Co, Au, Cu, etc. These concentrations were in the past attributed to various episodes, from the pre-Panafrican extension to the Hercynian compression. In fact, they result from the circulation of hydrothermal solutions that deposited, in the superficial levels of the crust, products extracted from the PIII magmas or the PII Proterozoic serpentines. The circulations took place in the old compressive structures (e.g. the Panafrican foliation) reopened during the extensive episode described above. Discussion and conclusion : the late Proterozoic-early Cambrian rifting The crustal extension that affected the Anti-Atlas started during the late Proterozoic, after the end of the main Panafrican deformation. Its tectonic significance is discussed with regard to the Panafrican orogeny : either a late Panafrican extension, bracketed between two compressive deformations and possibly related to a thinning of the orogenic crust, or a post-Panafrican extension, unrelated to compressive phases, described as a synrift event. In the Anti-Atlas, it developed through late Proterozoic and early Cambrian times. It aborted at the end of the early Cambrian. Evidences of a comparable extension are found in northern Morocco, western Europe and as far in the Middle East, i.e. all along the northern margin of the paleo-Gondwana.
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2

Senut, Brigitte, Martin Pickford, and Dudley Wessels. "Panafrican distribution of Lower Miocene Hominoidea." Comptes Rendus de l'Académie des Sciences - Series IIA - Earth and Planetary Science 325, no. 9 (November 1997): 741–46. http://dx.doi.org/10.1016/s1251-8050(97)89119-7.

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3

Connah, Graham. "Welcome back: The return of the Panafrican Congress." African Archaeological Review 13, no. 4 (December 1996): 261–65. http://dx.doi.org/10.1007/bf02126100.

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4

HAILU, MEKONNEN. "Panafrican Centre for Emergency Preparedness and Response, Addis Ababa." Disasters 14, no. 2 (June 1990): 178–79. http://dx.doi.org/10.1111/j.1467-7717.1990.tb01061.x.

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5

Lecomte, Claude Edouard Paul. "The Africa initiative and the Panafrican Conferences on Crystallography PCCr." Acta Crystallographica Section A Foundations and Advances 73, a2 (December 1, 2017): C1394. http://dx.doi.org/10.1107/s2053273317081827.

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6

Baumann, A., M. El Chai, and F. Thiedig. "Panafrican granites from deep wells of the Murzuk Basin (Fezzan), western Libya." Neues Jahrbuch für Geologie und Paläontologie - Monatshefte 1992, no. 1 (March 31, 1992): 1–14. http://dx.doi.org/10.1127/njgpm/1992/1992/1.

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7

Nédélec, Anne, Jean-Louis Paquette, Jean-Luc Bouchez, Philippe Olivier, and Bruno Ralison. "Stratoid granites of Madagascar: structure and position in the Panafrican orogeny." Geodinamica Acta 7, no. 1 (January 1994): 48–56. http://dx.doi.org/10.1080/09853111.1994.11105258.

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8

Tairou, Mahaman Sani, Pascal Affaton, Jean-Pierre Gélard, Ramdane Aïté, and Bawoubadi Edèm Sabi. "Panafrican brittle deformation and palaeostress superposition in northern Togo (West Africa)." Comptes Rendus Geoscience 339, no. 13 (October 2007): 849–57. http://dx.doi.org/10.1016/j.crte.2007.08.001.

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9

Veall, Margaret-Ashley. "African archaeology without frontiers: papers from the 2014 PanAfrican Archaeological Association Congress." Azania: Archaeological Research in Africa 53, no. 1 (January 2, 2018): 122–23. http://dx.doi.org/10.1080/0067270x.2018.1433595.

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10

Chorowicz, J., A. Emran, and E. M. Alem. "Tectonique et venues volcaniques en contexte de collision, exemple du massif néogène du Siroua (Atlas Marocain) : effets combinés d'une transformante et de la suture panafricaine." Canadian Journal of Earth Sciences 38, no. 3 (March 1, 2001): 411–25. http://dx.doi.org/10.1139/e00-074.

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The Late Miocene – Early Pliocene Siroua strato-volcano is made of particular hyperalkaline rocks. It lies between the High-Atlas and the Anti-Atlas, in a collisional zone related to the continental subduction of the African plate under the Moroccan Meseta. Our field observations and analyses of SPOT, Landsat-MSS, and DEM (digital elevation model) imagery have permitted mapping of faults, joints, and volcanic edifices. The elongate shape of volcanoes and linear clusters of adjacent edifices, together with their relationships with faults, show that magma ascent was favored by tectonic crustal scale open fractures, essentially tension fractures, tail-cracks, and open faults. These fractures, together with other nonvolcanic, narrow, NNE-striking troughs, provide valuable information on the regional deformation since the Late Miocene. The shortening–extension type strain, which is responsible for the open fractures, is situated near the Azdem transform, a zone of active faults striking NNE, parallel to the convergence trend. The transform links two segments of the "Accident Sud-Atlasique," which constitute the border between the Moroccan Meseta and the African plate. The magma seems to originate from the lithospheric mantle, but asthenospheric material had previously migrated upward along the Panafrican suture zone. This mixed magma finally was transferred to the surface as a result of the onset of the open fractures prior to fault motions. The Siroua volcanic activity results from the conjunction of (1) a Panafrican suture zone and (2) a zone of open fractures due to "strike-slip" strain near a local transform inside the area of collision.
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11

MOURA, CANDIDO A. V., and HENRI E. GAUDETTE. "Evidence of brasiliano/panafrican deformation in the Araguaia belt: implication for Gondwana evolution." Revista Brasileira de Geociências 23, no. 2 (June 1, 1993): 117–23. http://dx.doi.org/10.25249/0375-7536.1993232117123.

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12

N D LEC, A., E. W. STEPHENS, and A. E. FALLICK. "The Panafrican Stratoid Granites of Madagascar: Alkaline Magmatism in a Post-Collisional Extensional Setting." Journal of Petrology 36, no. 5 (October 1, 1995): 1367–91. http://dx.doi.org/10.1093/petrology/36.5.1367.

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13

Grégoire, Vincent, Anne Nédélec, Patrick Monié, Jean-Marc Montel, Jérôme Ganne, and Bruno Ralison. "Structural reworking and heat transfer related to the late-Panafrican Angavo shear zone of Madagascar." Tectonophysics 477, no. 3-4 (November 2009): 197–216. http://dx.doi.org/10.1016/j.tecto.2009.03.009.

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14

Finger, F., M. Tichomirowa, C. Pin, and P. Hanžl. "Relics of an early-Panafrican metabasite-metarhyolite formation in the Brno Massif, Moravia, Czech Republic." International Journal of Earth Sciences 89, no. 2 (September 22, 2000): 328–35. http://dx.doi.org/10.1007/s005310000084.

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15

Mare, D. "Joseph ki-zerbo et le panafricanisme." Contemporary Journal of African Studies 6, no. 1 (May 31, 2019): 59–75. http://dx.doi.org/10.4314/contjas.v6i1.4.

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Joseph Ki-Zerbo a mené sa vie entière dans le combat panafricaniste. Son parcours panafricain s’est consolidé à travers des rencontres à son initiative personnelle mais aussi grâce à des occasions avec les grands panafricanistes de renom comme le « prophète » Kwame Nkrumah, Amilcar Cabral, Patrice Lumumba, Julius Nyerere etc. Il arriva à joindre l’acte à la parole par exemple en allant prêter main forte à Sékou Touré en 1958, en ayant travaillé à exhumer le passé de l’africain. L’Afrique doit être libérée, et cette libération se fera obligatoirement de façon panafricaine ou elle n’aura jamais lieu. C’est pourquoi, l’Africain doit s’imprégner de son passé pour comprendre les réalités et les obstacles présents qui se posent à lui afin d’envisager les grandes lignes du combat panafricain pour un avenir meilleur. La lecture de l’engagement de Ki-Zerbo se veut une présentation d’un modèle phare pour les jeunes voués et engagés dans le sens du panafricanisme.
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Chantraine, Jean, Emmanual Egal, Denis Thiéblemont, Elisabeth Le Goff, Catherine Guerrot, Michel Ballèvre, and Pol Guennoc. "The Cadomian active margin (North Armorican Massif, France): a segment of the North Atlantic Panafrican belt." Tectonophysics 331, no. 1-2 (February 2001): 1–18. http://dx.doi.org/10.1016/s0040-1951(00)00233-x.

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17

Smith, Benjamin. "Helping to defend Africa's heritage: the African Archaeological Conservation Advisory Committee of the PanAfrican Archaeological Association." Azania: Archaeological Research in Africa 47, no. 3 (September 2012): 379–80. http://dx.doi.org/10.1080/0067270x.2012.711574.

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18

Rumvegeri, Boneza R., Jean-Paul H. Caron, Ali B. Kampunzu, Ruananza T. Lubala, and Pierre J. Vellutini. "Pétrologie et signification géotectonique des plutonites de Kambusi (sud Kivu, Zaïre)." Canadian Journal of Earth Sciences 22, no. 2 (February 1, 1985): 304–11. http://dx.doi.org/10.1139/e85-029.

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The massif of Kambusi, located about 30 km northwest of Bukavu, is made up of two intrusive plates: microgranite to the south and microsyenite to the north. These plates were emplaced during the Cambrian.The microsyenite is characterized essentially by the association of quartz, perthites, albite + K-feldspar, olivine, hedenbergite, edenitic hornblende, iron-rich biotite, ilmenite, and fluorine. The microgranite is distinguishable from the microsyenite by an absence of olivine, pyroxene, and fluorine, a relative richness of quartz and amphibole, and a scarcity of feldspar in the modal composition.These magmas are typically alkaline (some rocks show a hyperalkaline tendency) and were emplaced at a shallow depth under low values of [Formula: see text] and [Formula: see text] and high T (> 890 °C). They are considered to mark the relaxation stage typifying the change of tectonic regime that took place at the end of the Panafrican.
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19

Gomes, Caroline J. S., Marcelo A. Martins-Neto, and Valéria E. Ribeiro. "Positive inversion of extensional footwalls in the southern Serra do Espinhaço, Brazil - insights from sandbox laboratory experiments." Anais da Academia Brasileira de Ciências 78, no. 2 (June 2006): 331–44. http://dx.doi.org/10.1590/s0001-37652006000200012.

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Analogue experiments were carried out to get insights into the processes governing positive inversion during the foreland propagating thrust tectonics in the southern Serra do Espinhaço, a Brasiliano/Panafrican foldthrust belt in southeast Brazil. In particular, model listric half-grabens were inverted by applying contractional displacement to the footwall blocks. We investigated two different inversion conditions in listric half-grabens: (i) extensional and contractional detachments at the same level and (ii) at different positions. The models revealed that the development of a forward-breaking thrust system occurs in the basin synrift deposits, by contractional translation of the extensional footwall block when the extensional and contractional master faults do not coincide. Our experiments show the tectonic imbrication between basement and synrift sequences which characterizes the southern Serra do Espinhaço, and support the location in the eastern mountain range domain of the Espinhaço rift master fault system, which is not exposed at the surface.
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20

Saquaque, Ali, Mohammed Benharref, Hassan Abia, Zakia Mrini, Ingrid Reuber, and Jeffrey A. Karson. "Evidence for a Panafrican volcanic arc and wrench fault tectonics in the Jbel Saghro, Anti-Atlas, Morocco." Geologische Rundschau 81, no. 1 (February 1992): 1–13. http://dx.doi.org/10.1007/bf01764536.

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21

Pagang Noumi, IA, GD Kouankap Nono, T. Ngnotue, S. Ganno, and AP Kouske. "Structural control of Uranium anomalies related to panafrican peralu min ous orthogneiss in Bangoua area, western Cameroon, Africa." Geotectonic Research 97, no. 1 (September 1, 2015): 151. http://dx.doi.org/10.1127/1864-5658/2015-72.

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22

Kpeou, José, Didier Béziat, Stefano Salvi, Guillaume Estrade, Gaétan Moloto-A-Kenguemba, and Pierre Debat. "Gold mineralization related to Proterozoic cover in the Congo craton (Central African Republic): A consequence of Panafrican events." Journal of African Earth Sciences 166 (June 2020): 103825. http://dx.doi.org/10.1016/j.jafrearsci.2020.103825.

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23

Zaman, Maniza S., and Sandro Calvani. "The World Heath Organization's Disaster Reduction Policies in Africa at the Dawn of 1990's: Steps in the Right Direction?" Prehospital and Disaster Medicine 6, no. 2 (June 1991): 271–78. http://dx.doi.org/10.1017/s1049023x00028405.

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AbstractThe World Health Organization, Panafrican Centre for Emergency Preparedness and Response (WHO/EPR) was established in 1988, and officially opened in March 1989, as a practical and functional response to the identified need for a regional institution to deal effectively with the health and related consequences of both natural and man-made disasters. The principal objective of the Centre is to aid member countries in the prevention and/or reduction of the adverse health effects of disasters, be they direct or indirect, by strengthening national capacities for disaster preparedness and response. The WHO has reoriented its disaster operations unit to incorporate preparedness activities, particularly within an overall developmental framework which is crucial for reducing losses, both human and material, in the event of a disaster. In keeping with this focus, the Centre has defined its goals and activities: development of national disaster preparedness programs; training of national and international personnel in health emergency preparedness and response; production and dissemination of technical publications on disaster preparedness and management; undertaking risk assessment missions; and executing relevant research projects.
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Mono, Jean Aimé, Marcelin Bikoro Bi-Alou, Arsene Meying, Theophile Ndougsa-Mbarga, Stéphane Patrick Assembe, and Crépin Timoléon Kofané. "Crustal Structure and Tectonic Setting over the Panafrican Domain in Loum-Minta Area (Centre-East Cameroon) from Aeromagnetic Analysis." Journal of Geoscience and Environment Protection 07, no. 04 (2019): 61–81. http://dx.doi.org/10.4236/gep.2019.74005.

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25

Henry, Bernard, Mohamed E. M. Derder, Boualem Bayou, Mehdi A. Guemache, Omar Nouar, Aziouz Ouabadi, Hamou Djellit, Mohamed Amenna, and Abderahmane Hemmi. "Inhomogeneous shearing related to rock composition: evidence from a major late-Panafrican shear zone in the Tuareg shield (Algeria)." Swiss Journal of Geosciences 101, no. 2 (July 25, 2008): 453–64. http://dx.doi.org/10.1007/s00015-008-1262-4.

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26

Macdonald, Ray. "Magmatism of the Kenya Rift Valley: a review." Transactions of the Royal Society of Edinburgh: Earth Sciences 93, no. 3 (September 2002): 239–53. http://dx.doi.org/10.1017/s0263593300000420.

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ABSTRACTTertiary–Recent magmatism in the Kenya Rift Valley was initiated c. 35 Ma, in the northern part of Kenya. Initiation of magmatism then migrated southwards, reaching northern Tanzania by 5–8 Ma. This progression was accompanied by a change in the nature of the lithosphere, from rocks of the Panafrican Mozambique mobile belt through reworked craton margin to rigid, Archaean craton. Magma volumes and the geochemistry of mafic volcanic rocks indicate that magmatism has resulted from the interaction with the lithosphere of melts and/or fluids from one or more mantle plumes. Whilst the plume(s) may have been characterised by an ocean island basalt-type component, the chemical signature of this component has everywhere been heavily overprinted by heterogeneous lithospheric mantle. Primary mafic melts have fractionated over a wide range of crustal pressures to generate suites resulting in trachytic (silica-saturated and-undersaturated) and phonolitic residua. Various Neogene trachytic and phonolitic flood sequences may alternatively have resulted from volatile-induced partial melting of underplated mafic rocks. High-level partial melting has generated peralkaline rhyolites in the south–central rift. Kenyan magmatism may, at some future stage, show an increasing plume signature, perhaps associated ultimately with continental break-up.
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Villeneuve, Michel, and Jean-Jacques Cornée. "Évolution paléogéographique de la marge nord-ouest de l'Afrique du Cambrien à la fin du Carbonifère (du Maroc au Libéria)." Canadian Journal of Earth Sciences 28, no. 7 (July 1, 1991): 1121–30. http://dx.doi.org/10.1139/e91-101.

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Paleogeographic reconstructions of Paleozoic time are presented for the northwest margin of the West-African Craton. An extensional regime and a marine transgression were dominant during the Early Cambrian. During the Middle Cambrian, the Rokélides orogen was responsible for the sea regression to the south, while the proto-Atlantic opening was active to the north of the Reguibat shield. A large stable marine platform was present during Early and Middle Ordovician. A general regression and the formation of the West-African Inlandsis took place during the Late Ordovician. During Silurian time, this sea transgressed over most of the African platform. Incipient Hercynian deformations during the Early Devonian produced horsts and grabens in Morocco. At the end of the Devonian and the beginning of the Carboniferous, the sea was restricted to isolated basins and tectonic trenches. Collision between West Africa and North America during the Late Carboniferous transformed the Lower Paleozoic margin into an Hercynian orogenic belt, whose structure is controlled by the presence of crustal blocks, generated as early as the Cambrian, and probably reflecting, in turn, older Panafrican zones of weakness. [Translated by the Journal]
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28

Neubauer, Franz, and Ana-Voica Bojar. "Origin of sediments during Cretaceous continent—continent collision in the Romanian Southern Carpathians: preliminary constraints from 40Ar/39Ar single-grain dating of detrital white mica." Geologica Carpathica 64, no. 5 (October 1, 2013): 375–82. http://dx.doi.org/10.2478/geoca-2013-0025.

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Abstract Single grains of detrital white mica from the lowermost Upper Cretaceous Sinaia Flysch have been dated using the 40Ar/39Ar technique. The Sinaia Flysch was deposited in a trench between the Danubian and Getic microcontinental pieces after the closure of the Severin oceanic tract. The Danubian basement is largely composed of a Panafrican/Cadomian basement in contrast to the Getic/Supragetic units with a Variscan-aged basement, allowing the distinction between these two blocks. Dating of detrital mica from the Sinaia Flysch resulted in predominantly Variscan ages (329 ± 3 and 288 ± 4 Ma), which prove the Getic/Supragetic source of the infill of the Sinaia Trench. Subordinate Late Permian (263 ± 8 and 255 ±10 Ma), Early Jurassic (185 ± 4 and 183 ± 3 Ma) and Late Jurassic/Early Cretaceous (149 ± 3 and 140 ± 3 Ma) ages as well as a single Cretaceous age (98 ± 4 Ma) are interpreted as representing the exposure of likely retrogressive low-grade metamorphic ductile shear zones of various ages. Ductile shear zones with similar 40Ar/39Ar white mica ages are known in the Getic/Supragetic units. The Cretaceous ages also show that Cretaceous metamorphic units were already subject to erosion during the deposition of the Sinaia Flysch.
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Bayala, J., Z. Sanon, P. Bazié, J. Sanou, O. Roupsard, C. Jourdan, A. Ræbild, et al. "Relationships between climate at origin and seedling traits in eight Panafrican provenances of Vitellaria paradoxa C.F. Gaertn. under imposed drought stress." Agroforestry Systems 92, no. 6 (April 5, 2017): 1455–67. http://dx.doi.org/10.1007/s10457-017-0091-8.

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Clément, Jean-Philippe, Martial Caroff, Christophe Hémond, Jean-Jacques Tiercelin, Claire Bollinger, Hervé Guillou, and Joseph Cotten. "Pleistocene magmatism in a lithospheric transition area: petrogenesis of alkaline and peralkaline lavas from the Baringo–Bogoria Basin, central Kenya Rift." Canadian Journal of Earth Sciences 40, no. 9 (September 1, 2003): 1239–57. http://dx.doi.org/10.1139/e03-046.

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New petrological, geochronological, and geochemical data on basalts, mugearites, peralkaline trachytes, and phonolites from the Baringo–Bogoria Basin, central Kenya Rift, are presented. K–Ar dating indicates that the volcanic rocks were emplaced between 894 ± 13 and 92 ± 5 ka. 87Sr/86Sr ranges from 0.70304 to 0.70692, 143Nd/144Nd from 0.51237 to 0.51295, 206Pb/204Pb from 18.4 to 19.8, 207Pb/204Pb from 15.46 to 15.70, and 208Pb/204Pb from 38.2 to 40.5. Despite a rather restricted sampling area and a relatively short time span ([Formula: see text]820 ka), the mineralogical and geochemical variations are not consistent with a simple cogenetic link between the lavas. The studied area is located in a transition zone between two different lithospheric domains (Tanzanian Craton and Panafrican Mobile Belt). We propose that the petrological and geochemical variations of the studied lavas are essentially linked to the nature of the underlying lithosphere. Some basaltic products underwent carbonate contamination, possibly within the crust. Trachytes and phonolites are derived from different basaltic parents through crustal assimilation coupled with fractional crystallization. One phonolite sample contains primary calcite-rich veinlets. Textural relations and geochemical evidence suggest that there is a direct cogenetic link between these carbonate and phonolite melts. The veinlets are the modal expression of a carbonate component included in all the phonolites from the Baringo–Bogoria Basin.
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Henry, Bernard, Boualem Bayou, Mohamed E. M. Derder, Hamou Djellit, Aziouz Ouabadi, Allaoua Khaldi, and Abderahmane Hemmi. "Late Panafrican evolution of the main Hoggar fault zones: Implications of magnetic fabric study in the In Telloukh pluton (Tin Serririne basin, Algeria)." Journal of African Earth Sciences 49, no. 4-5 (November 2007): 211–21. http://dx.doi.org/10.1016/j.jafrearsci.2007.09.004.

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Ganwa, Alembert Alexandre, Wolfgang Frisch, Wolfgang Siebel, Cosmas Kongnyuy Shang, Joseph Mvondo Ondoa, Muharrem Satir, and Jacqueline Tchakounté Numbem. "Zircon 207Pb/206Pb evaporation ages of Panafrican metasedimentary rocks in the Kombé-II area (Bafia Group, Cameroon): Constraints on protolith age and provenance." Journal of African Earth Sciences 51, no. 2 (May 2008): 77–88. http://dx.doi.org/10.1016/j.jafrearsci.2007.12.003.

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33

Unzog, Wolfgang, and Walter Kurz. "Progressive development of lattice preferred orientations (LPOs) of naturally deformed quartz within a transpressional collision zone (Panafrican Orogen in the Eastern Desert of Egypt)." Journal of Structural Geology 22, no. 11-12 (November 2000): 1827–35. http://dx.doi.org/10.1016/s0191-8141(00)00087-0.

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Ganwa, Alembert Alexandre, Urs Stephan Klötzli, and Christoph Hauzenberger. "Evidence for Archean inheritance in the pre-Panafrican crust of Central Cameroon: Insight from zircon internal structure and LA-MC-ICP-MS UPb ages." Journal of African Earth Sciences 120 (August 2016): 12–22. http://dx.doi.org/10.1016/j.jafrearsci.2016.04.013.

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Shakerardakani, Farzaneh, Franz Neubauer, Fariborz Masoudi, Behzad Mehrabi, Xiaoming Liu, Yunpeng Dong, Mohammad Mohajjel, Behzad Monfaredi, and Gertrude Friedl. "Panafrican basement and Mesozoic gabbro in the Zagros orogenic belt in the Dorud–Azna region (NW Iran): Laser-ablation ICP–MS zircon ages and geochemistry." Tectonophysics 647-648 (April 2015): 146–71. http://dx.doi.org/10.1016/j.tecto.2015.02.020.

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36

Kanouo, Nguo Sylvestre, David Richard Lentz, Khin Zaw, Charles Makoundi, Emmanuel Afanga Archelaus Basua, Rose Fouateu Yongué, and Emmanuel Njonfang. "New Insights into Pre-to-Post Ediacaran Zircon Fingerprinting of the Mamfe PanAfrican Basement, SW Cameroon: A Possible Link with Rocks in SE Nigeria and the Borborema Province of NE Brazil." Minerals 11, no. 9 (August 30, 2021): 943. http://dx.doi.org/10.3390/min11090943.

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The pre- to post-Late Neoproterozoic geological histories in the south to southwestern part of Mamfe Basin (SW Cameroon) were reported following analysis of the zircon crystals from their host rocks. A genetic model was developed for the zircon host rocks’ formation conditions, and the registered post-emplacement events were presented. The obtained ages were correlated with the data available for rocks in the Cameroon Mobile Belt, SE Nigeria, and the Borborema Province of NE Brazil. Separated zircons from Araru black to whitish gneiss, Araru whitish-grey gneiss, and Mboifong migmatite were analyzed for their morphology and texture U-Th-Pb composition, and U-Pb ages. Published U-Pb zircon ages for Otu granitic pegmatite, Babi mica schist, and Nkogho I-type anatectic granite were updated. Zircon ages in Araru black to whitish gneiss; Araru whitish-grey, Mboifong migmatite, Babi mica schist, Nkogho I-type anatectic granite, and Otu granitic pegmatite date the Eburnean tectono-magmatic/metamorphic event in Cameroon and SE Nigeria. The Late Paleoproterozoic to Early Mesoproterozoic ages record extensional (continental rift) settings and anorogenic magmatism in the Borborema Province in the NE of Brazil. These ages date collisional phases between the São Francisco–Congo and West African cratons and the Saharan metacraton with metamorphism and magmatism in Cameroon. They also date the Kibarian tectono-magmatic/metamorphism and PanAfrican tectono-magmatic/metamorphism in SE Nigeria. The Late Paleoproterozoic to Early Mesoproterozoic ages date the Cariris Velhos orogeny in the Borborema Province in NE Brazil, with Early Tonian crustal rifting, magmatism, and metamorphism and the collisional phase of the Brasiliano orogeny with syn-collisional plutons and extensive shear zoning and post-collisional granite intrusions.
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Ndiaye, Mapathe, Oustasse Abdoulaye Sall, Alassane Thiam, Déthié Sarr, Moustapha Badji, and Issa Ndoye. "Investigating the Depth and the Geometry of the Quarzitic Panafrican Basement Using Near-Surface 3D Seismic Refraction Tomography: Case Study of the Locality of Bakel (Senegal)." International Journal of Geosciences 11, no. 06 (2020): 345–59. http://dx.doi.org/10.4236/ijg.2020.116018.

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Morteani, G., Y. A. Kostitsyn, H. A. Gilg, C. Preinfalk, and T. Razakamanana. "Geochemistry of phlogopite, diopside, calcite, anhydrite and apatite pegmatites and syenites of southern Madagascar: evidence for crustal silicocarbonatitic (CSC) melt formation in a Panafrican collisional tectonic setting." International Journal of Earth Sciences 102, no. 3 (December 4, 2012): 627–45. http://dx.doi.org/10.1007/s00531-012-0832-x.

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39

Lucazeau, F., and F. Rolandone. "Heat-flow and subsurface temperature history at the site of Saraya (eastern Senegal)." Solid Earth Discussions 4, no. 1 (June 4, 2012): 599–626. http://dx.doi.org/10.5194/sed-4-599-2012.

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Abstract. New temperature measurements from eight boreholes in the West African Craton (WAC) reveal superficial perturbations down to 100 meters below the alteration zone. These perturbations are both related to a recent increase of the surface air temperature (SAT) and to the site effects caused by fluids circulations and/or the lower conduction in the alterites. The ground surface temperature (GST) inverted from the boreholes temperatures is stable in the past (1700–1940) and then dramatically increases in the most recent years (1.5 °C since 1950). This is consistent with the increase of the SAT recorded at two nearby meteorological stations (Tambacounda and Kedougou), and more generally in the Sahel with a coeval rainfall decrease. Site effects are superimposed to the climatic effect and interpreted by advective (circulation of fluids) or conductive (lower conductivity of laterite and of high-porosity sand) perturbations. We used a 1-D finite differences thermal model and a Monte-Carlo procedure to find the best estimates of these sites perturbations: all the eight boreholes temperatures logs can be interpreted with the same basal heat-flow and the same surface temperature history, but with some realistic changes of thermal conductivity and/or fluid velocity. The GST trend observed in Senegal can be confirmed by two previous boreholes measurements made in 1983 in other locations of West Africa, the first one in an arid zone of northern Mali and the second one in a subhumid zone in southern Mali. Finally, the background heat-flow is low (30 ± 1 m Wm−2), which makes this part of the WAC more similar with the observations in the southern part (33 ± 8 m Wm−2) rather than with those in the northern part and in the PanAfrican domains where the surface heat-flow is 15–20 m Wm−2 higher.
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40

Dallmeyer, R. D., J. D. Keppie, and R. D. Nance. "40Ar/39Ar ages of detrital muscovite within Lower Cambrian and Carboniferous clastic sequences in northern Nova Scotia and southern New Brunswick: implications for provenance regions." Canadian Journal of Earth Sciences 34, no. 2 (February 1, 1997): 156–68. http://dx.doi.org/10.1139/e17-013.

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Detrital muscovite from lowermost Cambrian sequences exposed in the Avalon Composite Terrane in Nova Scotia and New Brunswick record 40Ar/39Ar plateau ages of ca. 625–600 Ma. These are interpreted to date times of cooling in source areas. The regional distribution of coarse-grained detrital muscovite in Lower Cambrian rocks of Avalonian overstep sequences suggests a source region of dimensions considerably larger than any presently exposed in Appalachian segments of the Avalon Composite Terrane. Late Proterozoic tectonic reconstructions locate the Avalon Composite Terrane adjacent to northwestern South America, thereby suggesting a possible source within Late Proterozoic PanAfrican – Brasiliano orogens. Detrital muscovite from clastic sequences of the proximally derived, Lower Carboniferous (Tournaisian) Horton Group and the more distal Upper Carboniferous (Westphalian D – Stephanian) Pictou Group in Nova Scotia records 40Ar/39Ar spectra that define plateau ages of ca. 390–380 Ma (Horton Group) and and ca. 370 Ma (Pictou Group). Finer grained fractions from samples of the Horton Group display more internally discordant age spectra defining total-gas ages of ca. 397–395 Ma. A provenance for the finer muscovite may be found in southern Nova Scotia where Cambrian–Ordovician turbidites of the Meguma Group display a regionally developed micaceous cleavage of this age. The ca. 390–380 Ma detrital muscovites probably were derived from granite stocks presently exposed in proximal areas of northernmost Cape Breton Island. A more distal source for the ca. 370 Ma detrital muscovites in the Pictou Group is suggested by its original extensive distribution, although a local, possibly recycled, source may also have been present. The presence of only 400–370 Ma detrital muscovite suggests a rapidly exhumed orogenic source with characteristics similar to those of crystalline rocks presently exposed in the Cape Breton Highlands and (or) the Meguma Terrane.
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Mock, C. "May Recovery of Thermal History by K-Feldspar 40Ar/39Ar Thermochronology be Limited by the Thermal History Itself? Constraints from the Thermochronological Study of the Panafrican Ethiopian Basement." Mineralogical Magazine 62A, no. 2 (1998): 997–98. http://dx.doi.org/10.1180/minmag.1998.62a.2.189.

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Tanko Njiosseu, Evine Laure, Jean Paul Nzenti, Théophile Njanko, Badibanga Kapajika, and Anne Nédélec. "Reply to ‘Comment on New UPb zircon ages from Tonga (Cameroon): coexisting Eburnean–Transamazonian (2.1 Ga) and Panafrican (0.6 Ga) imprints’ by Sadrack Félix Toteu and Joseph Penaye." Comptes Rendus Geoscience 337, no. 16 (December 2005): 1553–54. http://dx.doi.org/10.1016/j.crte.2005.09.008.

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43

El Aouli, El Hassan, Dominique Gasquet, and Moha Ikenne. "Le magmatisme basique de la boutonniere d'Igherm (Anti-Atlas occidental, Maroc); un jalon des distensions neoproterozoiques sur la bordure nord du craton ouest-africain." Bulletin de la Société Géologique de France 172, no. 3 (May 1, 2001): 309–17. http://dx.doi.org/10.2113/172.3.309.

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Abstract In the Igherm inlier (western Anti-Atlas, Morocco) doleritic dyke swarms with various directions and gabbroic intrusive bodies were emplaced during Neoproterozoic times, cutting across either Eburnean micaschists and granites or Panafrican limestones and quartzites. All these rocks were deformed by the main Panafrican schistosity and covered by molassic and volcanic Upper Neoproterozoic series. The primary mineralogical assemblages (plagioclase, augite, olivine...) of the mafic rocks are nearly completely replaced by secondary assemblages (albite, actinolite, chlorite, epidote, calcite, quartz, leucoxene, magnetite, hematite...). However, three main groups have been recognized by the means of relative chronology and petrography. The group 1 is earlier, as shown by the intrusive character of the dykes of the other two groups into its gabbroic bodies. Using incompatible trace elements and rare earth elements it appears that this magmatism is truly heterogeneous and that the three groups have different magmatic affinities. The group 1 corresponds to tholeiitic dolerites and gabbros characterized by intersertal and ophitic textures and by high contents in Fe 2 O 3 (12.16 to 16.64%), TiO 2 (1.46 to 2.5%), Zr (90 to 174 ppm), Nb (7 to 13 ppm), Y (21.68 to 38.74 ppm) and V (264 to 419 ppm). The REE contents are low (Sigma REE = 49 to 137 ppm) and the REE patterns are flat [1.99<(La/Yb) N <4.56] showing a relative slight enrichment in LREE and no anomaly in Eu (0.89>Eu/Eu (super *) <1.11). These features as the TiO 2 vs FeO (super *) /MgO and V vs Ti/1000 diagrams are characteristic of anorogenic intraplate magmas. The group 2 corresponds to calc-alkaline dolerites and gabbros showing fine-grained intersertal textures and high contents of Al 2 O 3 (14.10 to 20.64%) and low contents of Fe 2 O 3 (8.35 to 12.91%), TiO 2 (0.68 to 1.41%), Zr (66 to 106 ppm), Nb (5 to 7 ppm), Y (16.41 to 20.75 ppm) and V (144 to 264 ppm). The REE contents vary from 67 to 155 ppm and the REE patterns are fractionated (2.78<(La/Yb) N <6.62) with a strong enrichment in LREE. The slight positive Eu anomaly (0.91<Eu/Eu (super *) <1.37) is related to the wealth of plagioclases frequently observed in these rocks. The TiO 2 contents of these rocks and their low FeO (super *) /MgO ratios give them a calc-alkaline affinity similar to that of calc-alkaline orogenic basalts related to an oceanic subduction. The group 3 corresponds to alkaline dolerites characterized by fine-grained intersertal textures with high contents of TiO 2 (3.85 to 3.97%), P 2 O 5 (0.66 to 0.77%), Nb (33 to 39 ppm), Zr (262 to 287 ppm), Y (39.6 to 47.7 ppm) and REE (Sigma REE = 205 to 218 ppm). The REE patterns are fractionated (7.77<La/Yb) N <6.65) without no Eu anomaly (0.99<Eu/Eu (super *) <1.02). The Ti/V and Y/Nb ratios (65.26 to 74.95 and 1.19 to 1.22, respectively) are those of alkaline rocks found in intraplate environments. The detailed petrographical, geochemical and field studies of the Igherm inlier show that the mafic magmatism is more complex than previously described. The mafic tholeiitic and alkaline magmatism occurring in the Igherm inlier is also present in the other inliers of the Moroccan Anti-Atlas during Neoproterozoic times. On the other hand the calc-alkaline Neoproterozoic mafic magmatism is very rare elsewhere in the Anti-Atlas except in the Siroua Massif and locally in the Bas Draa and Tagragra d'Akka inliers (western Anti-Atlas). The geodynamical environment of this mafic magmatism is linked to a strong extensional tectonic regime occurring at the northern border of the West African craton during Neoproterozoic times. This regime is related to the oceanic opening described in Central Anti-Atlas and to the emplacement of the ophiolites of Bou Azzer and Siroua or occurs immediately after the oceanic opening. The chemical heterogeneities observed in the three defined groups can be related to heterogeneities of mantellic sources and/or various partial melting ratios of the sub-continental mantle. We can assume that this major fissural magmatic event, not precisely dated, is equivalent to that observed in the other Neoproterozoic provinces in Hoggar, Cameroon, north America and Brazil.
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Blade Babène, Frank. "L'ombre d'un rêve panafricain." Africultures 98, no. 2 (2014): 214. http://dx.doi.org/10.3917/afcul.098.0214.

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ACQUAFREDDA, PASQUALE, ANNAMARIA FORNELLI, GIUSEPPE PICCARRETA, and ANNARITA PASCAZIO. "Multi-stage dehydration–decompression in the metagabbros from the lower crustal rocks of the Serre (southern Calabria, Italy)." Geological Magazine 145, no. 3 (February 25, 2008): 397–411. http://dx.doi.org/10.1017/s001675680700430x.

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AbstractPorphyroblastic garnet-bearing metagabbros from the base of the lower crust section of the Serre (southern Italy) exhibit multi-stage dehydration and decompression after the Panafrican emplacement of their protoliths. The first dehydration event produced Am–Opx–Cpx–Pl–Grt as the peak assemblage. Two decompression stages are documented by: (1) coronas of Opx–Pl and Opx–Am, and symplectites of Opx–Am–Pl around clinopyroxene within the porphyroblastic garnet as well as in the matrix and (2) symplectites of Pl–Am–Opx–Grt having different textures around the porphyroblastic garnet. During the second decompression stage, a new local, somewhat intense, dehydration occurred and produced rims of Opx+Pl around the porphyroblastic amphibole, or lenses of Pl–Opx–Am–Spl±Bt between layers of dominant amphibole. A deformation stage separates older from younger reaction textures. The porphyroblastic garnet, its inclusions and the matrix are affected by fractures, which have been overgrown by coronas and symplectites around the porphyroblastic garnet and the amphibole of the matrix. PreferredP–Testimates are: ∼900 °C and ∼1.1 GPa at the metamorphic peak; ∼850 °C and 0.8–0.9 GPa during the formation of corona around clinopyroxene; 750–650 °C and 0.7–0.8 GPa during the formation of corona around garnet. All these textures formed under granulite-facies conditions. The subsequent metamorphic evolution consists of rehydration under amphibolite-facies conditions. TheP–T–tpath agrees with the path shown by the uppermost migmatites of the Serre section, and theP–Testimates at the top and the bottom of the section are consistent with the thickness (7–8 km) of the lower crustal segment. A contractional regime, which caused a crustal thickening of about 35 km, was followed by an extensional one producing significant crustal thinning; the change of tectonic regime probably occurred about 300 Ma ago when the emplacement of voluminous granitoids and the initial stages of exhumation of the lower crustal section had taken place.
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Mukeredzi, Tonderayi. "Passeport panafricain, au-delà des frontières." Afrique Renouveau 30, no. 2 (August 31, 2016): 20–21. http://dx.doi.org/10.18356/e190b6c2-fr.

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47

GUEDJ, Pauline. "Africain, Akan, Panafricain et Afro-Américain." Civilisations, no. 58-1 (August 31, 2009): 73–92. http://dx.doi.org/10.4000/civilisations.1925.

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48

Blum, Françoise. "Syndicalistes croyants et panafricains." Vingtième Siècle. Revue d'histoire 119, no. 3 (2013): 99. http://dx.doi.org/10.3917/ving.119.0099.

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49

Njonfang, E., and C. Moreau. "The mafic mineralogy of the Pandé massif, Tikar plain, Cameroon: implications for a peralkaline affinity and emplacement from highly evolved alkaline magma." Mineralogical Magazine 64, no. 3 (June 2000): 525–37. http://dx.doi.org/10.1180/002646100549409.

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AbstractThe Pandé massif is a small (4.9×63.4 km) subvolcanic complex of the Cameroon Line striking W – E and intrudes a Panafrican granite basement. It comprises a syenite-granite suite, where coarse- to finegrained syenites are predominant and the granites are the product of residual melt after syenite crystallization, and two volcanic (trachyte-rhyolite and trachyte) sequences. Amphibole and pyroxene are the dominant mafic silicates, the first occurring mainly in rhyolites and coarse- to medium-grained syenites, and the second, principally in all syenites, trachytes and granites. Rare biotite flakes are encountered in the coarse-grained or alkaline syenites and fayalite rimmed with oxides occurs in trachyte from the first volcanic sequence (T1). Apatite and zircon are common accessories, whereas some titanite occurs in the medium-grained syenites. The plutonic rocks are drusy, intrude the first volcanic sequence but pre-date the second (T2).All the mafic minerals are Fe-rich. Detailed studies of amphibole and pyroxene show that their compositions define relatively limited trends, amphibole varying from ferro-richterite to arfvedsonite and pyroxenes along the acmite-hedenbergite join of the Ac-Hd-Di diagram, in both the intrusive suite and volcanic rocks. Where the two minerals coexist, pyroxene crystallized subsequent to amphibole, a situation generally found in late-stage or subsolidus aegirines. The overlap in plutonic and volcanic pyroxene trends suggests their crystallization from magmas of the same composition. However, the presence of quartz and fayalite in T1 and of pure aegirine in T2 and the occurrence of Zr-bearing aegirine (NaZr0.5Fe0.52+Si2O6) in the early crystallizing alkaline syenites evolving towards pure aegirine from medium- to fine-grained quartz syenites and granites, are consistent with changes in oxygen fugacities during magmatic differentiation. Two stages are distinguished: fO2 increasingly decreased from T1 to alkaline syenite emplacement (from 10−16 to 10−24 bracketed by WM and QFM buffers) where a disequilibrium, probably caused by water dissociation with volatile loss (H2) during magma degassing, favoured crystallization of Zr-bearing aegirine; a decrease in amphibole proportions towards medium-grained quartz syenites and an increase in fO2 from the medium-grained quartz syenites to granites and T2 sequence.The Mg-poor nature of all the mafic silicates, subsolidus origin of amphiboles, crystallization of pyroxene subsequent to amphibole and subsolidus trends defined by pyroxenes are compatible with the parental magma having itself been a late-stage derivative magma, e.g. the last product of an alkaline melt from which the voluminous Mayo Darlé granite bodies crystallized.
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Renault, Matthieu. "Festival culturel panafricain d’Alger (7-8 juillet 2009)." Journal des anthropologues, no. 118-119 (December 1, 2009): 381–86. http://dx.doi.org/10.4000/jda.4194.

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