Academic literature on the topic 'Supergroupe du Katanga'
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Journal articles on the topic "Supergroupe du Katanga":
Miller, Roy McG. "Comparative Stratigraphic and Geochronological Evolution of the Northern Damara Supergroup in Namibia and the Katanga Supergroup in the Lufilian Arc of Central Africa." Geoscience Canada 40, no. 2 (August 24, 2013): 118. http://dx.doi.org/10.12789/geocanj.2013.40.007.
Master, Sharad, and Marek Wendorff. "Chapter 12 Neoproterozoic glaciogenic diamictites of the Katanga Supergroup, Central Africa." Geological Society, London, Memoirs 36, no. 1 (2011): 173–84. http://dx.doi.org/10.1144/m36.12.
Master, S., C. Rainaud, R. A. Armstrong, D. Phillips, and L. J. Robb. "Provenance ages of the Neoproterozoic Katanga Supergroup (Central African Copperbelt), with implications for basin evolution." Journal of African Earth Sciences 42, no. 1-5 (July 2005): 41–60. http://dx.doi.org/10.1016/j.jafrearsci.2005.08.005.
Mambwe, Pascal, Louis Kipata, Mumba Chabu, Philippe Muchez, Toto Lubala, Michel Jébrak, and Damien Delvaux. "Sedimentology of the Shangoluwe breccias and timing of the Cu mineralisation (Katanga Supergroup, D. R. of Congo)." Journal of African Earth Sciences 132 (August 2017): 1–15. http://dx.doi.org/10.1016/j.jafrearsci.2017.04.017.
Armstrong, R. A., S. Master, and L. J. Robb. "Geochronology of the Nchanga Granite, and constraints on the maximum age of the Katanga Supergroup, Zambian Copperbelt." Journal of African Earth Sciences 42, no. 1-5 (July 2005): 32–40. http://dx.doi.org/10.1016/j.jafrearsci.2005.08.012.
Gigler, Gruffudd M., Marta Sośnicka, Rudolph Erasmus, Jessica Schapira, and Judith A. Kinnaird. "Microfossils or pseudofossils? Cu-Co sulphide microfeatures in the Neoproterozoic Katangan Supergroup, Democratic Republic of Congo." Precambrian Research 336 (January 2020): 105481. http://dx.doi.org/10.1016/j.precamres.2019.105481.
Cailteux, Jacques L. H., and Thierry De Putter. "The Neoproterozoic Katanga Supergroup (D. R. Congo): State-of-the-art and revisions of the lithostratigraphy, sedimentary basin and geodynamic evolution." Journal of African Earth Sciences 150 (February 2019): 522–31. http://dx.doi.org/10.1016/j.jafrearsci.2018.07.020.
Delpomdor, Franck, Yannick Callec, Laurent Bailly, Etienne H. Mashigiro, Serge Ilunga, Stanislas Sebagenzi, Jean Félix Mupande, Dona Kampata, and Jacques Cailteux. "Sedimentary evolution and chemostratigraphy of the post-Sturtian cap carbonate-like Dolomie Tigrée Formation (Katanga Supergroup) in the Democratic Republic of the Congo." Journal of African Earth Sciences 162 (February 2020): 103727. http://dx.doi.org/10.1016/j.jafrearsci.2019.103727.
Batumike, M. J., A. B. Kampunzu, and J. H. Cailteux. "Petrology and geochemistry of the Neoproterozoic Nguba and Kundelungu Groups, Katangan Supergroup, southeast Congo: Implications for provenance, paleoweathering and geotectonic setting." Journal of African Earth Sciences 44, no. 1 (January 2006): 97–115. http://dx.doi.org/10.1016/j.jafrearsci.2005.11.007.
Mambwe, Matanda Pascal, Sébastien Lavoie, Damien Delvaux, and Jacques M. Batumike. "Soft sediment deformation structures in the Neoproterozoic Kansuki formation (Katanga Supergroup, Democratic Republic of the Congo): Evidence for deposition in a tectonically active carbonate platform." Journal of African Earth Sciences 150 (February 2019): 86–95. http://dx.doi.org/10.1016/j.jafrearsci.2018.09.002.
Dissertations / Theses on the topic "Supergroupe du Katanga":
Ilunga, Ngoy Serge. "Impact des termites sur les cycles biogéochimiques du cuivre et du cobalt dans le Katanga (RDC) - Application à la prospection minière." Electronic Thesis or Diss., Université de Lorraine, 2022. https://docnum.univ-lorraine.fr/ulprive/DDOC_T_2022_0207_ILUNGA_NGOY.pdf.
Knowledge of the influence of termites on transport of metals of economic interest within the complex of lithosphere, pedosphere and termite mounds is of great interest for geochemical and geological characterization of anomalies in mining prospection. Termites have an important functional role in the structuring of soils, causing chemical enrichment through the vertical transport of minerals exchanged between the deeper horizons and the termite mounds built at the surface. Our objective in this thesis is to evaluate the influence of termites on Cu and Co biogeochemical cycles in a mineral-rich region (Katanga, DRC), with the aim to optimize the utilization of termite mounds in mining prospection. This objective requires a characterization of mineral and organic phases at various scales. To achieve this, firstly, a geochemical mapping of termite mounds of two dominant genera of the region, Macrotermes and Cubitermes, was carried out at the landscape scale in an area that received a geological and soil and rock geochemical mapping. The utilization of termite mounds allowed the identification of lithogeochemical facies reflecting the subjacent geology on a regional scale according to the feeding habits of each termite genus. The spatial distribution of termite mounds also allowed us to follow Cu and Co content evolution according to study area geology. The combination of mineralogical and geochemical data acquired on Macrotermes falciger termite mounds and morphological and chemical characterization of their main constituents at microscopic scale allowed to identify carrier phases of interest metals in termite mounds materials. Similarly, the comparison of geochemical signatures of M. falciger termite mounds and their parent materials allowed to establish a lithogeochemical relationship, identifying the source of provisioning at depth by M. falciger. Finally, the association of geochemical characterization results of termite mounds for four granulometric fractions (0-20 µm; 20-63 µm; 63-200 µm; 200-2000 µm) and results on evaluation of the impact of termites on the constitution of aggregates in termite mounds and/or soils, allowed to specify the most informative granulometric fractions on the presence and mineralization of carrier phases of interest metals in Katanga in termite mound materials. The application of all these methods and all elements collected allowed us to propose a Cu and Co biogeochemical cycle scheme in this system, underlying the use of termite mounds in effective and efficient mining prospection