1. bookVolume 65 (2018): Edition 4 (December 2018)
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30 Mar 2016
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Geochemical assessment of claystone deposits from the Patti Formation, Southern Bida Basin, Nigeria

Publié en ligne: 31 May 2019
Volume & Edition: Volume 65 (2018) - Edition 4 (December 2018)
Pages: 207 - 218
Reçu: 15 Nov 2017
Accepté: 28 May 2018
Détails du magazine
Première parution
30 Mar 2016
4 fois par an

[1] Gary, N. (2009): Sedimentology and Stratigraphy, 2nd edition, United Kingdom: Wiley Blackwell, p.21.Search in Google Scholar

[2] Calvert, S.E., Pedersen, T.F. (1993): Geochemistry of Recent toxic and anoxic marine sediments, implications for the geological records. Marine Geology, 113(1–2), pp. 67–88.10.1016/0025-3227(93)90150-TSearch in Google Scholar

[3] Jones, B., Manning, D.C. (1994): Comparison of geochemical indices used for the interpretation of paleo-redox conditions in Ancient mudstones. Chemical Geology, 11(1–4), pp. 111–129.10.1016/0009-2541(94)90085-XSearch in Google Scholar

[4] Nath, B.N., Bau, M., Ramalingeswara, B., Rao, C.M. (1997): Trace and rare earth elemental variation in Arabian Sea sediments through a transect across the oxygen minimum zone. Geochimica et Cosmochimica Acta, 61(12), pp. 2375–2388.10.1016/S0016-7037(97)00094-XSearch in Google Scholar

[5] Cullers, R.L. (2002): Implications of elemental concentrations for provenance, redox conditions and metamorphic studies of shales and limestones near Pueblo, Colorado, USA. Chemical Geology, 19(4), pp. 305–327.10.1016/S0009-2541(02)00133-XSearch in Google Scholar

[6] Armstrong-Altrin, J.S., Verma, S.P., Madhavaraju, J., Lee, Y.I., Ramasamy, S. (2003): Geochemistry of Late Miocene Kudankulam Limestones, South India. International Geology Review, 45(1), pp. 16–26.10.2747/0020-6814.45.1.16Search in Google Scholar

[7] Dobrzinski, N., Bahlburg, H., Strauss, H., Zhang, Q.R. (2004): Geochemical climate proxies applied to the Neoproterozoic glacial succession on the Yangtze Platform, South China. In: Jenkins, G. et al. (Eds.). American Geophysical Union Monograph Series, 146, pp. 13–32.10.1029/146GM03Search in Google Scholar

[8] Hallberg, R.O. (1976): A geochemical method for investigation of palaeoredox conditions in sediments. Ambio Special Report, 4, pp. 139–147.Search in Google Scholar

[9] Hayashi, K., Fujisawa, H., Holland, H., Ohmoto, H. (1997): Geochemistry of ~1.9Ga sedimentary rocks from north eastern Labrador, Canada. Geochimica et Cosmochimica Acta, 61(19), pp. 4115–4137.Search in Google Scholar

[10] Bhatia, M.R. (1983): Plate tectonics and geochemical composition of sandstones. Journal of Geology, 91, pp. 611–627.10.1086/628815Search in Google Scholar

[11] Roser, B.P., Korsch, R.J. (1986): Determination of tectonic setting of sandstone mudstone suites using SiO2 content and K2O/Na2O ratio. Journal of Geology, 94, pp. 635–650.10.1086/629071Search in Google Scholar

[12] Lopez de Luchi, M.E., Hoffmann, A.S., Wemmer, K., Steeken, A. (2003): Temporal constraints on the polyphase evolution of the Sierra de San Luis Preliminary report based on biotite and muscovite cooling ages. In: Calabar, N., Libraries, E., Lopez de Luchi, M.G., Ostera, Panarello, H. (Eds.). Actas 15thCongreso Geologico Argentiso, I, pp. 309–315.Search in Google Scholar

[13] Gritty, G.H., Hason, A.D., Knaack, C., Johnson, D. (1994): Provenance determined by REE. In: Sc analyses of metasedimentary rocks, boy den cave roof pendant, central Sierria Neveda, Carlifornia. Journal of sedimentary research, 64, pp. 68–73.Search in Google Scholar

[14] Whiteman, A.J. (1982): Nigeria; Its Petroleum Geology, Resources and Potential. London: Graham and Trotman, 399 p.10.1007/978-94-009-7361-9Search in Google Scholar

[15] Ladipo, K.O., Akande, S.O., Mucke, A. (1994): Genesis of ironstones from Middle Niger sedimentary basin, evidence form sedimentological ore microscopic and geochemical studies. Journal of Mining and Geology, 30, pp. 161–168.Search in Google Scholar

[16] Akande, S.O., Ojo, O.J., Ladipo, K.O. (2005): Upper Cretaceous sequences in the southern Bida Basin, Nigeria. A field guide book (Nigerian Association of Petroleum Explorationists), 60 p.Search in Google Scholar

[17] Adeleye, D.R. (1975): A fauna from the ironstones of the middle Niger valley, Nigeria. Journal of Mining Geology, 8, pp. 45–48.Search in Google Scholar

[18] Okunlola, O.A., Olubunmi, I. (2012): The geochemistry of claystone-shale deposits from the Maastrichtian Patti formation, Southern Bida basin, Nigeria. Earth Sciences Research Journal, 16(2), pp. 57–67.Search in Google Scholar

[19] Agyingi, C.M. (1991): Geology of Upper Cretaceous rocks in the eastern Bida, Nigeria. Ph.D. Thesis. Ibadan: University of Ibadan 1991; 501 p.Search in Google Scholar

[20] Oyawoye, M.O. (1972): The basement complex of Nigeria. In: African geology, Dessauvagie, T.F.J., Whiteman, A.J. (eds.). Ibadan University Press, pp. 66–102.Search in Google Scholar

[21] Adeleye, D.R., Dessauvagie, T.F.G. (1972): Stratigraphy of the Niger embayment near Bida, Nigeria. In: African Geology, Dessauvagie, T.F.G., Whiteman, A.J. (eds.). University of Ibadan Press, pp. 181–186.Search in Google Scholar

[22] Adeleye, D.R. (1971): Stratigraphy and sedimentation of the Upper Cretaceous strata around Bida, Nigeria. Ph.D. Thesis. Ibadan: University of Ibadan 1971; 297 p.Search in Google Scholar

[23] Akande, S.O., Ojo, O.J. (2002): Organic Petrology and Rock-Eval studies on source rock facies of Champion-Maastrichtian Patti Formation, southern Bida basin, Nigeria. Nigerian Association of Petroleum Explorationists Bulletin, 16, pp. 21–39.Search in Google Scholar

[24] Ojo, S.B. (1984): Middle Niger Basin Revisited, Magnetic constraints on gravity interpretations. Nigerian Mining and Geosciences Society Conference, Nsukka, Nigeria, Abstract, pp. 52–53.Search in Google Scholar

[25] Adelana, S.M.A., Olasehinde, P.I., Bale, R.B., Vrbka, P., Goni, I.B., Edet, A.E. (2008): An overview of the geology and hydrogeology of Nigeria. In: Applied Groundwater Studies in Africa. IAH Selected Papers on Hydrogeology, Adelana, S.M.A., MacDonald, A.M. (eds.). London: CRC Press Balkema,13, pp. 71–197.10.1201/9780203889497-13Search in Google Scholar

[26] Fagbohun, B.J., Adeoti, B., Aladejana, O.O. (2017): Litho-structural analysis of eastern part of Ilesha schist belt, Southwestern Nigeria. Journal of African Earth Sciences, 133 p. Available on: <http://doi.org/10.1016/j.jafrearsci.2017.05.017>.10.1016/j.jafrearsci.2017.05.017>Ouvrir le DOISearch in Google Scholar

[27] Nton, M.E. (1999): Sedimentology and depositional environment of Awi Formation, Calabar Flank, southeastern Nigeria. Journal of Mining and Geology, 35(1), pp. 23–36.Search in Google Scholar

[28] David, J.W., Roger, M.S. (1977): Late Quarternary and clay-minerals distribution on the eastern continental margin of Canada. Journal of the Geological Society of America, 88(2), pp. 267–272.Search in Google Scholar

[29] Akpokodje, E.G., Etu-Efeotor, J.O., Olorunfemi, B.N. (1991): The composition and physical properties of some ceramic and pottery clays of southeastern Nigeria. Journal of Mining and Geology, 27, pp. 9–15.Search in Google Scholar

[30] Imeokparia, E.G., Onyeobi, T.U.S. (2007): Geochemical and depositional characteristics of Maastrichtian shales in parts of southwestern, Nigeria. Journal of Mining and Geology, 43, pp. 167–174.10.4314/jmg.v43i1.47902Search in Google Scholar

[31] Ojo, O.J., Suraj, A.A., Temitope, M.A., Aminat, O.A. (2011): Sedimentological and geochemical studies of Maastrichtian clays in Bida Basin, Nigeria: Implication for resource potential. Centrepoint Journal (Science edition), 17(2), pp. 78–79.Search in Google Scholar

[32] Cox, R., Lowe, D.R., Cullers, R.L. (1995): The influence of sediment recycling and basement composition on evolution of mudrock chemistry in the southwestern United states. Geochimica et Cosmochimica Acta, 59(14), pp. 2919–2940.10.1016/0016-7037(95)00185-9Search in Google Scholar

[33] Emofurieta, W.O., Ogundimu, T.O., Imeokparia, F.C. (1994): Mineralogical, Geochemical and Economic Appraisal of some Clay and Shale Deposits in Southwestern and Northeastern Nigeria. Journal of Mining and Geology, 30, pp. 151–159.Search in Google Scholar

[34] Huber, J.M. (1985): Kaolin Clays. Huber Corporation (Clay Division), Georgia, U.S.A.Search in Google Scholar

[35] Elueze, A.A., Bolarinwa, A.T. (1995): Assessment of functional application of lateritic clay bodies in Ekiti environs, Southwestern Nigeria. Journal of Mining and Geology, 31, pp. 79–87.Search in Google Scholar

[36] McLennan, S.M., Hemming, S., McDaniel, D.K., Hanson, G.N. (1993): Geochemical approaches to sedimentation, provenance and tectonics. Processes controlling the composition of clastic sediments. In: Geological Society of America Special Paper, Johnson, M.J., Basu, A. (eds.), 284, pp. 21–40.10.1130/SPE284-p21Search in Google Scholar

[37] Wronkiewicz, D.J., Condie, K.C. (1990): Geochemistry and mineralogy of sediments from the Ventersdorp and Transvaal Supergroups, South Africa: Cratonic evolution during the early Proterozoic: Geochimica et Cosmochimica Acta, 54(2), pp. 343–354.Search in Google Scholar

[38] Cullers, R.L. (1995): The controls on the major and trace element evolution of shales, siltstones and sandstones of Ordovician to Tertiary age in the Wet Mountain region, Colorado, U.S.A: Chemical Geology, 123(1–4), pp. 107–131.10.1016/0009-2541(95)00050-VSearch in Google Scholar

[39] Barnes, U.C., Cochran, J.R. (1990): Uranium removal in oceanic sediments and the oceanic U balance. Earth and Planetary Science Letters, 97(1–2), pp. 94–101.10.1016/0012-821X(90)90101-3Search in Google Scholar

[40] Somayajulu, B.L.K., Yadav, D.N., Sarin, M.M. (1994): Recent sedimentary records from the Arabian Sea. Sedimentology Proceedings of the Indian Academy of Sciences, 103(2), pp. 315–327.10.1007/BF02839541Search in Google Scholar

[41] Madhavaraju, J., Ramasamy, S. (1999): Rare earth elements in limestones of Kallankurichchi Formation of Ariyalur Group, Tiruchirapalli Cretaceous, Tamil Nadu. Journal of the Geological Society of India, 54, pp. 291–301.Search in Google Scholar

[42] Klinkhammer, G.P., Palmer, M.R. (1991): Uranium in the oceans: where it goes and why? Geochimica et Cosmochimica Acta, 55(7), pp. 1799–1806.Search in Google Scholar

[43] Sarkar, A., Battacharya, S.K., Sarin, M.M. (1993): Geochemical evidence for anoxic deep water in the Arabian Sea during the last glaciation. Geochimica et Cosmochimica Acta, 57(5), pp. 1009–1016.10.1016/0016-7037(93)90036-VSearch in Google Scholar

[44] Ernst, T.W. (1970): Geochemical facies analysis, Amsterdam: Elsevier, 152 p.Search in Google Scholar

[45] Bjorlykke, K. (1974): Geochemical and mineralogical influence of Ordovician island arcs on epicontinental clastic sedimentation: a study of Lower Paleozoic sedimentation in the Oslo region, Norway. Sedimentology, 21(2), pp. 251–272.10.1111/j.1365-3091.1974.tb02058.xSearch in Google Scholar

[46] Dill, H., Teshner, M., Wehner, H. (1988): Petrography, inorganic and organic geochemistry of Lower Permian Carboniferous fan sequences (Brandschiefer Series) FRG: constraints to their paleogeography and assessment of their source rock potential. Chemical Geology, 67(3–4), pp. 307–325.10.1016/0009-2541(88)90136-2Search in Google Scholar

[47] Shaw, T.J., Geiskes, J.M., Jahnk, R.A. (1990): Early diagenesis in differing depositional environments: the response of transition metals in pore water. Geochimica et Cosmochimica Acta, 54(5), pp. 1233–1246.10.1016/0016-7037(90)90149-FSearch in Google Scholar

[48] Bhatia, M.R., Crook, A.W. (1986): Trace element characteristics of greywackes and tectonic setting discrimination of sedimentary basins. Contributions to Mineralogy and Petrology, 92, pp. 181–193.10.1007/BF00375292Search in Google Scholar

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