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Journal of Geosciences and Geomatics. 2021, 9(3), 145-159
DOI: 10.12691/JGG-9-3-5
Original Research

Palynological Studies of Upper Creataceous-Paleocene Rocks in Auchi Sheet 266, Benin Flank, Western Extension of the Anambra Basin, Southwestern Nigeria

Onyeachonam N.1 and Fregene T.J2,

1Department of Marine Geosciences, Univeristät Bremen, Bibliothek Straße ,Germany

2Department of Geology, University of Benin, Benin City, Nigeria

Pub. Date: July 20, 2021
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Onyeachonam N. and Fregene T.J. Palynological Studies of Upper Creataceous-Paleocene Rocks in Auchi Sheet 266, Benin Flank, Western Extension of the Anambra Basin, Southwestern Nigeria. Journal of Geosciences and Geomatics. 2021; 9(3):145-159. doi: 10.12691/JGG-9-3-5

Abstract

Out crop samples from Mamu and Nsuka Formation at different locations and ditch cutting samples gotten from a water borehole at Ugbekpe-Ekperi road at different intervals collected from Benin Flank, Western extension of the Anambra Basin, were used for sedimentologic and palynology studies with the aim of establishing palynological assemblage zones, age and paleoenvironments of the sediments. Out crops and Ditch cutting samples were lithologically described using a transmitted light microscope in order to obtain their lithofacies and latter subjected to palynological slides preparation to identify the presence of palynomorphs. Lithofacies units identified were clay, sandy clay, silt, sandstone, shale and sandy shale facies. From the analyzed palynological slides, ninety one (91) palynomorphs species were identified in the outcrop samples, eighty three (83) were Miospores (pollen and spores) and seven (7) were Dinocysts while the borehole samples recorded fifty five (55) palynomorph species, forty three (43) were Miospores while fifteen (15) were Dinocyst. Clusters analysis were used to establish four (4) Palynological Assemblage zones which are Palynological Assemblage zones 1, 2, 3 and 4. Late Maastrichtian to Early Paleocene age is suggested for Nsukka Formation because of the presence / abundance of Spinizonocolpites baculatus with admixture of Apectodinium homomorphum and Homotryblium tenuispinosum. The occurrence of Monocolpites marginatus, Retidiporites magdalenensis, and non-occurrence of Spinizonocolpites baculatus in the outcrop samples suggests that Mamu Formation did not penetrate Late Maastrichtian. Thus Early to Middle Maastrichtian is suggested for Mamu formation. The occurrence of mangrove palynomorphs Zonocostites ramonae, fresh water algae Botryococcus braunii and Concentricyst circulus indicates sedimentation in coastal to shallow marine environment close to mangrove vegetation.

Keywords

lithofacies, palynomorphs, Anambra Basin, paleoenvironment, cluster analysis

Copyright

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References

[1]  Burke, K. C., Dessauvagie, T. F. J., Whiteman, A. J., (1972). Geological history of the Benue valley and adjacent areas. In: Dessauvagie, T.F.J., Whiteman, A.J. (Eds.), African Geology. University of Ibadan Press, Nigeria, pp. 187-218.
 
[2]  Nwajide C.S., (2013). Geology of Nigeria Sedimentary Basins 565p.
 
[3]  Chiaghanam, OI., Nwozor, KK., Chiadikobi, KC., Omoboriowo, AO., Soronnadi-Ononiwu, C G., Onuba, LN., Ofoma, AE (2013). Lithofacies, Palynology and Paleoenvironmental Study of Early Campanian to Mid-Maastrichtian Deposits of Udi and Environs. Int. Journ. of Sci. and Tech, Vol. 2, p. 14-16.
 
[4]  Germeraad, J.H.; Hopping, C.A., and Muller, J., (1968). Palynology of Tertiary sediments from tropical area Review of Paleobotany and Palynology, vol. 6, pp.189-348.
 
[5]  Lucas F.A, and Omodolor Hope E, “Palynofacies Analysis, Organic Thermal Maturation and Source Rock Evaluation of Sedimentary Succession from Oligocene to Early Miocene Age in X2 Well, Greater Ughelli DepoBelt, Niger Delta Basin, Nigeria.” Journal of Geosciences and Geomatics, vol. 6, no. 2 (2018): 85-93.
 
[6]  Lucas, F.A and Fregene T.J .Paleoenvironmental reconstruction of Oligocene to early Miocene sediments of Greater Ughellidepobelt, Niger Delta basin. Journal of applied sciences and environmental management (JASEM) January (2018), Vol.22 (1). pp 99-102.
 
[7]  Lucas, F.A and Fregene T.J .Palynological zonation of Oligocene to early Miocene sediments of Greater Ughellidepobelt, Niger Delta basin. Journal of applied sciences and environmental management (JASEM) December (2017), Vol.21 (7). pp 1341-1345.
 
[8]  Lucas, F.A.“Miospores and Geological Boundaries in Maastrichtian to Lutetian Succession of Ajire-1 well, Anambra Basin, Nigeria”. International Journal of Science and Advanced Innovative Research, Vol. 2(1), (2017). pp. 74-84.
 
[9]  Obaje, N.G., Attah, D.O., Opeloye S.A., Moumount, A., (2006). Geochemical evaluation of the hydrocarbon prospects of sedimentary basins in Northern Nigeria. Geochem. vol. 40, pp.227-243.
 
[10]  Reijers, T.J.A., Petters, S.W., Nwajide, C.S., (1997). The Niger Delta Basin. In: Selley, R.C.(Ed.), African Basins. Elsevier, Amsterdam, pp. 151-172.
 
[11]  Reyment, R. A., (1965). Aspect of the Geology of Nigeria. University of Ibadan Press, Nigeria. 145p.
 
[12]  Nwajide, C.S., (1990). Cretaceous Sedimentation and Palaeogeography of the Central Benue Trough. In Ofoegbu C.O (Ed.), the Benue Trough Structure and Evolution. Pp. 19-38.
 
[13]  Ladipo, K. O., Nwajide, C. S., and Akande. S. O., (1992). Cretaceous and Paleogene Sequences in the Abakaliki and Anambra Basins, Southeastern Nigeria. A fields Guide. Int. Symp. On Geology of Deltas Port Harcourt, Nigeria, 39p.
 
[14]  Ladipo, K. O., Ekweozor, C. and Nwajide, C.S., (2001). Geological field trip to the Anambra Basin and the Lokpanta Oil shale, NAPE Conference, Port Harcourt.
 
[15]  Reyment, R.A., Barber, W.M., (1956). Nigeria and Cameroons in “Lexique Stratigraphique International”, vol.4, Afrique, pp.35-59.
 
[16]  Tattam, C.M., (1944). Pep. Geol. Surv. Nigeria, pp. 27-46.
 
[17]  Obi, G. C., Okogbue, C. O., Nwajide, C. S., (2001). Evolution of the Enugu Cuesta: A tectonically driven erosional process. Global Journal of Pure & Applied Science, vol.7, pp.321-330
 
[18]  Adegoke, O.S., Arua, I., Oyegoke, O., (1980). Two new nautiloids from the Imo Shale, (Paleocene) and Ameki Formation (Middle Eocene), Anambra State, Nigeria. Journal of Mining and Geology. vol. 17, pp.85 89.
 
[19]  Short, K. C., and Stauble, A. J., (1967). Outline of Geology of Niger Delta. American Association of Petroleum Geologists Bulletin, vol. 51(5), pp. 761-779.
 
[20]  Nichols, G.J. (2009). Sedimentology and Stratigraphy. Wiley – Blackwell. UK. 419p.
 
[21]  Nichols, G.J., Fisher, J.A. (2007). Processes, Facies and Architecture of Fluvial Distributary System Deposits. Sedimentary Geology, vol. 195, pp.75-90.
 
[22]  Shanmugam, G., (2007). The Obsolescence of deep – water sequence stratigraphy in petroleum geology. Indian Journal of Petroleum Geology. vol. 16, pp.1-62.
 
[23]  Kovach, W., Battern, D., (1994). Association of palynomorphs and palynofacies with depositional environments: quantitative approaches In A. Traverse, Ed. Sedimentation of organic matter. Cambridge University Press.
 
[24]  Oloto, IN., (1994). Nigerian Maastrichtian to Miocene Dinoflagellate and miospore Biozonation- A summary, Journal of Mining and Geoscience, Vol. 30, p. 61-73.
 
[25]  McCune, B., Grace, J., (2002). Analysis of ecological communities. MJM software Design, Oregon.
 
[26]  Herngreen, G. F., Kedves, M., Rovinina, L. V. and Smirnova, S. B., (1996). Cretaceous palynofloral provinces. A review. In: Jansonius, J. and McGregor, D. C. (eds.), Palynology: Principles and Applications. Dallas: American Association of Stratigraphic Palynologists Foundation, pp. 1157-1188.
 
[27]  Lawal, O., and Moullade, M., (1986). Palynological Biostratigraphy of the Cretaceous sediments in the upper Benue Basin, N.E. Nigeria. Revue de micropaleontologie, vol. 29, pp. 61-83.
 
[28]  Ogala, J. E., Ola - Buraimo A. O., and Akaegbobi, I. M., (2009). Palynological Investigation of the Middle- Upper Maastrichtian Mamu Coal facies in Anambra Basin, Nigeria. World Applied Sciences Journal, vol. 7, (12), pp. 1566-1575.
 
[29]  Acra, E.J., Etu-Efeotor, J.O., Omoboriowo, A.O., (2014). Sedimentological attributes and Stratigraphic Architecture of Ebenebe Formation, Anambra Basin, Nigeria. International Journal of Science and Technology, vol.4, pp.346-364.
 
[30]  Agagu O.K., Adighije C.I., (1983). Tectonic and sedimentation framework of the lower Benue Trough, southeastern Nigeria. Journal of African Earth Scienecs, pp. 315-321.
 
[31]  Agagu, O.K., Fayose E.A. and Peters, S.W., (1985). Stratigraphy and sedimentology in the southern Anambra Basin of eastern Nigeria. Journal of Mining and Geology, vol.23, pp.25-36.
 
[32]  Allmon, WD., (1993). In Defense of Paleontology. Geotimes. November 1993, p. 1-5.
 
[33]  Coker S.J.L., (1980). Some aspect of the geology of the bituminous sand of part of the Benin basin Nigeria. Nigerian Mining and Geosciences Society, vol.19, 121p.
 
[34]  Coker J.L., Ejedawe, J.E.,Lambert D.O., Onuoha K.M., (1985). Evolution of the oil generating window in Sedimentary Basins. NAPE Continuing Education course series 1.
 
[35]  Coker, S.J.L., Ejedawe, J.E., (1987) Petroleum prospect of the Benin Basin Nigeria, Nigerian Journal Min. Geol. Vol. 23. pp. 27-43.
 
[36]  Germeraad, JH., Hopings, CA., Muller, J., (1968). Palynology of Tertiary Sediments from tropical areas. Reviewof Paleobotany and Palynology. Elsevier publishing company, Amesterdam 6, (1968), p. 189-348.
 
[37]  Oyede, A.C., (1992). Palynofacies in Deltaic Stratigraphy. Nigerian Association of Petroleum Explorationists bulletin, vol. 7, pp. 10-16.
 
[38]  Pearson, D.L., (1984). Pollen/Spore Colour 'Standard': Version 2. Phillips Petroleum Company, geology branch, privately distributed.
 
[39]  Sorannadi, C.G., Omoboriowo, A.O., Chukwujekwe, N.V., (2012). Palynological and paleoenvironmental studies of the Mamu Formation, Enugu Area, Anambra Basin, Nigeria. International Journal of Pure and Applied Science and Technology vol. 10, Trough. In Ofoegbu C.O (Ed.), the Benue Trough Structure and Evolution. Pp. 19-38.
 
[40]  Tyson, R.V., (1995). Sedimentary Organic Matter, Organic facies and palynofacies, Chapman and Hall, London, pp.1-615.
 
[41]  Umeji, O.P., Edet, J.J., (2008). Palynostratigraphy and Paleoenvironments of the Type Area of Nsukka Formation of Anambra basin, Southeastern Nigeria. NAPE Bulletin, vol.20, (2), pp. 72-88.
 
[42]  Walid A.M., Abdelhakam A.B., (2013). Palynology and Palynofacies studies of the subsurface Aptian-Cenomanian sediments from the central North Western Desert, Egypt. Journal of Applied Sciences Research, vol. 9 pp. 3681-3697.
 
[43]  Whiteman, A.J., (1982). Nigeria. Its Petroleum Geology, Resources and Potential. Graham and Trotman, London, 39p.
 
[44]  Dessauvagie, T. F. G., (1975). Explanatory note to the geological map of Nigeria, scale 1:1,000,000. Jour. Min. and Geol., vol. 9, pp. 1-29.
 
[45]  Simpson, A., (1954). The Nigerian Coal Field: The Geology of parts of Owerri and Benue Provinces. Nigerian Geology Survey Bulletin. No.24.
 
[46]  Nichols S.L., (2009) Sedimentology and stratigraphy. 2nd Edition, Blackwell Scientific Publication.
 
[47]  Murat, R.C., (1972). Stratigraphy and Paleogeography of the Cretaceous and Lower Tertiary in Southern Nigeria. In: Dessauvagie, T. F. J., Whiteman, A. J. (Eds), African Geology. University of Ibadan Press, Nigeria, pp. 251-266.