Browsing by Author "Ako, T. A."

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Geochemical analysis of Jakura-Obajana Marble, Kogi State, North Central Nigeria: Implication for their Industrial Uses
(Minna Journal of Geosciences (MJG), 2017) Mamodu, A.; Ako, T. A.; Unuevho, C. I.; Omanayin, Y. A.; Ile, O. T.
Geochemical analysis of the Jakura-Obajana marble deposit in Kogi State, North Central Nigeria was investigated. The paper seeks to put into perspective the diverse uses of marble which hinges on its geochemical characterization. Besides the popular use of marble for cement production, the research tends to elucidate other uses of marble predicted on predefined specifications. This will trigger optimal benefit of the Jakura-Obajana marble deposit. To achieve this, fieldwork was carried out to map the rock units underlying the area. Representative marble samples were randomly collected for laboratory analysis using XRF at the Nigerian Geological Survey Agency, Kaduna. The result of the field work reveals that the Jakura-Obajana marble was found occurred with limestone, quartzite and schist. It was also found that marble are the most dominant rock types in the study area. The colour varies from white to grey and the grain sizes range from fine to medium. The geochemical result reveals that CaO and MgO have the average content of 32.37 wt% and 19.57 wt% respectively. The average content of the oxides is 99.43 wt% and the average loss of ignition (LOI) is 43.01 wt%. The average CaCO3 and MgCO3 content of the Jakura-Obajana marble are 58.33 wt% and 41.08 wt% respectively. The percentages indicate that CaCO3 higher than MgCO3. This implies that, the Jakura marble is calcitic in origin. The total carbonate content in the marble is 99.41 %. This makes it suitable for fertilizer production, cement production, and in the production of useful industrial chemical such as sodium carbonate, bicarbonate and hydroxide. It is concluded that the investigated marble deposits have other potential areas of application in addition to usage for cement production, except for animal feeds production and usage as fluxes in steel production.
Geochemical Investigation and Physical Impact Assessment of Artisanal Gold Mining, Kataeregi, North-Central Nigeria
(INTERNATIONAL JOURNAL OF SCIENCE FOR GLOBAL SUSTAINABILITY, 2016-06) Omanayin, Y. A.; Ogunbajo, M. I.; Waziri, N. M.; Ako, T. A.; Shuaibu, A. M.; Alaku, I. O.
The geochemistry of mine products and stream sediments from Kataeregi area in Northcentral Nigeria was studied with the objective of environmental hazards assessment that is caused by artisanal gold mining activities through field work and laboratory analyses. The field work involves the observation of physical impact of mining on the environment and collection of representative samples along the streams, mined site and tailings within the location of study. The sediment samples were analyzed using X-ray fluorescence spectrometry. The result obtained from laboratory analysis was compared with the ideal average crustal concentration of the elements in upper continental crust. Field observation revealed that mining activity has impacted on the environment with land destruction, loss of vegetation and erosion of soils. Geological field mapping show the area is underlain with Migmatite-Gneiss complex, Mica Schist, Granite and Sandstone lithologies. Results from geochemical analysis revealed that sediments are enriched with elements such as Au (0.23ppm), Ag (2.59ppm), Hg (0.21ppm) and Mo (1.14ppm). The presence of Hg in sediments can get consumed directly or indirectly through food chain and passed on to human. Keywords: Artisanal gold mining; Sediment geochemistry; degradation of land; Contamination; North-central Nigeria.
Hydrogeochemical Analysis and Potential Pollutant of Water Resources Around Ajaokuta Steel Complex, North Central, Nigeria
(Journal of Geography and Earth Sciences, 2014-06) Mamodu, A.; Onoduku, U. S.; Ako, T. A.; Abraham, S. U.; Amadi, A. N.; Omanayin, Y. A.
The citing of Ajaokuta steel complex near its major raw materials (Iron) has brought about economic development in Kogi State, Nigeria. As a result of poor management of industrial waste, the only River where most people in the community get their drinking water became polluted. The aim of this research is to determine the quality of water and its pollutant within the study area. In order to meet the objective of the research, both physical and hydrogeochemical analysis were carried out. The physical parameters determined indicated (on average), a Ph of 7.44, temperature of 27°C, electrical conductivity of 106.8us/cm and turbidity of 157.4 NTU. 20 water samples were analyzed using Flame analysis photometry and Atomic absorption spectrophotometer.The result reveals on the average: 1.227mg/l Na+ , 2.3 mg/l K+ , and 2.545mg/l Ca2+2.6mg/l NH4+ , 0.17mg/l Cu 2+ , 0.45mg/l Fe2+ , 0.4mg/l Cr3+ , 0.06mg/lMn2+<10, ug/l As3 . . There were gradual decreases in concentration in some elements as one move further away from the steel complex (inferred source of pollution). The reason for these decreases maybe due to distance from the source of pollution and seepage into the groundwater. Iron and manganese were found to be very higher when compared to World health standards. Dangote group of Company’s E.I.A report also shows higher concentration of Fe2+, Mn2+and Cu2+in plant tissue. Therefore, the research concludes that Fe2+ and Mn2+ were the main pollutants while a Cu 2+andCr3+arethe minor pollutants of water resources in the study area. The research also, preliminary concludes that poor handling of industrial waste may have contributed majorly to the pollution of water. Keywords: Ajaokuta, water, hydrogeochemical analysis, pollutant, Environmental Impact Assessment (E.I.A), industrial waste, Atomic absorption spectrophotometer