Scholarly works

Permanent URI for this collectionhttps://repository.ui.edu.ng/handle/123456789/411

Browse

End date: 2019Has files: Yes

Search Results

Now showing 1 - 10 of 67
  • Thumbnail Image
    Item
    Strengthening academic linkages and collaboration in universities
    (Graduate School, University of Calabar, 2004-07) Olayinka, A.
  • Thumbnail Image
    Item
    Policy thrust and new direction of postgraduate programme in the University of Ibadan
    (2002-02) Fagbemi, B. O.; Olayinka, A.; Popoola, L.
  • Thumbnail Image
    Item
    Application of resistivity soundings for borehole siting in crystalline basement areas of Southwestern Nigeria
    (International Commission for Earth Sciences in Africa, 1998) Olayinka, A. I.
    This paper establishes the reasons why the resistivity sounding technique is the preferred geophysical tool in borehole siting in crystalline basement areas of southwestern Nigeria. It also identifies ways in which its use could be optimized. Factors for the widespread use of the technique include its relative cheapness, accuracy of depth determination, suitability in differentiating between the overburden and the fresh bedrock, speed of survey, popularity (and acceptability), and availability oi equipment. Due to the Superposition of lateral variations in resistivity on sounding data, some 62% of the sounding curves from the study area are characterized by a terminal branch rising at an angle exceeding 45°. In all the sounding data presented the terminal branch of the curve Starts rising at Wenner electrode spacing of less than or equal to 32 m. It is recommended that the maximum electrode spacing (AB/2 or a) should not be more than 150 m. Moreover, due to the irregular nature of the bedrock topography the Separation between adjacent sounding centres should not exceed 100 m, thus permitting an adequate sampling of the subsurface. This approach might prove helpful in other basement areas.
  • Thumbnail Image
    Item
    Repositioning Nigerian university system: perspective of an insider. Selected speeches of Professor Emeritus Ayo Banjo in commemoration of his 80th birthday
    (Ibadan University Press Publishing House, University of Ibadan, Ibadan, Nigeria., 2014) Olayinka, A. I.
  • Thumbnail Image
    Item
    GEOCHEMICAL CHARACTERISATION OF LEAD IN SOILS, SEDIMENTS AND DUSTS OF IBADAN AND LAGOS, SOUTHWESTERN NIGERIA
    (2018-03) AFOLABI, O.O
    The presence of Heavy Metals (HM) in soils, sediments and dusts are good indicators of contaminations of urban environment. Lead (Pb) is of grave concern amongst other HM because of its toxic impact on the environment and human health. Previous studies on HM have focused on the determination of concentrations and spatial distribution in various Nigerian cities. However, the geochemical fate and nature of Pb in Nigeria's environmental media is relatively unknown. This study was therefore designed to quantify and characterize Pb in soils, sediments and dusts from Ibadan and Lagos, Southwestern Nigeria. A total of seventy-three composite soils, 56 sediments, 17 road dusts and 10 representative rock samples were collected randomly from the cities of Ibadan and Lagos. Soil, sediment and dust samples were air-dried, screened, pulverised and sieved through 63µm nylon mesh. The sieved fractions and pulverised rock samples were digested using standard methods and analyzed for elemental components using Inductively Coupled Plasma-Mass Spectrometer, (ICP-MS). The chemical fractionations of Pb in the samples were determined by sequential analysis. Lead isotopes compositions of the samples were determined using quadrupole-based ICP-MS. Petrological and mineralogical analyses of rocks and other samples were determined using X-Ray Diffraction. The geochemical data were subjected to statistical analyses using Pearson correlation and R-mode factor analyses. Lead Isotopic Ratios (LIRs) and geo-accumulation indexes were used in evaluating and discriminating Pb sources. The concentration (ppm) of Pb in soils, sediments and dusts for Lagos were: 21.0-1963.0; 23.0-830.0 and 22.0-830.0; while in Ibadan soils and sediments were: 13.0 - 470.0 and 17.0-3288.0; respectively. For rock samples from Ibadan and Lagos, the values were: 2.9-20.3 and 2.8-7.2 ppm. Chemical fractionation (%) of Pb were: organic-sulphide (42.78-82.45); reducible (8.23-27.20); carbonate (9.00-43.60) and exchangeable (0.01-0.23) phases, respectively. Lead isotopes (ppm) showed that 204Pb ranged 1.72-47.41; 206Pb, 30.69-779.68; 207Pb, 27.00-664.46 and 208Pb, 65.67-1642.27 in Ibadan samples while that of Lagos were: 204Pb, 1.43 - 31.00; 206Pb, 25.26 - 509.74; 207Pb, 21.96-446.22 and 208Pb, 52.61-1089.93. Ibadan and Lagos rocks Pb isotopes (ppm) were: 204Pb, (0.02-0.07 and 0.03-0.06); 206Pb, (0.56-2.33 and 0.56-1.21); 207Pb, (0.38-1.56 and 0.47-1.01) and 208Pb, (1.19-4.13 and 1.22-2.57), respectively. Quartz, microcline, k-feldspar, plagioclase and kaolinite were the preponderant minerals in powdered rocks, soils and sediments. An enrichment of radiogenic Pb (206Pb, 207Pb and 208Pb) were observed in soils, sediments and dusts relative to their local background values, an indication of anthropogenic origin of Pb. The plots (208Pb/207Pb)/(206Pb/207Pb) revealed that over 80% of Pb in the environmental media was derived from anthropogenic sources. The LIRs of soils, sediments and dusts were characterised by lower 208Pb/206Pb ratios while the bedrocks had higher 208Pb/206Pb. Lead contents of the soils, dusts and sediments in most parts of the two cities were significantly higher than the natural background levels and held in chemically active geochemical phases. The lead types are more of the radiogenic types and this portend great risk to the environment and public health.
  • Thumbnail Image
    Item
    Smooth and sharp-boundary inversion of two-dimensional pseudosection data in presence of a decrease in resistivity with depth
    (Geophysical Press, 2002) Olayinka, A.I.; Yaramanci, U.
    The smooth and sharp-boundary inversion of two-dimensional (2D) apparent resistivity pseudosection data in cases where the half-space has a lower resistivity than the overburden is investigated. The study entailed calculation (by forward modelling) of the synthetic data over simple 2D geologic models and inversion of the data. The 2D structures modelled include vertical fault, graben and horst. The Wenner array was used. The results show that there is generally an improvement in the model misfit with iteration number in smooth inversion; the algorithm can then be expected to iterate to the best solution at a high iteration number where the model resistivity of the substratum approaches the true bedrock resistivity. Inversion of the data using sharp boundaries indicates that the range of 2D equivalence, for which a reasonable interpretation could be attained, is relatively narrow. For the equivalent solutions, the data misfit between the observed and the calculated data is very small while model interpretations that are wrong can be readily identified on account of very large data misfits. A field example is given from Nauen, northern Germany, where partly-saturated sand of high resistivity is underlain in succession by less resistive saturated sand and glacial till; the smooth and sharp-boundary inversion results are in good agreement with the geo-radar and surface magnetic nuclear resonance (SNMR) and borehole information
  • Thumbnail Image
    Item
    Use of block inversion in the 2-D interpretation of apparent resistivity data and its comparison with smooth inversion
    (Elsevier, 2000) Olayinka, I. A.; Yaramanci, U.
    The ability of a block inversion scheme, in which polygons are employed to define layers and/or bodies of equal resistivity, in determining the geometry and true resistivity of subsurface structures has been investigated and a simple strategy for deriving the starting model is proposed. A comparison has also been made between block inversion and smooth inversion, the latter being a cell-based scheme. The study entailed the calculation (by forward modelling) of the synthetic data over 2-D geologic models and inversion of the data. The 2-D structures modelled include vertical fault, graben and horst. The Wenner array was used. The results show that the images obtained from smooth inversion are very useful in determining the geometry; however, they can only provide guides to the true resistivity because of the smearing effects. It is shown that the starting model for block inversion can be based on a plane layer earth model. In the presence of sharp, rather than gradational, resistivity discontinuities, the model from block inversion more adequately represents the true subsurface geology, in terms of both the geometry and the formation resistivity. Field examples from a crystalline basement area of Nigeria are presented to demonstrate the versatility of the two resistivity inversion schemes.
  • Thumbnail Image
    Item
    Smooth and sharp-boundary inversion of two- dimensional pseudosection data in presence of a decrease in resistivity with depth
    (ELSEVIER, 2002) Olayinka, A.I.; Yaramanci, U.
    The smooth and sharp-boundary inversion of two-dimensional (2D) apparent resistivity pseudosection data in cases where the half-space has a lower resistivity than the overburden is investigated. The study entailed calculation (by forward modelling) of the synthetic data over simple 2D geologic models and inversion of the data. The 2D structures modelled include vertical fault, graben and horst. The Wenner array was used. The results show that there is generally an improvement in the model misfit with iteration number in smooth inversion; the algorithm can then be expected to iterate to the best solution at a high iteration number where the model resistivity of the substratum approaches the true bedrock resistivity. Inversion of the data using sharp boundaries indicates that the range of 2D equivalence, for which a reasonable interpretation could be attained, is relatively narrow. For the equivalent solutions, the data misfit between the observed and the calculated data is very small while model interpretations that are wrong can be readily identified on account of very large data misfits. A field example is given from Nauen, northern Germany, where partly-saturated sand of high resistivity is underlain in succession by less resistive saturated sand and glacial till; the smooth and sharp-boundary inversion results are in good agreement with the geo-radar and surface magnetic nuclear resonance (SNMR) and borehole information
  • Thumbnail Image
    Item
    Integrated use of geoelectrical imaging and hydrochemical methods in delineating limits of polluted surface and ground water at a landfill site in Ibadan area, Southwestern Nigeria
    (Nigerian Mining and Geosciences Society, 2001) Olayinka, A.I.; Olayiwola, M.A.
    The Impact of solid waste disposal at the Ring Road district of Ibadan metropolis, southwestern Nigeria, on the adjoining surface and ground-water sources, has been Investigated. The basement rocks include Precambrian quartzites and quartz-schists that have been extensively weathered. In this study, the geophysical survey Involved 5 electrical imaging lines, while the hydrochemical database comprised 4 samples of surface water and 6 samples of groundwater from dug wells. The samples were analysed for turbidity, pH, conductivity, total hardness, total dissolved solids (TDS), alkalinity, Cl, No3, SO42, PO43, Na, K+, Mg2 and Fe2. The results show that water bodies located in a down gradient direction and in close vicinity of the landfill, has received significant inputs of inorganic pollutants. Statistical analyses indicate positive correlation (p<0.05) between the following pairs of parameters: Ca2 and Mg2. (R=0.83; Na+ and K+ (R=0.95); (Na2+Mg2) and Cl (R = 0.92); (Na2 + K2) and Ca2 (R=0.96); pH and Cr (R = 0.87). Moreover. the electrical conductivity shows a positive correlation (p<0.05) with the concentrations of K+ (R = 0.97); Na+ (R = 0.96); Ca2+ (R = 0.93); Mg2+ (R = 0.82); Fe2+ (R = 0.85); Cl (R = 0.91) and TDS (R = 0.98). On the other hand, the conductivity shows a negative correlation with SO42 (R = 0.78). Corroborating evidence was provided from the geoelectrical imaging data which Indicate that the thickness of the waste dump ranges between about 2m to 17m, while its resistivity is low at between 4 and 8ohm-m. The low resistivity is due to the presence of leachate emanating from the site and this has also polluted the surface and ground-waters in the Immediate delineation of the limits of the probable polluted zone.
  • Thumbnail Image
    Item
    Geophysical siting of boreholes in crystalline basement areas of Africa
    (Pergamon Press Ltd, 1992) Olayinka, A.I.
    This paper assesses the effectiveness of surface geophysical methods namely electrical resistivity, electromagnetic, seismic refraction, magnetic, gravity and induced polarization for groundwater exploration in crystalline basement complex areas. Most of these geophysical techniques can provide quantitative information on the characteristics of the weathered zone which relate to the occurrence of an economic aquifer. The critical factors in the choice of a particular method include the local geological setting, the initial and maintenance costs of the equipment, the speed of surveying, the manpower required as field crew, the degree of sophistication entailed in data processing to enable a geologically meaningful interpretation, and anomaly resolution. The particular advantages and limitations of each technique are highlighted. Several case histories from Nigeria and the rest of Africa indicate that electrical resistivity (both vertical sounding and horizontal profiling) is the most widely used, followed by electromagnetic traversing. These are often employed in combination to improve upon the percentage of successful boreholes. Due to the high cost of equipment, large scale of the field operations and difficulties in data interpretation, seismic refraction is not widely adopted in commercial- type surveys. Similarly, magnetic, gravity and induced polarization are used only sparingly