Browsing by Author "Onyekuru, S. O."

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    Application of geographic information system (GIS) in composite land capability index mapping of a developing country (A case study of Enugu area, South -Eastern, Nigeria,
    (U. P., 2011) Onunkwo, A. A.; Ibeneme, S. I.; Onyekuru, S. O.; Uzoije, A. P.
    Enugu, the area under study is experiencing a high rate of population growth. Problems of housing, on employment, waste disposals and the general lowering of standard of living are always associated with over population. It has therefore become necessary to map out areas of residential, industrial and waste disposal land use for future utilization. Land capability index mapping using geographic information system(GIS) is one of the appropriate tools for solving these impending problems. Land capability index mapping of Enugu environs in composite form has been undertaken using Arc view 3.2 academic, excel statistical software and GIS Authcard software. A total of 12 land use determinants have been selected as the thematic data layers and the basic factors influencing the choice of waste, residential and industrial land use. These themes which are in map form are slope, water table, surface and subsurface water conditions, elevation, geology, soil, drainage and geo-structural stability(fault, erosion, landslide and flooding). These maps have been scanned, geo-referenced , digitized and polygonized using authcard drawing capacities to convert them to vector formats and later exported to arc view software environment for analysis. The thematic layers were weighted using the criteria obtained from fieldwork, laboratory and literature surveys. The thematic layers were further subjected to overlays using the arcview software overlay model builder. The operation yields layers showing areas of preferred waste disposal, residential and industrial landuse options in a map form. Three different maps of land use options(waste, industrial and residence) were produced. Areas of varying suitability were isolated, 3 each for waste, residence and industry, indicating suitable, low suitability and unsuitable areas respectively. The three land use maps were superimposed to obtain a single one appropriate for purposes of urban environmental planning.
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    Application of geographic information system (GIS) in industrial land capability index mapping of a developing country: a case study of Enugu area, South-Eastern Nigeria.
    (2011-08-05) Onunkwo, A. A.; Uzoije, A. P.; Onyekuru, S. O.
    It was projected that the population of Enugu area will grow at approximately 300% by the year 2020. The information is further strengthened by the projected 3,237,298 population figure of the area. This implies that there is the expectation of overpopulation of the area in future. Unemployment and lowering of people’s standard of living are always associated with over population. It therefore, becomes necessary to map out areas on a sustainable basis and most suitable for the sighting of industries to employ the teeming population. Land capability index mapping using Geographic Information System (GIS) principles was used for this study. The study was undertaken using Arc View 3.2a academic, Excel statistical soft-ware and auto card software of GIS. A total of 12 land use determinants were selected as thematic data layers and basic factors influencing the choice of industrial land use. Soil characteristics and geology were integrated into the thematic maps to facilitate the weighting of the basic determinants. The thematic layers were weighted on a scale of 0%-100% and 0-2 inclusive, using the criteria obtained from field work and laboratory investigation. The thematic layers were subjected to overlay using arc view soft ware overlay model builder. The operation yielded a layer of preferred industrial land use options in a map form. 3 areas of varying suitabilities (Area 7,8 and 9) resulted from this operation. Area 7 occupies 10% of the study area suitable for industrial land use options; area 8 occupies 70% and has low suitability for industrial land use while area 9 occupies 20% of the land unit unsuitable for industrial land use.
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    Engineering properties and uses of soil derive from maastritchian Ajali formation in a part of Se Nigeria
    (European Centre for Research Training and Development UK (www.eajournals.org), 2014-12) Onunkwo, A. A.; Uzoije, A. P.; Onyekuru, S. O.
    The study is necessitated by the recent move by Imo State government of Nigeria to raise Okigwe town to urban status. Ajali Formation being the prominent geological terrain in Okigwe area, most structures would be erected on the soil derived from it. The parameter measured include grain size, atterberg limits, and compaction, shear strength, permeability and porosity as well as bulk density. The result shows that the soil underlain by Ajali Formation within Okigwe area is sandy silt with low clay content and has plasticity index, bulk density, porosity and permeability values of 9.65%, 2.06%,kg/m3, 0.45 and 0.35cm/s respectively. The value for the optimum moisture content (OMC) maximum dry density(MDD) shear strength, angle of internal friction are 13.5%, 2.06kg/m3, 106.86KN/M2 and 28.4o. These values indicate that the soil derived from Maastrichtian Ajali Formation within Okigwe area of south eastern Nigeria is of high strength, porous and permeable and can be used as a recharge site for regional aquifer, but cannot be used as a waste disposal area or for road construction. The soil due to its low plasticity index with no swelling characteristics and high shear strength is a good site for building foundations, but cannot be used in dam construction. It is ideal for projects requiring good drainage and embankments. However, for the soil to be used in any engineering construction works, it has to be compacted to its maximum dry density value of 2.06kg/m3 within the range of optimum moisture content of 13.5% as to achieve maximum strength.
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    Ground water quality assessment of newly created Local Governments in Nigeria – A case of Nkwerre, Local Government, Imo State
    (U. P., 2013) Onunkwo, A. A.; Uzoije, A. P.; Onyekuru, S. O.; Agumanu, A. E.; Chinaemelu, E. S.
    The creation of new Local governments in Nigeria brought about new socio-economic order such as over population, pressure on the available facilities and new land use elements with their generated wastes. There is the need to examine the present status of the underground water resource of these regions for effective development of the newly created local governments. For this reason it becomes necessary to carry out the ground water quality assessment of newly created local governments in Nigeria as a source of data base for development using Nkwerre Local Government Area of Imo State as a case study. The study was carried out by acquiring geologic and topographic maps of the area for easy identification of sample population areas and to identify geological boundaries, Spring out crops, landuse element especially waste dump sites. Agricultural and industrial projects were visited and examined. A total of 6 water samples from bore holes within six communities were collected and analyzed. Analysis was carried out using atomic absorption spectroscopy for major cations. Heavy metal analysis was undertaken using spectrophometer, potassium was determined using flame photometer method, concentration of total iron (Fe2+) was determined calorimetrically using spekker absorption meter while total dissolved solids (TDS) was determined using glass fiber filter. Turbidity. Physical parameters like ph and dissolved oxygen were measured insitu in the field with appropriate standard maters. The result of geochemical analysis shows that the water has high turbidity, high iron, slightly acidic, soft portable and suitable for industrial, agricultural and domestic purposes, but requires treatment to reduce iron and turbidity. The water type belongs to a no dominant cation and anion type and can be grouped as Mg2+-Ca2+ - So42+ - HCo3 water. North western segment in infested with ecoli bacteria. The general pollution index of 0.777 shows that the water in the area is ideal for various purposes, however, remediation of iron, turbidity and bacteria presence is proposed.