Browsing by Author "Ihem, E."
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Item Open Access Comparison of traditional and modern approaches to soil conservation in a changing climate: a review(Department of Agronomy, Nasarawa State University, Keffi., 2020-09-25) Ahamefule, Henry Emeka; Eifediyi, E.K.; Amana, Sani Mathew; Olaniyan, J.O.; Ihem, E.; Ukelina, C.U.; Adepoju, S.; Taiwo, Ridwan; Fatola, F.O.Soil is the most age-long indispensable rudiment in sustainable crop production in Nigeria. Successful crop production lies in the soil conservation practice in use. Some traditional and modern soil conservation practices in Nigeria were reviewed from available literatures (1937-2015) to determine the extent of their usage and sectoral applicability. The literatures surveyed included scientific and legislative publications. The findings revealed that the efficacy of most traditional systems (stone lines, planting pits, and shifting cultivation) of soil conservation in Nigeria is yet to be verified by research. Be it as it may, local farmers have continued their use because it’s working for them. Some of the modern approaches (agroforestry, plastic mulching, modern tillage and improved fallow) whose effects are well documented and positively reported are rather too expensive for farmer’s adoption. Adoption is also hampered when the modern approaches are grossly unfamiliar to local farmers, arising from their not been synthesized from the traditional techniques. The modern approaches, particularly when home grown has shown proven positive effects on local soils, consequently has become widely adopted. All the traditional and modern soil conservation approaches showed the highest sectoral applicability in agriculture whereas the least was in forest resource management. With projected future adverse effects of climate change, practices that are inimical to soil conservation like sand mining and paving should be regulated by legislation whereas dredging of waterways, practices that increase soil infiltration capacities and dune stabilization and protection should be adopted.Item Open Access Copper in water-soil-plant interactions: food chain toxicity due to irrigation with Asa River in Ilorin, Nigeria(Department of Agronomy, Nasarawa State University, Keffi., 2017-12-24) Ahamefule, Henry Emeka; Eifediyi, E.K.; Olaniyan, J.O.; Amana, Sani Mathew; Akah, Nkechi; Ihem, E.; Yusuf, Abdulateef; Taiwo, RidwanAsa River is the most important river that serves as a cheaper and easier disposal alternative to industries and at the same time as a less expensive and dependable water supply to farmers for the production of vegetables in dry season in Ilorin, the capital city of Kwara State, Nigeria. To investigate the effect of Asa River water pollution on water-soil-plant copper (Cu) mobility, a two factor factorial in randomized complete block design (RCBD) survey was conducted. The factors comprised of Factor A: distance between irrigation water sources and Factor B: irrigation history (irrigation duration in years). Four (4) farming locations, which corresponded to a control location 200 m upstream (– 200 m location), 200, 400 and 600 m downstream were selected. At each location, 4 farmers with different irrigation history were selected and the study was replicated thrice. The irrigation history was 0, 10, 20 and 30 years of irrigation with Asa river water. The results indicated that Cu levels in Asa River obtained 600 m downstream of control location, exceeded permissible limits with levels as high as 4.51 mg/L. Soil and plant tissue Cu concentrations were also found to exceed permissible levels, with plant tissue Cu reaching as high as 81.86 mg/kg in Corchorus olitorius.Item Open Access Effluents in irrigation water: a case study of Asa River on farmlands in Ilorin, Nigeria(Department of Agronomy, Nasarawa State University, Keffi., 2019-03-10) Ahamefule, Henry Emeka; Olaniyan, J.O.; Eifediyi, E.K.; Izuogu, B.N.; Amana, Sani Mathew; Nwokocha, C.C.; Ihem, E.; Taiwo, Ridwan; Fatola, F.O.; Babalola, M.J.Asa River is the most important river in Ilorin, serving, among other uses as source of water for irrigation of farmlands. On the other hand, wastes (likely containing salts) from industrial, domestic and agricultural origins are dumped into this river; therefore, the need arises to determine its salinity status and long term use implications on soil structural stability. During late rainy season (late October) of 2014 a study which comprised of two (2) factors laid out in a Randomised Complete Block Design (RCBD) was conducted. Factors were source of irrigation water in Asa River and irrigation history (duration) of plots. Four (4) locations were selected. The irrigation history was 0, 10, 20 and 30 years. In each location four farmers plots with same irrigation history were selected and each replicated thrice. Results indicated that the electrical conductivity of the water used by various farmers for irrigation (0.069 – 0.20 dS/m) was significantly lower (P < 0.05) only at point 600 m downstream with value of 0.069 dS/m which falls within the non-saline range for river water. Varying the source of irrigation water resulted in significantly higher soil chemical (electrical conductivity, sodium absorption ratio and exchangeable sodium percentage) and structural (mean weight diameter, total porosity, bulk density and saturated hydraulic conductivity) degradation in locations 200 m and 400 m downstream. Soil chemical and structural properties were significantly affected by irrigation history, its deterioration been higher in plots with irrigation history from 10-20 years. The results therefore suggest that the observed chemical and structural degradation is due to prolonged usage, especially during drier seasons when dilution effect is reduced.Item Open Access Prediction Models for Water Erosion Risk Management: A Review(Department of Agronomy, Nasarawa State University, Keffi., 2018-05-21) Ahamefule, Henry Emeka; Fatola, F.O.; Olaniyan, J.O.; Amana, Sani Mathew; Eifediyi, E.K.; Ihem, E.; Nwokocha, C.C.; Adepoju, A.S.; Adepoju, I.O.; Babalola, M.J.In order to estimate the potential soil erosion hazard of an area, erosion prediction models are needed. Various models have been used by researchers, which ranges from mathematical and conceptual simple approaches to complex models that try to include the complexities of the real world. Six (6) models are reviewed in relation to their suitability for use. The KINEROS, CORINE and EUROSEM were best suited for water erosion risk prediction in cultivated soils. On the other hand, the KINEROS, PESERA, CORINE and EUROSEM were found to be applicable in all sectors (Agronomy, water resources management and road construction) highlighted. The GLASOD had the least applicability with respect to this study.Item Open Access RESPONSE OF HEAVY METALS CONTAMINATED ULTISOL TO ORGANIC AMENDMENTS IN NSUKKA SOUTH-EAST NIGERIA(Department Of Science And Laboratory Technology, Nasarawa State University Keffi., 2016-04-09) Ahamefule, Henry Emeka; Nwokocha, C. C; Ihem, E.; Amana, S. MAn experiment was conducted in the University of Nigeria Nsukka Teaching and Research Farm to determine the response of heavy metals contaminated Ultisol to organic amendments. The treatments were arranged in a split-plot in Randomized Complete Block Design (RCBD), replicated thrice. Main plot treatments were 0 % (control), 1 %, 2 %, and 3 % waste crank-case oil (source of Zn, Pb, Cr and Fe) applied in a single dose at 0, 10,000, 20,000 and 30,000 mg kg-1 soil, respectively. The sub-plot treatments were control (no amendment = NA), palm oil mill effluent (PE), oil palm bunch refuse (PR) and cassava peels (CS) applied at 12 Mg/ha each, per year. Top soil samples were collected at 0, 3, 6, 12, 18, 24, 30 and 36 months and analyzed for the concentrations of heavy metals (Zn, Pb, Cr and Fe). Results obtained indicated that though the waste crank-case oil led to increased heavy metal concentrations in the treated soils, the observed increments, however, fell within tolerable levels for soil. Among the organic amendments tested for their efficacy to decontaminate heavy metals from soil, PE exhibited the highest efficacy.Item Open Access Salinity Status of Osere River for Irrigation: Long Term Use Implication in Selected Farmers(Department of Agronomy, Nasarawa State University, Keffi., 2019-03-29) Ahamefule, Henry Emeka; Taiwo, Ridwan; Amana, Sani Mathew; Eifediyi, E.K.; Ezuogu, Betsy; Ihem, E.; Nwokocha, C.C.; Yusuf, Abdulateef; Fatola, Fatai; Adepoju, S.Osere River is one of the important rivers that serves as a cheaper and easier disposal alternative to industries and at the same time a less expensive and dependable water supply to farmers for dry season vegetable production in Ilorin, the capital city of Kwara State, Nigeria. The edaphic aftermath of the use of its water for irrigation was investigated using a Randomized Complete Block Design (RCBD) in a two way factorial experiment. Factors comprised of fifty meter distance intervals (50 and 100 m) downstream and a control (50 m upstream) of a soap industry effluent discharge point and irrigation duration (0, 10, 20 and 30 years). River water samples indicated that the activities of the soap industry did not lead to its increased electrical conductivity (which signifies presence of dissolved salts and/or impurities), however soils under prolonged irrigation (up to 10 years) showed signs of salt induced structural deterioration (MWD). Farm soils 50 m downstream showed the lowest structural stability (MWD = 0.77 mm)and highest % silt of 21.2 whereas those located 100 m downstream indicated highest MWD of 1.10 mm. The consequent soil structural degradation was tied to elevated values of sodium adsorption ratio (SAR) following prolonged irrigationItem Open Access Salinity Status of Osere River for Irrigation: Long Term Use Implication in Selected Farmers’ Field in Ilorin, Nigeria.(Department of Agronomy, Nasarawa State University, Keffi., 2019-10-13) Ahamefule, Henry Emeka; Taiwo, Ridwan; Amana, Sani Mathew; Eifediyi, E.K.; Ezuogu, Betsy; Ihem, E.; Nwokocha, C.C.; Yusuf, Abdulateef; Fatola, Fatai; Adepoju, S.Osere River is one of the important rivers that serves as a cheaper and easier disposal alternative to industries and at the same time a less expensive and dependable water supply to farmers for dry season vegetable production in Ilorin, the capital city of Kwara State, Nigeria. The edaphic aftermath of the use of its water for irrigation was investigated using a Randomized Complete Block Design (RCBD) in a two way factorial experiment. Factors comprised of fifty meter distance intervals (50 and 100 m) downstream and a control (50 m upstream) of a soap industry effluent discharge point and irrigation duration (0, 10, 20 and 30 years). River water samples indicated that the activities of the soap industry did not lead to its increased electrical conductivity (which signifies presence of dissolved salts and/or impurities), however soils under prolonged irrigation (up to 10 years) showed signs of salt induced structural deterioration (MWD). Farm soils 50 m downstream showed the lowest structural stability (MWD = 0.77 mm)and highest % silt of 21.2 whereas those located 100 m downstream indicated highest MWD of 1.10 mm. The consequent soil structural degradation was tied to elevated values of sodium adsorption ratio (SAR) following prolonged irrigation.