AGRICULTURAL & ENVIRONMENTAL ENGINEERING

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Start date: 2016End date: 2019

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    Efficacy of Diatomaceous Earth and Vitellariaparadoxa Seed Oil in Storage of Cowpea under Ventilated and Non-ventilated Conditions
    (Department of Agricultural and Environmental Engineering, University of Ibadan, Nigeria, 2019) Omobowale, M. O.; Akomolafe, O.P.
    Sto.age of cowpea is highly constrained by insect pest infestation and losses caused by the cowpea weevil (Callosobruchus maculatus, F.) are high. Several methods have been used over the years to protect cowpea grains in storage, but the use of synthetic insecticides is very dominant and this has led to problems, such as the killing of non-target species, user hazards, harmful food residues, and evolution of resistance to chemicals. A search for alternative insect pest control methods which are relatively less harmful to the user and cheaper has become essential. The effectiveness of Diatomaceous earth (DE) and Vitellaria paradoxa seed oil (VPSO) for cowpea storage in polypropylene and jute bags under ventilated and non-ventilated storeroom conditions were investigated over three months period. Crude DE was applied at a dose rate of 1 g/kg of cowpea and a diluted concentration (10% v/v) of VPSO of 400 mL was mixed with 8 kg of cowpea. Live insect count, dead insect count, and germination percentage were assessed weekly while proximate analysis was carried out before and after storage. Mean live insect count increased in the ventilated store-room from 0.67±0.34 to 36.13±19.51insects/kg after 1 month and 3 months of storage respectively for untreated cowpea. Insect population in treated samples increased from 0.38±0.26to 24.78±23.33, and from 0.17±0.30 to 10.75±5.27 for DE and VPSO treated samples, respectively. In the non-ventilated storeroom, insect population increased from 0.33±0.26 to 36.96±19.09 for untreated cowpea, 0.17±0.20 to 33.08±30.07 for DE and 0.21±5.63 to 8.17±11.30 for VPSO treated cowpea. Based on insect count, both treatments were very effective in controlling cowpea weevil in the first two months of storage, however their potency reduced by the third month. The potency of DE deteriorated faster compared to VPSO however, DE treated cowpea was most effective , or retaining seed germination in both ventilated and non-ventilated storerooms. Proximate analysis showed that cowpea treated with both treatments had similar nutrient composition after storage. Diatomaceous earth and Vitellaria paradoxa seed oil have potentials in their raw form for short term insect pest control in the storage of cowpea.
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    Assessing efficacies of insect pest management methods for stored bagged maize preservation in storehouses located in Nigerian markes
    (Department of Zoology, University of Ibadan, Ibadan, Nigeria, 2019) Nwaubani, A.; Otitodun, G.O.; Ajao, S.K.; George P.O.; Ala, A.A.; Omobowale, M.O.; Ogwumike, J.C.; Grace I.E.; Ogundare, M.O.; Braimah, J.A.; Busari S.G.; Akhere E.O.; Kolayemi, O.R.; McNeill, S.G.; Ilelejif, K.E.
    Stored product insect pests cause significant losses in maize in sub-Saharan Africa (SSA). Control of these pests with conventional insecticides is fraught with health and environmental risks. Globally, several reduced-risk methods have been deployed as alternatives to conventional insecticides. In this study, conducted ir February—December 2016, efficacies of five treatments to control insects in bagged maize stored in Nigerian market storehouses were evaluated. Treatments included a botanical (Piper guineense), Bularafa diatomaceous earth (DE), permethrin powder (Rambo™), PICS (hermetic) bags and ZeroFly® bags. The study also had a negative control comprising untreated maize in polypropylene bags. Study locations were in three grain markets, namely Eleekara market in Oyo town and Arisekola market in Ladan, Oyo State, South West Nigeria, and Ago market in Ilorin, Kwara State, North Central Nigeria. Except in the case of PICS bags, each storehouse had six 100-kg bags for each storage method or trea.ment; these bags were sampled monthly. For PICS, each storehouse had 18 bags (~80 kg each) and six were destructively sampled every 4 months. Psocids (total 3,614) and S. zeamais (total 1,255) were the most abundant types of insects found during the study. However, among all treatments, PICS bags were the most effective at mitigating population growth of all species of stored product insects encountered, and the number of psocids and S. zeamais found in PICS bags during the entire study were 0 and 8, respectively. The order of effectiveness of the treatments were PICS > Permethrin > ZeroFly > DE > Botanical > control. Data showed PICS, Permethrin, ZeroFly, and DE when used according to manufacturer's instructions or label are effective and can be incorporated in integrated pest management of stored-product insects in maize storehouses. More research is required to explore how P. guineense can be made more efficaciou
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    EFFECTS OF DIATOMACEOUS EARTH ON THE PROXIMATE COMPOSITION OF STORED COWPEA VARIETY (IT96D-610K)
    (Department of Zoology, University of Ibadan, Ibadan, Nigeria, 2019) Sunmonu M.O.
    A stuck' was carried out to determine the effect of a raw diatomaceous earth (DE) obtained fromBularafa community in Yobe State, Nigeria on the proximate composition of stored cowpea variety (IT96D-610K). Twelve small scale prototype silos made of two different structures (wooden and galvanised mild steel (GMS)) were constructed and used in the storage of the cowpea for a 4-month period. 7000g of cowpea at 9.88% moisture content admixed withdiatomaceous earth havingtwo different particle sizes(0.075mm and 0.090mm) and three different concentrations(0.1g, 0.05g and 0g of DE/100g of cowpea)in varying combinations were loaded into each silo. The sample admixed with zero concentration of diatomaceous earth served as the control in each of the wooden and galvanised steel structures respectively. Temperature, relative humidity and moisture content within the storage structures were monitored. Proximate compositionsuch as ash, crude protein, fat, crude fibre, carbohydrate alongside moisture content were also measured.Significant differences (p<0.05) was observed between the control sample and treated samples.The values of moisture content, ash content and crude fibre increased while crude protein, fat and carbohydrate decreased with increased storage period. At the last month of storage, wooden silo recorded a higher temperature value (28.88˚C) compared to the galvanised steel (GMS) silo which showed (22.30˚C). An increase in moisture content was observed in both silos with wooden silos showing a higher percentage rise in both control and treated samples. At the end of the fourth month the average moisture content, ash content, crude protein, fat, crude fibre and carbohydrate content of control and treated samples were(10.57% and 13.39%), (4.12% and 4.16%), (22.75% and 22.69%),(1.95% and 1.90%),(2.21% and 2.23%) and (57.75% and 55.63%) in the GMS and wooden silos respectively.Cowpea admixed with diatomaceous earth stored in GMS silo showed the best nutritional quality. Hence of all the storage materials, storage time, particle size and concentration of DE used galvanised mild steel (GMS), 0.075mm particle size and 0.05g of DE/100g of cowpea for the first four weeks of storage were seen to be the best. These proved to be the best method of storage for cowpea as the procedure retained its proximate composition. The increased crude fibre level in the treated samples is a major indicator for good health
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    Efficacy of phosphine and insect penetration ability in ZeroFly bags
    (Durable Crop Research Department, Nigerian Stored Products Research Institute, P.M.B. 1489, Ilorin, Nigeria, 2018) otitodun O.G.
    The deltamethrin incorporated woven polypropylene ZeroFly® storage bag is a promising novel technology for grain storage. However, if grain stored in ZeroFly bags gets infested and has to be fumigated using phosphine (PH3), data on the effectiveness of such treatments are needed. Additionally, obtaining field data on ability of stored-product insect pests to breach ZeroFly bags would facilitate insect management. Therefore, efficacy of PH3 in immature and adult Sitophilus zeamais (Motschulsky), Prostephanus truncatus (Horn), Rhyzopertha dominica (F.) and Tribolium castaneum (Herbst) in experimental cages in maize stored in 100-kg polypropylene (PP), jute and ZeroFly bags was investigated. Postfumigation mortality of adults was recorded after 7 d, and after 7 wk for immatures. The ability of either S. zeamais or P. truncatus to penetrate fabric of PP, jute and ZeroFly bags was assessed. Phosphine efficacy was good in all the three types of bags and resulted in complete mortality of adults and im- matures of the four species tested. Sitophilus zeamais and P. truncatus were more successful in penetrating Lhe P. bag fabric and on average made 84 and 780 holes per bag over a 4 mo-period, respectively; this was followed by jute with 37 and 614 holes. The ZeroFly bag was harder to breach and <3 holes per bag were made for both species. This study shows that PH3 is highly efficacious in insects that infest maize stored in ZeroFly bags, and that these bags are not easily penetrated by stored product insect pests. Hitherto, ZeroFly bags are a good technology for storing grain that is not infested, and fumigation using PH3 can be effectively conducted if infestation occurs. Therefore, ZeroFly bags can be incorporated in integrated stored product insect management (IPM) programs for bagged grains
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    OPTICAL PROPERTIES OF TIGERNUT (CYPERUS ESCULENTUS) AS INFLUENCED BY MOISTURE CONTENT AND WAVELENGTH
    (Department of Agricultural Engineering, Faculty of Technology, University of Ibadan, Ibadan, Oyo state, 2016) omale A.
    Tigemut (Cyperus esculentus) is one among the underutilized crops in Nigeria despite its high economic value. This study investigated the absorbance, transmittance and colour of yellow tigernut as influenced by moisture content at 8%, 16%, 24%, 32% and 42% (db) respectively. The tigernut samples were collected directly from a farm in Minna, Niger state and cleane d to remove all foreign materials, initial moisture content w, ’ determined using ASAE standard after which samples were conditioned to the desired moisture levels following standard method. Using a spectrophotometer, the absorbance ranged from 3.04 to 6.35 and transmittance ranged from 0.00 to 0.19 within a wavelength range of 320nm to 720nn. while he colour using a Chroma meter ranged from 3.73 to 4.14, 5.19 to 8.18 and 13.1 to 19.0 for L (brightness), a (red) and b (yellow) respectively. ANOVA also revealed that moisture has significant effect at p<0.05 on abs, 'bance, transmittance and colour of the tigernut. Correlation and regression analysis revealed a positive linear relationship between all moisture contents with absorbance, transmittance and colour.
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    Performance evaluation of termite-mound clay, concrete and steel silos for the storage of maize grains in the humid tropics
    (Department of Agricultural and Environmental Engineering, University of Ibadan, Oyo State, Nigeria, 2016) Omobowale M.O.
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    Effect of moisture on thermal properties of acrylic polymer modified mortar reinforced with alkali treated bamboo fibres
    (2018) Akinyemi B.A; Omoniyi T.E
    In this study, bamboo fibres were used as reinforcement materials for acrylic emulsion polymer modified cement bonded concrete after treatment with 10% weight of NaoH solution at 23 _C for 24 h. Thermal conductivity, thermal resistance and thermal transmittance were studied and the effects of moisture penetration at 11% wet basis were evaluated. Moisture penetration greatly reduced the thermal strength of the concrete with the exception at 10% acrylic polymer addition and 1.5% bamboo fibre inclusion. Based on the findings it can be reported that bamboo fibres greatly improved the thermal performance of the composite building material while the inclusion of acrylic polymers also hindered to a large extent the penetration of moisture into the capillary network.
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    Potential of oil palm (elaeisguineensis) empty fruit bunch fibres cement composites for building applications
    (2019) Omoniyi T.E.
    This study was designed to evaluate the physical and mechanical properties of cementbonded composite made from oil palm (Elaeisguineensis) empty fruit bunch (OPEFB) fibres. The production variables investigated were pre-treatment of fibres with water at varying temperatures (cold, 60°C and 100°C), five chemical additive (NaOH) concentrations (2%, 4%, 6%, 8%, and 10%), OPEFB fibres ash content at three cement replacement levels (10%, 20%, and 30%) and three fibre contents (5%, 10%, and 15%) by weight of cement. The composites were tested for modulus of elasticity (MOE), modulus of rupture (MOR), internal bonding strength (IBS), compressive strength, density, thickness swelling (TS),and water absorption (WA). The pre-treatment of fibre with water at a temperature of 60°C and a NaOH concentration of 8% significantly enhanced and modified the performance of the composites. It increased MOE (from 5.5 to 8.9GPa) and MOR (from 3.6 to 7.3MPa), and decreased WA (from 26.2 to 12.8%) and TS (from 2.5 to 0.5%). The results revealed that pre-treatment of fibres, partially replacing cement with OPEFB fibre ash and fibre contents had a marked influence on the properties of the composite board produced (p< 0.05). It was concluded that pre-treatment of OPEFB fibres, when optimised, enhanced the sorption resistance and some mechanical properties of the cement composite.
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    Properties of latex polymer modified mortars reinforced with waste bamboo fibers from construction waste
    (2018) Akinyemi B.A.; Omoniyi T.E
    This study evaluated the properties of latex modified cement mortars from ordinary paints which were reinforced with treated bamboo fibers from construction waste. Fiber variations of 0, 0.5, 1 and 1.5% at 10% of the weight of cement were utilized. Mechanical properties were determined according to standards; similarly, scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) were used to analyze the micro structural and elemental properties of the samples. The experimental results revealed that the addition of 1.5% bamboo fibers and 10% latex solution produced excellent mechanical properties. This was as a result of improved fiber adhesion to the matrix through pre-treatment, coupled with the contributed high strength from the latex paint modified mortars. The micro graph showed that latex precipitated in the voids and on the surface of the bamboo fibers as well as gels of calcium silicate hydrates which contributed to the observed improvement in strength of the tested samples.