The objective of this study was to determine the functional and pasting properties of composite flours from Triticum durum (wheat), Digitaria exilis (acha), Vigna unguiculata (cowpea) flours and Moringa oleifera leaf powder. The flour samples were mixed in a four by four factorial, in complete randomized design (CRD) to formulate the composite blends at four different levels (25, 50, 75 and 100) which gave 16 samples. The statistical analysis of data collected was used to select five (5) generally accepted composite flour samples (wheat, acha, cowpea and moringa oleifera leaf powder flours) with ratio of 100:0:0:0, 75:25:0:0, 0:50:50:0, 50:23:25:2 and 75:25:0:0, respectively. The flour samples were analyzed for functional and pasting properties using standard methods. Results of the functional properties showed that water absorption capacity of the composite flour blend ranged from 0.87-1.11g/g, bulk density 0.39-0.42 g/ml, least gelation concentration 2.00-4.00%, solubility 19.46-25.35%, wettability 2.57-4.02min, oil absorption 1.61-1.79g/g and least gelation temperature 62.00-68.50oC. The functionality of the composite flours such as water and oil absorption capacities, least gelation concentration and bulk density were improved when cowpea was incoporated into the blends than for moringa oleifera leaf powder and acha flour. On the other hand, wettability and solubility of the flour blends were improved when acha was incorporated into the blend. Results of pasting properties showed that peak viscosity ranged from 73.04-385.79RVU, trough viscosity 57.96-341.42RVU, break down viscosity 15.08-44.38RVU, final viscosity 109.54-581.58RVU, set back viscosity 51.58-240.17RVU, pasting time 5.70-6.40min and pasting temperature 50.08oC-50.35oC. These properties were shown to be higher when cowpea was incorporated into the flour blends than for moringa oleifera leaf powder and acha flour. However, pasting properties of the composite flour blends were higher than 100% wheat flour. This result therefore showed that composite flour from wheat, acha, cowpea and Moringa oleifera leaf powder has improved functionality and high pasting properties than the individual wheat flour and will serve as a useful ingredient in food formulations such as in dough, soups and baked products.
Studies were conducted to determine the proximate and anti-nutrient composition of fullfat and defatted seed flour of Telfairia occidentalis (fluted pumpkin) using standard procedures. The defatted seed flour (DSF) indicated higher protein content (46.55%) while the full-fat seed flour (FSF) presented a value of 10.20%. The lipid (35.78%), carbohydrate (42.27%), and caloric values (531.90 Kcal/100 g) obtained for FSF were respectively higher than values of similar determinations for DSF. The anti-nutritional analyses of the FSF showed slightly higher oxalate content (44.00 mg/100 g) while cyanide, phytate and tannin levels were higher in DSF. The vitamin A composition of FSF (9.18 mg/100 g) was higher than that of DSF (0.84 mg/100 g) while DSF indicated higher vitamin C (74.44 mg/100g) content. These results revealed that the seed flour of Telfairia occidentalis contains an appreciable amount of nutrients and vitamins. The levels of toxicants in both FSF and DSF samples were low and below toxic levels. The seed flour of Telfairia occidentalis can be exploited as a cheap and valuable source of vegetable protein in fortified food products formulation.
The objective of this study was to determine the proximate, mineral and sensory properties of noodles prepared from blends of Triticum durum (wheat), Digitaria exilis(acha), Vigna unguiculata (cowpea) flours and Moringa oleifera leaf powder (MLP). The flour samples were mixed in a four by four factorial, in complete randomized design (CRD) to formulate the composite blends at four different levels (25, 50, 75 and 100) which gave 16 samples. The flour samples were used to produce noodles and subjected to proximate, mineral and sensory analysis. Results of the proximate composition revealed that moisture content of the noodles ranged from 8.04-13.81%, ash 1.84-3.67%, fat 1.95-3.61%, crude protein 10.07-14.44%, carbohydrate 33.15-61.45%, dietary fibre 16.65-36.22% and caloric value 214.53-288.28 kJ/100 g. There was a significant increase (p < 0.05) in the moisture, ash, fat, crude protein and dietary fibre of the noodles on the substitution with cowpea flour, acha flour and MLP. Results of mineral composition also showed that sodium content ranged from 1.58-11.76 mg/100 g, potassium 26.70-40.40 mg/100 g, calcium 18.03-59.02 mg/100 g, iron 6.18-21.53 mg/100 g and phosphorus 0.51-1.54 mg/100 g. Noodle sample produced from 75% wheat and 25% cowpea flours were significantly higher (p < 0.05) in mineral content (except for potassium). Sensory evaluation results showed that cowpea and acha flours can be substituted at 25% levels with 75%, wheat flour and acha flour can as well be substituted at 50% with 50% cowpea flour while MLP at 2% with 50% wheat flour, 23% acha flour and 25% cowpea flour without significantly (p < 0.05) affected the sensory attributes of the noodles. This result therefore indicates that the use of these locally grown crops has the potential to increase the nutritional intake of consumers of this product.
This study aimed at evaluating the effect of two ripening agents (calcium carbide and kerosene fumes) on the physiochemical properties and sulphide/sulphur distribution of banana fruit. Freshly unripe banana fruit were treated with calcium carbide powder and kerosene fumes and ripened within 48 hrs. Fruit samples were also ripened naturally and served as control. The samples were analyzed for physicochemical properties and sulphur/suphate distribution (outer and inner). The result of physicochemical analysis revealed a significant (p<0.05) decrease in pH (5.43-4.75), total titratable acidity (TTA) (5.03-0.47%), moisture (75.87-67.13%), carbohydrate (11.14-5.09%) and vitamin C (0.27-0.002mg/100g) with an increase in total soluble solids (2.00-19.30oBrix) following ripening process. Amongst the ripened fruits, fruits ripened with calcium carbide had highest TTA (1.63%) and moisture (74.75%). Accelerated ripened banana fruits had low pH>5 and higher TSS than naturally ripened sample. The concentrations of sulphur/sulphide (0.29-1.85mg/kg) were below the limit of 50 mg/kg indicating that the fruits were still safe for consumption against health threats posed by high concentrations of sulphate/sulphide. This study therefore quantified the changes in physicochemical properties of artificially ripened banana fruits and their possible health hazards. The study is very useful particularly in relation to the health hazards associated with chemical treatment for banana ripening. This will be useful to banana fruit sellers as it may help to optimise the ripening practices which may lead to reduce the safety and health concerns of the consumer.
The natural process of fruit ripening is a combination of physiological, biochemical and molecular processes which can be activated or accelerated artificially by using different chemical agents. This study was carried out to examine the effects of three ripening process on the quality of avocado and mango fruits. Freshly unripe mango and avocado fruits were treated with calcium carbide powder, kerosene fumes and ripening in woven polypropylene bags. Calcium carbide treated fruits were stored for 48 hrs and all the samples were fully ripened except avocado fruit. The kerosene fumed fruits were stored for 24 hrs and then exposed to open air for another 24 hrs. Fruits ripened in empty plastic rice got ripened within 4 and 5 days for mango and avocado, respectively. The fruits were then analyzed for their physicochemical properties and sulphide and sulphate distributions using standard methods. The result revealed a decrease in TTA, pH, carbohydrate and vitamin C contents on ripening. On the other hand, moisture and TSS was observed to increase. However, accelerated ripening had no significant (p<0.05) effect on the moisture and vitamin C content of the fruits. Mango samples treated with calcium carbide recorded higher acidity (0.92%) and low pH (3.08) than those treated with kerosene (0.29% and 3.71%, respectively). Sulphide and sulphate distribution of avocado was found to increase after accelerated ripening with kerosene fumes. A decrease for sulphate (outer distribution) and increase for sulphate (inner) and sulphide (outer) was observed for mango fruits. The results also showed that ripening in woven polypropylene had no significant (p<0.05) effect on the TTA of the fruits while pH, moisture and TSS varied significantly (p<0.05) with fruit type. The use of calcium carbide for fruit ripening is not advisable.
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