This research presents the proximate and elemental compositions of Baobab fruit (Adansonia digitata L.) The proximate analysis gives the composition of the biomass in terms of gross components such as moisture, volatile matter, ash and fixed carbon. In this study, the proximate composition was determined using standard methods (AOAC) while the mineral content was analysed with the aid of an Atomic Absorption Spectrometry and Flame Photometry. Minerals are micronutrients that occur in foods in minute amounts but are very essential for body metabolism. The results revealed that Baobab seed and pulp are rich in crude protein, fat, carbohydrate and total ash contents. The high amount of total ash (3.15 0.05 %) and (4.65 0.55 %) present in the seed and pulp respectively suggests that they both possess high level of inorganic matter; thus, having high amount of minerals. The study also shows that Baoba seed and pulp have high economic value and are good and cheap sources of mineral element such as calcium, sodium, potassium, magnesium, copper and zinc. For these reasons, they can be incorporated into food supplements for both humans and animals, also could have industrial applications
The quest for cheap and quality food is on the increase, especially during economy crises. Some nutritional properties of the raw and cooked local and industrial spaghetti were determined using standard methods. Concentrations of mineral elements were determined using atomic absorption spectrophotometer. Total ash (0.98±007 %), crude protein (14.28±0.15 %) and carbohydrate (77.95±0.11 %) levels in the raw industrial spaghetti were higher compared to the locally processed raw spaghetti. Carbohydrate and moisture levels for both processed spaghetti increased on cooking, while total ash and protein contents decreased. Crude fiber (0.009±0.00 %), carbohydrate (77.52±0.21 %) and moisture levels in the cooked local spaghetti were higher than in the cooked industrial spaghetti. Proximate contents of the local and industrial raw spaghetti were significantly (P ≤ 0.05) different. Concentrations of mineral elements in the raw locally processed spaghetti were lower than in the industrial spaghetti. Low levels of functional properties were recorded in the local spaghetti. Cooking decreased zinc content in the spaghetti, but significantly (P ≤ 0.05) increased the moisture content, crude fiber, carbohydrate and mineral contents. The spaghetti processed locally may serve as an alternative to the industrial spaghetti.
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