Abstract
An investigation into the possibility of using local cereal resources (maize) to develop composite flour suitable for the production of Akara (a deep fried fermented dough) was undertaken. The experimental design was a 4 x 5 x 5 factorial experiment. Factor one was the maize variety (CMS 8806, CMS 8501, CMS 9015 and CMS 8704), factor two the substitution level (0, 10, 20, 30 and 40%) of wheat for maize flour and factor three was the fermentation times (0, 30, 60, 90 and 120 min). Dough nuts were produced from composite flour from wheat and maize flour. For the production of maize fine flour, wet milling of de-hulled, soaked grain was made followed by drying and sieving. Composite flours (32.4%) and other ingredients (13.5% sugar, 0.5% instant bakers’ yeast and 0.3% iodised salt) were mixed with water, whipped for 10 min and cut into samples of 40 g which were manually shaped into balls. They were allowed to ferment and rise prior to deep frying. Flour samples were analyzed for their physico-chemical and functional properties. A mixed panel of women operating in dough nut production and some regular consumers was trained for sensory evaluation. The sensory attributes considered were colour, taste, texture and overall acceptability on a five point scale. Results showed that maize cultivars did not affect the quality of fine flours from wet milling. In composite flours, proteins, lipids and ash contents were significantly reduced as the level of maize flour increased. An inverse trend was observed with water absorption capacity. Dough swelling capacity and Akara density decreased with increase in maize substitution levels independently of the fermentation time and maize variety. Similarly, sensory scores decreased with increases in the substitution level independently of the maize cultivar used for composite flour preparation. However, Akara from composite flours had overall acceptability scores between 4.2 and 2.8 on a five-point scale. Akara prepared from CMS 8806 and CMS 8704 all of yellow color showed the highest sensory scores. From the results obtained, it could be suggested that composite flour from wheat and maize with up to 40% substitution level is acceptable for local commercial production of Akara with preference given to yellow maize. Key words: Maize, flour, doughnut, characteristics.
Highlights
Traditional cereal foods play an important role in the diet of the people of Africa, in cereal producing zones
The high lipid content of the grains of maize cultivar Cameroon Maize Selection (CMS) 8704 led to composite flour with highest fat contents
Similar results where observed in bro made with blend of wheat and maize flours in the ratio of 60:40, respectively (Tiekoura, 1994)
Summary
Traditional cereal foods play an important role in the diet of the people of Africa, in cereal producing zones. Flour from various cereals is one of the main raw material used in the production of popular food products with high acceptability, good storage characteristics and affordable cost One of such food product is Akara, a deep oil fried fermented dough, produced by women, using simple processing methods. In an attempt to minimize production costs in rural areas, village women have developed composite flours by incurporating various amounts of rice or maize flour into wheat flour for Akara production. This has led to a lot of variability in taste, texture, size and appearance in the Akara from one producer to another and from one village to another. Doughnut producers on the other hand are voluntarily adding various amounts of cereal flours in their dough to obtain besides Akara, different types of fried dough products Cen-cen, Taara-pott-en, Wardi and Wayna (Lopez and Muchnik, 1997)
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