Compositions Nutrient and Antinutrients of Biscuits Prepared from Fermented and Unfermented Ternary Mixture Flours

P.O.  Oleghe; F.C.  Akharaiyi; C.B.  Ehis-Eriakha

doi:10.18502/jfqhc.11.1.14992

P.O. Oleghe Department of Biological Science Laboratory Technology, School of Applied Sciences and Technology, Auchi Polytechnic, Auchi, P.M.B. 13, Auchi, Edo State, Nigeria
F.C. Akharaiyi Department of Microbiology, Edo State University Uzairue, KM 7 Auchi-Abuja Road, Iyamho Uzairue, Edo State, Nigeria
C.B. Ehis-Eriakha Department of Microbiology, Edo State University Uzairue, KM 7 Auchi-Abuja Road, Iyamho Uzairue, Edo State, Nigeria

DOI: https://doi.org/10.18502/jfqhc.11.1.14992

Keywords: Flour Fermentation Triticum Zea mays Nigeria

Abstract

Background: The exorbitant cost of wheat-based foods in non-wheat growing countries has necessitated looking for more enriched and sustainable alternative flour from botanicals that can be mixed and used to produce baked products including biscuits. The study aimed to make biscuits using three different fermented and unfermented mixtures of flour (sweet potato, pigeon pea, and yellow maize).

Methods: Starch-rich tubers of yellow-fleshed cultivar of sweet potato (Ipomoea batatas), yellow maize (Zea mays) grains, and pigeon peas (Cajanus cajan) seeds were purchased from food merchants in the Uchi market, located in Auchi area of Edo State, southern Nigeria in June 2022. These botanical samples were taxonomically validated. The samples were divided into two parts fermented and unfermented, prepared and produced into flour forms. The blended raw materials into flour were mixed in order of sweet potato: pigeon pea: maize (composite mix two 60.00:25.47:14.53, composite mix five 67.70:20.00:12.31 and composite mix eight 61.72:25.24:13.04) were selected to produce biscuits while 100% wheat was used as control. Biscuits were produced from the flour using a standard recipe. The obtained results were presented in mean±SD format of interpretations. Analytical significance dissimilarity between the means samples were considered based on one-way analysis of variance (ANOVA) using IBM Statistical software

Results: It revealed that fermentation increased techno-functional properties containing crude fiber (3.464±0.01-3.485±0.01) and ashes (3.688±0.11-3.711±0.11), while reducing fat (17.339±0.03) and moisture contents (3.639±0.05), the control had the highest protein (12.805±0.25) and lowest carbohydrate (55.622±0.12). The fermented biscuits had more flavonoids (23.162±0.36-23.852±0.60), saponins (14.793±0.07-23.495±0.03). Additionally, fermentation enhanced the potassium bioavailability of the products (19.803±0.00-25.264±0.05). There was high free radical scavenging activity and color for all the fermented samples than unfermented and controlled biscuits.

Conclusion: According to the research, ternary flour mixes from the botanicals could lead to products with improved nutritional composition, functional properties, and antioxidant attributes to further improve biscuit quality.