RESEARCH JOURNAL OF FOOD SCIENCE AND QUALITY CONTROL (RJFSQC )

E-ISSN 2504-6145
P-ISSN 2695-2459
VOL. 10 NO. 4 2024
DOI: 10.56201/rjfsqc.v10.no4.2024.pg10.23


Physico-chemical Properties and Sensory Evaluation of Ogi Flour Supplemented with Date ( Phoenix dactylifera) Powder

Peter, C.O and Emelike, N.J.T.      


Abstract


The physicochemical and sensory properties of ogi flour supplemented with date powder was evaluated. The maize was washed, steeped, wet-milled, sieved, fermented, dried, milled and sieved to achieve fine ogi flour. The date fruits were sorted and washed, pitted, sliced, oven dried, at 650C overnight, milled and sieved to obtain date powder. The ogi flour was supplemented with date powder using the ratio (100:0, 90:10, 80:20, 70:30) while the 100% ogi flour was used as the control. Proximate composition of the blends ranged from 3.20-5.66% moisture, 0.30-1.12% for ash, 5.17-6.36% fat, 4.81-6.51% for protein, 2.07-2.50% fibre, 79.03-83.18% carbohydrate, 2.11- 3.33% total sugar and 397.66-405.16 kcal. Date substitution led to a significant increase (p<0.05) in ash, fibre and the total sugar content while moisture, protein fat decreased. There was no significant (p>0.05) increase in the carbohydrate content. The functional properties ranged from 0.93-1.14g/g for water absorption capacity, 12.45-28.49% solubility index, 1.94-2.00gml for bulk density,10.47-8.15g/g swelling power, all samples gelled at 2%. The sensory properties include properties that ranged from 5.60-6.90 for aroma, 5.45-8.35 colour, 5.25-6.65, 5.70-6.85 for sourness, 5.40-6.95 taste and overall acceptability of 1.36-5.26. There was no significant difference (p>0.05) in aroma, mouth feel, sourness, and taste but however, substitution with date improved the aroma, taste and mouth feel. This study showed that date powder can be used to complement ogi flour. The proportion of (70% ogi flour and 30% date powder can be used as sweetener and substituted with ogi flour.


keywords:

Ogi Flour, Date Powder, Physico-Chemical Properties, Sensory Evaluation


References:


Adebowale, A.A., Adegoke, M.T., Sanni, S.A., Adegunwa, M.O., & GO Fetuga, G.O. (2012).
Functional properties and biscuit making potentials of sorghum-wheat flour composite.
American Journal of food technology 7 (6), 372-379
Adeguunwa, M.O., Alamu, E.O., Bakare, H.A., & Godwin, P.O. (2011). Effect of fermentation
length and varieties on the qualities of corn starch (ogi) production. American Journal of
Food and Nutrition. 1(4), 166-170. https://doi.org/10.52551/ajfn.2011.1.4.166.170.
Adejuyitan, J.A., Abioye, A.O., Otunola, E.T., & Oyewole, Y.N. (2012). An Evaluation of Some
Properties of Baobab Fruit Powder and Ogi Mixes. Transnational Journal of Science
and Technology. 2(7): 91-102.
Afolayan, A.O., & Ayeni, F.A. (2010). Antagonistic Effects of Three Lactic Acid Bacterial Strains
Isolated from Nigerian Indigenous Fermented Ogi on E coli EKT004 in co-culture. Acta
Alimentaria. Annual International Journal Food Science. 46 (1): 1-8.
Ajanaku KO, Ajani O, Siyanbola TO, Akinsiku AA, Ajanaku CO, Oluwole O (2013). Dietary
fortification of sorghum ogi using crayfish (Paranephrops planifrons) as supplement in
infancy. Food Science and Quality Management.;15:1-9.
Ajanaku, K. O., Ajanaku, C. O., Edobor-Osoh, A and Nwinyi, O. C. Nutritive value of sorghum
ogi fortified with groundnut seed (Arachis hypogaea L.). American Journal of Food
Technology, 2012, 7(2), 82-88.
Ajatt, M.A., Akinola, S.A., & Osundahunsi, O.F. (2016). Proximate, Functional and Pasting
Properties of Composite Flours Made from Wheat, Breadfruit and Cassava Starch. Applied
Tropical Agriculture 21(3):158-165.
Akalu, G., Johanson, G., and Nair, B.M. (1998). Effect of Processing on the Content of b-N-oxalyl-
a,b-Diaminopropionic Acid (b-ODAP) in grass pea (Lathyrus sativus) Seeds an our as
Determined by Injection Analysis. Food Chemistry. 62, 233-237.
Akinola, S.A., Olanrewaju, O.A., & Enujiugha, V.N. (2015). Effect of Fermented Pumpkin Seed
Flour Addition on Quality Characteristics of Sorghum, Maize-Based Agidi. Nigerian Food
Journal. 33(2): 116-126.
Al-Farsi, M.A., & Lee, C.Y. (2008). Nutritional and Functional Properties of Dates: A Review
Critical Review Food Science, 48, 877?88.
Algarni E. H. A. (2020). Utilization from date seeds as a by-product low-cost to prepare beverage
cappuccino and the latte less caffeine. World J Environ Bioscience 9, 14-20, 2020.
Ali, A., Waly, M., Essa, M.M. & Devarajan, S. (2012). Nutritional and Medicinal Value of Date
Fruit. In: Mohamed Essa, M, Manickavasagan, A & Sukumar, E (Eds.), Dates: the Genus
Phoenix: Production, Processing, Food, and Medicinal Values. CRC Press, P. 361.
Al-Kahtani, S.H & Soliman, S.S. (2012). Effects of organic manures on yield, fruit quality,
nutrients and heavy metals content of Barhy date palm cultivar. African Journal of
Biotechnology 11 (65), 12818, 2012
Alsenaien, W.A., Alamer, R.A., Zhen-Xing T, Albahrani S.A., & Al-Ghannam, M.A., (2015).
Substitution of Sugar with Date Powder and Date Syrup in Cookies making. Advanced
Journal of Food Science and Technology. 8(1): 8-13.
https://doi.org/10.19026/ajfst.8.1455.
Al-Shahib, W., & Marshall, R. J. 2003. The Fruit of The Date Palm: It’s Possible Use as The Best
Food for The Future. Int J Food Sci Nutr, 54(4), 247–259
Aminigo, E. R., & Akingbala, J. O. (2004): Nutritive composition and Sensory properties of
‘ogi’ Fortified with Okra Seed Meal. Journal Applied Science Environmental
Management. 8(2), 22-28.
Aminigo, E. R., & Akingbala, J. O. (2004): Nutritive composition and Sensory properties of
‘ogi’ Fortified with Okra Seed Meal. Journal Applied Science Environmental
Management. 8(2), 22-28.
Aminigo, E.R., & Akingbala, J.O. (2004). Nutritive Composition and Sensory Properties of Ogi
Fortified with Okra Seed Meal. Journal of Biotechnology. 8:23-28.
AOAC. Association of Official Analytical Chemists. Official Method of Analysis of the AOAC.
20th Ed, Washington; D.C; 2012.
Ardekani, M.R.S., Khanavi, M., Hajimahmoodi, M., Jhangiri, M. & Hadjiakhoondi, A. (2010).
Comparison of antioxidant activity and total phenol contents of some date seed varieties
from Iran. Iranian Journal of Pharmaceutical Research, 9, 141.
Arshad, M.S., Batool, S.M., & Khan, M.K. (2019). Bio-Evaluation of Functional Date Bars using
Rays as Model Organism against Hyper-cholesterolemia. Lipids in Health and Disease,
18, 148.
Barreveld, W.H. (1993). FAO agricultural services bulletin 101
Bolaji, O.T., Oyewo, A.O., and Adepoju, P.A. (2014). Soaking and drying effect on the functional
properties of ogi produce from some selected maize varieties. American Journal of Food
Science and Technology 2 (5), 150-157, 2014
Chukwu MN, Kabul NO, Nwokocha NJ. 2018. Effects of fermentation time on the functional
properties of ogiri-ahuekere (Arachis hypogaea Linn) seed condiment. International
Journal of Biotechnology and Food Science 6(5): 77-85.
Coffman CW, Garcia VV (1977) Functional properties of flours prepared from Chinese indigenous
legume seed. Journal of Food Chemistry. 61: 429-433.
Dada, M., Nwawe, C.N., Okere, R.A., & Uwubanmwem, I.O. (2012). Potentials of Date Palm Tree
to the Nigerian Economy. World Journal of Agricultural Science. 8(3): 309-315.
Emelike, N.J.T., Ujong, A.E., & Achinehwu, S.C. (2020). Effects of Ginger and Cinnamon on the
Proximate Composition and Sensory Properties of Corn Ogi. European Journal of
Nutrition & Food Safety. 12(7): 78-85.
Farheena, I., Avanish, K., & Uzma, A. (2015). Development and Quality Evaluation of Cookies
Fortified with Date Pastepaste (Phoenix dactilifera L) 10.234/ijset07150975.
Giami S.Y. & Barber, L.I. (2004). Utilization of protein concentrates from ungerminated and
germinated fluted pumpkin (Telfairia occidentalis Hook) seeds in cookie formulations.
Journal of the Science of Food and Agriculture 84 (14), 1901-1907, 2004.
Habib, H. M. & Ibrahim, W. H. (2009). Nutritional Quality Evaluation of Eighteen Date Pit
Varieties. International Journal of Food Sciences and Nutrition, 60: 99-111.
Hoover, R., & Soluski, F.W. (1986). Effect of Cross-Linking On Functional Properties of Legume
Starches. Starch/Stark's. 38(5): 149-155.
Iwe, M. O., (2010). Handbook of Sensory Methods and Analysis. Nigeria Rejoint Communication
Science Ltd., Enugu. Pp 75-78.
Iwe, M.O., Onyeukwu, U., & Agiriga, A.N. (2016). Proximate, functional and pasting properties
of FARO 44 rice, African yam bean and brown cowpea seeds composite flour. Cogent
Food & Agriculture 2 (1), 1142409, 2016
Kiin-Kabari, D. B., Akusu, M. O., & Emelike, N.J.T. (2018). Fermentation of Corn Starch Powder
for the Production of ogi. Journal of Food Research. 7(5):49-56.
Manders, R.J., Wagenmakers, A.J., Koopman, R., Zorenc, A.H., & Menheere, P.P., (2005). Co-
ingestion of a Protein Hydrolysate and Amino Acid Mixture with Carbohydrate Improves
Plasma Glucose Disposal in Patients with Type 2 diabetes. America Journal Clinic
Nutrient. 82(1): 76-83. http://doi.org/10.1093/ajcn.82.1.76.
Mickelson, O., Makadani, D.D., Cotton, R.H., Titcomb, S.T., Colmey, J.C. (2009). Effects of a
High Fibre Bread Diet on Weight Loss in Collage Age Males. America Journal Clinic
Nutrient. 32(8): 1703-1717. https://doi.org/10.1093/ajcn/32.8.1703.
Mohamed Zouari, Ch Ben Ahmed, W Zorrig, N Elloumi, Mokded Rabhi, D Delmail, B Ben
Rouina, Pascal Labrousse, & F Ben Abdallah (2016). Exogenous proline mediates
alleviation of cadmium stress by promoting photosynthetic activity, water status and
antioxidative enzymes activities of young date palm (Phoenix dactylifera). Ecotoxicology
and environmental safety 128, 100-108
Nadeem, M., Muhammad Anjum, F., Murtaza, M.A. & Mueen-udDin, G. (2017). Development,
Characterization, and Optimization of Protein Level in Date Bars using Response Surface
Methodology. The Scientific World Journal. 1–10.
Norman,


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