Correlation of Processing Techniques with Some Quality Indexes of Soy-Akamu Prepared with Yellow Maize, Sprouted and Un-Sprouted Soybean

https://doi.org/10.22146/ifnp.76756

Innocent Nwazulu Okwunodulu(1*), Chikodili Ugochukwu(2), Joel Ndife(3), Stella Ubbor(4)

(1) Michael Okpara University of Agriculture Umudike Abia State
(2) Michael Okpara University of Agriculture Umudike Abia State
(3) Michael Okpara University of Agriculture Umudike Abia State
(4) Michael Okpara University of Agriculture Umudike Abia State
(*) Corresponding Author

Abstract


Akamu or ogi is a commonly relished gruel when prepared with hot water by the sick, recovering patients and infants in Nigeria. It is nutritionally deficient due to inevitable processing losses which called for fortification with soybean (soy-akamu or soy-ogi). Soy-akanu was prepared from steeped yellow maize, sprouted and un-sprouted soybean cotyledons using different processing techniques. Proximate, micronutrients and functional properties were evaluated with standard analytical methods. The results showed that proximate composition of soy-akamu produced from dried teeped maize and sprouted soybean cotyledons had higher protein (63.20%), fibre (0.33%), ash (1.11%), energy (384.28 Kcal) and least moisture content (4.53%). The paste samples had respective values of 0.77, 3.06%; 0.00, 0.00%; 0.71, 1.02%; 29.86, 3303%; 143.50, 145.37 mg/100g, and 64 and 36-64-76%. Dried soy-akamu also had the highest calcium (41.18, iron (0.99), phosphorous (0.27), zinc (48.02), potassium (0.45), vitamin C (24.60) and least in magnesium (0.07 mg/100g) content. The paste samples had respective values of 40.13, 41.14; 0.86, 0.92; 0.39, 0.41; 0.39, 0.41; 20.46, 23.65 mg/100g with respective magnesium (0.10-0.12)  and phosphorous ( 0.25, 2.21 mg/100g) contents. Different processing techniques had significant (p<0.05) variations in proximate, micronutrient and functional properties of the soy-akamu and also their major sources of nutrient losses.


Keywords


Yellow-maize; sprouted soybean; soy-akamu; processing technique

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References

Achinewhugar, SC., Barber, LI. and Ijeoma, IO. 1998. Physicochemical properties and reification of selected cassava cutovers in River state. Plant Food for Human Nutrition. 52: 133 140.

Adegunwa, M/O., Ganiyu, AA., Bakare, HA., and Adeborale, AA. 2014. Quality evaluation of composite millet-wheat chin-chin. Agricultural and Biology Journal of North America. ISSN. 2151-7517.

Adelekan, AO. and Oyewole, OB. 2010. Production of ogi from germinated sorghum supplemented with soybeans. African Journal of Biotechnology. 9:7114-7121.

Akanbi, CT., Ade–omowaye, BIO. OJo, A. and Adeyemi, IA. 2003. Effect of processing factors on rheological properties of ogi. International Journal Food Property. 6:405-418.

Aprianita, A., Purwandari, U., Watson, B. and Vasiljevic, T. 2009. Physico-chemical properties of flours and starches from selected commercial tubers. Australia International Food Research Journal. 16: 507-20.

Association of Official Analytical Chemists (A.O.A.C) 2010. ‘Official methods of analysis.’ 8thedition Gaithersburg, United States of America. 3: (1).

Badejo, AA., Osunlakin, AA., Pamakinwa, AP., Idowu, AO. and Fagbemi, TM. 2017. Analysis of dietary fiber content, antioxidant composition, functional and pasting properties of plantain and Moringa oleofera composite flour blends. Cogent. Food and Agriculture. 3: 1-10.

Banigo, EOI. and Muller, R.G., 1992. Manufacture of ogi (A Nigeria fermented cereal porridge): comparative evaluation of corn, sorghum and millet. Cambridge. International. Food Science Technology. 5: 217.

Beruk, BD., Kebede, A. and Esayas, K. 2015. Effect of blending ratio and processing techniques on physicochemical composition, functional properties and sensory acceptability of maize–soybean based supplementary food. International Journal of Food Science and Nutrition Engineering. 5(3): 121-129.

Boye, JI. and Zubair, F. 2011. ‘’Water holding capacity.’’ In: Pulse Foods http://www.sciencedirect.com/topic/agricultural and biological-sciences/water-binding/pdf

Carpenter, CE and Hendricks, DG.2003. ‘’Mineral analysis.’’ .3rd. ed. 198–20. Springer, LLC, New York, NY. Chen, LA. and Lin, CS. 2002. Sensory characteristics of sorghum composite bread. International Journal of Food. Science and Technology. 35: 465 – 471.

Echendu, CA., Onimawo, IA. and Somtochi, A, 2004. Production and evaluation of doughnuts and biscuits from maize–pigeon pea flour blends. Nigerian Food Journal. 22: 147 – 153. Elizabeth, OF. 2015. The chemical and sensory properties of sieved and un-sieved fortified ogi. Nature and Science. 13(1): 49-53.

Fagbemi, EN. 1999. Effects of blanching and ripening on the functional properties of plantain (Mosaaab) flour. Plant Food for Human Nutrition. 54(3): 261-69. Hany, AE. 2011. Soybean and nutrition. Janeza Trdine: Rijeka, Croatia. 9: 51000.

Hoover, R. 2001. Composition, molecular structure, and physicochemical properties of tuber and root starches: A review. Carbohydrate Polymer. 45: 253-267.

Ijabadeniyi, AO. 2004. Microorganisms associated with ogi, traditionally produced from three varieties of maize supplemented with soybeans. Journal of Food Science and Technology. 17: 139-148.

Ijabadeniyi, AO. and Adebolu, TT. 2005. The effect of process method on the nutritional properties of ogi produced from three maize varieties. Journal of Food, Agriculture and Environment. 3(1): 108-109.

Ijeh, II, Chukwunonso, ECC., Ejike, O., Nkwonta, MB. and Njoku, C, 2010. Effect of traditional processing techniques on the nutritional and phytochemical composition of African breadfruit (Treculia africana) seed. Journal Applied Science and Environment. 14(4): 169-173.

Iwe, MO. 2003. ‘’Chemistry, nutrition, processing and utilization.’’ Chapter In: ‘’The Science and Technology of Soy bean’’. 1st edition. Rojoint communication services, Enugu, Nigeria. James, SC. 1995. ‘Analytical chemistry of food’.Chapman and Hill printers, London. pp 25.

Jude-Ojei, BS., Lola, A., Ajayi, O. and Iiemobayo, S. 2017. Functional and pasting properties of maize “ogi” supplemented with fermented moringa seeds. Journal of Food Processing and Technology. 8: 5.

McWattlers, KH, Ouedraogo, JB, Resurrection, AVA., Hung, Y. and Philips, RD. 2003. Physical and sugar content of cookies containing mixtures of wheat, Forio (Digitaria exilis) and Cowpea (Vigna unguiculata) flours. International Journal of Food Science and Technology. 38: 403 – 410.

Mullan, WMA. 2006. Labeling determination of the energy content of food (On-line). http://www.dairyscience.info/packing-/119-labelling-determination-of-the-energy-content-of-food-html.

Nnam, NM. 2000. Chemical evaluation of multimixes formulated from some local staples use as complementary food in Nigeria. Plant Food for Human Nutrition. 55:255-263.

Ogbonna, CN., Nozaki, K. and Yajima, H. 2013. Antimicrobial activity of Xylopia aethiopica, Aframomum melegueta and Piper guinenses ethanolic extracts and the potential of using Xylopia aethiopica to preserve fresh orange juice. African Journal of Biotechnology. 12: 6.

Ogodo, AC., Ugbogu, O. and Ekeleme, U. 2015. Bacteriological quality of commercially prepared fermented ogi (Akamu) sold in some parts of South Eastern Nigeria International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering, 9: 6.

Okafor, CS., Okwudiri, MA. and Ekwulundu, G. 2016. Determination of aluminium contents of distilled water, water heated in aluminium foil only, and food products (moi-moi) cooked in aluminium foil, plantain leaves and transparent waterproof. Journal of Biological and Chemical Research. 33(1): 314-317.

Okwu, DE. and Josiah, C. 2006. Evaluation of chemical composition of two Nigerian medicinal plants. African Journal of Biotechnology. 5(4): 357-361.

Okwunodulu, IN., Iwe, MO., Akobundu, ENT. 2017. Storage stability of un-stabilized predigested soy milk fortified with micronutrients. a response surface approach. Nigerian Food Journals. 35(1): 82-94.

Okwunodulu, IN., Eze, NL, Ndife, J. and Ukom, NA. 2019. Quality characteristics of soy- akamu powder formulated from sorghum and sprouted soybean flour blends for complementary feeding. World Journal of Food Science and Technology. 3(4): 48-57.

Okwunodulu, IN., Eze, N., Okakpu, KG. and Okakpu, CJ. 2020a. Quality parameters of soy-maize akamu paste from maize and sprouted soybean blends and sensory attributes of their gruel for complementary feeding. Sumerianz Journal of Nutrition and Food Science. 1 (1): 33-40.

Okwunodulu, IN., Obasi, IU. Ndife, J. and Iguh, NB. 2020b. Formulation and evaluation of complementary food from sprouted soybean, breadfruit and plantain flour blends compared with Cerelac, a commercial counterpart. Direct. Research Journal of Agriculture and Food Science. 8: ISSN 2354-4147.

Okwunodulu, IN., Onwuzurike, UA., Ochiogu, OA. and Uzochukwu, UC. 2021. Evaluation of stabilized soymilk prepared from sprouted soybean with orange flesh sweet potato starch for ambient storage. Turkish Journal of Agriculture-Food Science and Technology. 9(4): 655-664, DOI: https://doi.org/10.24925/turjaf.v9i4.655-664.3826.

Okwunodulu, IN., Iloka, UJ., Okakpu, KG. and Okakpu, CJ. 2022. Proximate composition and consumers’ subjective knowledge of deep fat fried chin-chin and functional properties of the wheat-cassava composite flour used. Turkish Journal of Agriculture- Food Science and Technology. 10(2): 228-234, 2022 DOI: https://doi.org/10.24925/turjaf.v10i2.228-234.4595.

Olukoya, DK., Ebigwe, SI., Olasupo, NA. and Ogunjimi, AA. 1994. Production of dogik: an improved ogi (Nigeria fermented weaning food) with potentials for use in diarrhea control. Journal Tropics and Pediatrics. 40(2): 108-13.

Oluwaseun, PB., Mofoluwaso, BF., Dolapo, AO. and Ebunoluwa, GA. 2015. Nutritional composition of fufu analog flour produced from cassava root (Manihot exculenta) and cocoyam (Colocasia esculenta) tubers. Food Science and Nutrition. 3(6): 597-603.

Onimawo, AI and Akubor, PI. 2005. ‘’Functional properties of food’’. In: Food chemistry. Integrated approach with biochemical background. Ambik Press Limited, Benin City, Nigeria. pp 208-221.

Onwuka, GI. 2018. ‘’Food analysis and instrumentation theory and practice.’’ 2nd edt Naphthali, Prints. Pp 104-12.

Omemu, AM., Oyewole, OB. and Bankola, MO. 2007. Significant of yeasts in the fermentation of maize for ogi production. Food Microbiology. 24: 571-576.

Rao, MA. 2003. Shear rheology of liquid foods: A study of rheological and oxidative stability of rice bran and corn oil using FTIR Spectra. Encyclopedia of Agriculture, Food and Biological Engineering Abstract. 4, (1): 77-86.

Rubalya, VS. and Neelameagam, P. 2008. A study of rheological and oxidative stability of rice bran and corn oil using FTIR Spectra. Journal of Pure and Applied Physics 4, (1): 77-86.

Treche, S. 1998. Factors affecting the energy intake from gruel by breast-fed children in developing countries. International conference on infant and pre-school child nutrition, Ibadan, Nigeria.

Uchendu, FN. 2013. The role of bio-fortification in the reduction of micronutrients food insecurity in developing countries African Journal of Biotechnology. 12 (37): 5559-5566.

Ukom, AN., Adiegwu, .EC., Ojimelukwe, PC. and Okwunodulu, IN. 2019. Quality and sensory acceptability of yellow maize ogi porridge enriched with orange-fleshed sweet potato and African yam bean seed flours for infants. Scientific African. 6 e00194.

Ugwu, E. and Ukpabi UJ. 2002. Potential of soy cassava flour processing to sustain increasing cassava production in Nigeria. Outlook on Agriculture. 31(2): 129 - 133. World Health Organization and Food and Agriculture Organization of the United Nations (WHO/FAO). 2006. Guidelines on Food Fortification with Micronutrients.



DOI: https://doi.org/10.22146/ifnp.76756

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