Physico-Functional and Starch Pasting Properties of Cassava (Manihot Esculenta Cruntz) Flours as Influenced by Processing Technique and Varietal Variations

Authors

  • E. O. Afoakwa Department of Nutrition & Food Science, University of Ghana, Legon-Accra, Ghana
  • G. O. Sampson Faculty of Vocational Education, Akenten Appiah-Menka University of Skills Training and Entrepreneurial Development, Kumasi, Ghana
  • D. Nyirenda Faculty of Vocational Education, University of Education Winneba, Ghana
  • C. N. Mwansa Department of Food Science and Technology, University of Zambia, Lusaka, Zambia
  • L. Brimer Department of Veterinary Disease Biology, Chemical Food Safety and Toxicology, University of Copenhagen, Copenhagen, Denmark
  • L. Chiwona-Karltun Department of Urban & Rural Development, Swedish University of Agricultural Sciences (SLU), Uppsala, Sweden

DOI:

https://doi.org/10.24203/ajafs.v9i2.6556

Keywords:

NA

Abstract

This study investigated effects of processing technique and varietal variations on the physico-functional, starch pasting and viscoelastic properties of cassava (Manihot Esculenta Crantz) flours using a 3x6 factorial experimental approach. Samples were evaluated for their non-volatile acidity, pH, swelling power, solubility water absorption capacity (27oC and 70oC), colour and starch pasting characteristics of the cassava flours using standard methods. Grating and soaking of the cassava tubers significantly (p<0.05) reduced the pH of all the varieties with concomitant increases in non-volatile acidity. Grating and soaking significantly (p<0.05) reduced the swelling power, solubility and water absorption capacity of the flours. Soaked Chila B flour recorded the highest pasting temperature of 66.9°C whiles soaked Mweulu flour recorded the highest peak viscosity (684 BU), viscosity at 95oC (683 BU) and viscosity at 95oC-hold (359 BU), suggesting that the flours from the different cassava varieties could be targeted for different food and industrial products.

Author Biography

  • G. O. Sampson, Faculty of Vocational Education, Akenten Appiah-Menka University of Skills Training and Entrepreneurial Development, Kumasi, Ghana

    A lecturer in the Department of Agro Process in the Methodist University College of Ghana.

References

Abu, J.O., Badifu G.I.O, and Akpapunan M.A. 2006. Effect of Crude palm-oil inclusion on some physico-chemical properties of gari, a fermented cassava food product. Journal of Food Science and Technology 24: 73 – 79.

Adeyemi, I. A. and Idowu, M. A. 1990. The evaluation of pregelatinised maize flour in the development of Massai, a baked product. Nigeria Food Journal 8: 63-73.

Adeyemi, I. A., and Omolayo, O. 1984. Utilization of cocoyam flour and starch for biscuit and cake making. Nigeria Journal of Science 18: 34-37.

Afoakwa, E. O., & Sefa-Dedeh, S. 2002. Viscoelastic properties and changes in pasting characteristics of trifoliate yam (Dioscorea dumetorum) starch after harvest. Food Chemistry 77: 203-208.

Afoakwa, E. O., Adjonu, R., and Asomaning, J. 2010a Viscoelastic properties and pasting characteristics of fermented maize: Influence of the addition of malted cereals. International Journal of Food Science Technology 45: 380–386.

Afoakwa, E. O., Kongor, E. J., Annor, G. A., & Adjonu, R. 2010b. Acidification and starch behaviour during co-fermentation of cassava (Manihot esculenta Crantz) and soybean (Glycine max Merr) into gari, an African fermented food. International Journal of Food Science and Nutrition, 61: 449-462.

Afoakwa, E. O., Budu, A. S., Asiedu, C., Chiwona-Karltun, L. and Nyirenda, D. B. 2012. Viscoelastic properties and physico-functional characterization of six high yielding cassava mosaic disease-resistant cassava (Manihot esculenta Crantz) genotypes. Journal of Nutrition and Food Science 2: 129-137.

Akalu, G., Tufvesson, F., Jonsson, C., and Nair, B.M.. 1998. Physicochemical characteristics and functional properties of starch and dietary fibre in grass pea seeds. Starch/Stärke 50: 374-382

Amani N. G, Kamenan A, Rolland-Sabaté A and Colonna P. 2005. Stability of yam starch gels during processing. African Journal of Biotechnology. 4: 94-101.

Apea-Bah F.B., Oduro I, Ellis W.O. and Safo- Kantanka O.2009. Principal components analysis and age at harvest effect on quality of gari from four elite cassava varieties in Ghana. African Journal of Biotechnology 8: 1943 – 1949.

Aryee, F. N. A., Oduro, I., Ellis, W. O., and Afuakwa, J. J. 2006. The physicochemical properties of flour samples from the roots of 31 varieties of cassava. Food Control. 17: 916–922.

Assanvo J.B. 2008. Enquêtes de production et de consommation de l’attiéké traditionnel ivoirien et caractéristique organoleptique d’attiéké issus de quatre variétés de manioc (IAC, Bonoua, Olekanga et TMS 4 (2) 1425). Thèse unique de Doctorat en Biochimie et Sciences des Aliments, Université de Cocody- Abidjan, Côte d’Ivoire. pp 195.

Bokanga M. 2001. Cassava: Post-harvest operations. International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria, 220p.

Champagne, E. T., Bett, K. L., Vinyard, B. T., Mcclung, A. M., and Barton, F. E. (1999). Correlation between cooked rice texture and rapid visco analyzer measurements. Cereal Chemistry 76: 764–771.

Clydesdale, F.M. 1984. The Influence of colour on the sensory perception and food choices In Developments in Food Colours-2 edited by John Walford, Elsevier applied Science Publishers. London and New York.

Colonna, P., Leloup, V., and Buleon, A. 1992. Limiting factors of starch hydrolysis. European Journal of Clinical Nutrition. 46: 517– 532.

Defloor, I., Leijskens, R., Bokanga, M., and Delcour, J. A. 1994. Impact of genotype and crop age on the bread making and physico-chemical properties of flour produced from cassava (Manihot esculenta Crantz) planted in the dry season. Journal of the Science of Food and Agriculture 66: 193-202.

Emiola, L., and Delarosa, L. C. 1981. Physicochemical characteristics of yam starches. Journal of Food Biochemistry 5: 115-130.

Food and Agriculture Organization 2008. Le manioc pour la sécurité alimentaire et énergétique – Investir dans la recherché pour en accroître les rendements et les utilisations. FAO salle de presse (éditeur), Juillet 2008 Rome, Italie. Retrieved on 12/05/2012 http://www.fao.org/newsroom/FR/news/.

Gujska, E., Reinhard, W.D., and Khan, R. 1994. Physicochemical properties of field pea, pinto and navy bean starches. Journal of Food Science 59: 634-636.

Hashim M., Moorthy, S. N. Mitchell, J. R. Hill, S. E., Linfoot, K. J. and Blanshard J. M. V. 1992: The effect of low levels of antioxidants on the swelling and solubility of cassava starch. Starch/Stärke 44: 471-475.

Hoover, R., and Sosulski, F.1986. Effect of cross linking on functional properties of legume starches. Starch/Stärke, 38:149-155.

Ikegwu, O. J., Nwobasi, V. N., Odoh, M. O., and Oledinma, N. U. 2009. Evaluation of the pasting and some functional properties of starch isolated from some improved cassava varieties in Nigeria. African Journal of Biotechnology. 8: 2310-2315.

Iwe, M. O., Wolters, T., Gort, G., Stolp, W., and Van Zuilichem, D. J. 1999. Behaviour of gelatinization and viscosity in soy-sweet potato mixtures by single-screw extrusion: A response surface analysis. Journal of Food Engineering. 38 (3): 369–379.

Kawano, K. 2003. Thirty years of cassava breeding for productivity: biological and social factors for success. Crop Science 43: 1325-1335.

Kim, Y. S., Wiesenborn, D. P., Orr, P. H., and Grant, L. A. 1995. Screening potato starch for novel properties using differential scanning calorimetry. Journal of Food Science 60: 1060–1065.

Lei, V., Amoa-Awua, W.K.A. and Brimer, L. 1999. Ability to degrade cyanogenic glycosides using Lactobacillus plantarum strains from spontanous cassava fermentation and other microorganisms. International Journal of Food Microbiology 53: 169-184.

Maziya-Dixon, B., Adebowale, A. A., Onabanjo, O. O. and Dixon, A. G. O. 2005. Effect of variety and drying methods on physico-chemical properties of high quality cassava flour from yellow cassava roots. African Crop Science Conference Proceedings, Vol. 7. pp. 635-641.

Maziya-Dixon, B., Dixon, A. G. O. and Adebowale, A. A. 2007. Targeting different end uses of cassava: Genotypic variations for cyanogenic potentials and pasting properties. International Journal of Food Science and Technology. 42: 969-976.

Mégnanou, R. M., Kouassi, S. K., Akpa, E. E., Djedji, C. and Bony, N. 2009. Physicochemical and biochemical characteristics of improved cassava varieties in Cote d’Ivoire. Journal of Animal and Plant Science 5: 507-514.

Moorthy, S. 1985. Effect of different types of surfactants on cassava starch properties. Journal of Agriculture and Food Chemistry 35: 1227-1232.

Moorthy, S. N., and Ramanujam, T. 1986: Variation in properties of starch in cassava varieties in relation to age of the crop. Starch/ Stärke, 38: 58-61.

Numfor, F. A., Walter, W. M., and Schwartz, S. J. 1996. Effect of emulsifiers on the physical properties of native and fermented cassava starches. Journal of Agriculture and Food Chemistry 44: 2595 – 2599.

Oduro, I., Ellis, W. O., Dziedzoave, N. T. and Nimako Y. K. 2000. Quality of gari from selected processing zones in Ghana. Food Control 11: 297-303.

Oguntunde, A. O. 1987. Starch modification for food application: review. Nigeria Food Journa; 5: 102-107.

Okigbo, B. N. 1980. Nutritional implications of projects giving high priority to the production of staples of low nutritive quality. In the case for cassava (Manihot esculenta, Crantz) in the humid tropics of West Africa. Food and Nutrition Bulletin 2: 1–10.

Osungbaro, T. O. 1990. Effect of differences in varieties and dry milling of maize on the textural characteristics of Ogi (fermented maize porridge) and Agidi (fermented maize meal). Journal of the Science of Food and Agriculture 52: 1-12.

Patindol, J., Wang, Y. J., and Jane, J. L. 2005. Structure-functionality changes in starch following rough rice storage. Starch-Stärke, 57: 197–207.

Rasper, V. 1980. Theoretical aspests of amylographology. In: The amylograph handbook. Shuey, W. C., Tipples, E. E. (Eds.). St Paul, MN: America Association of Cereal Chemists.

Riley, C.K., Wheatly, A.O., and Asemota, H.N. 2006. Physicochemical characterization of starches from Jamaican yams (Dioscorea spp.): Potential for pharmaceutical exploitations. European Journal of Scientific Research 15 (2): 207-219.

Rosenthal, F. R. T., Nakamura, T., Espindola, A. M. C., and Jochimek, M. R. 1974. Structure of starch granules. Die Starke, 26: 50-55.

Sanni, L. O., Ikuomola, D. P. and Sanni, S. A. 2001. Effect of length of fermentation and varieties on the qualities of sweet potato gari. Proceedings of 8th triennial Symposium of the International Society for Tropical Root Crops. Africa Branch (ISTRC-AB), Ed. M.O. Akoroda, IITA, Ibadan, Nigeria, 12–16 November 2001, pp. 208-211.

Sanni, L. O., Kosoko, S. B., Adebowale, A. A. and Adeoye, R. J. 2004. The Influence of palm oil and chemical modification on the pasting and sensory properties of fufu flour. International Journal of Food Properties 7: 229–237.

Sasaki, T., and Matsuki, J. 1998. Effect of wheat starch structure on swelling power. Cereal Chemistry. 75: 525-529.

Sefa-Dedeh, S., Cornelius, B., Amoa-Awua, W., Sakyi-Dawson, E., and Afoakwa, E. O. 2004. The microflora of fermented nixtamalized corn. International Journal of Food Microbiology. 96: 97–102.

Shittu, T. A., Sanni, L.O., Awonorin, S. O., Maziya-Dixon, B. and Dixon, A. 2007. Effect of genotype on the flour making properties of some CMD resistant varieties of cassava. Food Chem. 101, 1634–1643.

Shujun, W., Hongyan, L., Wenyuan, G, Haixia, C., Jiugao, Y., and Peigen, X. 2006. Characterization of new starches separated from different Chinese yam (Dioscorea opposite Thunb.). Food Chemistry 99: 30-37.

Srichuwong, S., Sunarti, T.C., Mishima, T., N. and Hisamatsu, M. 2005. Starches from different botanical sources I: Contribution of amylopectin fine structure to thermal properties and enzyme digestibility. Carbohydrate Polymers 60: 529-538.

Tang, H., Mitsunaga, T., and Kawamura, Y. 2005. Functionality of starch granules in milling fractions of normal wheat grain. Carbohydrate Polymers 59:11-17.

Vamos-Vigyazo, L. 1981. Polyphenoloxidase and peroxidase in fruits and vegetables. CRC Critical Review of Food Science and Nutrition 15: 49- 52.

Yuan, Y., Zhang, L., Dai, Y., and Yu, J. 2007. Physicochemical properties of starch obtained from Dioscorea nipponica Makino comparison with other tuber starches. Journal of Food Engineering. 82: 436-442.

Downloads

Published

2021-04-29

Issue

Section

Articles

How to Cite

Physico-Functional and Starch Pasting Properties of Cassava (Manihot Esculenta Cruntz) Flours as Influenced by Processing Technique and Varietal Variations . (2021). Asian Journal of Agriculture and Food Sciences, 9(2). https://doi.org/10.24203/ajafs.v9i2.6556

Similar Articles

41-50 of 230

You may also start an advanced similarity search for this article.