Quality of cassava flour as affected by age at harvest, cropping system and variety

Abioye V. F., Adeyemi I. A., Akinwande B. A., Kulakow P., Maziya–Dixon B. (2017): Effect of steam cooking and storage time on the formation of resistant starch and functional properties of cassava starch. Cogent Food & Agriculture 3, 1296401. doi: 10.1080/23311932.2017.1296401.10.1080/23311932.2017.1296401Search in Google Scholar

Adebowale A. A., Sanni L. O., Awonorin S. O. (2005): Effect of texture modifiers on the physicochemical and sensory properties of dried fufu. Food Science and Technology International 1: 373–382. doi:10.1177/1082013205058531.10.1177/1082013205058531Search in Google Scholar

Akingbala J. O., Falade K. O., Ogunjobi M. A. (2009): The effect of root maturity, preprocess holding and flour storage on the quality of cassava biscuit. Food Bioprocess Technology 4: 451–457. doi:10.1007/s11947-009-0185–z.10.1007/s11947-009-0185-zSearch in Google Scholar

AOAC (2005): Official Methods of Analysis of the AOAC. 18^th Ed. Association of Official Analytical Chemists, Gaithersburg.Search in Google Scholar

Apea-Bah F. B., Oduro I., Ellis W. O., Safo-Kantanka O. (2011): Factor analysis and age at harvest effect on the quality of flour from four cassava varieties. World Journal of Dairy and Food Science 6: 43–54.Search in Google Scholar

Akpapunam M. A., Markakis P. (1981): Physicochemical and nutritional aspects of cowpea flour. Journal of Food Science 46: 972–973.10.1111/j.1365-2621.1981.tb15402.xSearch in Google Scholar

Awoyale W., Sanni L. O., Shittu T. A., Adegunwa M. O. (2015): Effect of varieties on the functional and pasting properties of biofortified cassava root starches. Journal of Food Measurement and Characterization 9: 225–232. doi:10.1007/s11694-015-9227-6.10.1007/s11694-015-9227-6Search in Google Scholar

Bainbridge Z., Tomlins K., Wellings K., Westby, A. (1996): Methods for Assessing Quality Characteristics of Non-Grain Starch Samples, Part 2, Field Methods. Natural Resources Institute, London.Search in Google Scholar

Bechoff A. (2017): Use and nutritional value of cassava roots and leaves as a traditional food. In C. H. Hershey (Ed.): Achieving Sustainable Cultivation of Cassava, Volume 1, Cultivation Techniques, Burleigh Dodds Science Publishing Ltd., Philadelphia, pp. 3–56.10.19103/AS.2016.0014.01Search in Google Scholar

Bokanga M. (1995): Cassava: opportunities for the food, feed and other industries in Africa. [online]. Retrieved from http://horison.documtation.ird.fr/exldoc/pleins_textes/pleins_textes_6/colloues1/43547.pdf>Search in Google Scholar

Burns A., Gleadow R., Cliff J., Zacarias A., Cavagnaro T. (2010): Cassava: the drought, war and famine crop in a changing world. Sustainability 2: 3572–3607.10.3390/su2113572Search in Google Scholar

Cameroon D. K., Wang Y. J., Moldenhauer K. A. (2008): Comparison of physical and chemical properties of medium-grain rice cultivars grown in California and Arkansas. Journal of Food Science 73: C72–C78.10.1111/j.1750-3841.2007.00631.x18298719Search in Google Scholar

Codex (1989): Standard for edible cassava flour. Codex Alimentarius Commision, USA.Search in Google Scholar

Dziedzoave N. T., Abass A. B., Amoa-Awua W. K. A., Sablah M. (2006): Quality management manual for production of high quality cassava flour. (Adegoke, G. O. and Brimer, L., Eds), International Institute of Tropical Agriculture, Ibadan, 68 p.Search in Google Scholar

Eleazu C. O., Eleazu K. C. (2012): Determination of the proximate composition, total carotenoid, reducing sugars and residual cyanide levels of flours of 6 new yellow and white cassava (Manihot esculenta Crantz) varieties. American Journal of Food Technology 7: 642–649. doi: 10.3923/ajft.2012.642.649.10.3923/ajft.2012.642.649Search in Google Scholar

Eleazu O. C., Eleazu K. C., Kolawole S. (2014): Use of indigenous technology for the production of high-quality cassava flour with similar food qualities as wheat flour. Acta Scientiarum Polonorum/Technologia Alimentaria 13: 249–256.10.17306/J.AFS.2014.3.324887940Search in Google Scholar

Emiola L., Delarosa L. C. (1981): Physicochemical characteristics of yam starches. Journal of Food Biochemistry 5: 115–130.10.1111/j.1745-4514.1981.tb00665.xSearch in Google Scholar

Eriksson, E.(2013):Flour from three local varieties of cassava (Manihot esculenta Crantz): Physico-chemical properties, bread making quality and sensory evaluation. M.Sc. thesis. Sweden: Swedish University of Agricultural Sciences, Faculty of Natural Resources and Agricultural Sciences, Department of Food Science. Retrieved from https://stud.epsilon.slu.se〉 eriksson_e130211.Search in Google Scholar

FAO (2006): Cassava Assessing Handbook for Improved Integration of Cassava in the FAO/WFP Joint Crop and Food Supply Assessment Mission. FAO, Rome.Search in Google Scholar

Induck C., Ok-kyu H., Jiyeon C., Chon-Sik K., Kyung-Hoon K., Yang-Kil K., Young-Keun C., Tae-il P., Jae-Sung C., Kee-Jong K. (2012): Hydration and pasting properties of oat (Avena sativa) flour. Preventive Nutrition and Food Science 17: 87–91.10.3746/pnf.2012.17.1.087386676824471068Search in Google Scholar

Institute of Medicine (2001): Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. The National Academies Press, Washington, D.C. Retrieved from www.ncbi.nlm.nih.gov/books/NBK222310/ doi: 10.17226/10026.10.17226/1002625057538Search in Google Scholar

Institute of Medicine (2005): Dietary reference intakes for water, potassium, sodium, chloride and sulphate. The National Academies Press, Washington, D.C.Search in Google Scholar

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, 1142409. doi: 10.1080/23311932.2016.1142409.10.1080/23311932.2016.1142409Search in Google Scholar

Kulkarni K. D., Kulkarni D. N., Ingle U. M. (1991): Sorghum malted and soya bean weaning food formulations: preparation, functional properties and nutritive value. Food and Nutrition Bulletin 13: 322 – 327.10.1177/156482659101300401Search in Google Scholar

Kuyper T. W. (2017): Intercropping and crop rotation in cassava cultivation: a production systems approach. In C. H. Hershey (Ed.): Achieving sustainable cultivation of cassava, Volume 1, Cultivation Techniques, Burleigh Dodds Science Publishing Ltd, Philadelphia, pp. 355–374.10.19103/AS.2016.0014.26Search in Google Scholar

Leach H. W., McCowen D. L., Schoch T. J. (1959): Swelling and solubility patterns of various starches. Cereal Chemistry Journal 36: 534–544.Search in Google Scholar

Maziya-Dixon B., Adebowale A. A., Onabanjo O. O., 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 7: 635–641.Search in Google Scholar

NHMRC (2006): Nutrient Reference Values for Australia and New Zealand. National Health and Medical Research Council, Australia.Search in Google Scholar

Numfor F. A., Walter W. M., Schwartz S. J. (1996): Effect of emulsifiers on the physical properties of native and fermented cassava starches. Journal of Agricultural and Food Chemistry 44: 2595–2599.10.1021/jf950610wSearch in Google Scholar

Nweke F. I., Spencer D. S. C., Lynam J. K. (2002): The cassava transformation Africa’s best kept secret. Michigan State University Press, USA.Search in Google Scholar

Ohizua E. R., Adeola A. A., Idowu M. A., Sobukola O. P., Afolabi T. A., Ishola R., Ayansina S. O., Falomo A., Oyekale T. O. (2017): Nutrient composition, functional and pasting properties of unripe cooking banana, pigeon pea and sweet potato flour blends. Food Science and Nutrition 5: 750–762.10.1002/fsn3.455544836628572965Search in Google Scholar

Olatunde G. O., Arogundade L. K., Orija O. I. (2017): Chemical, functional and pasting properties of banana and plantain starches modified by pre-gelatinization, oxidation and acetylation [online]. Cogent Food & Agriculture 3, 1283079. doi: 10.1080/23311932.2017.1283079.10.1080/23311932.2017.1283079Search in Google Scholar

Pereira E. J., Carvalho L. M. J., Dellamora-Ortiz G. M., Cardoso F. S. N., Carvalho J. L. V., Viana D. S. C., Freita S. C. M., Rocha M. M. (2014): Effects of cooking methods on the iron and zinc contents in cowpea (Vigna unguiculata) to combat nutritional deficiencies in Brazil. Food & Nutrition Research 58: 1–7. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3926463/pdf/FNR-58-20694.pdf10.3402/fnr.v58.20694392646324624050Search in Google Scholar

Rosenthal F. R. T., Nakamura T., Espindola A. M. C., Jochimek M. R. (1974): Structure of starch granules. Die Stärke 26: 50–55.10.1002/star.19740260205Search in Google Scholar

Safo-Kantanka O., Owusu-Nipah J. (1992): Cassava varietal screening for cooking quality: Relationship between dry matter, starch content, mealiness and certain microscopic observations of the raw and cooked dough. Journal of the Science of Food and Agriculture 60: 99–104.10.1002/jsfa.2740600116Search in Google Scholar

Sanni L. O., Adebowale A. A., Awoyale W., Fetuga G. O. (2008): Quality of ‘gari’ (roasted cassava mash) in Lagos state, Nigeria. Nigerian Food Journal 26: 125 – 134.Search in Google Scholar

Sanni L. O., Kosoko S. B., Adebowale A. A., 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 – 237.10.1081/JFP-120026059Search in Google Scholar

Sanni L., Maziya-Dixon B., Akanya J., Okoro C. I., Alaya Y., Egwuonwu C. V., Okechukwu R., Ezedinma C., Akoroda M., Lemchi J., Okoro E., Dixon A. (2005): Standards for Cassava Products and Guidelines for Export. International Institute of Tropical Agriculture, Ibadan.Search in Google Scholar

Sanni L. O, Onadipe O. O., Ilona P., Mussagy M. D., Abass A., Dixon A. G. O. (2009): Successes and Challenges of Cassava Enterprises in West Africa: A Case Study of Nigeria, Bénin, and Sierra Leone. International Institute of Tropical Agriculture, Ibadan.Search in Google Scholar

Saravanan R., Ravi V., Stephen R., Thajudhin S., George J. (2016): Post-harvest physiological deterioration of cassava (Manihot esculenta) – A review. Indian Journal of Agricultural Sciences 86: 1383–1390.Search in Google Scholar

Shittu T. A., Sanni L. O., Awonorin S. O., Maziya-Dixon B., Dixon A. (2007): Use of multivariate techniques in studying the flour making properties of some CMD resistant cassava clones. Food Chemistry 101: 1606 – 1615.10.1016/j.foodchem.2006.04.017Search in Google Scholar

Wang S., Li C., Copeland L., Niu Q., Wang S. (2015): Starch retrogradation: A comprehensive review. Comprehensive Reviews in Food Science and Food Safety 14: 568 – 585.10.1111/1541-4337.12143Search in Google Scholar

Wiesler F., Gerendas J., Sattelmacher B. (2009): Influence of mineral fertilizers on nutritional quality of staple food crops. In I. Cakmak, R. M. Welch (Eds): Impacts of Agriculture on Human Health and Nutrition, Encyclopedia of Life Support Systems, United Kingdom, pp. 1–9. Retrieved from http://www.eolss.net/sample-chapters/c10/E5-21-03.pdf.Search in Google Scholar