CIAT: Centro International de Agricultura Tropical (1990) Annual Report. Centro International de Agricultura Tropical, Cali, Columbia.

Dai, D., Hu, Z., Pu, G., Li, H. and Wang, C. (2006) Energy efficiency and potentials of cassava fuel ethanol in Guangxi region of China. Energy Conversion and Management, 47(13): 1686–1699.

Das, D. and Veziroglu, T.N. (2001) Hydrogen production by biological processes: A survey of literature. International Journal of Hydrogen Energy, 26(1), 13–28.

Davies, R.M., Olatunji M.O. and Burubai W. (2008) A survey of cassava processing machinery in Oyo State. World Journal of Agricultural Sciences, 4(3): 337–340.

Defloor, I. and Delcour, J.A. (1993) Impact of milling procedure on breadmaking potential of cassava flour in wheatless breads. Cereal Chemistry, 70: 616–617.

Defloor, I., Leijskens, R., Bokanga, M. and Delcour, J.A. (1995) Impact of genotype, crop age andplanting season on the breadmaking and gelatinization properties of flour produced fromcassava (Manihot esculenta Crantz). Journal of the Science of Food and Agriculture, 68: 167-174

Defloor, I., Dehing, I. and Delcour, J.A. (1998) Physico-chemical properties of cassava starch. Starch-Starke, 50(2–3): 58–64.

Demiate, I.M., Dupuy, N., Huvenne, J.P., Cereda, M.P. and Wosiacki, G. (2000) Relationship between baking behavior of modified cassava starches and starch chemical structure determined by FTIR spectroscopy. Carbohydrate Polymers, 42(2): 149–158.

Derkyi, N.S.A., Sekyere, D., Darkwa, N.A. and Yartey, J.G. (2008) Effect of cassava flour as urea-formaldehyde adhesive extender on the bonding strength of plywood. Ghana Journal of Forestry, 23 and 24: 25–34.

Doporto, M.C., Dini, C., Mugridge, A., Vina, S.Z. and Garcia, M.A. (2012) Physicochemical, thermal and sorption properties of nutritionally differentiated flours and starches. Journal of Food Engineering, 113: 569–576.

Eggleston, G., Omoaka, P.E. and Arowosegbe, A.U. (1993) Flour starch and composite breadmaking quality of various cassava clones. Journal of the Science of Food and Agriculture, 62: 49–59.

Ejiofor, A.O., Chisti, Y. and Moo-Young, M. (1996) Culture of Saccharomyces cerevisiae on hydrolyzed waste cassava starch for production of baking-quality yeast. Enzyme and Microbial Technology, 18(7): 519–525.

Ejoh, S.I., Obatolu, V.A., Olanipekun, O.T. and Farinde, E.O. (2013) Extending the use of an underutilised tuber I: Physicochemical and pasting properties of cocoyam (Xanthosoma sagittifolium) flour and its suitability for making biscuits. African Journal of Food Science, 7(9): 264–273.

Emengoa, F.N., Chukwua, S.E.R. and Mozie J. (2002) Tack and bonding strength of carbohydrate-based adhesives from different botanical sources. International Journal of Adhesion and Adhesives, 22: 93-100.

Essers, A.J. (1994) Making safe flour from bitter cassava by indigenous solid substrate fermentation. Acta Horticulturae, 375: 217–224.

Ezekwe, G.O. (1976) A feature for achieving a constant depth of peel in the mechanical peeling of cassava. Nigerian Journal of Engineering, 1(3): 174–181.

Falade, K.O. and Akingbala, J.O. (2010) Utilization of cassava for food. Food Reviews International, 27(1): 51–83.

FAO (2006) Starch Market adds value to cassava: spotlight/2006. www.fao.org/ag/ magazine/ Accessed 25 October 2014.

FAO (2014) Final 2012 Data, and Preliminary 2013 Data, for five major commodity aggregates.

Fitt, L.E. and Snyber, R.J. (1984) Photomicrographs of starch, in: Starch Chemistry and Technology (eds R.L. Whistler, J.N. BeMiller and E.F. Paschall), Academic Press, New York, pp. 675–689.

Gao, J., Luo, Z., Fu, X., Luo, F. and Peng, Z. (2012) Effect of enzymatic pretreatment on the synthesis and properties of phosphorylated amphoteric starch. Carbohydrate Polymers, 88(3): 917–925.

Ghofar, A., Ogawa, S. and Kokugan, T. (2005) Production of L-lactic acid from fresh cassava roots slurried with tofu liquid waste by Streptococcus bovis. Journal of Bioscience and Bioengineering, 100(6): 606–612.

Gunorubon, A.J. (2012) Production of cassava starch-based adhesive. Research Journal in Engineering and Applied Sciences, 1(4): 219–214.

Guyot, J.P. and Morlon-Guyot, J. (2001) Effect of different cultivation conditions on Lactobacillus manihotivorans OND 32T: An amylolytic lactobacillus isolated from sour starch cassava fermentation. International Journal of Food Microbiology, 67: 217–225.

Hebeish, A., El-Rafie, M.H., Higazy, A. and Ramadan, M.A. (1992) Poly(acrylichar acid)-Starch composites. A key for improving sizeability and desizeability of starch from cotton textiles. Starch-Starke, 44(3): 101–107.

Hossen, M.S., Sotome, I., Takenaka, M., Isobe, S., Nakajima, M. and Okadome, H. (2011) Effect of particle size of different crop starches and their flours on pasting properties. Japan Journal of Food Engineering, 12: 29–35.

Howard, R.C. and Jowsey, C.J. (1989) The effect of cationic starch on the tensile strength of paper. Journal of Pulp Paper Science, 15: 225–229.

Howeler, R.H. and Hershey, C.H. (2002) Cassava in Asia: Research and development to increase its potential use in food, feed and industry ― A Thai example, in: Research and Development of Cassava Production to increase its Potential for Processing, Animal Feed and Ethanol. Proceedings of a Seminar, organized by DOA in Bangkok, Thailand, January, pp. 1-56. http: //faostat.fao.org/site/567/desktopdefault.aspx#ancor

Hu, Z., Fang, F., Ben, D., Pu, G. and Wang, C. (2004) Net energy, CO₂ emission, and life-cycle cost assessment of cassava-based ethanol as an alternative automotive fuel in China. Applied Energy, 78(3): 247–256.

Igbeka, J.C. (1985) Mechanization of tuber (cassava) peeling. Proceedings of the International Symposiumon Mechanization of Harvesting and Subsequent Processing of Agricultural Products in Tropical Africa and the Manufacturing of Relevant Agricultural Implements, 11–15 February, Younde, Cameroun.

IITA (1990) Cassava in Tropical Africa. A Reference Manual, 15–16. IITA, Ibadan.

Jaleel, S.A., Srikanta, S., Ghildyal, N.P. and Lonsane, B.K. (1988) Simultaneous solid phase fermentation and saccharification of cassava fibrous residue for production of ethanol. Starch-Starke, 40(2): 55–58.

Jansson, C., Westerbergh, A., Zhang, J., Hu, X. and Sun, C. (2009) Cassava, a potential biofuel crop in (the) People’s Republic of China. Applied Energy, 86: S95-S99.

Jesse, T.W. Ezeji, C.T. Qureshi, N. and Blaschek, H.P. (2002) Production of butanol from starch-based waste packing peanuts and agricultural waste. Journal of Indian Microbiology and Biotechnology, 29: 117–123.

John, R.P., Nampoothiri, K.M. and Pandey, A. (2006) Simultaneous saccharification and fermentation of cassava bagasse for L-(+)-lactic acid production using Lactobacilli. Applied Biochemistry and Biotechnology, 134(3): 263–272.

Jones, D.M., Trim D.S., Bambridge Z.A. and French, L. (1994) Influence of selected process variables on the elimination of cyanide from cassava. Journal of the Science of Food and Agriculture, 66: 535–542.