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Journal of Culinary Science & Technology Volume 12, 2014 - Issue 2
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Original Articles

Pasting Characteristics, Baking and Sensory Qualities of Cakes from Blends of Cassava and Wheat Flours

H. Adegoke BakareDepartment of Foodservice and Tourism, Federal University of Agriculture, Abeokuta, NigeriaCorrespondence[email protected]
,
Oluwatooyin F. OsundahunsiDepartment of Food Science and Technology, Federal University of Technology, Akure, Nigeria
,
Mojisola O. AdegunwaDepartment of Foodservice and Tourism, Federal University of Agriculture, Abeokuta, Nigeria
&
Joseph O. OlusanyaDepartment of Home Economics and Hotel Management, Tai Solarin University of Education, Ijagun, Ijebu-Ode, Ogun State, Nigeria
Pages 109-127 | Received 27 May 2013, Accepted 28 May 2013, Published online: 14 Mar 2014

REFERENCES

  • Adeyemi, I. A., & Idowu, M. A. (1990). Evaluation of pregelatinised maize flour in the development of “maisa”—A baked product. Nigerian Food Journal, 18, 63–73.
  • Akobundu, E. N. T., Ubbaonu, C. N., & Ndupuh, C. E. (1988). Studies on the baking potential of non-wheat composite flours. Journal of Food Science & Technology, 25(4), 211–221.
  • American Association of Cereal Chemists (AACC). (2000). Approved Methods of Analysis. St. Paul, MN: Author.
  • American Association of Cereal Chemists. (2010). American Association of Cereal Chemists Approved Methods. 11th Ed. Method 56–81B Physical Dough Tests. St. Paul, MN: Author.
  • Anker, C. A., & Geddes, W. F. (1944). Gelatinisation studies upon wheat and other starches with the amylograph. Cereal Chemistry, 21, 335–360.
  • Appelqvist, I. A. M., & Debet, R. M. (1997). Starch–biopolymer interactions—A review. Food Reviews International, 13(2), 163–224.
  • Asante-Pok, A. (2013). Analysis of Incentives and Disincentives for Cassava in Nigeria. Technical notes series, Monitoring African Food and Agricultural Policies. Rome: FAO.
  • Atwell, W. A., Hood, L. F., Lineback, D. R., Variano-Marson, E., & Zobel, H. F. (1998). The terminology and methodology associated with basic starch phenomena. Cereal Foods World, 33(1), 306–311.
  • Bath, D. E., Shelke, K., & Hoseney, K. C. (1992). Fat replaces in high ratio layer cakes. Cereal Foods World, 37, 495–500.
  • Cauvain, S. P., Gough, B. M., & Whitehouse, M. E. (1977). The role of starch in baked goods. II: The influence of purification procedure on the surface properties of the granule. Starch, 29, 91–95.
  • Clements, R. L., & Donelson, J. R. (1982). Role of free flour lipids in batter expansion in layer cakes: Effects of aging. Cereal Chemistry, 59, 121–124.
  • Ciacco. C. F., & D’Appolonia, B. L. (1976) Characterization of starches from various tubers and their use in bread baking. Cereal Chemistry, 54(5), 1096–1107.
  • D’Appolonia, B. L. (1978). Use of untreated and roasted navy beans in bread baking. Cereal Chemistry, 55(6), 88–90.
  • Dendy, D. A. V., Clarke, P. A., & James, A. W. (1970). The use of blends of wheat and non-wheat flours in breadmaking. Tropical Science, 12, 131–142.
  • Dengate, H. N. (1984). Swelling, pasting and gelling of wheat starch. In Y. Pomeranz ( ed.), Advances in Cereal Science and Technology (Vol. 6, pp. 49–82). St. Paul, MN: American Association of Cereal Chemists.
  • Donelson, J. R., Gaine, C. S., & Finney, P. L. (2000). Baking formular innovation to eliminate chlorine treatment of cake flour. Cereal Chemistry, 77(1), 53–57.
  • Dubois, M., Giles, K. A., Hamilton, J. K., Rebers, P. A., & Smith, F. L. (1970). Colorimetric method for determination of sugars and related substances. Analytical Chemistry, 28, 350–356.
  • Duncan, D. B. (1955). Multiple range and multiple F -tests. Biometrics, 11, 1–5.
  • Eggleston, G. O., Omoaka, P., & Ihedioha, D. (1992). Production and evaluation of alternative breads from cassava flour. Journal of the Science of Food and Agriculture, 59, 377–385.
  • El-Dash, A. A., Tosello, A., & Roa, G. (1978). Pregelatinized cara (water yam) flour: Effect on dough and bread quality. Cereal Chemistry, 55(6), 799–808.
  • Eliason, A. C. (1983). Rheological properties of concentrated wheat starch gels. Journal of Cereal Science, 1, 199–205.
  • Entwistle, P. V., & Hunter, W. L. (1949). Report on crude fiber. Journal of the Association of Analytic Chemists, 32, 651–656.
  • Fagbemi, T. N., Oshodi, A. A., & Eleyinmi, A. F. (2002). The effects of graded levels of supplementation of cassava flour and bovine plasma protein concentration with wheat flour in bread making. Nigerian Journal of Nutrition Science, 23(1–2), 43–52.
  • Fellers, D. A., & Bean, M. M. (1988). Composite flours. Food Reviews International, 4(2), 213–235.
  • Food and Agriculture Organization (FAO). (2004). Consumption per capita. Food and Agriculture Organization (FAO) of the United Nations (UN) FAOSTAT database. Retrieved from (http://faostat.fao.org/site/291/default.aspx
  • Food and Agriculture Organization (FAO). (2006) Consumption per capita. Food and Agriculture Organization (FAO) of the United Nations (UN) FAOSTAT database. Retrieved from (http://faostat.fao.org/site/342/default.aspx
  • Gaines, C. S., & Donelson, J. R. (1982). Cake batter viscosity and expansion upon heating. Cereal Chemistry, 59, 237–240.
  • Gayle, P. E., Knight, E. M., Adkins, J S., & Harland, B. F. (1986). Nutritional and organoleptic evaluation of wheat breads supplemented with pigeon pea (Cajanus cajan) Flour. Cereal Chemistry, 63(92), 136–138.
  • Ghosh, S. P., Ramanujan, T., Jos, J. S., Moorthy, S. N., & Nair, R. G. (1998). Tuber crops. New Delhi: Oxford and IBH publisher.
  • Greene, J. L., & Bovell-Benjamin, A. C. (2004). Macroscopic and sensory evaluation of bread supplemented with sweet potato flour. Journal of Food Science, 69(4), 167–173.
  • Handlemann, A. R., Conn, J. R., & Lyons, J. W. (1961). Bubble mechanics in thick foams and their effects on cake quality. Cereal Chemistry, 38, 294–298.
  • Hoseney, R. C. (1984). Gas retention in bread doughs. Cereal Foods World, 29(5), 305–306.
  • Hugo, L. F., Rooney, L. W., & Taylor, J. R. N. (2000). Malted sorghum as a functional ingredient in composite bread. Cereal Chemistry, 77(4), 428–432.
  • Hutchinson, J. B. (1966). The paste viscosities of wheat starch and flour water mixture on cooling, I. An inter comparison of the Hagberg falling number, Brabender Amylogram and α-amylase activities of Australian and English flours. Journal of the Science of Food & Agriculture, 17, 198–201.
  • Idowu, M. A., Oni, A., & Amusa, B. M. (1996). Bread and biscuit making potentials of some Nigerian cocoyam cultivars. Nigerian Food Journal, 14, 1–12.
  • International Association for Cereal Science and Technology. (1996). Approved method No. 159 for Partens Inframatic Analyser. International Association for Cereal Science and Technology Standard (ICC) Standard methods. Retrieved from https://www.icc.or.at/standard_methods
  • Kavarana, J. (1979). Understanding cookery. London: Macmillan.
  • Kim, J. C. & DeReuiter, D. (1969). Bread from non wheat flours. In M. Milner (Ed.), Protein Enriched Cereal Foods for World Needs (pp. 234–347). Association of Cereal Chemist: St. Paul, MN.
  • Kim, H. J., Morita, N., Lee, S. H., & Moon, K. D. (2003). Scanning electron micro- scopic observations of dough and bread supplemented with Gastrodia elata Blume powder. Food Research International, 36, 387–389.
  • Kim, H. Y. L., Yeom, H. W., Lim, H. S., & Lim, S. T. (2001). Replacement of shortening in yellow layer cakes by corn dextrins. Cereal Chemistry, 78, 261–271.
  • Kissel, L. T., & Yamazaki, W. T. (1979). Cake baking dynamics: Relation of flour chlorination rate to batter expansion and layer volume. Cereal Chemistry, 56, 324–327.
  • Leach, H. W., McCowen, L. D., & Schoch, T. J. (1959). Structure of the starch granules. I. Swelling and solubility patterns of various starches. Cereal Chemistry, 36, 534–544.
  • Lee, S., Kim, S., & Inglett, G. E. (2006). Effect of shortening replacement with oatrim on the physical and rheological properties of cakes. Cereal Chemistry, 82(2), 120–124.
  • Lii, C. Y., Shao, Y. Y., & Tseng, K. H. (1995). Gelation mechanism and rheological properties of rice starch. Cereal Chemistry, 72, 393–400.
  • Lii, C. Y., Tsai, M. L., & Tseng, K. H. (1996). Effect of amylase content on the rheological property of rice starch. Cereal Chemistry, 73, 415–420.
  • Lindahl, L., & Eliason, A. C. (1986). Effects of wheat proteins on the viscoelastic properties of starch gels. Journal of the Science of Food and Agriculture, 37, 1125–1132.
  • Meera, K. (2010). Falling number in wheat–How is it calculated and what does it mean to producers. Wooster, OH: U.S. Department of Agriculture, Agricultural Research Service.
  • Michiyo, W., Tomoko, M., Kikuchi, T., Hiroshi, K., & Naofumi, M. (2004). Application of pregerminated brown rice for breadmaking. Cereal Chemistry, 81(4), 450–455.
  • Miller, D. M. & Wilding, M. D. (1973). U.S. Patent 3,723,407. Washington, DC: U.S. Patent Office.
  • Olatunji, O., & Akinrele, I. A. (1978). Comparative rheological properties and bread qualities of wheat flour diluted with tropical tuber and breadfruit flour. Cereal Chemistry, 55(1), 1–6.
  • Olkku, T., & Rha, C. (1978). Gelatinisation of starch and wheat flour starch—A review. Food Chemistry, 3, 293–317.
  • Onyango, C., Mutungi, C., Unbehend, G., Meinolf, G., & Lindhauer, M. G. (2010). Rheological and baking characteristics of batter and bread prepared from pregelatinised cassava starch and sorghum and modified using microbial transglutaminase. Journal of Food Engineering, 97(3), 465–470.
  • Oyewole, O. B., Sanni, L. O., & Ogunjobi, M. A. (1996) Production of biscuit using cassava. Nigerian Food Journal, 14, 25–29.
  • Ponte, J. G. Payne, J. D., & Ingelin, M. E. (1993). The shelf life of bakery foods. In G. Charalambous ( ed.), Shelf life studies of foods and beverage: Chemical, biological, and nutritional aspects (pp. 1143–1193). Philadelphia, PA: Elsevier Science Publishers.
  • Pringle, W., & Williams, A. (1969). Mechanically developed doughs from composite flour. Cereal Science Today, 14(3), 114–118.
  • Rasper, V., Rasper, J., & Mabey, G. L. (1974) Functional properties of non-wheat flour substitutes in composite flour. 1. The effect of non-wheat starches in composite dough. Canadian Institute Food Technology Journal, 7, 86–90.
  • Raw Material Research and Development Council. (2004) Report on Survey of Agro-raw Materials in Nigeria: Cassava. Abuja, Nigeria: Raw Materials Research and Development Council, Federal Ministry of Science and Technology.
  • Ring, S. G. (1985). Some studies on starch gelatin. Starch/Starke, 37, 80–83.
  • 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. Ibadan, Nigeria: International Institute of Tropical Agriculture (IITA). Retrieved from www.iita.org.
  • Schiller, G. W. (1984). Bakery flour specifications. Cereal Foods World, 29(10), 647–651.
  • Seguchi, M. (1990). Study or wheat starch granule surface protein from chlorinated wheat flours. Cereal Chemistry, 67, 258–260.
  • Seguchi, M. (1993). Chlorinated wheat starch hydrophobicity to pancake texture. Cereal Foods World, 38, 493–497.
  • Stone, H., & Sidel, J. L. (2004). Sensory Evaluation Practices. 3rd Ed. London: Academic Press.
  • Sunmu, G., Koksel, F., Sahin, S., Basman, A., & Meda, V. V. (2010). The effects of Xanthan and guar gums on staling of gluten rice cakes baked in different ovens. International Journal of Food Science and Technology, 45(1), 87–93.
  • Suyong, L., Sanghoon, K., & George, E. I. (2005). Effect of shortening replacement with oatrim on physical and reheological properties of cake. Cereal Chemistry, 82(2), 120–124.
  • Watson, C. A. (1984). Instrument for determining alpha-amylase activity. Cereal Foods World, 29(9), 507–509.
  • Whitaker, A. M., & Barringer, S. A. (2004). Measurement of contour and volume changes during cake baking. Cereal Chemistry, 81(2), 177–181.
  • Willhoft, E. M. A. (1973). Recent developments on the bread stalling problems. Baker’s Digest, 47(6), 180–183.

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