Aptitude of whole flour from different triticale (x Triticosecale Wittmack) genotypes for elaboration of cookies

  • Mirta Castaño Facultad de Agronomía, Universidad Nacional de La Pampa
  • Enzo Ferrari Facultad de Agronomía, Universidad Nacional de La Pampa
  • Pablo Ribotta Facultad de Ciencias Agropecuarias, Universidad Nacional de Córdoba
  • Víctor Ferreira Facultad de Agronomía y Veterinaria, Universidad Nacional de Río Cuarto
  • Ezequiel Grassi Facultad de Agronomía y Veterinaria, Universidad Nacional de Río Cuarto
  • Analía Ferreira Facultad de Agronomía y Veterinaria, Universidad Nacional de Río Cuarto
  • Hernán Di Santo Facultad de Agronomía y Veterinaria, Universidad Nacional de Río Cuarto
  • Ernesto Castillo Facultad de Agronomía y Veterinaria, Universidad Nacional de Río Cuarto
  • Héctor Antonio Paccapelo Facultad de Agronomía, Universidad Nacional de La Pampa

Keywords:

Particle size index, solvent retention capacity, technological quality, correlation analysis

Abstract

Twenty two triticale genotypes were analyzed for grain yield, cookie-making aptitude andsome physical and physico-chemical factors affecting whole flour quality. Values of particle size index (PSI), alkaline water retention capacity (AWRC) and solvent retention capacity (SRC) for water and solutions of sodium carbonate, lactic acid and sucrose were higher than those ones published for white flours. The analyzed factors were not associated with cookie-making properties and the first two principal components could not explain the total variability of the assay. Although Cananea was the most suitable triticale cultivar in terms of cookie-making quality and grain productivity, two experimental lines were found amongothers with promising characteristics for such a kind of use.

Downloads

Download data is not yet available.

References

Aguirre A., O. Badiali, M. Cantarero, A. León, P. Ribotta & O. Rubiolo. 2002. Relationship of test weight and kernel properties to milling and baking quality in Argentine triticales. Cereal Res. Commun. 30: 203-208.

Amaya, A. & R. Peña. 1990. Triticale industrial quality improvement at CIMMYT. Past, present and future. Page 412 in: Proc. 2nd Int. Triticale Symp. Berthier Grafica. Passo Fundo, Brasil.

American Association of Cereal Chemist (AACC). 2000. Approved Methods of the AACC. 10th Edition, AACC.: St. Paul. Minessota.

Barrera, G.N., E. Bassi, R. J. Reyes Martínez, A.E. León & P.D. Ribotta. 2012. Efectos de diferentes fracciones de harinas de trigo pan obtenidas con molino industrial sobre la calidad de galletitas dulces. Agriscientia 29(2): 69-79.

Chen, C.Y. & W. Bushuk. 1970. Nature of proteins in triticale and its parental species. I. Solubity characteristics and amino acid composition of endosperm protein. Can. J. Plant. Sci. 50: 9-14.

Colombo A., G.T. Pérez, P. D. Ribotta & A. E. León. 2008. A comparative study of physicochemical tests for quality prediction of Argentine wheat flours used as corrector flours and for cookie production. J. Cereal Sci. 48: 775-780.

de la Horra A.E., M.L. Seghezzo, E. Molfese, P.D. Ribotta y A.E. León. Indicadores de calidad de las harinas de trigo: índice de calidad industrial y su relación con ensayos predictivos. Agiscientia 29(2): 81-89

Dewettinck K., F. Van Bockstaele, B.Kuhne, D. Van de Walle, T.M. Courtens & X. Gellynck, 2008. Nutritional value of bread: Influence of processing, food interaction and consumer perception. J.Cereal Sci. 48: 243-257.

Dick J. & J. Quick. 1983. A modified screening test for rapid estimation of gluten strength in early-generation durum wheat breeding lines. Cereal Chem. 60: 315- 318.

Duyvejonk A.E., B. Lagrain, E. Dornez, J.A. Delcour & C.M.Courtin. 2012. Suitability of solvent retention capacity test to assess the cookie and bread making quality of European wheat flours. LWT-Food Sci. Technol. 47: 56-63.

Fairidi H., C. Gaines & P. Finney. 1994. Soft wheat quality in the production of cookies and crackers. In: Wheat: Production, Properties and Quality ( W. Bushuk and V. Rasper, eds. Chapman & H. Glasgow) Scotland. pp. 154 168.

Fernández M. A. 2008. La estabilidad del rendimiento de trigo candeal (Triticum durum desf.) en la región de planicies con tosca de la provincia de La Pampa. Rev. Fac. Agronomía, UNLPam. 19: 41-62.

Finney K.F., V.H. Morris & W.T. Yamazaki. 1950. Micro versus macro cookie baking procedures for evaluating the cookie quality of wheat varieties. Cereal Chem. 27:42-49.

Gaines C. 1990. Influence of chemical and physical modification of soft wheat protein on sugar-snap cookie dough consistency, cookie size, and hardness. Cereal Chem. 67:73.

Gaines, C. 2000. Report of the AACC committee on soft flour. Method 56-11, Solvent Retention Capacity Profile. Cereal Foods World 45: 303-306.

García Lamothe A. 2004. Manejo de la fertilización con nitrógeno en trigo y su interacción con otras prácticas agronómicas. Serie técnica N°144. Editado por la Unidad de Agronegocios y Difusión, INIA, Uruguay.

García Lamothe A. 2006. El efecto de la nutrición mineral sobre el rendimiento y la calidad del grano de trigo. Serie de Actividades de Difusión INIA 444: 8-22.

Gomez M., L. Manchón, B. Oliete, E. Ruíz & P. A. Caballero. 2010. Adequacy of wholegrain non-wheat flours for layer cake elaboration. LWT- Food Sci. Technol. 43: 507-513.

Gómez M., F. Ronda, C.A. Blanco, P.A. Caballero & A. Apesteguia. 2003. Effect of dietary fiber on dough rheology and bread quality. European Food Res. Technol. 216: 51-56.

Guttieri M.J., J.C. Stara, K. O’Brien & E. Souza. 2001. Relative sensitivity of spring wheat grain yield and quality parameters to moisture deficit. Crop Sci. 41: 327-335.

Guttieri M.J., R. Mc Lean, S. P. Lanning, L. E. Talbet & E.J.Souza. 2002. Assessing environmental influences on solvent retention capacities of two soft white spring wheat cultivars. Cereal Chem. 79: 880-884.

Guttieri M.J. & E. Souza. 2003. Sources of variation in the solvent retention capacity test of wheat flour. Crop Sci. 43: 1628-1633.

Guttieri M.J., E.J. Souza, & C. Sneller. 2008. Nonstarch polysaccharides in wheat flour wire- cut cookie baking. J. Agric. Food Chem. 56: 10927-10932.

Hoseney R.C. 1994. Principles of Cereal Science and Technology, 2nd ed., American Association of Cereal Chemists, Inc., St. Paul, MN, USA.

Hlynka I. & W. Bushuk. 1959. The weight per bushel. Cereal Sci. Today 4:239-240.

InfoStat. 2002. Infostat version 1.1. Grupo InfoStat, FCA. Universidad Nacional de Córdoba, Argentina.

Kweon M., L. Slade, H. Levine, R. Martin, L. Andrews & E. Souza. 2009 b. Effects of extent of chlorination, extraction rate, and particle size reduction on flour and gluten functionality explored by solvent retention capacity (SRC) and mixograph. Cereal Chem. 86: 221-224.

Kweon M., L. Slade & H. Levine. 2011. Solvent Retention Capacity (SRC) Testing of Wheat Flour Principles and Value in Predicting Flour Functionality in Different Wheat-Based Food Processes, as well as in Wheat Breeding- a Review. Cereal Chem. 88: 537-552.

Lelley T. 1992. Triticale, still a promise. Plant breeding. 109: 1-17.

León A., A. Aguirre, A. Sabattini & O. Badiali. 1990. Evaluación de calidad de líneas de triticale adaptadas a zona semiárida. Resúmenes de las III Jornadas de Investigación de la FCA-UNC. p. 36.

León A.E. 1995. Estudio de las propiedades de harinas de triticale: influencia de las proteínas y el almidón sobre la calidad para elaborar galletitas. Tesis Doctoral. Centro de Investigación y Desarrollo en Criotecnología de Alimentos. 145 p.

León A.E., O.J. Rubiolo & M.C. Añon. 1996. Use of triticale in cookies: quality factors. Cereal Chem. 73(6): 779- 784.

León A.E. & C.M. Rosell. 2007. De tales harinas, tales panes. Granos, harinas y productos de panificación en Iberoamérica. In: Capítulo 4: Centeno y Triticale Ed. Hugo Báez. pp. 161-193.

León A.E., G. T. Pérez & P. D. Ribotta. 2008. Triticale flours: composition, properties and utilization. Food 2(1): 17 -24.

Liu R.H. 2004. Potential Synergy of Phytochemicals in Cancer Prevention: Mechanism of Action. J. Nutr. 134, 3479–3485.

López Bellido L. 1991. Cereales. Ed. Mundi Prensa. Madrid. España. 539 p.

Masajo M.T., G.B.Cagampang & B.D. Ono. 1980. Agronomic and grain characteristics of sixteen selected triticales varieties and lines at the university of Philippines at Los Baños. The Philippine J. Crop Sci. 23:26.

Moiraghi M., P.D. Ribotta, A. Aguirre, G.T. Pérez & A.E. León. 2005. Análisis de la aptitude de trigos pan para la elaboración de galletitas y bizcochuelos. Agriscientia 22: 47-54.

Oliete B., G.T.Pérez, M. Gómez, P.D. Ribotta, M. Moiraghi & A.E. León. 2010. Use of wheat, triticale and rye flours in layer cake production. Food Sci. Technol. 45: 697-796.

Pantanelli A. 2000. Galletitas. Cadena alimentaria. Alimentos Argentinos. 14: 33-38.

Pantanelli A. 2002. Galletitas. Cadena alimentaria. Alimentos Argentinos. 19:47-55.

Peña Bautista R.J., P. Pérez Herrera, E. Villaseñor Mir, M.M. Gómez Valdez, M.A. Mendoza Lozano & R. Monterde Gabilondo. 2007. Calidad de la cosecha de trigo en México: Ciclo otoño-invierno 2005-2006.Publicación especial del CONASIST. México. DF. 24 p.

Ram S., V. Dawar, R.P. Singh & J. Shoran. 2005. Application of SRC tests for the prediction of mixing properties of wheat flour. J. Cereal Sci. 42: 261-266.

Ramacciotti J., M. Rampo, J. Sartori & R.H. Maich. 2010. Triticale para grano, opción de bajo costo en ambientes con poca agua. www.redacción la voz del campo. 02.07.2010.

Ramírez A., G.T. Pérez, P.D. Ribotta & A.E. León. 2003. The occurrence of friabilins in triticale and their relationship with grain hardness and baking quality. J. Agric. Food Chem. 51: 7161-7181.

Roccia P., M. Moiraghi, P.D. Ribotta, G.T. Pérez, O.J. Rubiolo & A.E. León. 2006. Use of solvent retention capacity profile to predict the quality of triticales flours. Cereal Chem. 83: 243-249.

Rubiolo O.J., M. Moiraghi, P. Roccia Ruffinengo, G.T. Pérez & A.E. León. 2004. Evaluación de la calidad industrial de líneas avanzadas de triticale. VI Congreso Nacional de Trigo. Universidad Nacional del Sur. Actas CD.

Simmonds D. 1978. Structure, composition and biochemistry of cereal grain. In: Cereals`78: Better nutrition for the world´s millon. Ed. Y. Pomeranz. AACC. St Paul, MN, USA. pp. 105-137.

Slade L. & H. Levin. 1994. Structure-function relationships of cookie and cracker ingredients. Pages 23-241 in:The Science of Cookies and Crackers Productions. H. Faridi, ed. Chapman and May: New York.

Torri C.L., P.D. Ribotta, M.H. Morcillo, O.J. Rubiolo, G.T. Pérez & A. E. León. 2003. Determinación del contenido de almidón dañado en harinas de triticale. Su influencia sobre la calidad galletitera. Agriscientia 20: 3-8.

Ullah M., M. A. Bajwa & F.M. Anjum. 1986. Physicochemical, milling and baking quality characteristics of same promising triticales lines. J. Agric. Res. Pakistan 24: 133-138.

Vázquez, D. 2009. Aptitud industrial de trigo. Serie Nº 177. INIA. 54 p.

Villegas E., C. Mc Donald & K. Gilles. 1970. Variability in the lysine content of wheat, rye and triticale proteins. Cereal Chem. 47: 746-757.

Xiao Z.S., S. H. Park, O .K. Chung, M.S. Caley & P.A. Seib. 2006. Solvent retention capacity values in relation to hard winter wheat and flour properties and straight-dough breadmaking quality. Cereal Chem. 83(5): 465-471.

Williams P.C. 1986. The influence of chromosome number and species on wheat hardness. Cereal Chem. 63: 56-57.

Yamazaki W.T. & D. Lord. 1971. Soft wheat products. En: Wheat, chemistry and technology. Ed. Y. Pomeranz. AACC. St. Paul. MN 2da Ed. pp. 743-776.

Yamazaki W.T. 1972. A modified particle size index test for kernel texture in soft wheat. Crop Sci. 12:116.

Yamasaki W. T. & D. H. Donelson. 1972. Relationship between flour particle and cake volume potential among eastern soft wheat. Cereal chem. 49: 649-653.

Zeleny L. 1971. Criteria of wheat quality. In Wheat Chemistry and Technology (ed. Y. Pomeranz) pp. 19-49, American Association of Cereal Chemists, St. Paul, Minnesota.

Published

2018-06-05

How to Cite

Castaño, M., Ferrari, E., Ribotta, P., Ferreira, V., Grassi, E., Ferreira, A., … Paccapelo, H. A. (2018). Aptitude of whole flour from different triticale (x Triticosecale Wittmack) genotypes for elaboration of cookies. Semiárida, 25(1). Retrieved from https://ojs.unlpam.edu.ar/ojs/index.php/semiarida/article/view/2703

Issue

Section

Artículos Científicos y Técnicos