Efecto de la aplicación de diferentes dosis de Humus de Lombriz y Bayfolan (página 3)

Partes: 1, 2, 3

Concon, J. M. y Soltess, D. Rapid micro-Kjeldahl digestion of cereal grains and other biological materials. Analytical Biochemistry, 1973, vol. 53, p. 35-41.

Bravo, L.; Siddhuraju, P. y Saura, F. Effect of various processing methods on the in vitro starch digestibility and resistant starch content of Indian pulses. J. Agric.

Food Chem.,1998, vol. 46, p. 4667-4674.

Jacinto, C. /et al./. Caracterización de una población de líneas endogámicas de frijol común por su calidad de cocción algunos componentes nutrimentales. Agrociencia, 2002, vol. 36, p. 451-459.

Bj沣k, I. /et al./. Food properties affecting the digestion and absortion of carbohydrates. Am. J. Clin. Nutr. 1994, vol. 59, p. 699S-705S.

Skrabanja, V. /et al./. Influence of genotype and processing on the in vitro rate of starch hydrolysis and resistant starch formation in peas (Pisum sativum L.). J. Agric. Food Chem. 1999; vol. 47, p. 2033-2039.

Asp, N. G. Resistant starch. Proceedings from the second plenary meeting of EURESTA. European J. Clin. Nutr., 1992, vol. 46, (Suppl. 2).

Englyst, H.; Kingman, S. y Cummings, J. Classification and measurement of nutritionally important starch fractions. European J. Clin. Nutr., 1992, vol. 46, (Suppl. 2), p. S33-S50.

Tovar, J.; Bjorck, I. y Asp, N. Incomplete digestion of legume starches in rats: A study of precooked flours containing retrograded and physically inaccessible starch fractions. J. Nutr., 1992, vol. 122, p. 1500-1507.

Englyst, H. N. y Cummings, J. H. Digestion of polyssacharides of potato in the small intestine of man. Am. J. Clin. Nutr., 1987, vol. 45, p. 423-431.

Faisant, N. /et al./. Banana starch breakdown in the human small intestine studied by electron microscopy. European J. Clin. Nutr., 1995, vol. 49, p. 98-104.

Noah, L. /et al./. Digestion of carbohydrate from white beans (Phaseolus vulgaris L.) in healthy humans. J. Nutr., 1998, vol. 128, p. 977-985.

Holm, J. /et al./. A rapid method for the analysis of starch. Starch/ Starke, 1986, vol. 38, p. 224-229.

Rodríguez, C. y Fernández, X. Los frijoles (Phaseolus vulgaris): Su aporte a la dieta del costarricense. Acta Méd. Costarric, 2003, vol. 45, no. 3.

García, P. P. Apuntes sobre la fibra. [Consultado el 13 de septiembre del 2005]. Disponible en .

Ludwig, D. /et al./. Dietary fiber, weight gain, and cardiovascular disease risk factors in young adults. J. Am. Med. Assoc., 1999;, vol. 282, p. 1539-1546.

Chandalia, M. /et al./. Beneficial effects of dietary fiber intake in patients with type 2 diabetes mellitus. New Eng J Med, 2000; vol. 342, no. 19, p. 1440-1441.

Alfonso, C. Efecto del tratamiento térmico sobre el contenido de fibra dietética total, soluble e insoluble en algunas leguminosas. ALAN, 2000, vol. 50, no. 3.

Hipsley, E. Dietary fibre and pregnancy toaxemia. Brit Med J., 1953, vol. 2, p. 420-423.

Jenkis, J. /et al./. Dietary fibre, fibre analogues tolerance: importance of viscosity. Brit Med J., 1978, vol. 1, p. 1392-1394.

Carnvale, E. y Lintas, C. Dietary fibre: effect of processing and nutrient interactions. Eur J Clin Nutr., 1995, vol. 53, p. 307-311.

Bourdon, I. /et al./. Beans, as a source of dietary fiber, increase cholescistokinin and apolipoprotein B48. Response to test meal in men. J. Nutr., 2001, vol. 131, p. 1485-1490.

Serrano, J. y Goñi, I. Papel del frijol negro Phaseolus vulgaris en el estado nutricional de la población guatemalteca. ALAN, 2004, vol. 54, no 1.

AOAC. Official methods of analysis. 15th ed. Virginia:Assoc. Official Analysis Chemists (AOAC) 1995.

Bressani, R. Grain quality of common beans. Food Rev. Int., 1993, vol. 9, p. 237-97.

Genovese, M. y Lajolo, F. Inativaç㯠de inibidores de proteases de leguminosas – uma revis㯮 Bol. Soc. Bras. Ciꮣ. Tecnol. Alim., 2001, vol. 34.

Alfaro, Y. Elaboración de harina de pejibaye (Bactris gasipaes H. B.K.) para consumo animal. Tesis Licenciatura en Tecnología de Alimentos. San José Universidad de Costa Rica 1988, p. 128.

Frossard, E. /et al./. Potential for increasing the content and bioavailability of Fe, Zn, and Ca in plants for human nutrition. J. Sci. Food Agric., 2000, vol. 80, p. 861-879.

Genovese, M. y Lajolo, F. Atividade inibitória de tripsina em produtos derivados de soja (Glycine max) consumidos no Brasil. Ciꮣ. Tecnol. Alim., 1998, vol. 18, p. 309-12.

Fernández, R. /et al./. Trypsin inhibitors and hemagglutinins in beans (Phaseolus vulgaris) and their relationship with the content of tannins and associated polyphenols. J. Agric. Food Chem., 1982, vol. 30, p. 734-739.

Tiburcio, G.T. Alteraç㯠na composiç㯠centesimal nos polifenólicos e na digestibilidade in vitro da proteína em seis variedades de feij㯠alado (P. tetragonolobus) após armazenamento. 1992. p. 54. Dissertaç㯠(Mestrado em Ciꮣia dos Alimentos)- Universidade Federal de Minas Gerais. Faculdade de Farmárcia, Belo Horizonte.

Cardenas, H. /et al./. Evaluación de la calidad de la proteína de cuatro variedades mejoradas de frijol. Rev Cubana Aliment Nutr, 2000, vol. 14, no. 1, p. 22-27.

Laderoza, M. /.et al./ Polyphenol oxidase activity and alterations in colour and levels of condensed tannins during storage of new bean (Phaseolus) cultivars. Colet⮥a do Instituto de Tecnologia de Alimentos, Campinas, 1989, vol. 19, no. 2,

p. 154-164.

Hagerman, A. E. Chemistry of tannin-protein complexation. En: Chemistry and significance of condensed tannins. New York: Plenum Press, 1989, p. 323-334.

Haslam, E. Plant polyphenols. Vegetable tannins revisited. Cambridge:Cambridge University Press, 1989.

Geil, P. y Anderson, J. Nutritional and health implication of dry beans: a review. J. Am. Coll. Nutr., 1994, vol. 13, p. 549-558.

Carmona, A. Aislamiento, cuantificación, purificación y caracterización parcial de los taninos de caraotas negras (Phaseolus vulgaris) variedad cubagua (disertación). Universidad Central de Venezuela. Facultad de Ciencias. Escuela de Biología, 1981.

Birch, G.; Cameron, A. y Spencer, M. Ciencia de los Alimentos. Buenos Aires:Editorial hemisferio sur, 1982, p. 117-129.

Beebe, S.; González, A. y Rengifo, J. Research on trace minerals in common bean. International Food Policy Research Institute, 1999.

AACC (American Association of Cereal Chemistry). Approved methods of analysis, 6th ed. St. Paul:American Association of Cereal Chemists, 1976.

Krista, C.; Dessert, S. y Bliss, F. Genetic improvement of food quality factors. En: Common Beans: Research for Crop Improvement. CAB International in association with CIAT, U.K., 1994, p. 649-678.

Egley, G. Water-impermeable seed coverings as barriers to germination. En: Recent advances in the development and germination of seeds. New York:Plenum Press. 1989, p. 207-223.

Castellanos, J. y Guzmán, S. Effect of hard shell in cooking time of common beans in the semiarid highlands of Mexico. Ann Rep Bean Improv Coop., 1994, vol. 37, p. 103-105.

Kigel, J. Culinary and nutritional quality of Phaseolus vulgaris seeds as affected by environmental factors. Biotechnol. Agron. Soc. Environ, 1999, vol. 3, no. 4, p. 205-209.

Peña, C. /et al./. Seed quality of a wild population and an improved cultivar of common bean (Phaseolus vulgaris L.) after storage. Interciencia, 1999, vol. 24, p. 8-13.

Avila, H. /et al./. Characterization of biochemical and cooking factors of wild, domesticated and introgressed common bean (Phaseolus vulgaris L.) cultivars. Bean Improvement Cooperative, 1996, vol. 39, p. 184-185.

Mora, M. Efecto de la humedad y temperatura sobre el endurecimiento de frijol (Phaseolus vulgaris, L.) almacenado durante seis meses. Agronom. Costarr., 1980, vol. 4, no. 2, p. 195-197.

Sartory, M. R. Armazenamento. En: Cultura do feijoeiro comum no Brasil. Piracicaba: Potafos, 1996, p. 543-562.

Hughes, J.; Ganthavorn, C. y Wilson, S. Dry beans inhibit azoxymethane-induced colon carcinogenesis in F344 Rats 1, 2, 3. American Society for NutritionalSciences, 1997, p. 2328-2333.

Messina, M. Legumes and soybean: overview of their nutritional profiles and health effects. Am. J. Clin. Nutr., 1999, vol. 70 (supp l), p. 439-450.

Katyal, R. /et al./. Soybean trypsin inhibitor confers protection against rotavirus infection in infant maize. Trop. Gastroenter, 2001; vol. 22, p. 207-210

Yavelow, J. /et al./. Bowman Birk soybean protease inhibitor as anticarcinogen. Cancer Res. 1983, vol. 43, p. 2454-2459.

66. Meyskens, F. L. Development of Bowmand-Birk inhibitor for chemoprevention of oral head and neck cancer. Ann. New York Acad. Sci., 2001, vol. 952, p. 116-123.

Hagerman, A. /et al./. High molecular weight plant polyphenolics (tannins) as biological antioxidants. J Agric. Food Chem., 1998, vol. 46, p. 1887-1892.

Chung, K. /et al./. Tannins and human health: a review. Crit. Rev. Food Sci. Nutri., 1998, vol. 38, p. 421-464.

Cardador, A.; Castaño, E. y Loarca, G. Antimutagenic activity of natural phenolic compounds present in the common bean (Phaseolus vulgaris L.) against aflatoxin B1. Food Add. Contam., 2002, vol. 19, p. 62-69.

Pryme, I. /et al./. The growth of an established murine non-Hodgkin lymphoma tumour is limited by switching to a phytohemaglutinincontaining diet. Cancer Lett, 1999, vol. 146, p. 87-91.

Goldschmidt, D. /et al./. Contribution of quantitative lectin histochemistry to characterizing well-dedifferentiated and poorly differentiated liposarcomas. Anal. Quant. Cytol. Histol., 1997, vol. 19, p. 215-226. Recibido: 17 de noviembre de 2005 Aceptado: 16 de octubre de 2006.

Minagri (2000). Elementos Básicos para la construcción de Organopónicos y fomentos de huertos intensivos. Principales Características de las Variedades de Frijol. Instructivo Técnico de Organoponicos y Huertos Intensivos. Pag 9.

Nuez, F. /et al/. Catálogo de semillas de tomate. Ministerio de la Agricultura, Pesca y Alimentación. Madrid, España, p177; 1996.

Morales, F. J.: El mosaico dorado y otras enfermedades del frijol común causadas por geminivirus transmitidos por mosca blanca en América Latina, Centro Internacional de Agricultura Tropical (CIAT), Palmira, Colombia, 2000.

ONE (Oficina Nacional de Estadística): Cap. X 끧ropecuario묠http:// www.one.cu (revisado en junio del 2007).

Franke, W. 1986. The basis of foliar absorption of fertilizers with special regard to the mechanism. pp. 17-25. In: A. Alexander (ed.). Foliar fertilization. Proceedings of the First International Symposium of Foliar Fertilization by Schering Agrochemical Division. Berlin. 1985.

Eibner, R. 1986. Foliar fertilization, importance and prospects in crop production. pp. 3-13. In: A. Alexander (ed.). Foliar fertilization. Proceedings of the First International Symposium of Foliar Fertilization by Schering Agrochemical Division. Berlin. 1985.

Pérez, D.; J. E. Gandarilla; M. Vento; R. Curbelo; A. Guerra y R. Caballero: Alternativas para mantener la fertilidad de los sustratos en organopónicos. XI Seminario Científico. INCA. Resúmenes. 17- 20 Nov. 1998: 209.

Johnson, M.O. 1916. The spraying of yellow pineapple on manganeso soil with iron sulfate solutions. Hawaii Agr. Expt. Sta. Press Bull. 5 1.

Bear, F.E. 1965. Chemistry of soil. Second Edition. Reinhold Publishing Corporation. New York, N.Y. USA.

Bidweil, R.G.S. 1979. Plant physiology. MacMillan Publishing Co, Inc. New York, N.Y. USA.

Chonay P., J.J. 1981. Efecto de la fertilización foliar sobre la compensación de la fijación biológica de nitrógeno por Rhizobium phaseoli en frijol (Phaseolus vulgaris L.). Tesis de M. en C. CEDAF-CP. Chapingo, Méx

Malavolta, E. 1986. Foliar fertilization in Brazil.- Present and perspectivas. pp. 170-192. In: A. Alexander (ed.). Foliar fertilization. Proceedings of the First International

Fregoni, M. 1986. Some aspects of epigean nutrition of grapevines. pp. 205-21 1. In: A. Alexander (ed.). Foliar fertilization. Proceedings of the First International Symposium of Foliar Fertilization by Schering Agrochemical Division. Berlin. 1985.

Cardona B., D.J. 1988. Fertilización edáfica y foliar en Amaranto (Amaranthus hoypchondriacus L.) tipo mercado. Tesis de M. en C. CEDAF-CP. Montecillo, Méx.

Fierros: Pérdidas de NH3 en suelos abonados con purín de vacuno. Actas del I Congreso Nacional de la Ciencia del Suelo, Madrid, 1994: 137-149.

Anexos

Tabla 1. Características químicas del suelo Oscuro Plástico Gleisoso empleado en el experimento (Según Laboratorio Provincial de Suelos).

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Tabla 2. Características físicas del suelo empleado en la investigación (Según Laboratorio de Física de La Universidad de Granma).

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Tabla 3. Características microbiológicas del suelo empleado en la investigación (Según Laboratorio de Microbiología Agrícola de La Universidad de Granma).

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