2 resultados para Polyols

em Universidad Politécnica de Madrid


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In the present study (i) the impact of plant Boron (B) status on foliar B absorption and (ii) the effect of B complexation with polyols (sorbitol or mannitol) on B absorption and translocation was investigated. Soybean (Glycine max (L.) Meer.) plants grown in nutrient solution containing 0 μM, 10 μM, 30 μM or 100 μM 11B labelled boric acid (BA) were treated with 50 mM 10B labelled BA applied to the basal parts of two leaflets of one leaf, either pure or in combination with 500 mM sorbitol or mannitol. After one week, 10B concentrations in different plant parts were determined. In B deficient leaves (0 μM 11B), 10B absorption was significantly lower than in all other treatments (9.7% of the applied dose vs. 26%–32%). The application of BA in combination with polyols increased absorption by 18–25% as compared to pure BA. The absolute amount of applied 10B moving out of the application zone was lowest in plants with 0 μM 11B supply (1.1% of the applied dose) and highest in those grown in 100 μM 11B (2.8%). The presence of sorbitol significantly decreased the share of mobile 10B in relation to the amount absorbed. The results suggest that 11B deficiency reduces the permeability of the leaf surface for BA. The addition of polyols may increase 10B absorption, but did not improve 10B distribution within the plant, which was even hindered when applied a sorbitol complex.

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El aumento progresivo de la temperatura media anual y el déficit hídrico están provocando importantes cambios en la composición y la maduración de la uva, que repercuten directamente sobre el proceso fermentativo y, por ende, sobre la calidad del vino elaborado. En este trabajo se evalúan diferentes estrategias para la reducción del grado alcohólico, la mejora del color del vino y su estabilidad, y el incremento y la persistencia aromática. Mediante el empleo de levaduras con ineficiencia glicolítica se lograron reducciones medias en el grado alcohólico de entre 0.3 y 1.7 % v/v, mientras que con las fermentaciones secuenciales la máxima reducción lograda fue de 3.3 y 3.4 % v/v al combinar las cepas 938 (Schizosaccharomyces pombe) y 7013 (Torulaspora delbrueckii) con la 7VA (Saccharomyces cerevisiae). Al aplicar un tratamiento térmico sobre el inóculo, la TP2A(16) mostró una reducción media significativa en el grado alcohólico de 1 % v/v. El principal inconveniente en todas las técnicas empleadas para reducir el grado alcohólico fue la falta de repetibilidad en los resultados obtenidos. Por otra parte, la aplicación de altas presiones sobre uva despalillada resultó efectiva como tratamiento de pasteurización y como potenciador de la extracción de polifenoles, logrando un incremento en el contenido medio de antocianos totales del 12.4-18.5 %. La adición de flavonoides al mosto estimuló la formación de pigmentos estables como resultado de su condensación con antocianos mediada por acetaldehído. Con el empleo de Torulaspora delbrueckii en fermentación secuencial fue posible incrementar la producción de diacetilo y acetato de 2-feniletilo, además de la síntesis de un nuevo compuesto, el 3-etoxi-1-propanol. Sin embargo, su aportación sobre el color fue nula, así que debería combinarse con una cepa de Saccharomyces cerevisiae con buena formación de pigmentos piranoantociánicos. El empleo de Schizosaccharomyces pombe (938, V1) y Torulaspora delbrueckii (1880) en fermentaciones secuenciales y mixtas con Saccharomyces cerevisiae permitió mejorar el perfil sensorial del vino tinto mediante la mayor síntesis de polioles y la potenciación de aromas frutales, florales y herbáceos, e incrementar la estabilidad de la materia colorante al favorecer la formación de vitisinas y piranoantocianos vinilfenólicos. La crianza sobre lías en barrica a partir de levaduras seleccionadas, puede mejorar la complejidad y persistencia aromática del vino tinto, aunque sin grandes cambios en el color. ABSTRACT The progressive increase in annual average temperature, along with water deficit, is causing significant changes in grape composition and in its maturation, which directly affects the fermentative process and hence alters wine quality. In this work, different strategies for reducing the alcoholic strength, improve wine color and its stability, and increase aromatic complexity and its persistence, are evaluated. By using yeasts with glycolytic inefficiency, it was possible to achieve mean reductions between 0.3 and 1.7 % v/v in the alcoholic strength, while sequential fermentations allowed a maximum reduction of 3.3 and 3.4 % v/v by combining strains 938 (Schizosaccharomyces pombe) and 7013 (Torulaspora delbrueckii) with 7VA (Saccharomyces cerevisiae). When applying a heat shock treatment on the inoculum, only TP2A(16) strain showed a significant mean reduction of 1 % v/v in the alcohol content, compared with the control. The main drawback in all the techniques used to reduce the alcohol content was the lack of repeatability in the results. Moreover, the application of high pressures on destemmed grapes was effective as pasteurization treatment and also as enhancer of polyphenol extraction, achieving an increase of 12.4-18.5% in the average content of total anthocyanins. As expected, addition of flavonoids to the must, stimulated the formation of stable pigments, mainly as a result of condensation reactions between anthocyanins and flavanols mediated by acetaldehyde. With the use of Torulaspora delbrueckii strains in sequential fermentation with Saccharomyces cerevisiae, it was possible to increase the production of diacetyl and 2-phenylethyl acetate, besides the synthesis of a new compound: 3-ethoxy-1-propanol. The use of Schizosaccharomyces pombe (938, V1) and Torulaspora delbrueckii (1880) strains in sequential and mixed fermentations with Saccharomyces cerevisiae improved the sensory profile of red wine by increasing polyols synthesis and enhancing fruity, floral and herbaceous aromas, and it also increased the stability of the coloring matter by favouring vitisins and vinylphenolic pyranoanthocyanins formation. Ageing on lees in barrels from selected yeasts can improve the complexity and aromatic persistence of red wine, without major changes in the color.