Influence of Cold Maceration Time on Chromatic and Microbiological Characteristics of Cabernet Sauvignon Wines

The pre-fermentative cold soak (CS) is proposed so as to extract and stabilise polyphenolic compounds in wines. CS is applied empirically to Cabernet Sauvignon in Cuyo, Argentina; however, there is poor scientific background on this technique. The aim was analyse the effect of cold soak time on colour parameters such as total polyphenols, total anthocyanins, tannins, colour and polymerisation indexes.  Moreover, Saccharomyces and non-Saccharomyces populations were studied to evaluate their impact oncolour. Cabernet Sauvignon must (Pedernal, San Juan) was distributed into four vessels: CONTROL (CT): simultaneous maceration and alcoholic fermentation (AF) with commercial yeast D254; T1: CS for two days; T2: CS for five days; and T3: CS for seven days. T1, T2 and T3 were maintained at 4 ± 1°C during CS.  They were later inoculated with D254 (AF: 22 ± 1°C). The total polyphenol index (TPI), total anthocyanins (TA) and tannins were quantified during CS and AF. The colour index (CI) and polymerisation index (PI) were determined at the end of AF. The total yeast populations of Saccharomyces and non-Saccharomyces were quantified during CS and AF. The highest values of TA, tannins, TPI and PI were obtained by CT.This treatment also registered the highest total yeast population and the highest total yeast death. The highest CI was observed in T3. When Saccharomyces was found at the end of CS (T1 and T2), it dominatedthe alcoholic fermentation in the early stages (not observed in CT and T3). The use of the pre-fermentative CS technique in Cabernet Sauvignon wines is promising for young wines due to the increased colour obtained

Free Volatile Compounds of cv. Pedro Giménez (Vitis vinifera L.) White Grape Must Grown in San Juan, Argentina

The free aromatic composition of must from Pedro Giménez grapes, grown in San Juan, Argentina, was characterised. Samples from the vintages of 2008 and 2009 were analysed by gas chromatography–mass spectrometry–solid phase microextraction (GC–MS–SPME). Higher alcohols, terpenes, C13-norisoprenoids, esters, aldehydes and ketones were quantified. The calculation of the odour activity values (OAVs) revealed that β-damascenone, α-ionone, β-linalool, geraniol, ethyl butanoate, hexanoate and octanoate were the most prevalent aroma-active compounds of the grape variety. However, the remaining 42 aromatic compounds that registered OAVs less than 1 could potentially contribute to the flavour of Pedro Giménez grapes. The measured monoterpene levels indicate that the Pedro Giménez grape can be considered a neutral variety.  This is the first report describing the main potential free aroma contributors of Pedro Giménez grapes in two consecutive years

Comportamiento de una cepa salvaje de Saccharomyces cerevisiae killer y su isogénica sensible respecto de diferentes fuentes de nitrógeno en cultivos mixtos Behaviour of a wild Saccharomyces cerevisiae killer yeast and its isogenic sensitive one with respect to different nitrogen sources in mixed cultures

La composición química del vino constituye el fundamento de la posterior respuesta sensorial del producto y está determinada por varios factores, como las relaciones levadura-levadura. Se denomina fenómeno killer a la secreción por parte de ciertas cepas de levadura de una proteína tóxica que mata a células denominadas sensibles. El conocimiento del comportamiento en condición aeróbica de cultivos mixtos killer-sensible es útil para relacionarlo con la primera fase de la fermentación enológica, ya que en ella puede definirse la prevalencia o no de la cepa killer. Además, el empleo de mutantes con el plásmido curado permite comparaciones más precisas. El objetivo fue analizar el mecanismo de competencia por sustrato en levaduras killer de Saccharomyces cerevisiae y su mutante sensible con el plásmido curado, empleando distintas fuentes de nitrógeno. Si las muestras se incuban a temperatura de inactivación de la toxina, se evita la infraestimación de células sensibles. Los resultados del co-cultivo de las cepas en proporciones iguales muestran el rol desempeñado por la fuente de nitrógeno en la actividad killer. Cuando el inóculo es 10%K-90%S, el modelo de exclusión competitiva planteado para levaduras killer deja paso a otras variables de competencia.Wine chemical composition is the outcome of complex chemosensory interactions that are difficult to predict because of the influences of many variables, like as yeast-yeast interactions. Killer phenomenon implicates the secretion of a toxic protein by some yeasts, that kill other yeasts called sensitive. The knowledge of the behaviour of killer-sensitive mixed cultures in aerobic conditions is useful to be related with the first stages of oenological fermentation. In these stages it can be defined the killer prevalence in the medium. Also, the use of cured plasmid mutants allows better comparisons. The objective was to analyse the mechanism of substrate competition in Saccharomyces cerevisiae killer strains and its sensitive cured plasmid mutant, using different nitrogen sources. When samples were incubated at the toxin inactivation temperature, the infraestimation of sensitive cells is avoided. Results obtained in co-cultures (50%K-50%S) show the role of the nitrogen source in killer activity. Results obtained with 10%K-90%S inoculum, show that there are another competence variables than the competitive exclusion model for killer yeasts

Diversidad de levaduras en canopias y suelos asociados con Bulnesia retama y Larrea divaricata Yeast diversity in Bulnesia retama and Larrea divaricata canopies and associated soils.

Los ambientes áridos están dominados por vegetación arbustiva, con acumulación de nutrientes bajo la canopia de los arbustos y con suelos relativamente infértiles en los interparches. Los distintos componentes de los vegetales constituyen uno de los hábitat más comunes para las levaduras. Existen numerosos antecedentes acerca de investigaciones sobre levaduras cuyo hábitat lo constituyen árboles y arbustos, sin embargo no existen referencias sobre levaduras asociadas a las Zigofiláceas, una familia de matorrales preponderantes en la Provincia de Monte argentino. El objetivo de este trabajo fue conocer la biodiversidad de levaduras en suelos y canopias asociados con Bulnesia retama y Larrea divaricata, en los Médanos Grandes de Caucete, San Juan, Argentina. Sobre un total de 87 aislamientos de levaduras identificados, se observó una mayor diversidad taxonómica en las asociadas tanto al suelo como a la parte aérea de B. retama, respecto de L. divaricata. A partir de la canopia de B. retama y su suelo asociado se aislaron 9 y 10 especies de levaduras respectivamente, mientras que de la parte aérea y suelo de L. divaricata 4 y 3. Los géneros identificados fueron: Candida, Debaryomyces, Dekkera, Saccharomyces, Torulaspora, Sporidiobolus y Pichia. En total se encontraron 14 especies en todos los microambientes.Bush like vegetation dominates arid environments, and there is nutrients accumulation under shrub canopies and relatively unfertile soils between vegetal patches areas. Plants are one of the most common habitats for yeasts. There are many reports about yeasts inhabiting different plant components. Nevertheless, there are no reports about yeasts associated with Zigophyllaceae, an important shrub family of the Argentinean Province of Monte. The objective of this work was to analyzed yeast biodiversity of Bulnesia retama and Larrea divaricata canopies and associated soils, at Médanos Grandes of Caucete, San Juan, Argentina. Eighty seven (87) isolated yeasts were identified. From B. retama canopy and associated soil was observed a larger taxonomical diversity respect to L. divaricata. Nine (9) and ten (10) species were isolated from canopy and associated soil of B. retama, respectively. From L. divaricata canopy were 4 species and 3 species from its associated soil isolated. Identified genera were: Candida, Debaryomyces, Dekkera, Saccharomyces, Torulaspora, Sporidiobolus and Pichia. Fourteen (14) species were found at all microenvironments