The vintage effect overcomes the terroir effect: a three year survey on the wine yeast biodiversity in Franciacorta and Oltrepò Pavese, two northern Italian vine-growing areas analyses, the year of isolation (vintage) proved to be a factor that significantly affected the biodiversity of the yeast species, whereas the geographical site (terroir) was not. Seventy-five per cent of S. cerevisiae isolates gathered in a unique cluster at a similarity level of 82 %, while the remaining 25 % were separated into minor groups without any evident relationship between d-PCR profile and territory, year or source of isolation. However, in six cases a similar strain appeared at the harvesting time both in Franciacorta and Oltrepò Pavese areas, whereas surprisingly no strain was reisolated in the same vineyard or cellar for consecutive years. INTRODUCTIONIn winemaking, yeasts are essential for the transformation of grape sugars into ethanol and carbon dioxide through alcoholic fermentation; nonetheless, due to their specific enzymic activities and cell autolysis, they can also generate typical sensorial characteristics in wine, like secondary flavours and smoothness (Romano et al., 2003a). Although selected Saccharomyces strains are usually added by oenologists as starter cultures to control the fermentative process, several micro-organisms enter the must from the vineyard environment, winery facilities and cellar equipment, and these can affect the quality of the end product. Nowadays, for a certain style of wines, the use of the 'so called' autochthonous yeasts is considered essential in providing for the valorization and preservation of the environmental microbial biodiversity (Pretorius, 2000). In 3These authors contributed equally to this paper.Abbreviations: ADY, active dry yeast; CE, capillary electrophoresis; ITS, internal transcribed spacer; LSD, least significant difference; PCA, principal component analysis; UPGMA, unweighted pair group method with arithmetic means.
Brettanomyces/Dekkera bruxellensis is the main yeast involved in red wine spoilage that occurs during ageing in barrel, generating considerable economic losses. Current sanitization protocols, performed using different chemicals, are ineffective due to the porous nature of the wood. The thermal inactivation of D. bruxellensis cells by hot water treatment proves to be efficacious and easy to perform, provided that the holding time at the killing temperature takes into account the filling time of the vessel and the time for the heat penetration into the wood structure.
The use of bacterial cellulose (BC) in food systems is still limited due to production costs. Nine clones belonging to Komagataeibacter hansenii, Komagataeibacter nataicola, Komagataeibacter rhaeticus, Komagataeibacter swingsii, and Komagataeibacter xylinus species were screened for cellulose productivity in growth tests with five different carbon sources and three nitrogen sources. The water-holding and rehydration capacities of the purified cellulose were determined. The structure of the polymer was investigated through nuclear magnetic resonance (NMR) spectroscopy, attenuated total reflection Fourier transform infrared (ATR-FT-IR) spectroscopy and X-ray diffraction (XRD) analysis, and observed by scanning electron microscope (SEM). Natural mutants of K. rhaeticus LMG 22126T and K. swingsii LMG 22125T showed different productivity. The factors “bacterial isolate” and “nitrogen source” significantly affected the production of cellulose (p < 0.01) rather than the factor “carbon source” (p = 0.15). However, on average, the best conditions for increasing yield were found in medium containing glucose and peptone. Water-holding capacity (WHC) values ranged from 10.7 to 42.3 (gwater/gcellulose) with significant differences among strains (p < 0.01), while the rehydration capacity varied from 4.2 to 9.3 (gwater/gcellulose). A high crystallinity (64–80%) was detected in all samples with Iα fractions corresponding to 67–93%. The ATR-FT-IR spectra and the XRD patterns confirmed the expected structure. BC made by GVP isolate of K. rhaeticus LMG 22126T, which was the strain with the highest yield, was added to a gluten-free bread formulation. Results obtained from measurements of technological parameters in dough leavening and baking trials were promising for implementation in potential novel foods.
The evolution of the yeast populations was investigated during controlled and spontaneous fermentations of Chardonnay must in two Franciacorta wineries (A and B) that used the same starter culture. Two hundred and three isolates were collected and identified as Saccharomyces cerevisiae (97.5 %), Pichia membranifaciens (2.0 %) and Hanseniaspora vinae (0.5 %) through the analyses of ITS rDNA region by RFLP, D1/D2 of 26S rDNA partial sequence and scHO gene. A high intraspecific diversity of S. cerevisiae isolates was detected by means of the inter-delta sequence PCR analysis: 117 profiles corresponding to different strains were distinguished (at level of similarity <90.5 %) and monitored to follow the dynamics of cell populations. In winery A, the commercial strain maintained the predominance since its δ-PCR profile constituted most of the colonies recovered at different times of sampling (from 44 to 100 % of plate counts), in this case only 18 different genotypes out of 74 isolates were recognized. In winery B, where spontaneous fermentations were performed in the same environment, the starter culture never took control and a succession of indigenous populations overcame without one prevailed on the others; actually, 40 genotypes out of 53 isolates can be identified. The highest level of biodiversity was observed in spontaneous fermentation (winery B) where 59 genotypes out of 71 S. cerevisiae isolates were discriminated; a continuous change in cell populations was noticed with the simultaneous presence from 6 to 10 different genotypes. The management of the starter culture and the environmental hygiene was shown to be fundamental to control the inoculated fermentations.
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