Search

Your search keyword '"Butinar, Lorena"' showing total 24 results
Start Over Author "Butinar, Lorena" Search Limiters Available in Library Collection
24 results on '"Butinar, Lorena"'

5. Functional Characterization of Saccharomyces Yeasts from Cider Produced in Hardanger.

Author

Česnik, Urban, Martelanc, Mitja, Øvsthus, Ingunn, Radovanović Vukajlović, Tatjana, Hosseini, Ahmad, Mozetič Vodopivec, Branka, and Butinar, Lorena

Subjects
CIDER (Alcoholic beverage), APPLE juice, YEAST, INDEPENDENT variables, SACCHAROMYCES, PARTIAL least squares regression, ORGANIC acids, SACCHAROMYCES cerevisiae
Abstract

Saccharomyces cerevisiae is commonly used for the production of alcoholic beverages, including cider. In this study, we examined indigenous S. cerevisiae and S. uvarum strains, both species commonly found in cider from Hardanger (Norway), for their strain-specific abilities to produce volatile and non-volatile compounds. Small-scale fermentation of apple juice with 20 Saccharomyces strains was performed to evaluate their aroma-producing potential as a function of amino acids (AAs) and other physicochemical parameters under the same experimental conditions. After fermentation, sugars, organic acids, AAs, and biogenic amines (BAs) were quantified using the HPLC–UV/RI system. A new analytical method was developed for the simultaneous determination of nineteen AAs and four BAs in a single run using HPLC–UV with prior sample derivatization. Volatile compounds were determined using HS-SPME-GC-MS. Based on 54 parameters and after the removal of outliers, the nineteen strains were classified into four groups. In addition, we used PLS regression to establish a relationship between aroma compounds and predictor variables (AAs, BAs, organic acids, sugars, hydrogen sulfide (H2S) production, CO2 release) of all 19 strains tested. The results of the VIP show that the main predictor variables affecting the aroma compounds produced by the selected yeasts are 16, belonging mainly to AAs. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

10. Yeasts and wine colour

Author

Topić Božič, Jelena, primary, Korte, Dorota, additional, Mozetič Vodopivec, Branka, additional, and Butinar, Lorena, additional

Published
2019
Full Text
View/download PDF

11. Wine Experiences: A Review from a Multisensory Perspective.

Author

Campo, Raffaele, Reinoso-Carvalho, Felipe, Rosato, Pierfelice, Antalick, Guillaume, Butinar, Lorena, Lemut, Melita Sternad, and Philipp, Christian

Subjects
WINES, FOOD & wine pairing, SMELL, TOUCH
Abstract

The existing multisensory literature suggests that the combination of the different human senses in a controlled fashion during food/drink experiences can provide more enjoyment to consumers. The present research reviews recent literature relating multisensory perception with wine experiences, focusing on the interaction of the five basic senses (taste, smell, vision, touch, and sound). This is mostly being assessed from a perceptual and behavioral consumer perspective. Here, the authors report different ways in which such interactions across these senses can affect the way a wine is experienced, prior to, during, and even after tasting. The authors finish this literature review by providing some insights in the context of wine and food pairing, while also generally reflecting on potential future work. These insights may be inspirational for a diverse group of organizations working with wine. Based on such multisensory approaches, it may be possible to bring unforeseen sensations to the different wine experiences, while at the same time stressing particular sensory and/or emotional attributes. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

12. Yeasts and wine colour.

Author

BOŽIČ, JELENA TOPIĆ, KORTE, DOROTA, BUTINAR, LORENA, and VODOPIVEC, BRANKA MOZETIČ

Subjects
YEAST, FERMENTED beverages, RED wines, WINES, COLOR of wine
Abstract

Historically, yeasts from the genus Saccharomyces have been conventionally used in the production of wine and other fermented beverages. Traditionally, their main role has been the transformation of sugars into ethanol, however, research has shown that yeasts also influence wine aroma, texture, flavour and colour. In lieu of this, non-Saccharomyces yeasts, which have been considered as spoilage yeasts in the past, have been exploited as potential wine starters because they can improve the sensorial characteristics of wines. Because they are considered to be poor fermenters, mixed fermentations with Saccharomyces yeasts are applied either in a form of co-inoculation or sequential fermentation. Among wine characteristics, colour of red wines has special importance because it is the first wine characteristic perceived by the consumers. Red wine colour stems from anthocyanins, located in the grape skins that are extracted to grape must during maceration/fermentation. Various technological strategies in the winemaking process have already been employed to improve wine colour. One of them is yeast-mediated colour improvement employing a careful selection of yeast starters that can promote the synthesis of stable colour pigments pyranoanthocyanins from anthocyanins. The two most known groups of pyranoanthocyanins are vinylphenolic pyranoanthocyanins and vitisins. In comparison to anthocyanins they are less susceptible to pH, SO2 bleaching and oxygen presence. Their concentration in the wines differs according to the yeast strain used and the type of fermentation applied. Furthermore, wine colour can also be influenced by the cell wall adsorption capability of yeasts. Numerous studies have shown the positive influence of a careful selection of non-Saccharomyces yeast in promoting stable pigments synthesis in the production of wine. In this review, we discuss how application of different yeast species - Saccharomyces and non-Saccharomyces can enhance wine colour through different fermentation strategies applied. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

14. Hypersaline waters - a potential source of foodborne toxigenic aspergilli and penicillia

Author

Butinar, Lorena, Frisvad, Jens Christian, Gunde-Cimerman, Nina, Butinar, Lorena, Frisvad, Jens Christian, and Gunde-Cimerman, Nina

Abstract

Previous studies of hypersaline environments have revealed the dominant presence of melanized yeast-like fungi and related Cladosporium spp. In this study, we focused on the genera Aspergillus and Penicillium and their teleomorphic forms. From oligotrophic and eutrophic hypersaline waters around the world, 60 different species were identified, according to their morphological characteristics and extrolite profiles. For the confirmation of five new species, additionally, sequence analysis of the internal transcribed spacer region, the partial large subunit-rDNA and the partial beta-tubulin gene was performed. The species Aspergillus niger, Eurotium amstelodami and Penicillium chrysogenum were detected with the highest frequencies at all of the sampled sites; thus, they represent the pan-global stable mycobiota in hypersaline environments. Possible candidates were also Aspergillus sydowii and Eurotium herbariorum, as they were quite evenly distributed among the sampled sites, and Aspergillus candidus, which was abundant, but more locally distributed. These species and their byproducts can accumulate downstream following evaporation of brine, and they can become entrapped in the salt crystals. Consequently, marine salt used for consumption can be a potential source of food-borne fungi and their byproducts. For example, ochratoxin-A-producing species Penicillium nordicum was recovered from brine, salt and salted meat products.

Published
2011

16. Changes in the Relative Abundance of Two Saccharomyces Species from Oak Forests to Wine Fermentations.

Author

Volk, Helena, Butinar, Lorena, Dashko, Sofia, Piškur, Jure, Liu, Ping, and Fay, Justin C.

Subjects
SACCHAROMYCES, WINES, HUMAN microbiota
Abstract

Saccharomyces cerevisiae and its sibling species Saccharomyces paradoxus are known to inhabit temperate arboreal habitats across the globe. Despite their sympatric distribution in the wild, S. cerevisiae is predominantly associated with human fermentations. The apparent ecological differentiation of these species is particularly striking in Europe where S. paradoxus is abundant in forests and S. cerevisiae is abundant in vineyards. However, ecological differences may be confounded with geographic differences in species abundance. To compare the distribution and abundance of these two species we isolated Saccharomyces strains from over 1200 samples taken from vineyard and forest habitats in Slovenia. We isolated numerous strains of S. cerevisiae and S. paradoxus, as well as a small number of Saccharomyces kudriavzevii strains, from both vineyard and forest environments. We find S. cerevisiae less abundant than S. paradoxus on oak trees both within and outside the vineyard, but more abundant on grapevines and associated substrates. Analysis of the uncultured microbiome shows, that both S. cerevisiae and S. paradoxus are rare species in soil and bark samples, but can be much more common in grape must. In contrast to S. paradoxus, European strains of S. cerevisiae have acquired multiple traits thought to be important for life in the vineyard and dominance of wine fermentations. We conclude, that S. cerevisiae and S. paradoxus currently share both vineyard and non-vineyard habitats in Slovenia and we discuss factors relevant to their global distribution and relative abundance. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

17. Exploration of yeast biodiversity potential for development of alternative biofungicides in viticulture

Author

Adesida, Rowland, Sternad Lemut, Melita, and Butinar, Lorena

Subjects
dissertations, udc:54, gray mould, fungi, trajnostno vinogradništvo, food and beverages, yeasts, sustainable viticulture, metaboliti vinske trte, manipulacija mikroklime grma, grapevine metabolite, Botrytis cinerea, biokontrola, biocontrol, kvasovke, canopy microclimate manipulation, disertacije, siva plesen
Abstract

Botrytis cinerea Pers., the fungal plant pathogen and the causal agent of gray mould diseases in grapevine, is vastly responsible for substantial economic losses in table and wine grapes production worldwide by negatively affecting plant growth and causing the reduction of grape and wine quality. The conventional approach for pathogen control has been up to date based on synthetic fungicides with good effectiveness against pathogens but a negative impact on the environment. The growing level of harmful residues in the environment and some also detected in wines have led the European Union and many winemakers to limit the application of synthetic fungicides to earlier season. However, with a high risk of disease also late in the season, the need for other solutions is clear. Consequently, more and more research is focused on finding potential alternatives in the form of effective biological control agents. Although there are several reports of yeast’s biocontrol activity, they are up to date still poorly commercialized for such purposes. As the yeasts represent an important part of the grape microflora, competing with other microorganisms (including pathogens) for nutrients and space, we decided to examine the potential of autochthonous yeasts as "green" alternatives in fighting against phytopathogens such as B. cinerea in viticulture. With this aim, we tested the biocontrol activity of 119 different indigenous yeasts belonging to 30 different species of 17 genera against filamentous fungus B. cinerea, the causal agent of grey mould or botrytis bunch rot in grape. The yeasts were screened for putative multidimensional modes of action such as antifungal volatiles (VOC), in vitro inhibition of fungal mycelial growth, competition for nutrients, hydrolytic enzyme activities, and yeast tolerance to fungicides like copper, iprodione and cyprodinil/fludioxonil combination. With a qualitative detection of the hydrolysis activity by using screening methods based on solid medium with chitin or βD-glucosides as substrates, we found that many tested yeasts were capable of producing lytic enzymes with the ability to degrade the cell wall of phytopathogenic fungi and are potentially also able to produce VOCs via hydrolysis of grape glycosides as a result of β-glucosidase presence. Furthermore, we observed the capability of tested yeast to inhibit fungal mycelia growth on plate and assimilation of a wide variety of carbon sources however, no siderophore producers were detected. In general, the yeasts under observation were tolerant to the tested fungicides. Their fungicide resistance can indeed be regarded as a beneficial trait for potential biofungicide agent (PBA) candidates due to open possibilities of applications and combinations within low input pest management strategies in the vineyard. Finally, a field experiment in Pinot noir and Pinot gris vineyards was designed to study different combinations of optimized canopy microclimate manipulation (CMM) techniques and potential biocontrol agent (PBA) application. In experimental conditions, the ability of PBA’s to maintain appropriate population density for disease prevention was observed. In addition, the grape and wine quality parameters were analysed to observe the possible impact of implemented biocontrol yeast on final products. The biocontrol yeast Pichia guilliermondii ZIM 624 was selected and applied in experimental vineyards based on yeast testing results. We were able to detect and confirm PBA yeast’s suitable density on grapes until harvest. In the case of early defoliation for both varieties lower grape compactness was observed together with lower yield/ plant, regardless of PBA yeast/ no yeast application. Among grape basic quality parameters, the optimized techniques showed a positive effect on sugar content. Still, unexpectedly, in the treatments with biocontrol yeasts some trends toward higher acidity were noticed in Pinot gris.

Published
2022

18. Yeasts as promising biological control agents (BCAs) against phytopathogenic fungi in viticulture

Author

Česnik, Urban and Butinar, Lorena

Subjects
biološki nadzor, Botrytis cinerea, phytopathogen, Kvasovka, Yeasts, biological control, viticulture, fitopatogen, vinogradništvo
Abstract

Opravili smo dve hitri molekularni tehniki za identifikacijo enoloških kvasovk, ki so bile izolirane iz vinogradov z ekološko in intergrirano pridelavo grozdja. Najprej smo določili 15 Saccharomyces kvasovk s pomočjo analize multipleks PCR med zbranimi 131 izolati, nato smo s pomočjo ribotipizacije ITS določili približno 98 kvasovk do nivoja vrste, ki so bile potrjene tudi s sekvenciranjem regije ITS. Določili smo 16 vrst vinskih kvasovk: Hanseniaspora uvarum, H. valbyensis, H. opuntiae / H. uvarum, Lachancea thermotolerans, Candida tropicalis, Candida sp. / Starmerella sp., Metschnikowia pulcherrima, Pichia kudriavzevii, P. terricola, P. kluyveri, Wickerhamomyces anomalus, Kodamaea ohmeri, S. bacillaris, Saccharomyces cerevisiae, Saturnispora diversa in Torulaspora delbrueckii. Ugotovili smo, da so najdene kvasovke običajne naseljevalke grozdne mikroflore ter da je način pridelave grozdja vplival na pojavljanje določenih vrst v obravnavanih vinogradih. Nadalje smo testirali kvasovke na tvorbo sideroforov, tvorbo protiglivnih hlapnih organskih spojin (HOS), hidrolitično aktivnost in toleranco kvasovk na fungicide, kot so baker, iprodion, fluazinam ter kombinacijo ciprodinil / fludioksonil. Za kvalitativno detekcijo hidrolitične aktivnosti smo uporabili presejalne teste na osnovi trdnega gojišča z dodanim hitinom ali β-D-glukozidi kot substratom in ugotovili, da je veliko testiranih kvasovk sposobnih proizvajati litične encime, ki bi lahko bili odgovorni za razgradnjo celičnih sten fitopatogenih gliv in potencialno sposobni proizvajati HOS s hidrolizo grozdnih glikozidov zaradi prisotnosti β-glukozidaz. Prav tako smo opazili, da so te encimske aktivnosti običajno odvisne od seva. Na splošno so kvasovke tudi tolerantne na testirane fungicide. Ugotovili smo tudi, da je odpornost biofungicidnih kvasovk na fungicide koristna lastnost za razvoj biofungicidov v prihodnosti pri aplikacijah v strategijah z zmanjšanim vnosom pesticidov. We performed two rapid molecular techniques for the identification of enological yeasts that were collected from vineyards with organic and integreated pest management. First we distinguised 15 Saccharomyces yeasts with multiplex PCR analysis from collected 131 isolates, further on we identified approx. 98 isolates to species level based on ITS ribotyping that were confirmed also with ITS sequencing. Overall we distinguished 16 wine yeast species: Hanseniaspora uvarum, H. valbyensis, H. opuntiae / H. uvarum, Lachancea thermotolerans, Candida tropicalis, Candida sp. / Starmerella sp., Metschnikowia pulcherrima, Pichia kudriavzevii, P. terricola, P. kluyveri, Wickerhamomyces anomalus, Kodamaea ohmeri, S. bacillaris, Saccharomyces cerevisiae, Saturnispora diversa and Torulaspora delbrueckii. We observed that obtained yeasts are common inhabitants of grape microflora, and that applied pest managament in studied vineyards had an influence on occurence of certain species. Thereafter, we tested yeasts for siderophore production, antifungal VOCs production, hydrolysis activity and yeast tolerance to fungicides like copper, iprodione, fluazinam and cyprodinil / fludioxonil combination. With a qualitative detection of the hydrolysis activity by using screening methods based on soild medium with chitin or β-D-glucosides as substrates, we recognized that many tested yeasts were able to produce lytic enzymes that could be responsible for cell wall degradation of phytopathogenic fungi, and potentially able to produce VOCs from the hydrolysis of grape glycosides due to the β-glucosidase presence. We also observed that these enzymatic activities are usually strain-dependent. In general yeasts were also tolerant to tested fungicides, and we concluded that fungicide resistance of biofungicide yeasts is beneficial trait for future biofungicide development for possible applications in low input pest management strategies.

Published
2019

19. Use of various yeasts in the production of apple wine

Author

Koporec, Luka, Butinar, Lorena, and Mozetič Vodopivec, Branka

Subjects
apple wine, ne-Saccharomyces kvasovke, potek fermentacije, yeasts, jabolčno vino, kvasovke, senzorična analiza, non-Saccharomyces yeasts, fermentation course, sensory analysis
Abstract

Kemijske in senzorične lastnosti vina so poleg genetskih danosti ter geo-klimatskih okoliščin odvisne tudi od strategije tehnologije pridelave, ki jo izbere vinar. V to strategijo spada tudi izbira seva kvasovke. Vinski trg postaja vse bolj zahteven in željan nečesa novega, zato vse več vinarjev poskuša pridobiti drugačne lastnosti vin z uporabo drugačnih sevov kvasovk, oziroma z uporabo kombinacij različnih vrst kvasovk. V diplomski nalogi smo preučevali vpliv različnih kombinacij kvasovk na potek fermentacije ter na osnovne kemijske in senzorične lastnosti pridelanega jabolčnega vina. Poskus je bil izveden na laboratorijski skali. Rezultati poskusa so pokazali, da različne vrste kvasovk različno vplivajo na senzorične lastnosti vina, nekoliko manj pa na kemijske lastnosti. Rezultati nakazujejo, da različne kvasovke različno hitro porabljajo sladkorje, kar vpliva tudi na hitrost poteka fermentacije. Ob opazovanju osnovnih kemijskih lastnostih smo opazili razlike med kvasovkami oz. kombinacijami kvasovk pri parametrih kot so hlapne kisline in reducirajoči sladkorji, medtem ko v vsebnosti alkohola in pH vrednostih končnih jabolčnih vin med obravnavanimi fermentacijami nismo opazili razlik. Senzorična analiza vonja in barve jabolčnih vin je potrdila vpliv kvasovk na barvo, intenzivnost, trajnost in vrsto vonja. In addition to genetic predisposition and geo-climatic growing conditions, the chemical and sensory properties of wine depend also on the production strategies chosen by the winemaker. These strategies include the decisions on yeast strains used for the fermentation. The wine market is becoming increasingly demanding and often desires something new, therefore more and more winemakers are trying to acquire different properties of wines by using different strains of yeasts or combinations of different types of yeasts. In the diploma thesis we studied the influence of various yeast combinations on the course of fermentation and the basic chemical and sensory properties of the produced apple wine. The work was done on laboratory scale. The results indicated different types of yeasts to have stronger influence on sensory properties than on the observed chemical characteristics of the wine. We have found that various yeasts use sugars in a different manner and therefore the rate of fermentation is different. Within chemical properties, the biggest differences were found in the content of volatile acidity and reducing sugars, whereas the differences in pH and alcohol level were only minor. Sensory analysis confirmed the yeasts influence theon color, intensity, persistence and type of flavour.

Published
2018

20. Ekologija naravnih vinskih kvasovk in enoloski potencial

Author

Cernigoi, Gabrijel and Butinar, Lorena

Subjects
selekcija, Saccharomyces, non-conventional yeasts, fermentations, Saccaromyces, ne konvencionalne kvasovke, wine, spontane fermentacije
Abstract

The aim of the study was to investigate and select indigenous yeasts Saccharomyces cerevisiae and non-conventional yeasts that were isolated during this and previous studies, and than evaluate them for wine production by performing micro-scale vinification experiment Namen študije je bil preučevanje in selekcija avtohtonih kvasovk Saccharomyces cerevisiae in ne-konvencionalnih kvasovk, ki so bile izolirane tekom te in prejšnje študije, ter jih s pomočjo izvedbe vinifikacijskega poskusa v manjšem obsegu ovrednotiti ali so primerne za proizvodnjo vina.

Published
2017

21. Izolacija in selekcija divjih kvasovk za vinarstvo

Author

Mikhaylina, Natalia and Butinar, Lorena

Subjects
vino, Vitis vinifera L. cv. ‘Modri pinot’, Vitis vinifera L. cv. ‘Pinot Noir’, yeasts, biotska raznovrstnost, kvasovke, wine, fermentacija, fermentation, biodiversity
Abstract

The aim of this study was to explore the diversity of fermentative yeast species in a non-vineyard and vineyard environment, and exploit their oenological potential. For this purpose we collected plant and soil material in the vineyard (located in Črniče in Vipava Valley) planted with Vitis vinifera L. and in the forest (forest in Vipava Old Castle), and by using a selective medium with high ethanol and sugar content we managed to obtain 35 isolates. By sequencing the D1/D2 domain of the 26S rDNA we identified nine different yeast species. The oenological potential of identified yeasts was further investigated by employing a series of tests, such as growth at low pH values, tolerance to ethanol and sulfur, and H2S production ability. Based on the results of these tests we selected four different yeast species for the microvinification of Vitis vinifera L. cv. ‘Pinot Noir’ grape juice. A commercial strain Saccharomyces cerevisiae Lalvin D47 was also included as a control in the fermentation experiment. Fermentation monitoring was done by measuring daily weight loss and microbiological analysis in the middle of fermentation. For the final wines, sugars were determined and sensorial evaluation performed. Among four tested yeasts, S. paradoxus IVV 32 and Torulaspora delbrueckii IVV 36 appeared to be the most promising for winemaking, but further studies should be carried out. Namen študije je bil preučiti pestrost fermentativnih kvasovk v ne-vinogradniškem in vinogradniškem okolju ter raziskati njihov enološki potencial. V ta namen smo vzorčili različen rastlinski in talni material v vinogradu (nahajajočem se v Črničah v Vipavski dolini) in gozdu (Stari grad nad Vipavo), iz katerega smo s pomočjo uporabe selektivnega gojišča z visoko vsebnostjo sladkorja in etanola uspeli izolirati 35 izolatov. S sekvenciranjem domene D1/D2 na 26S rDNA smo določili devet različnih vrst kvasovk. Z izvedbo serije testov, kot je rast pri nizkih vrednostih pH-ja, tolerance na etanol in žveplo ter sposobnosti tvorbe H2S, smo nadalje raziskali enološki potencial določenih kvasovk. Na podlagi rezultatov teh testov smo za izvedbo mikrovinifikacije grozdnega soka sorte Vitis vinifera L. cv. ‘Modri pinot’ izbrali štiri različne vrste kvasovk, kot kontrolo smo vključili tudi komercialni sev Lalvin D47 vrste Saccharomyces cerevisiae. S spremljanjem dnevne izgube teže in mikrobiološko analizo sredi fermentacije smo izvedli monitoring fermentacije. Končnim vinom pa smo določili vsebnost sladkorjev in izvedli senzorično oceno. Med štirimi testiranimi kvasovkami, sta se seva IVV 32 vrste S. paradoxus in IVV 36 vrste Torulaspora delbrueckii pokazala kot najbolj obetajoča za proizvodnjo vina, vendar pa so potrebne nadaljnje raziskave.

Published
2017

22. EXPLORING BIODIVERSITY POTENTIAL OF WINE ASSOCIATED YEASTS

Author

Dashko, Sofia and Butinar, Lorena

Subjects
alcoholic fermentation, Yeasts, food and beverages, molecular biology, biodiversity
Abstract

Human exploitation of yeast fermentation dates back to the Neolithic. S. cerevisiae has been the most important yeast used for numerous fermentations of biotechnological interest, including grape fermentation for wine production. Despite its abundant use, the molecular mechanisms controlling alcoholic fermentation are rather unclear and the choice of S. cerevisiae as an inoculum is often the consequence of a mere habit, rather than the result of rational analyses. In this work we focused on the role of different yeasts in the winemaking process. I was interested in understanding how the specific strain used for inoculum could influence the wine aroma formation. Furthermore, I wished to investigate the yeast genetics and ecology by characterizing their population and strain diversity in one of the wine regions of Slovenia. To evaluate the effect of the yeast species on the fermentation outcome, we performed successive fermentations with five different species in combination with the industrial strain S. cerevisiae Lalvin T73. The experiment showed that at least two more yeast species, Kazachstania gamospora and Zygosaccharomyces kombuchaensis have good potential to be applied in the winemaking. , The main conclusions of this study are the possibility of: i) expanding the palette of alternative starters to widen the aromatic components ii) co–fermenting using two different yeast species. Mixed yeast culture fermentations are present in the natural context, but this practice has been neglected in biotechnological processes. Positive results of wine fermentations with non – conventional yeast urged us to explore the diversity of Slovenian wine region natural isolates. The resulting yeast collection counts more than 1200 strains for which phenotype and genotype have been defined. Numerous isolates, including non – Saccharomyces species, showed promising oenological and biotechnological traits because of their capacity of rapid utilization of various carbon sources, growth at low pH and at presence of copper sulfite and potassium metabisulfite. Sampling also revealed sharp discrimination between the ecological niches of S. cerevisiae and S. paradoxus, which is a striking feature of European vineyards. While S. cerevisiae habitats are strongly associated with human activity, S. paradoxus was mainly isolated from the forest sources. Profound analysis of the collected data could give some explanations to the driving forces of S. cerevisiae domestication and S. paradoxus geographic isolation population structure.

Published
2015

Catalog

Books, media, physical & digital resources
See catalog results