Abstract
Yeast species that colonize the surface of grape berries at harvest time play an important role during the winemaking process. In this study, the use of culturable microbial techniques permitted a quantitative and qualitative inventory of the different yeast species present on the grape berry surfaces of Montepulciano and Verdicchio varieties when treated with conventional and organic fungicides. The results show that the most widespread yeast species at harvest time were Aureobasidium pullulans and Hanseniaspora uvarum, which are considered normal resident species and independent of the grape varieties and treatments applied. Specific differences when comparing the grape varieties were observed in species and were detected at a lower frequency; Pichia spp. were prevalent in Verdicchio, whereas Lachancea thermotolerans and Zygoascus meyerae were found in Montepulciano. In both vineyards, the farming treatments improved the competitiveness of A. pullulans, which was probably due to its reduced susceptibility to treatments that improved the competition toward other fungi. In contrast, the fermenting yeast H. uvarum was negatively affected by fungicide treatments and showed a reduced presence if compared with untreated grapes. Organic treatments directly impacted the occurrence of Issachenkia terricola in Montepulciano grapes and Debaryomyces hansenii and Pichia membranifaciens in Verdicchio. Conversely, a negative effect of organic treatments was found toward Metschnikowia pulcherrima and Starmerella bacillaris. Overall, the data suggest that the yeast community colonizing the grape berry surface was influenced by both grape variety and farming treatments, which characterized the yeast biota of spontaneous must fermentation.
Highlights
Grapes represent a complex ecological niche where filamentous fungi, yeasts and bacteria cohabitate
Out of the 60% associated with Verdicchio grapes, 50% belong to A. pullulans and 10% to Cryprococcus spp
The influence of farming practices used in the vineyard and on the yeast, biota associated with the grape berry surface was recently investigated [18, 27,28,29]
Summary
Grapes represent a complex ecological niche where filamentous fungi, yeasts and bacteria cohabitate. The microbiome includes species at a concentration that mainly depends on the grape ripening stage and the availability of nutrients. Variety and fungicide effects on grape yeast of mature grapes are comprised by 103 and 105 cells/g, but higher values (approximately one log) have been found on damaged berries where the availability of sugar and nutrients is higher [2]. Microbial vectors, such as bees and wasps, can actively transfer yeasts to the grape surfaces [3,4,5] where it can establish synergistic or antagonistic behaviors between various genera and species of bacteria, yeasts and molds that cohabit together. The microbiome composition and complexity depend on the interactions between individuals, and the resulting consortium is generally stable over time. Rainy vintages lead to higher use of phytochemicals and show higher fungal proliferation and higher berry damage in conjunction with lower UV irradiation [6]
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