Abstract
Aims: A better understanding of the relationship between weather conditions and wine quality would provide tools for assessing the impact of climate change and the potential for adaptation. Most studies rely on assessing wine quality by the price per bottle or by an overall ranking and then establishing general relations to weather conditions. However, such an approach may imply the addition of bias by variable winemaking techniques overcoming vintage effects. The aim of our study was therefore to implement a controlled conditions approach using grape samples from a single vineyard and a standardized micro-scale winemaking technique to produce wines in similar conditions for each vintage over more than a decade. We hope that this data will allow new insights into responses to climatic differences.Methods and results: From 2005 to 2015, data was collected from a vineyard of Hochschule Geisenheim University planted with Vitis vinifera L. cv. Pinot Noir grafted on rootstock SO4 in four field replicates. Weather conditions were recorded together with the major phenological stages, yield, infection of the bunches by Botrytis cinerea bunch rot, and pruning weight. Key primary juice compounds were analyzed and berry phenolics in skins and seeds were determined before harvest. Micro-scale winemaking was developed to produce wines in standardized conditions. The repeatability of the method to assess the extraction of anthocyanins and tannins was shown to be 2–10% and 8–12%, respectively, depending on grape maturity stage. Sugar accumulation was coupled to warmer conditions during the maturation period, and high temperatures after véraison decreased the concentration of malic acid in the juice. The accumulation of primary amino acids (N-OPA) in the juices seemed positively related to warmer conditions between bud break and flowering. Increased temperature, especially before véraison, accompanied by a lack of precipitation was related to an accumulation of tannins in fruit and wine, with a higher accumulation in skins than seeds. The temperature-sensitive anthocyanin accumulation in grapes was coupled to warmer conditions after véraison. These differences in anthocyanin concentration could also be observed in the wine.Conclusions: High-quality vintages were linked to warmer than normal growing seasons and below normal precipitation.Significance and impact of the study: The use of a micro-scale winemaking technique represents an innovative tool to provide detailed information in a controlled and reproducible way. A better understanding of the interaction between weather conditions and berry/wine compounds will help with developing improved winemaking techniques and better adapting to future impacts of climate change.
Highlights
Many studies have linked increases in temperature to earlier phenological events in grape berry development, with the potential to greatly affect fruit and wine characteristics (Duchêne and Schneider, 2005; Petrie and Sadras, 2008; Webb et al, 2011)
Pinot Noir, clone Gm1-1 grafted on Selection Oppenheim 4 (SO4) rootstock was used for the purpose of the study, which covered a period of 11 years from 2005 to 2015
We found that the amount of precipitation during the period between budbreak and flowering had a negative influence on yield quantity for the season, influencing the inflorescence differentiation and berry set in relation to the “coulure climatique” phenomenon
Summary
Many studies have linked increases in temperature to earlier phenological events in grape berry development, with the potential to greatly affect fruit and wine characteristics (Duchêne and Schneider, 2005; Petrie and Sadras, 2008; Webb et al, 2011). A sound understanding of the climatic contribution to wine quality would provide tools for assessing the future impact of climate change on vintage quality. A hypothesis was proposed that highquality vintages were linked to warmer than normal growing seasons with high heat accumulation and below normal precipitation, as observed for American Viticultural Areas (Jones et al, 2005; White et al, 2006; Nicholas et al, 2011). We used data gathered under controlled conditions from a single vineyard for the analysis of grape berry phenolics, and a micro-scale winemaking technique to produce wines in similar conditions for each vintage over 11 years. The aim of the study was to link the impact of seasonal weather conditions to berry composition, i.e. phenolics in skins and seeds, followed by analysis of the wine produced using a standardized micro-scale winemaking approach for all vintages
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