Affiliation:
1. Department of Agricultural Sciences, Biotechnology and Food Science Cyprus University of Technology Limassol Cyprus
2. Kyperounda Winery, P. Photiades Group Limassol Cyprus
3. School of Agriculture Aristotle University of Thessaloniki Thessaloniki Greece
4. Department of Agriculture, Food and Environment Science University of Pisa Pisa Italy
5. Nutraceuticals and Food for Health – Nutrafood University of Pisa Pisa Italy
6. Department for Innovation in Biological, Agro‐food and Forest Systems (DIBAF) – Postharvest Laboratory University of Tuscia Viterbo Italy
Abstract
AbstractBACKGROUND‘Xynisteri’ is considered as the reference white grape cultivar in Cyprus with remarkable adaptation to adverse edaphoclimatic conditions and appreciable oenological properties that renders it as an appropriate cultivar for studies within a global context due to climate change. To this aim, two distinct non‐irrigated plots with different climatic conditions, soil properties and levels of rainfall were selected; Koilani [KO, altitude 800 m, 76% calcium carbonate (CaCO3) content, pH 7.97, average temperature: 16.5 °C, rainfall: 229 mm] and Kyperounda (KY, altitude 1200 m, CaCO3‐free soil, pH 6.47, average temperature: 14.9 °C, rainfall: 658 mm). An array of physiological, biochemical and qualitative indices during successive developmental stages (BBCH 75–89) were determined. During the advanced on‐vine developmental stages (BBCH 85–89), the aromatic profile of grapes was assessed with the employment of gas chromatography–mass spectrometry (GC–MS). Such analysis was complemented with non‐destructive chemometric analyses.RESULTSBerry ripening process substantially differed on the examined plots; BBCH 89 stage reached at 267 and 303 Julian days for KO and KY, respectively. Results indicated that berry weight, soluble solids content (SSC) and α‐amino nitrogen were higher in KO than in KY, with exception made for ammonium nitrogen content. A total of 75 compounds, including aliphatic alcohols, benzenic compounds, phenols, vanillins, monoterpenes and C13‐norisoprenoids were identified and quantified. The variations of mesoclimatic conditions affected the volatile organic compound (VOC) profiles at the fully‐ripe stage, showing a considerable rise in glycosylated aroma compounds, especially monoterpenes and benzenic compounds. In particular, the higher amount of glycosylated aroma compounds were obtained in KY berries up to mid‐ripe, whereas KO showed higher glycosylated aroma compounds at fully‐ripe stage. Results reported herein indicate that aroma profile of ‘Xynisteri’ grapes varied substantially in the examined terroirs. Interestingly, the limited rainfall in KΟ non‐irrigated vine did not compromise qualitative and aromatic properties of berries.CONCLUSIONSThe present study aimed at dissecting the impact of terroir on bush‐trained, non‐irrigated grapevines of a cultivar appropriate for extreme climate change scenarios. The volatilome fingerprint was highly variable among the examined plots; such results can be further exploited at vinification level towards production of single vineyard premium end products. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.