Wine metabolome and sensory analyses demonstrate the oenological potential of novel grapevine genotypes for sustainable viticulture in warm climates

葡萄酒 代谢组 葡萄栽培 生物 代谢组学 食品科学 葡萄 多酚 非生物成分 原花青素 栽培 生物技术 植物 生态学 生物信息学 生物化学 抗氧化剂
作者
Héctor Alonzo Gómez Gómez,Guilherme Francio Niederauer,Igor Otávio Minatel,Elisa Ribeiro Miranda Antunes,Mara Junqueira Carneiro,Alexandra Christine Helena Frankland Sawaya,Mauro Celso Zanus,P. S. Ritschel,Vera Quecini,Giuseppina Pace Pereira Lima,Márcia Ortiz Mayo Marques
出处
期刊:Journal of the Science of Food and Agriculture [Wiley]
卷期号:105 (1): 329-341
标识
DOI:10.1002/jsfa.13832
摘要

Abstract BACKGROUND Genetic breeding is essential to develop grapevine genotypes adapted to warm climates and resistant to pathogens. Traditionally cultivated Vitis vinifera is susceptible to biotic and abiotic stresses. Winemakers and consumers, however, perceive wines from non‐ vinifera or hybrid cultivars as inferior. In this study, sensory analyses and comprehensive metabolite profiling by targeted and untargeted approaches were used to investigate the oenological potential of wines from grapes of genotypes developed throughout four breeding cycles to improve climate adaptation, sugar contents and berry color. RESULTS Novel genotypes had higher yields and the wines exhibited increased contents of polyphenols, including anthocyanins. Volatile monoterpenes in the wines decreased throughout breeding cycles in the absence of selective pressure. Polyphenol contents were higher in intermediate wines, with hydroxytyrosol contents reaching up to three times reported values. Mouthfeel attributes astringency, leafy taste, flavor and body, and persistency showed significant correlation with untargeted features. Supervised model‐based analyses of the metabolome effectively discriminate wines from distinct genetic origins. CONCLUSION Taken together, the results demonstrate the potential of novel grapevine genotypes to a more sustainable viticulture and quality wine production in warm climates. Comprehensive metabolite profiling of the wines reveals that genotype clustering is dependent on the chemical class and that traits not submitted to selective pressure are also altered by breeding. Supervised multivariate models were effective to predict the genetic origin of the wines based on the metabolic profile, indicating the potential of the technique to identify biomarkers for wines from sustainable genotypes. © 2024 Society of Chemical Industry.
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