Effect of Contrasting Cap Management Protocols on the Phenolic Composition, Redox Potential, and Sensory Properties of Pinot Noir and Petite Sirah Wines

IF 2.5 3区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY

Australian Journal of Grape and Wine Research Pub Date : 2025-04-13 DOI:10.1155/ajgw/3732400

Dallas J. Parnigoni, Sean Kuster, Gabriela R. Rivas, Grace A. Putman, Emily S. Stoffel, James Nelson, Robert E. Coleman, Anibal A. Catania, L. Federico Casassa

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Abstract

Red wine cap management during alcoholic fermentation influences the extraction of phenolic compounds from grape solids and in turn affects oxygen consumption, oxidation–reduction potential (ORP), and must homogenization. Tailoring cap management protocols to influence these processes is essential for targeting wine style based on varietal and fruit composition. Herein, Pinot noir and Petite Sirah wines were produced with five cap management protocols, namely, pumpovers (POs), punchdowns (PDs), no cap management (NoCapMgmt), air mixing (AirMix), and nitrogen mixing (N₂Mix). ORP of AirMix wines reached peaks of 340 mV and 240 mV in Pinot noir and Petite Sirah, respectively, while N₂Mix wines were consistently below −50 mV during alcoholic fermentation. At pressing, treatments deemed oxidative, that is, AirMix, PO, showed the lowest concentrations of acetaldehyde, and treatments deemed reductive, that is, NoCapMgmt, N₂Mix, the highest. Relative to PO wines at pressing, PD wines showed 22% increases in total phenolics in Pinot noir but insignificant differences in Petite Sirah. PD increased flavan-3-ol concentrations in both varietals. After 8 months of bottle aging, NoCapMgmt contained > 50% more esters than PD wines in both varietals. Ethyl n-decanoate and isoamyl acetate exhibited the highest odor activity values (OAVs) in all wines. Ethyl n-decanoate ranged from 121 (NoCapMgmt) to 69 (AirMix) in Pinot noir and 186 (NoCapMgmt) to 103 (PD) in Petite Sirah. Isoamyl acetate ranged from 52 (NoCapMgmt) to 20 (PD, AirMix, N₂Mix) in Pinot noir and from 174 (NoCapMgmt) to 95 (AirMix) in Petite Sirah. In both varietals, AirMix wines showed decreased astringency and increased red fruit character, while N₂Mix wines had higher color saturation and no reductive aromas despite consistently low ORP during alcoholic fermentation. Present results provide winemakers with tools to optimize fermentation kinetics and labor costs, selectively extract phenolic compounds, and produce wines of targeted style and sensory profiles in varietals with contrasting phenolic profiles.

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不同瓶盖管理方案对黑比诺和小西拉葡萄酒酚类成分、氧化还原电位和感官特性的影响

在酒精发酵过程中，红酒瓶盖管理会影响葡萄固体中酚类化合物的提取，进而影响氧气消耗、氧化还原电位（ORP）和必须均质化。定制瓶盖管理协议，以影响这些过程是至关重要的，目标是基于品种和水果成分的葡萄酒风格。在此，黑皮诺和小西拉葡萄酒采用五种帽管理方案生产，即泵浦（POs），冲压（pd），无帽管理（NoCapMgmt），空气混合（AirMix）和氮混合（N2Mix）。AirMix葡萄酒的ORP在黑皮诺和小西拉中分别达到340 mV和240 mV的峰值，而N2Mix葡萄酒在酒精发酵过程中始终低于- 50 mV。受压时，氧化处理，即AirMix， PO，显示出最低的乙醛浓度，而还原性处理，即NoCapMgmt， N2Mix，显示出最高的乙醛浓度。与PO葡萄酒相比，PD葡萄酒的总酚类物质在黑比诺中增加了22%，而在小希拉中差异不显著。PD增加了两个品种的黄烷-3-醇浓度。在8个月的瓶中陈酿后，两个品种的NoCapMgmt酒所含的酯比PD酒多50%。正癸酸乙酯和乙酸异戊酯在所有葡萄酒中表现出最高的气味活性值（oav）。正癸酸乙酯在黑比诺中的范围从121 （NoCapMgmt）到69 (AirMix)，在小西拉中的范围从186 （NoCapMgmt）到103 （PD）。在黑皮诺中，醋酸异丙酯的范围从52 （NoCapMgmt）到20 (PD, AirMix, N2Mix)，在Petite Sirah中从174 （NoCapMgmt）到95 （AirMix）。在这两个品种中，AirMix葡萄酒的涩味降低，红果特征增加，而N2Mix葡萄酒的颜色饱和度更高，尽管在酒精发酵过程中ORP一直很低，但没有还原性香气。目前的研究结果为酿酒师提供了优化发酵动力学和劳动力成本的工具，选择性地提取酚类化合物，并在具有不同酚类特征的品种中生产出有针对性的风格和感官特征的葡萄酒。

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来源期刊

Australian Journal of Grape and Wine Research 工程技术-食品科技

CiteScore

5.30

自引率

7.10%

发文量

审稿时长

3 months

期刊介绍： The Australian Journal of Grape and Wine Research provides a forum for the exchange of information about new and significant research in viticulture, oenology and related fields, and aims to promote these disciplines throughout the world. The Journal publishes results from original research in all areas of viticulture and oenology. This includes issues relating to wine, table and drying grape production; grapevine and rootstock biology, genetics, diseases and improvement; viticultural practices; juice and wine production technologies; vine and wine microbiology; quality effects of processing, packaging and inputs; wine chemistry; sensory science and consumer preferences; and environmental impacts of grape and wine production. Research related to other fermented or distilled beverages may also be considered. In addition to full-length research papers and review articles, short research or technical papers presenting new and highly topical information derived from a complete study (i.e. not preliminary data) may also be published. Special features and supplementary issues comprising the proceedings of workshops and conferences will appear periodically.