terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Effects of Non-Grape Materials (MOG) on wine quercetin composition: insights from synthetic and Merlot grape juice fermentation

Effects of Non-Grape Materials (MOG) on wine quercetin composition: insights from synthetic and Merlot grape juice fermentation

Abstract

Quercetin precipitation has become an increasingly common issue in red wine, often resulting in visually unpleasant sediments and diminished product quality. As mechanical harvesting becomes more widespread, the unintentional incorporation of material other than grapes (MOG), including leaves and stems, during harvest is becoming more prevalent. While MOG is known to influence the chemical and sensory properties of wine [1, 2], its potential role in affecting quercetin concentration and triggering precipitation remains poorly understood. Given that climate change is expected to further exacerbate quercetin instability, investigating the impact of MOG on wine composition has become increasingly relevant. This study investigated the effects of grape leaves and stems, added at 1%, 2%, and 3% (w/v), on fermentation kinetics, polyphenol content, color, and quercetin evolution during alcoholic fermentation in both synthetic and Merlot musts. Grape leaves and stems exerted distinct, dose-dependent effects on wine composition during fermentation. Grape leaves led to a steady increase in quercetin-3-glucuronide and quercetin-3-glucoside during the early to mid-fermentation stages. These levels remained stable in synthetic must but showed a slight decline in Merlot must toward the end of fermentation. Quercetin aglycone gradually accumulated from mid to late fermentation, especially in synthetic must. In contrast, grape stems caused only minor changes in all quercetin forms. Total polyphenol content also increased with both MOG types, primarily during early fermentation. Leaves promoted a stronger and more sustained release in synthetic must, whereas stems contributed to higher final polyphenol levels in Merlot must. Stems also significantly accelerated fermentation compared to leaves. While leaves were the main source of quercetin derivatives, stems notably increased catechin and proanthocyanidin concentrations, especially in synthetic must. In terms of color, leaves enhanced red pigmentation and darkened the wine, while stems reduced color intensity and increased lightness, shifting tonality toward yellow. These findings demonstrate that grape leaves and stems exert distinct, dose-dependent effects on wine composition. Grape leaves promote quercetin enrichment and may increase the risk of precipitation, whereas stems primarily affect fermentation kinetics and catechin concentration. Therefore, careful management of MOG levels is crucial, especially in mechanically harvested grapes and in regions vulnerable to quercetin instability and climate-related variability in wine quality.

References

[1] Capone DL, Barker A, Pearson W, Francis IL (2021) Influence of inclusion of grapevine leaves, rachis and peduncles during fermentation on the flavour and volatile composition of Vitis vinifera cv. Shiraz wine. Aust J Grape Wine Res 27:348–359.

[2] Guerrini, L., Masella, P., Angeloni, G., Calamai, L., Spinelli, S., Di Blasi, S., & Parenti, A. (2018) Harvest of Sangiovese grapes: the influence of material other than grape and unripe berries on wine quality. European Food Research and Technology 244:1487–1496.

Publication date: June 4, 2025

Type: Flash talk

Authors

Shuyan Liu1, Luca Boschian1, Andrea Culetic1, Simone Vincenzi1,*

1 Department of Agronomy, Food, Natural resources, Animals and Environment (DAFNAE), University of Padova, Viale dell’Università, 16, 35020 Legnaro (PD), Italy

Contact the author*

Keywords

quercetin precipitation, Material Other than Grapes (MOG), polyphenols, fermentation

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Market analysis of Chilean Pinot noir, Carménère, and Cabernet-Sauvignon wines: A comparative study of chemical parameters across low, medium, and high price segments

Wine quality is a complex concept determined by multiple factors, including vineyard management, winemaking operations, and the sensory perception of key attributes.

Free and bound terpene profile of recovered minority white grape varieties by GC × GC-TOFMS

Climate change presents a significant challenge for actual viticulture. In this context, recovering minority grape varieties can be a crucial strategy to ensure resilience, particularly those capable of maintaining quality and aromatic complexity under water stress.

Metal reducing agents (Fe and Al) as possible agents to measure the dimensions of the hydrogen sulfide (H2S) pool of precursors in wines

Reductive wine fault is characterized by the presence of odors such as rotten eggs or spoiled camembert cheese, originating from hydrogen sulfide (H2S) and methanethiol (MeSH) [1]. These compounds stabilize in polysulfide forms, creating a complex pool of precursors that will revert to both molecules when the environment becomes anoxic [2].

Exploring the behavior of alternatives to montmorillonite clays in white wine protein stabilization

Visual clarity in wines is crucial for commercial purposes [1]. Potential protein haze in white wines remains a constant concern in wineries, commonly addressed using bentonite [2].

Determining the impact of thiophenols on ashy flavor recognition in smoke-affected wines

Abstract
Wildfires are an increasing concern for wine-producing regions worldwide, as they generate smoke containing volatile organic compounds that can be transported over long distances and can be absorbed by wine grapes [1].