terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Managing extraction of colour, tannin and methoxypyrazines in Pinot noir grapes treated by leaf removal

Managing extraction of colour, tannin and methoxypyrazines in Pinot noir grapes treated by leaf removal

Abstract

Managing extraction of tannins and green aroma compounds attributed from methoxypyrazines in winemaking is crucial for producing high quality Pinot noir wine. This study1 investigated the impact of leaf removal on concentrations of anthocyanins, tannins, and methoxypyrazines in Pinot noir grapes and resultant wines. Leaf removal was conducted at 7 days (LR7), 30 days (LR30), and 60 days (LR60) after flowering, and the no leaf was removed in the control treatment (LRC). Leaf removal could significantly increase the concentration of anthocyanins in Pinot noir grapes and reduce the concentration of methoxypyrazines, especially in grape stems, in comparison with the control treatment. Early leaf removal (LR7 and LR30) showed greater effect on enhancing the colour density, polymeric pigments, and tannin concentration in the resultant wines. LR7 treatment showed significantly higher proportion of skin-derived tannins in resultant wine, compared to LRC. Although the aroma analysis of resultant wines showed significant differences between treatments, the impact of leaf removal on the aroma profiles was not evident by the sensory evaluation. These findings offer valuable insights for managing the extraction of colour, tannin and methoxypyrazines in Pinot noir wines, enabling winemakers to optimize quality through targeted viticultural and winemaking practices.

References

[1] Wimalasiri, P. M., Harrison, R., Donaldson, I., Kemp, B., & Tian, B. (2024). Timing of leaf removal modulates tannin composition and the level of anthocyanins and methoxypyrazines in Pinot noir grapes and wines. Food Research International, 178, 114003.

Publication date: June 5, 2025

Type: Poster

Authors

Bin Tian1,*, Pradeep Wimalasiri1, Roland Harrison1, Ivan Donaldson2, Belinda Kemp3

1 Faculty of Agricultural and Life Sciences, Lincoln University, Lincoln 7647, New Zealand.
2 Pegasus Bay Winery, Glasnevin 7482, New Zealand.
3 NIAB, New Road, East Malling, Kent ME19 6BJ, United Kingdom.

Contact the author*

Keywords

grape tissues, mDP, Pinot noir, tannin extractability

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Metabolomic fingerprint changes during the alcoholic fermentation at industrial level of Muscat of Alexandria grape must

Muscat of Alexandria is one of the oldest cultivars still existing, globally recognized for its distinctive aroma, and the primary grape variety cultivated in the Greek Island of Lemnos, yielding various white wines with designated origins.

Development of novel drought-tolerant grape cultivars from Monastrell: enhancing anthocyanin and flavonol content under elevated temperatures

The ongoing challenge of climate change is driving the need for novel oenological approaches aimed at finding effective environmental solutions.

Development of a new lab-scale carbonation method for applications to sparkling wines

Carbon dioxide (CO2) is the gaseous species responsible for the sparkle in all sparkling wines, influencing their
visual appearance, aromas and mouthfeel.

Chemical characterization of distinctive aroma profiles of Valpolicella and Amarone wines

Valpolicella is an Italian wine producing region, famous for the production of high-quality red wines. A distinctive characteristic of this region is the extensive use of post-harvest withering.

Peptidomics in the wine industry: literature perspectives on functional importance and analytical methods

Winemaking is a globally significant industry in the field of food technology (218 mhL of wine estimated for 2024 harvest) [1], which activity produces tons of by-products annually, including pomace (pulp, stems, seeds, skins), lees, organic acids, CO2, and water [2].