terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Sensory properties: psychophysics, experimental economy, connections with neurosciences 9 The impact of ethyl esters, monoterpenes and volatile thiols to the perception of tropical fruit aromas in white wines

The impact of ethyl esters, monoterpenes and volatile thiols to the perception of tropical fruit aromas in white wines

Abstract

Many varietal white wines have aroma qualities that incorporate various tropical fruit aromas. These tropical fruit aromas are found to be considered positive qualities of the wines with consumers having positive emotional responses [1]. In previous work, it has been found that combinations of ethyl esters, ethyl esters and thiols and monoterpenes, can cause tropical fruit aromas in white wines [2,3,4]. However, it is unknown if these aromas are similar or if they correspond to different tropical fruit characteristics. This work aimed to determine if the perceived aromas from these different chemical combinations resulted in various tropical fruit aromas. It is also known that individuals with greater exposure to specific aromatics can discern and evaluate them better than those with limited exposure. Therefore, this work also looked to compare consumers based on their exposure and familiarity with different tropical fruits. Reconstitution studies of different combinations and concentrations of the compounds of interest, ethyl esters, monoterpenes and volatile thiols were created in a base Pinot gris wine. Descriptive analyses were conducted on two groups of wine consumers: those with great exposure to tropical fruits and the ability to differentiate and identify various kinds of tropical fruits, and those without such exposure and ability. Results showed that these compound combinations did result in different tropical fruit aromas, although not all treatments were perceived differently and that the consumer groups were different in their description of the wines. This work builds on understanding the causation of aromas in wine, which in turn can help with production decision-making and the choice of processing to obtain specific wine styles.

References

[1] Lucas, C., Iobbi, A., de Matos, A.D., Tomasino, E. (2023) Food Res Int, 174, 113496.

[2] Iobbi, A., Di, Y., Tomasino, E. (2023) Heliyon, 9(1), e12862

[3] Chigo-Hernandez, M.M., Tomasino, E. (2023) Foods, 12(12), 2389

[4] Chigo-Hernandez, M.M., DuBois, A., Tomasino, E. (2022) Fermentation, 8(1), 30.

Publication date: June 5, 2025

Type: Oral communication

Authors

Camilla Sartori1, Angelica Iobbi1, Elizabeth Tomasino1,*

1 Oregon State University, USA

Contact the author*

Keywords

aroma intensity, discriminant analysis, causation, wine consumers

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Sensory quality of wines as a trait in MAS grape vine breeding – sensory insights from multiple vintages in a F1 breeding population

In the context of the three global crises of global warming, loss of biodiversity and environmental pollution, current agricultural practices need to be reconsidered [1]. Viticulture in particular can contribute to this by optimising plant protection [2].

Evolution of oak barrels C-glucosidic ellagitannins in model wine solution

Oak wood has a significant impact on the chemical composition of wine, leading to transformations that influence its organoleptic properties, such as its aroma, structure, astringency, bitterness and color. Among the main extractible non-volatile polyphenol compounds released from oak wood, the ellagitannins are found [1].

Exploring non-Saccharomyces wine yeasts native from Castilla-La Mancha (Spain) to enhance bioprotection and quality of wines

The current tendency to reduce SO2 in winemaking, due to its adverse effects in sensitive individuals [1], has led to the development of new techniques to mitigate SO2 absence and to exert the same antimicrobial and antioxidant effects.

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].

Identification of compounds produced by reactions of flavonoids and acetaldehyde in wine

During aging, wine consumes small amounts of oxygen. This oxygen intake triggers a series of reactions that lead to flavonoid elongation, which is known to reduce bitterness and astringency while enhancing color stability.