terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Vine science and link with grape and wine quality 9 Effects of urea and nano-urea foliar treatments on the aromatic profile of Monastrell wines

Effects of urea and nano-urea foliar treatments on the aromatic profile of Monastrell wines

Abstract

Foliar application of urea has proven to be an effective method for increasing the amino acid content in grapes, especially when the vineyard has additional nitrogen needs. These treatments can prevent problems of stucking fermentation during winemaking. Furthermore, the synthesis of different aromatic compounds in wine is partially related to the content of different amino acids in must.

In this work, the effect over wine aromatic profile of foliar treatments with urea and nano-urea in Monastrell vineyards during two vintages, 2020 and 2021, was studied. Foliar treatments were applied at veraison and one week later: i) Control (water), ii) urea and iii) nano-urea. The aromatic profile of wines was analysed by solid phase microextraction (SPME) coupled to a gas chromatograph, using the methodology of Moreno-Olivares [1]. An organoleptic analysis was carried out in order to check whether there were organoleptic differences between control wines and those from the treatments.

Regarding to the results, in 2020 there was no clear effect of the treatments on the aromatic composition of wines, with a decrease in total aromatic concentration with respect to control wine in both treatments, being 14% for urea and 6% for nano-urea. This fall was mainly due to the lower values found in the alcohol family. In contrast, fruity esters were not affected in the urea treatment and increased in the nano-treatment by 12%. On the other hand, 3-methyl-thio-1-propanol was lower for the urea treatment by 17% and unchanged for the nano-treatment.

In 2021 for urea treatment, the effects were opposite to previous year, total aromas were increased by 24%, mainly due to the increment in alcohol family. Moreover, fruity esters were also increased. However, the behaviour of wines from grapes treated with nano-urea was very similar to that obtained in 2020, showing a 5% decrease in total aromatic composition. Both treatments presented a reduction in 3-methyl-thio-1-propanol compared to control wine, being 16% for urea and 51% for nano-urea treatment.

Finally, during the two years of the study, the organoleptic analysis showed no significant differences between the control wines and the wines from the treated grapes.

In conclusion, the aromatic profile of wines from grapes treated with urea and nano-urea revealed small changes, these variations were dependent on both vintage and treatment, also the sensory characteristics of wines were not modified.

References

[1] Moreno-Olivares, J.D., Giménez-Bañón, M.J., Paladines-Quezada, D.F., Gómez-Martínez, J.C., Cebrián-Pérez, A., FernándezFernández, J.I., Bleda-Sánchez, J.A., Gil-Muñoz, R.(2020). Molecules, 25, 3917.

Publication date: June 5, 2025

Type: Poster

Authors

María José Giménez-Bañón1,*, Juan Daniel Moreno-Olivares1, Juan Antonio Bleda-Sánchez1, Ana Cebrian-Pérez1, Belén Parra-Torrejón2, Gloria Belén Ramírez-Rodríguez2, José Manuel Delgado-López2 and Rocío Gil-Muñoz1

1 Murcian Institute of Agricultural and Environment Research and Development (IMIDA), Ctra. La Alberca s/n, 30150 Murcia, Spain
2 Department of Inorganic Chemistry, Faculty of Science, University of Granada, 18071 Granada, Spain

Contact the author*

Keywords

fertilizer, vineyard, nanotechnology, grape

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Understanding novel germplasm solutions: sensory, chemical and preliminary hedonic insights of wines made from Australian first-generation mildew resistant cultivars

One of the major issues for wine production in Australia is the management and eradication of powdery and downy mildews and the associated yield losses they present, costing Australian grape growers upwards of AUD$160M per annum [1].

Solid Rectified Concentrated grape Must (SRCM) in sparkling wines production: studying the sensory impact of an innovative sugar substrate

The production of sparkling wines requires sugars for the second fermentation. The Solid Rectified Concentrated Must (SRCM) is a water free crystalline form of grape sugar, offering a purer, more stable, and easier-to-use alternative to the liquid Rectified Concentrated Must (RCM).

Exploring the inhibitor effect of different commercial chitosan-based preparations on malolactic fermentation in rosé wine

Chitosan is a natural polymer of β-D-linked N-acetyl-D-glucosamine units (1,2), that has only recently been approved by OIV for its use in winemaking to help with microbial control, metal chelation, clarification, and reducing contaminants.

Effect of ozone treatments in wine production on colour traits, volatile composition, and sensory characteristics of young and short-term aged white wines

The main aim of WiSSaTech project (PRIN P2022LXY3A),supported by the Italian Ministero dell’Università e della Ricerca and European Union-NextGenerationEU, is to investigate eco-friendly and safe alternatives to sulphur dioxide (SO2) in wine production.

Flavonol and anthocyanin potential of Spanish minority grapes and its relationship with wine colour

Global climate change is currently affecting vine phenology and causing a decoupling between technological and phenolic maturity of the grapes [1]. Wine industry has to face the challenge of making quality wines from grapes with an unbalanced phenolic composition.