terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Grapes aminoacidic profile: impact of abiotic factors in a climate change scenario

Grapes aminoacidic profile: impact of abiotic factors in a climate change scenario

Abstract

Amino acids play a crucial role in determining grape and wine quality [1]. Recently, research has suggested their metabolism is key to plant abiotic stress tolerance [2]. Therefore, the study of amino acid accumulation in grape berries and its response to environmental factors is of both scientific and economic importance. This study investigates the influence of increased temperature, reduced rainfall and the combination of both effects on the content and amino acidic profile of grapes cv. Monastrell from a goblet-trained conventional managed and rainfed vineyard located in Jumilla, (Murcia, southeastern Spain). For this purpose, open top chambers and rainout shelters simulated warming (~2-7 ºC, W) and rainfall reduction (~30%, RR).  A combination of both treatments (W+RR) was also used. Vines without top chambers or rainout shelters were considered as control (C). The experiment was established in February of 2023, and all vines were manually harvested at 28-09-2023. The aminoacidic identification and quantification were performed by HPLC analysis [3]. Total free (FAN), yeast-assimilable (YAN) and aromatic precursor (PAN) nitrogen content were calculated according to Valdés et al. [3]. The results were subjected to one-way (C vs W vs, RR vs C+W-RR) and two-way ANOVA (W, R and W*R effect) and Tukey’s test for comparison of means. No changes in the amino acid profile were found, and high proline and arginine levels, specially in W treatments, were observed, as previously was reported [4]. In fact, these compounds were the predominant amino acids in all treatments. Their concentrations reached 116.85, 96.26, 33.19, and 24.52 mgN/L, as well as 76.27, 55.77, 16.57, and 8.3 mgN/L in W-RR, W, C, and RR, respectively, accounting for about 50 % and 25 % of the total FAN. The concentrations of the remaining identified and quantified amino acids were far below of these two and lower than 2 mgN/L in all cases. FAN, YAN, PAN and Ammonia contents followed the WRR > W > C > RR trend, with significant differences observed between the first two treatments and the rest in all cases. The analysis of the combined effects of increase of temperature and rainfall reduction indicated a significant effect of these environmental factors on the contents of the parameters analyzed. W caused the highest percentage of differences between samples (more than 80% in all cases). However, probably due to the low rainfall during the season, the RR treatment resulted in minimal differences.

Acknowledgements

Project PID2021-124382OB-I00 funded by the Agencia Estatal de Investigación (MICINN/AEI/ ERDF, EU).

References

[1] Espinase Nandorfy, D., Watson, F., Likos, D., Siebert, T., Bindon, K. A., Kassara, S., Shellie, R. A., Keast, R., Francis, I. L. (2022). Aust. J. Grape Wine Res., 28, 621–637.

[2] Le Guan, B., Wu, B., Hilbert, G., Li, S., Gomès, E., Delrot, S., Dai, Z. (2017). Food Res. Int., 98, 2–9.

[3] Valdés, M. E., Talaverano, M. I., Moreno, D., Prieto, M. H., Mancha, L. A., Uriarte, D., Vilanova, M. (2019). Food Chem., 292, 24–31.

[4] Torres, N., Hilbert, G., Luquin, J., Goicoechea, N., and Antolín, M. C. (2017). J. Food Composit. Analys., 62, 51-62.

Publication date: June 4, 2025

Type: Poster

Authors

M. Esperanza Valdés Sánchez1,*, M. Victoria Alarcón Sánchez2, Laura Martín Blanco2 and María del Mar Alguacil García3

1 Centro de Investigaciones Científicas y Tecnológicas de Extremadura (CICYTEX), Instituto Tecnológico Agroalimentario de Extremadura (INTAEX). Avenida Adolfo Suárez, s/n. 06007 Badajoz (Spain).
2 Centro de Iniciativas Científicas y Tecnológicas de Extremadura (CICYTEX, Instituto de Investigaciones Agrarias Finca La Orden-Valdesequera. Ctra. A-V, Km372, 06187 Guadajira, Badajoz (Spain).
3 Centro de Edafologia y Biologia Aplicada del Segura (CEBAS). Campus Universitario de Espinardo. Espinardo. Murcia. E-30100 (Spain).

Contact the author*

Keywords

aminoacids, heat, drought, ‘Monastrell’

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Influence of protective colloids on tartrate stability, polysaccharide contents and volatile compound profile of a white wine

The tartaric salts precipitation is one of the main issues regarding wine instability 1. In addition to the well-known and deeply studied phenomena of potassium hydrogentartrate precipitation (KHT), the last decade has been increased the phenomena of calcium tartrate (CaT) precipitation, that is a concern for the wine industry 2.

Effect of bleaching with different agents on protein hydrolysate characteristics

High temperatures can reduce the phenolic content of grapes, especially anthocyanins and copigments involved in colour stabilisation of red wines [1]. This could make it difficult to maintain stable colour during storage [2].

Exploring the presence of oligopeptides in wines into identify possible compounds with umami or kokumi properties

Umami is defined as a pleasant and savory taste derived from glutamate, inosinate and guanylate, which are naturally present in meat, fish, vegetables and dairy products. The term “kokumi” refers to a complex flavour sensation, characterized by thickness, fullness and continuity.

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.

Studying the redox state of wines under oxidative processes with a multi-parametric analysis

The detection of reducing compounds such as phenolic acids, anthocyanins or tannins is of prime importance to decipher on the antioxidant and anti-aging properties of wines.