Macrowine 2021
IVES 9 IVES Conference Series 9 A preliminary study of clonal selection in cv. Viura in relation to varietal aroma profile

A preliminary study of clonal selection in cv. Viura in relation to varietal aroma profile

Abstract

Viura is a synonym for Macabeo and currently it is the most widely planted white grape variety in D.O.Ca. Rioja, with 3,569 ha, representing 84% of the white grape cultivated area. It is a generous-yielding grape, presenting low values of titratable acidity and with large and compact clusters which makes it susceptible to Botrytis cinerea. Thus, this variety not always satisfies the wine grower’s prospects. Nowadays, the available plant material is scarce, moreover, it was selected on the basis of other quality criteria, not currently requested. Cv. Viura is suitable to elaborate white dry wines and also sparkling wines together with other varieties. Floral and fruity aromas are the ones more representative of cv. Viura, although they appear with a medium level intensity. Grape volatile composition is one of the most important parameters determining must and wine quality. Wine aroma is formed by volatile compounds of different chemical natures and origins and they vary as a function of several factors, being the variety a key factor. For it, in order to characterize the aroma profile of cv. Viura and provide to the market new certified plant material, a clonal selection with 106 clones of cv. Viura was carried out. These clones, belonging to different cultivated areas of D.O.Ca Rioja, were planted in a comparative field of clones. Agronomical and technological characteristics were evaluated during three consecutive years, selecting on the basis of these parameters 41 clones that showed low production and high values of titratable acidity. The volatile compounds of these clones were analyzed by HS-SPME-GC-MS. The results showed that C6 compounds, norisoprenoids and terpenoids were the most representative in cv. Viura, showing C-6 compounds a great variability within clones. Concerning each group, 24% of the studied clones highlighted by presenting a higher content of C6 alcohols in relation to their average content, being the most representative compounds (E)-2-hexenal, hexanal and 1-hexanol. These compounds, depending on its concentration, can have a detrimental effect on wine quality due to their grassy and herbaceous odors. Approximately the 50% of clones exhibited a higher content of norisoprenoids and terpenoids in relation to their average content. (E)-β-damascenone, β-ionone and (Z)-β-damascenone were the most abundant norisoprenoids compounds and linalool, nerol oxide and α-terpineol the most abundant terpenoids. Both, norisoprenoids and terpenoids are among the most odoriferous groups of compounds, emitting floral scents which allow characterize the varietal aroma. Sixteen clones out of forty one presented the highest content of these two positive groups of compounds, being considered the ones with the better varietal aroma profile. These results obtained can be of great interest to wine sector due to the increase of supplied certified plant material of this variety which contributes to improve its wines quality.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Ana Gonzalo-Diago*, Elisa Baroja, Enrique García-Escudero, Estela Terroba-Pérez, Juana Martínez

*ICVV

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Impact of glutathione and elemental sulphur juice addition on the volatile thiol production in South African Sauvignon blanc wine

Three compounds, 3-mercaptohexanol (3MH), 3-mercaptohexyl-acetate (3MHA) and 4-mercapto-4-methylpentan-2-one (4MMP), also known as varietal thiols, have been identified to contribute positively to wine aroma and are responsible for the distinct gooseberry, grapefruit, guava and box tree character found in Sauvignon blanc wines. Certain volatile thiol compounds though, can cause off-aromas of onion, garlic, rubber and rotten egg, this group of molecules is known as reductive sulphur compounds (RSC). This study looks into how the addition of sulphur-compounds to Sauvignon blanc juice contributes to the varietal thiol (3MH and 3MHA) concentration and reductive sulphur compound concentration in South African Sauvignon blanc wine.

To a better understanding of the impact of vine nitrogen status on volatile thiols from plot to transcriptome level

Volatile thiols contribute largely to the organoleptic characteristics and typicity of Sauvignon blanc wines. Among this family of odorous compounds, 3-sulfanylhexan-1-ol (3SH) and 4-methyl-4-sulfanylpentan-2-one (4MSP) have a major impact on wine flavor. These thiols are formed during alcoholic fermentation by the yeast from odorless and non-volatile precursors found in the berry and the must. The effect of vine nitrogen status on 3SH and 4MSP in Sauvignon blanc wine and on the glutathionylated and cysteinylated precursors of 3SH (Glut-3SH and Cys-3SH) was investigated in this study.

Defining the mechanisms and impact of winemaking treatments on tannin and polysaccharides in red wine: recent progress in creating diverse styles

Tannin and polysaccharide concentration and composition is important in defining the texture of red wines, but can vary due to factors such as cultivar, region, grape ripeness, viticultural practices and winemaking techniques. However, the concentration and composition of these macromolecules is dependent not only on grape tannin and polysaccharide concentration and composition, but also their extractability and, in the case of polysaccharides, their formation by yeast. Through studies into the influence of grape maturity, winemaking and sensory impacts of red grape polysaccharides, seed and skin tannins, recent research in our laboratory has shown that the processes involved in the extraction of these macromolecules from grapes and their retention in wine are very complex.

Colour assessment of port wines using colorimetric and spectrophotometric methods

Colour is an important quality parameter in wines and is the result of a complex mixture of pigments
(including anthocyanins and their derivatives, quinones, xanthyllium compounds, etc.). Red wine colour changes over time as pigments react between themselves and with other wine macromolecules
(particularly polyphenols). During wine tasting, colour is normally assessed on the outer rim of the wine profile in a tilted glass, since most wines are too opaque to be analysed in the middle of the glass. Therefore, depending on the depth of observation considered, the perception of wine colour can be different.

Cover crops influence on soil N availability and grapevine N status, and its relationship with biogenic

The type of soil management, tillage versus cover crops, can modify the soil microbial activity, which causes the mineralization of organic N to NO3–N and, therefore, may change the soil NO3–N availability in vineyard. The soil NO3–N availability could influence the grapevine nutritional status and the grape amino acid composition. Amino acids are precursors of biogenic amines, compounds mainly formed during the malolactic fermentation. Biogenic amines have negative effects on consumer health and on the wine organoleptic quality. The objective was to study if the effect of conventional tillage and two different cover crops (leguminous versus gramineous) on grapevine N status, could relate to the wine biogenic amines composition.