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- FT-Raman methodology applied to identify different ageing stages of wine spiritsPublication . Anjos, O.; Caldeira, Ilda; Pedro, Soraia; Canas, SaraDuring the ageing process of wine spirits several phenomena occur, which are responsible for the final quality of the beverage. This work aimed to discriminate the aged wine spirits according to the wood species, ageing technology and ageing time using FT-Raman methodology. For this purpose, the same Lourinhã wine distillate aged in 250-L wooden barrels of Limousin oak wood (L) and chestnut wood (C) separately and used together (L + C), was monitored through FT-Raman during the first 12 months of ageing. This technique was also applied to the same wine distillate aged in stainless steel tanks with staves of the same kinds of wood and during the same period. FT-Raman allows separating the wine spirits according to the different wood species and ageing time. This technique seems to be a promising tool to monitor the ageing process of wine spirit through different technologies.
- Application of functional data analysis and FTIR-ATR spectroscopy to discriminate wine spirits ageing technologiesPublication . Anjos, O.; Martínez Comesaña, Miguel; Caldeira, Ilda; Pedro, Soraia; Eguía Oller, Pablo; Canas, SaraFourier transform infrared spectroscopy (FTIR) with Attenuated Total Reflection (ATR) combined with functional data analysis (FDA) was applied to differentiate aged wine spirits according to the ageing technology (traditional using 250 L wooden barrels versus alternative using micro-oxygenation and wood staves applied in 1000 L stainless steel tanks), the wood species used (chestnut and oak), and the ageing time (6, 12, and 18 months). For this purpose, several features of the wine spirits were examined: chromatic characteristics resulting from the CIELab method, total phenolic index, concentrations of furfural, ellagic acid, vanillin, and coniferaldehyde, and total content of low molecular weight phenolic compounds determined by HPLC. FDA applied to spectral data highlighted the differentiation between all groups of samples, confirming the differentiation observed with the analytical parameters measured. All samples in the test set were differentiated and correctly assigned to the aged wine spirits by FDA. The FTIR-ATR spectroscopy combined with FDA is a powerful methodology to discriminate wine spirits resulting from different ageing technologies.
- Study of odorant compounds and sensory changes associated with wine spirit ageing using chestnut wood and Limousin oak under different technologiesPublication . Caldeira, Ilda; Anjos, O.; Vitória, Cláudia; Fernandes, Tiago A.; Catarino, Sofia; Canas, SaraWine spirit, resulting from wine distillation, usually undergoes ageing in wood before being marketed. Traditionally, the oak wood, especially from the French region of Limousin (mostly Quercus robur L.), is used for manufacturing the barrels for this purpose.
- Influence of the storage in bottle on the antioxidant activities and related chemical characteristics of wine spirits aged with chestnut staves and micro-oxygenationPublication . Alves, Sheila Oliveira; Lourenço, Sílvia; Anjos, O.; Fernandes, Tiago A.; Caldeira, Ilda; Catarino, Sofia; Canas, SaraDifferent ageing technology of wine spirits (WSs) has been investigated, but little has been published on the chemical evolution of aged WS during storage in bottle. The purpose of this study was to examine how 12 months of storage in bottle affected the evolution of antioxidant activity (DPPH, FRAP and ABTS assays), total phenolic index (TPI) and low molecular weight (LMW) compounds content of the WSs aged through alternative technology using three micro-oxygenation levels (MOX) and nitrogen control (N). Results revealed the ability of phenolic compounds from aged WSs to scavenge free radicals during storage in bottle. Among the in vitro antioxidant-activity methods, FRAP assay was the more effective to differentiate WSs according to the ageing technology. Concerning the overall influence of storage in bottle on antioxidant activity, and TPI and LMW compounds content, the higher results were obtained for the MOX modalities (O15, O30 and O60), which showed a similar evolution. In summary, this study provides innovative information, demonstrating that the differences between the aged WSs imparted throughout the ageing process (resulting from different MOX levels) were mostly retained, and only slight modifications during storage in bottle were found.
- Single-laboratory validation of determination of acetaldehyde, ethyl acetate, methanol and fusel alcohols in wine, spirits, brandies and grape marc spirits using GC-FIDPublication . Luís, Ana das Neves; Mota, Deolinda; Anjos, O.; Caldeira, IldaThis work presents the determination of principal volatile compounds (acetaldehyde, ethyl acetate, methanol, 2-butanol, 1-propanol, 2-methyl- 1-propanol, 2-propen-1-ol, 1-butanol, 2-methyl-1-butanol and 3-methyl-1-butanol) in wine spirits, brandies and grape marc spirits by GC-FID. The method was evaluated in terms of suitability of chromatographic system, accuracy, precision, linearity and detection and quantifi cation limits. The method showed good accuracy for the majority of the compounds and it presented linearity and precision for all compounds. Based on these results the method seems suitable for quality control of marc spirits and wine spirits.
- The interplay of bottle storage and wood ageing technology: Volatile and sensory profiles of wine spirits aged with chestnut woodPublication . Caldeira, Ilda; Anjos, O.; Vitória, Cláudia; Alves, Sheila Oliveira; Fernandes, Tiago A.; Canas, Sara; Catarino, SofiaWine spirits are typically aged in wooden barrels. Recently, alternative ageing technologies, such as those using wood fragments in wine spirits stored in stainless steel tanks, have been investigated. However, a signifcant lack of information regarding the potential evolution of these beverages after bottling still remains. This study assessed the 12-month evolu tion of aroma in bottled wine spirits aged with chestnut wood using diferent technologies, including fragment application with several micro-oxygenation strategies and barrels (traditional). Chemical analysis using GC-FID and GC–MS methods, along with sensory analysis, was conducted on all sampled aged wine spirits. Signifcant changes in volatile compounds were detected over time, including volatile phenols, acids, and esters. Multivariate data analysis distinguished traditional and alternative aged samples, with slight sample discrimination based on bottle storage. Regarding the sensory results, a signifcant efect of the time in bottle in several sensory attributes was found, while the ageing technologies mainly afected the gustatory attributes. The tasters were also asked to rate the overall quality of the samples, which seems to be favoured by the time in the bottle. This initial assessment of the impact of 1 year of glass bottle storage on the volatile and sensory composition of aged wine spirits highlights that this stage must be considered as an additional technological factor in their production process. However, the diferences induced by the wood ageing technologies applied remained evident after 1 year of glass bottle storage.
- Screening of different ageing technologies of wine spirit by application of Near-Infrared (NIR) Spectroscopy and volatile quantificationPublication . Anjos, O.; Caldeira, Ilda; Roque, Rita; Pedro, Soraia; Lourenço, Sílvia; Canas, SaraScreening of different ageing technologies of wine spirit by application of Near-Infrared (NIR) Spectroscopy and volatile quantification.
- Wine spirit ageing with chestnut staves under different micro-oxygenation strategies: effects on the volatile compounds and sensory profilePublication . Caldeira, Ilda; Vitória, Cláudia; Anjos, O.; Fernandes, Tiago A.; Gallardo, Eugenia; Fargeton, Laurent; Boissier, Benjamin; Catarino, Sofia; Canas, SaraThe purpose of this work is to evaluate the wine spirit aged by an alternative process (staves combined with different micro-oxygenation levels) and its comparison with the traditional process (wooden barrels). This evaluation was made by analyzing the volatile compounds and sensory profile of the spirits during 365 days of ageing. The findings confirmed the role played by oxygen in the volatile profile of aged wine spirits. Samples of alternative ageing modalities were well distinguished from those of wooden barrels based on the volatile profile, namely on the concentrations of several volatile phenols. From a sensory point of view, the results are promising with high overall consistency scores obtained from samples of alternative ageing process modalities.
- Antioxidant ativities of wine spirits aged by a sustainable technology using chestnut wood staves and micro-oxygenationPublication . Alves, Sheila Oliveira; Lourenço, Sílvia; Anjos, O.; Caldeira, Ilda; Fernandes, Tiago A.; Catarino, Sofia; Canas, SaraAntioxidant ativities of wine spirits aged by a sustainable technology using chestnut wood staves and micro-oxygenation.
- Phenolic profile and colour acquired by the wine spirit in the beginning of ageing : alternative technology using micro-oxygenation vs traditional technologyPublication . Canas, Sara; Caldeira, Ilda; Anjos, O.; Belchior, A. PedroAlternative technologies have been extensively investigated towards a more sustainable ageing of red wine, but few studies were made on wine spirits. Moreover, the effect of micro-oxygenation on wine spirits’ ageing is still unknown. This work examined the effect of micro-oxygenation and wood staves applied in 1000 L stainless steeltanksversus250 L wooden barrels on the phenolic composition and chromatic characteristics acquired by the wine spirit over the first six months of ageing. Two different kinds of wood, Limousin oak and chestnut, were used. Significantly higher total phenolic content and individual contents of low molecular weight phenolic compounds (syringic acid, ellagic acid, vanillin, syringaldehyde, coniferal dehyde, sinapaldehyde and umbelli-ferone) were obtained with micro-oxygenation and staves than with barrels, for both kinds of wood. Accordingly, greater colour evolution (lower lightness, higher saturation and higher intensities of red, yellow and brown hues) was achieved in the former. These results were ascribed to a faster extraction and its balance with several phenomena involving the wood-derived compounds in the specific environment created by the direct supply of oxygen. A synergistic effect between the alternative technology and the chestnut wood was also observed.