terclim by ICS banner
IVES 9 IVES Conference Series 9 FOURIER TRANSFORM INFRARED SPECTROSCOPY IN MONITORING THE WINE PRODUCTION

FOURIER TRANSFORM INFRARED SPECTROSCOPY IN MONITORING THE WINE PRODUCTION

Abstract

The complexity of the wine matrix makes the monitoring of the winemaking process crucial. Fourier Transform Infrared Spectroscopy (FTIR) along with chemometrics is considered an effective analytical tool combining good accuracy, robustness, high sample throughput, and “green character”. Portable and non-portable FTIR devices are already used by the wine industry for routine analysis. However, the analytical calibrations need to be enriched, and some others are still waiting to be thoroughly developed. For this reason, an extended literature review took place identifying gaps for further research meeting the needs of the modern wine industry (Thanasi et al., 2022). The methodology that was followed was based on grouping the different studies according to the main sampling material used – 1) leaves, stems, and berries; 2) grape musts; 3) wines. For each sampling material the studies were categorized in terms of 1) main aim of the analysis; 2) type of sample; 3) sample preparation mode;4) wavenumber range (/cm); 5) spectral pre-treatment; 6) statistical method.

The most important findings were: 1) the different sample preparation modes can influence the spectra;

2) a limited number of samples (less than 100 in most cases) was used and the validation took place with cross-validation tests; 3) the developed models were not applied to different grapevine cultivars, har- vests, and types of wines; 4) many developed methods were focused on a specific oenological parameter or chemical compound or a specific stage of the winemaking process; 5) compounds with a concentration higher than 1 g/L are easier to be determined by FTIR; 6) the complexity of the wine matrix and the chemical similarity of the compounds under study makes the interpretation of the spectra very difficult due to several interferences.

1. Thanasi V., Catarino S., Ricardo-da-Silva J., 2022. Fourier-Transform Infrared Spectroscopy in monitoring the wine produc-tion. Ciência Téc. Vitiv., 37(1), 77-99. https://doi.org/10.1051/ctv/ctv2022370179

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Vasiliki Thanasi¹, Sofia Catarino1,2, Jorge Ricardo-da-Silva¹

1.LEAF – (Linking Landscape Environment Agriculture and Food ) Research Center, Instituto Superior de Agronomia, Univer-sidade de Lisboa, Tapada da Ajuda, 1349-017 Lisboa, Portugal.
2.CeFEMA – (Centre of Physics and Engineering of Advanced Materials) Research Center, Instituto Superior Técnico, Univer-sidade de Lisboa, Av. Rovisco Pais, 1, 1049-001 Lisboa, Portugal.

Contact the author*

Keywords

FTIR spectroscopy, wine, quality control, authenticity assessment

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

INFLUENCE OF THE THICKNESS OF OAK ALTERNATIVES ON THE COMPOSITION AND QUALITY OF RED WINES

Aging red wines in oak barrels is an expensive and laborious process that can only be applied to wines with a certain added value. For this reason, the use of oak alternatives coupled with micro-oxygenation has progressively increased over recent years, because it can reproduce the processes taking place in the barrels more economically and quickly [1]. Several studies have explored how oak alternatives [2-5] can contribute to wine composition and quality but little is known about the influence of their thickness.

ENRICHMENT OF THE OENOLOGICAL MALDI-TOF/MS PROTEIN SPECTRA DATABASE FOR RELIABLE OENOLOGICAL YEAST AND BACTERIA IDENTIFICATION

The Matrix Assisted Laser Desorption/Ionization–Time-Of-Flight Mass Spectrometry (MALDI-TOF MS) technology is commonly used in food and medical sector to identify yeast or bacteria species isolated from a nutritive culture media. Since a decade, brewery and oenology industries have been attracted to this method which combines fast analysis times, reliability and low cost of analysis. Briefly, this method is based on the comparison of the MALDI-TOF/MS protein spectra of an isolated colony of yeast or bacteria with those contain in a manufacturer’s reference protein spectra database. Initiated in 2015, the creation of the first oenological mass spectra database has proved to be essential for increase quality of species identification.

BIOSORPTION OF UNDESIRABLE COMPONENTS FROM WINE BY YEAST-DERIVED PRODUCTS

4-Ethylphenol (EP) in wine is associated with organoleptic defects such as barn and horse sweat odors. The origin of EP is the bioconversion reaction of p-coumaric acid (CA), naturally present in grapes and grape musts by contaminating yeasts of the genus Brettanomyces bruxellensis.
Yeast cell walls (YCW) have shown adsorption capacities for different compounds. They could be applied to wines in order to adsorb either CA and/or EP and thus reduce the organoleptic defects caused by the contaminating yeasts.

MICROFLUIDIC PLATFORM FOR SORTING YEAST CELLS ACCORDING TO THEIR MORPHOLOGY

In this work we briefly present a microfluidic device aiming to sort yeast cells according to their morphology. The technology is based upon microfluidic chips made out of Polydimethylsiloxane and glass using soft lithography processes and replica molding. The microfluidic device was used for encapsulating single yeast cells in liquid droplets containing growth medium. Liquid droplet containing yeast cells were sorted using a real time imaging and decision-making process.

YEAST DERIVATIVE PRODUCTS: CHARACTERIZATION AND IMPACT ON RIBOFLAVIN RELEASE DURING THE ALCOHOLIC FERMENTATION

Light-struck taste (LST) is a wine fault that can occur in white and sparkling wines when exposed to light. This defect is mainly associated to the formation of methanethiol and dimethyl disulfide due to light-induced reactions involving riboflavin (RF) and methionine [1]. The presence of RF in wine is mainly due to the metabolism of yeast [2] which fermenting activity can be favoured by using yeast derivative products (YDPs) as nutrients. Nonetheless, a previous study showed the addition of YDPs before the alcoholic fermentation (AF) led to higher concentrations of RF in wines [3]. Due to the widespread use of YDPs in the winemaking process, this study aimed to understand the possible relation between the content of RF in wine and the YDP adopted as nutrient for AF.