Kercher Mirella Mallmann, de Oliveira Caballero Bruna Fernanda, Maraschin Marcelo, Moura Sidnei
Laboratory of Biotechnology of Natural and Synthetics Products, Technology Department, Biotechnology Institute, University of Caxias do Sul, 1130 Francisco Getúlio Vargas st, Caxias do Sul, CEP 95070-560 Brazil.
Plant Morphogenesis and Biochemistry Laboratory, Federal University of Santa Catarina, Florianópolis, Brazil.
Food Sci Biotechnol. 2024 Dec 21;34(11):2433-2444. doi: 10.1007/s10068-024-01781-z. eCollection 2025 Jul.
The wine market is experiencing rapid growth and there is increasing interest in determining the geographical origin of wine. This information improves the consumer's perception of quality. Analytical tools using validated methodologies with up-to-date databases such as nuclear magnetic resonance (NMR), isotope ratio mass spectrometry (IRMS) and high-resolution mass spectrometry (HRMS) are essential for wine authentication. NMR helps identify the chemical composition and origin of wines, offering high reproducibility and the ability to detect multiple metabolites simultaneously. IRMS determines the origin of wine based on carbon and oxygen isotope ratios, reflecting the climate and growing conditions of a region. HRMS identifies compounds and secondary metabolites in wine samples. These techniques should be used together to ensure accurate and reliable results. This review provides information on these spectroscopic techniques and their applications in wine analysis and authentication, highlighting their advantages and disadvantages.
葡萄酒市场正在经历快速增长,人们对确定葡萄酒的地理来源越来越感兴趣。这些信息提升了消费者对葡萄酒品质的认知。使用经过验证的方法和最新数据库的分析工具,如核磁共振(NMR)、同位素比率质谱(IRMS)和高分辨率质谱(HRMS),对于葡萄酒鉴定至关重要。核磁共振有助于识别葡萄酒的化学成分和产地,具有高重现性且能同时检测多种代谢物。同位素比率质谱根据碳和氧同位素比率确定葡萄酒的产地,反映一个地区的气候和生长条件。高分辨率质谱识别葡萄酒样品中的化合物和次生代谢物。这些技术应结合使用以确保结果准确可靠。本综述提供了有关这些光谱技术及其在葡萄酒分析和鉴定中的应用的信息,突出了它们的优缺点。