نبذة مختصرة : Barley wine is one of the most chemically complex and historically significant beer styles, yet its molecular composition remains largely unknown. This study aims to create the first detailed molecular framework for understanding the chemical diversity of barley wine and cereal wines. The chemical diversity of barley wines and related “cereal wines” made from wheat, oats, and rye, including barrel-aged varieties, is examined using 1H nuclear magnetic resonance (NMR) metabolomics. Distinct cereal-dependent signatures were revealed by multivariate analyses. High levels of fusel alcohols and phenolic acids were present in barley wines. Elevated levels of pyruvate and aromatic amino acids were found in wheat wines, and high levels of maltodextrin, arabinose, and trigonelline were found in oat and rye wines. A comparison of sub-styles showed that English and American barley wines were different based on ester and complex sugar profiles. Barrel aging introduces changes dependent on the barrel’s origin. A reliable classification of barrel origin was allowed for by a decision tree with four diagnostic metabolites—5-hydroxymethylfurfural (HMF), acetaldehyde, mannose, and tryptophan. The way in which raw materials, fermentation conditions, and the reuse of barrels collectively influence their metabolomes is exemplified. Verifying the authenticity of beer, evaluating its quality, and generating new ideas for high gravity brewing are all cases in point for this approach.
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