Whiskey ‘fingerprints’ may prevent counterfeits
Chemists create chemical profiles of 60 whiskeys based on the variations of the grains and distilling processes used in manufacturing the popular spirits.
The chemical profiles could help provide quality assurance and process improvement to whiskey makers—ranging from boutique or micro distillers to large corporate distillers. Such chemical fingerprinting also could help discourage and detect counterfeit and fraud, especially for expensive scotch whiskies, exported from Scotland throughout the world.
Their findings were presented at the national meeting of the American Chemical Society in Indianapolis by Thomas Collins, director of the University of California, Davis, Food Safety and Measurement Facility.
“Additionally, chemical profiles may help speed up production, which could be especially beneficial to the small, craft distilleries,” Collins says, noting that it is hard to launch a new business when the product needs to be aged for three to four years or more.
Whiskey, or “whisky” as it is spelled in the United Kingdom and elsewhere, includes a group of alcoholic beverages made by distilling fermented grain mash. Grains used to make whiskey include barley, rye, corn, and wheat. Following distillation, whiskey, with the exception of corn whiskey, is aged in wooden barrels, traditionally made of charred white oak.
Whiskeys produced in the United States include rye whiskey, corn whiskey, malt whiskey, and bourbon whiskey.
Some of the aromas and flavors of whiskeys are established by volatile compounds (those that readily vaporize) produced during the distillation process. Other nonvolatile compounds, however, are drawn from the oak casks during aging and cause changes in the whiskey’s flavor, color, and mouth-feel.
In this new study, Collins and his colleagues evaluated the nonvolatile chemicals found in bourbons and other American whiskeys. Their goal was to differentiate among straight bourbon whiskeys, rye whiskeys, and other American whiskeys.
Sixty whiskeys were selected for the study, including 38 straight bourbon whiskeys, 10 rye whiskeys, five Tennessee whiskeys, and seven other American whiskeys. Each had been aged from two to 15 years.
The chemical analyses indicated that the bourbons were readily differentiated from some Tennessee whiskeys and American blended whiskeys, but were not well separated from rye whiskeys, many of which were produced in distilleries that also make bourbon whiskeys.
“In some of those whiskeys, the distillery’s chemical fingerprint overrides the differences caused by the grains,” Collins says.
The researchers found that the compounds that were important for differentiating among the whiskeys included oak-related polyphenols, fatty acids and alcohols, and flavonoid glycosides.
Other researchers on the project were Susan Ebeler, a UC Davis professor of viticulture and enology, and Jerry Zweigenbaum, a scientist with Agilent Technologies.
Agilent Technologies, which provided instrumentation for the Food Safety and Measurement Facility, supported the study.
Source: UC Davis
You are free to share this article under the Creative Commons Attribution-NoDerivs 3.0 Unported license.