Isotope fingerprints: origin of tequila with GC coupled with Isotope Ratio Mass Spectrometry
Posters | 2019 | Thermo Fisher Scientific | RAFAInstrumentation
Tequila authenticity is crucial for regulatory compliance, consumer trust and prevention of economic fraud, given the beverage’s high demand and protected designation of origin.
This study aimed to establish isotope fingerprints based on carbon and oxygen ratios to distinguish pure Agave tequilana tequila from mixed versions containing sugar cane additives and to detect potential adulteration or mislabeling.
Sample preparation involved transferring 100 µL of distilled beverage into 2 mL vials and analyzing headspace ethanol via split/splitless injection. GC settings included an initial oven temperature of 110 °C, ramp at 5 °C/min to 140 °C, using helium carrier gas and specific split ratios.
The analytical system comprised a Thermo Scientific TRACE 1310 GC coupled with a GC IsoLink II IRMS Conversion Unit, ConFlo IV interface and DELTA V Isotope Ratio Mass Spectrometer, enabling fully automated high-temperature combustion and pyrolysis for δ13C and δ18O measurements.
Carbon isotope values (δ13C) from Agave tequilana (–12‰ to –14‰) and sugar cane feedstocks differ significantly, as do oxygen isotope signatures tied to regional rainfall. Mixed tequila samples cluster separately from pure agave tequila in the δ13C/δ18O plot, allowing clear identification of adulteration and sugar source attribution.
Advancements may include expanded isotope panels (e.g., hydrogen, nitrogen), coupling with other chromatographic techniques, and development of regional isotopic databases to refine geographic origin assessments across spirits and food products.
GC-IRMS delivers a robust, automated approach for tequila authenticity testing, distinguishing pure agave products from sugar-adulterated variants by leveraging characteristic carbon and oxygen isotope fingerprints.
1. Lopez MG. Authenticity: The Case of Tequila. In: Ebeler S, Takeoka GR, Winterhalter P, editors. Authentication of Food and Wine. American Chemical Society; 2006. p. 273–287.
2. Hernandez-Antonio A, et al. Hydrol. Earth Syst. Sci. 19 (2015) 3937–3950.
3. Aguilar-Cisneros BO, Lopez MG, Richling E, Heckel F, Schreier P. J. Agric. Food Chem. 50 (2002) 7520–7523.
4. Bauer-Christoph C, Christoph N, Aguilar-Cisneros BO, Lopez MG, Richling E, Roassman A, Schreier P. Eur. Food Res. Technol. 217 (2003) 438–443.
GC/MSD, GC/HRMS
IndustriesFood & Agriculture
ManufacturerThermo Fisher Scientific
Summary
Importance of the Topic
Tequila authenticity is crucial for regulatory compliance, consumer trust and prevention of economic fraud, given the beverage’s high demand and protected designation of origin.
Objectives and Study Overview
This study aimed to establish isotope fingerprints based on carbon and oxygen ratios to distinguish pure Agave tequilana tequila from mixed versions containing sugar cane additives and to detect potential adulteration or mislabeling.
Materials and Methods
Sample preparation involved transferring 100 µL of distilled beverage into 2 mL vials and analyzing headspace ethanol via split/splitless injection. GC settings included an initial oven temperature of 110 °C, ramp at 5 °C/min to 140 °C, using helium carrier gas and specific split ratios.
Instrumentation
The analytical system comprised a Thermo Scientific TRACE 1310 GC coupled with a GC IsoLink II IRMS Conversion Unit, ConFlo IV interface and DELTA V Isotope Ratio Mass Spectrometer, enabling fully automated high-temperature combustion and pyrolysis for δ13C and δ18O measurements.
Results and Discussion
Carbon isotope values (δ13C) from Agave tequilana (–12‰ to –14‰) and sugar cane feedstocks differ significantly, as do oxygen isotope signatures tied to regional rainfall. Mixed tequila samples cluster separately from pure agave tequila in the δ13C/δ18O plot, allowing clear identification of adulteration and sugar source attribution.
Benefits and Practical Applications
- Ensures regulatory compliance with NAFTA and EU standards.
- Provides rapid, reproducible screening for product purity in QA/QC laboratories.
- Supports supply chain verification and protection against economically motivated adulteration.
Future Trends and Opportunities
Advancements may include expanded isotope panels (e.g., hydrogen, nitrogen), coupling with other chromatographic techniques, and development of regional isotopic databases to refine geographic origin assessments across spirits and food products.
Conclusion
GC-IRMS delivers a robust, automated approach for tequila authenticity testing, distinguishing pure agave products from sugar-adulterated variants by leveraging characteristic carbon and oxygen isotope fingerprints.
References
1. Lopez MG. Authenticity: The Case of Tequila. In: Ebeler S, Takeoka GR, Winterhalter P, editors. Authentication of Food and Wine. American Chemical Society; 2006. p. 273–287.
2. Hernandez-Antonio A, et al. Hydrol. Earth Syst. Sci. 19 (2015) 3937–3950.
3. Aguilar-Cisneros BO, Lopez MG, Richling E, Heckel F, Schreier P. J. Agric. Food Chem. 50 (2002) 7520–7523.
4. Bauer-Christoph C, Christoph N, Aguilar-Cisneros BO, Lopez MG, Richling E, Roassman A, Schreier P. Eur. Food Res. Technol. 217 (2003) 438–443.
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