Carbon isotope ratio of organic acids in sake and wine by solid-phase extraction combined with LC/IRMS

Discrimination for sake brewing methods by compound specific isotope analysis and formation mechanism of organic acids in sake

Organic acids in sake affect its aroma and color and help control the activity of microorganisms. This study used liquid chromatography coupled with isotope ratio mass spectrometry and solid-phase extraction to determine the stable carbon isotope ratios (δ¹³C) for malic acid, lactic acid, and succinic acid in 49 sake samples. The mean δ¹³C of lactic acid was -25.6 ± 2.1‰ in kimoto samples and -20.2 ± 2.5‰ in sokujo sample. According to linear discriminant analysis using δ¹³C of lactic acid, 87.8% of kimoto and sokujo samples were correctly identified. The proportion of brewers' lactic acid in sake could be calculated from the δ¹³C value of lactic acid for the first time. The productions of malic acid and succinic acid may be conducted by some kinds of fermentation and the mechanism of the tricarboxylic acid cycle by using δ¹³C of malic acid and succinic acid.

Carbon and Nitrogen Isotopic Analysis of Morphine from Opium and Heroin Samples Originating in the Four Major Heroin Producing Regions

The forensic analysis of stable isotopes is a valuable tool to geo-source natural or semi-synthetic drugs such as cocaine and heroin. The present study describes a novel methodology to isolate morphine from opium for isotopic analysis. Furthermore, this isotopic data from regional sources is corroborated with morphine data obtained from seized heroin (de-acetylated to morphine) from the same regions. All five primary alkaloids of opium, namely morphine, codeine, thebaine, noscapine and papaverine, were quantified using high performance liquid chromatography with PDA before the preparative experiment to gather a complete major alkaloidal profile. Morphine fractions of authentic opium submissions from Mexico, South America, Southwest Asia, and Southeast Asia were isolated and collected using preparative high performance liquid chromatography, and the collected morphine samples were subsequently analyzed by isotope ratio mass spectrometry. Carbon and nitrogen isotope data are presented. The data demonstrates that nitrogen ratios are capable of differentiating samples from Mexico and South America while carbon ratios are able to distinguish Southwest Asian samples from other source regions. Analogous results have routinely been observed (as part of Heroin Signature Program analysis) for morphine obtained from de-acetylated authentic heroin samples from the same source regions. The results suggest that the poppy growing region has a greater influence on the carbon and nitrogen isotope values than the heroin manufacturing processes employed. When utilized in conjunction with existing signature methodologies, carbon and nitrogen isotope ratio data can enhance the ability to geo-source heroin.