Comparative study of C-13 composition in ethanol and bulk dry wine using isotope ratio monitoring by mass spectrometry and by nuclear magnetic resonance as an indicator of vine water status

摘要

The potential of wine C-13 isotope composition (delta C-13) is presented to assess vine water status during grape ripening. Measurements of delta C-13 have been performed on a set of 32 authentic wines and their ethanol recovered after distillation. The data, obtained by isotope ratio monitoring by mass spectrometry coupled to an elemental analyser (irm-EA/MS), show a high correlation between delta C-13 of the bulk wine and its ethanol, indicating that the distillation step is not necessary when the wine has not been submitted to any oenological treatment. Therefore, the ethanol/wine delta C-13 correlation can be used as an indicator of possible enrichment of the grape must or the wine with exogenous organic compounds. Wine ethanol delta C-13 is correlated to predawn leaf water potential (R (2) = 0.69), indicating that this parameter can be used as an indicator of vine water status. Position-specific C-13 analysis (PSIA) of ethanol extracted from wine, performed by isotope ratio monitoring by nuclear magnetic resonance (irm-C-13 NMR), confirmed the non-homogenous repartition of C-13 on ethanol skeleton. It is the delta C-13 of the methylene group of ethanol, compared to the methyl moiety, which is the most correlated to predawn leaf water potential, indicating that a phase of photorespiration of the vine during water stress period is most probably occurring due to stomata closure. However, position-specific C-13 analysis by irm-C-13 NMR does not offer a greater precision in the assessment of vine water status compared to direct measurement of delta C-13 on bulk wine by irm-EA/MS.