Isotope effects associated with the preparation and methylation of fatty acids by boron trifluoride in methanol for compound‐specific stable hydrogen isotope analysis via gas chromatography/thermal conversion/isotope ratio mass spectrometry

RATIONALE Compound‐specific stable hydrogen isotope analysis of fatty acids is being used increasingly as a means of deriving information from a diverse range of materials of archaeological, geological and environmental interest. Preparative steps required prior to isotope ratio mass spectrometry (IRMS) analysis have the potential to alter determined δD values and hence must be accounted for if accurate δD values for target compounds are to be obtained. METHODS Myristic, palmitic, stearic, arachidic and behenic saturated fatty acids were derivatised to their respective fatty acid methyl esters (FAMEs), using 14% (w/v) boron trifluoride in methanol then analysed by gas chromatography/thermal conversion/IRMS (GC/TC/IRMS). FAMEs generated from fatty acid sodium salts of unknown δD values were then used to test a correction factor determined for this method of derivatisation. RESULTS Derivatisation was found to alter the hydrogen isotopic composition of FAMEs although this effect was reproducible and can be accounted for. The difference between the mean corrected and mean bulk δD values was always less than 6.7 ‰. Extraction of saturated fatty acids and acyl lipids from samples, subsequent hydrolysis, then separation on a solid‐phase extraction cartridge, was found to alter the determined δD values by less than one standard deviation. CONCLUSIONS Overall, it has been shown that for natural abundance hydrogen isotope determinations, the isolation and derivatisation of extracted fatty acids alters the determined δD values only by a numerical increment comparable with the experimental error. This supports the use of the described analytical protocol as an effective means of determining fatty acid δD values by GC/TC/IRMS. Copyright © 2012 John Wiley & Sons, Ltd.