%0 Journal Article %A Nagy, K. %A Sandoz, L. %A Craft, B.D. %A Destaillats, F. %D 2011 %T Mass-defect filtering of isotope signatures to reveal the source of chlorinated palm oil contaminants %U https://tandf.figshare.com/articles/journal_contribution/Mass_defect_filtering_of_isotope_signatures_to_reveal_the_source_of_chlorinated_palm_oil_contaminants/825595 %R 10.6084/m9.figshare.825595.v1 %2 https://tandf.figshare.com/ndownloader/files/1240820 %K filtering %K isotope %K signatures %K chlorinated %K contaminants %K mass-defect %X

This paper reports new insights at the molecular level into the route of a worldwide problem of the food industry: the occurrence of monochloro-propanediol (MCPD) esters. The application of mass defect-driven workflows is described to generate a hypothesis on the identity and occurrence of those thermally labile, chlorinated contaminant precursors that may act as chlorine donors during the formation of MCPD esters. For the first time, holistic mass-defect filtering of isotope signatures is used to pinpoint completely unknown and unexpected chlorine-containing substances naturally present in various extracts of palm fruit and partially and fully refined oils. Supervised multivariate analysis showed the effective classification of samples from various stages of industrial processing, suggesting that these steps strongly impact a complex and dynamic pool of chlorinated substances. In-vitro experiments confirmed that several of these naturally occurring chlorinated plant constituents decompose upon heat treatment, thus potentially being a source of chlorine for further reactions with palm oil lipids in a subsequent chlorination cascade. It is hypothesised that during oil refining the organochlorines naturally present in palm fruits act as a ‘chlorine source’ for the generation MCPD diesters. This discovery implies that industrial efforts targeting the mitigation of chlorinated substances must intervene at the earliest possible production stage or preferably even prior to oil processing. Current performance and limitations of mass-defect filtering are discussed and future developments are outlined.

%I Taylor & Francis