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Free Fatty Acids in Commercial Krill Oils: Concentrations, Compositions, and Implications for Oxidative Stability

Ioan D. Fuller, Hemi Cumming, Asli Card, Elaine J. Burgess, Colin J. Barrow, Nigel B. Perry, Daniel P. Killeen

2020Journal of the American Oil Chemists Society26 citationsDOIOpen Access PDF

Abstract

Abstract The concentrations and pro‐oxidative effects of free fatty acids in commercial krill oil are not well defined. We now report that krill oil free fatty acids account for 2–13% of total lipids in commercial krill oil ( n = 8) that these compounds are enriched in eicosapentaenoic acid (+7.1%) and docosahexaenoic acid (+6.3%) relative to whole oils; and that this composition make them highly pro‐oxidizing in marine triacylglycerol oils, but not in krill oil, which derives oxidative stability from both its phospholipids, and neutral lipids (the latter because of astaxanthin). Specific fatty acid esterification patterns showed that krill oil free fatty acids predominantly (88–93%) originated from phospholipids, mainly from the sn‐2 position, which was eight‐fold more hydrolyzed than the sn‐1 position. Lipolysis was not ongoing in stored oils. Adding small amounts of krill oil (1–5%) to marine triacylglycerol oils significantly increased their oxidative stability and also their resistance to free fatty acid‐mediated pro‐oxidative effects.

Topics & Concepts

KrillDocosahexaenoic acidPolyunsaturated fatty acidEicosapentaenoic acidFish oilFatty acidFood scienceOxidative phosphorylationChemistryBiochemistryHydrolysisBiologyFisheryFish <Actinopterygii>Edible Oils Quality and AnalysisFatty Acid Research and HealthMeat and Animal Product Quality