Litcius/Paper detail

The effect of short-term storage temperature on the key headspace volatile compounds observed in Canadian faba bean flour

Rami Akkad, Ereddad Kharraz, Jay Han, James D. House, Jonathan M. Curtis

2021Food Science and Technology International30 citationsDOIOpen Access PDF

Abstract

var. minor), was characterized by headspace solid-phase microextraction/gas chromatography-mass spectrometry (HS-SPME/GC-MS). The relative odour activity value (ROAV) was used to monitor the changes in key volatile compounds in the flour during short-term storage at different temperature conditions. The key flavour compounds of freshly milled flour included hexanal, octanal, nonanal, decanal, 3-methylbutanal, phenyl acetaldehyde, (E)-2-nonenal, 1-hexanol, phenyl ethyl alcohol, 1-octen-3-ol, β-linalool, acetic acid, octanoic acid, and 3-methylbutyric acid; these are oxidative degradation products of unsaturated fatty acids and amino acids. Despite the low lipid content of faba beans, the abundances of aldehydes arising during room temperature storage greatly contributed to the flavour of the flour due to their very low odour thresholds. Two of the key volatiles responsible for beany flavour in flour (hexanal, nonanal) increased greatly after 2 weeks of storage at room temperature or under refrigerated conditions. These volatile oxidation products may arise as a result of enzymatic activity on unsaturated fatty acids, and was seen to be arrested by freezing the flour.

Topics & Concepts

NonanalHexanalChemistryDecanalFlavourFood scienceAcetaldehydeHexanoic acidOctanalSolid-phase microextractionAcetic acidLipid oxidationChromatographyGas chromatography–mass spectrometryOrganic chemistryMass spectrometryEthanolAntioxidantProteins in Food SystemsMeat and Animal Product QualityGABA and Rice Research