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Fatty Acid Profile and Thermal Behavior of Fat-Rich Edible Insect Oils Compared to Commonly Consumed Animal and Plant Oils

Kasidate Chantakun, Tanyamon Petcharat, Saowakon Wattanachant, S. A. Karim, Pensiri Kaewthong

2024Food Science of Animal Resources10 citationsDOIOpen Access PDF

Abstract

This study compared the physicochemical properties of fat-rich insect oils from silkworm (Bombyx mori) pupa (SP), sago palm weevil (Rhynchophorus ferrugineus) larva (PW), and bamboo caterpillar (Omphisa fuscidentalis) (BC) to oils from chicken skin (CK), beef back fat (BF), pork back fat (PF), salmon belly (SB), sea bass belly (BB), coconut (C), and peanut (P). The fatty acid profiles and thermal behaviors (crystallization and melting) of the extracted oils were evaluated. PW and BC oils had more saturated fatty acids (SFAs) than CK, PF, SB, BB, and P oils. SP oil had equivalent SFA content to CK and BB oils. Fat-rich edible insect oils exhibited similar monounsaturated fatty acid concentrations in all samples, except C oils. PW and BC oils exhibited a higher content of palmitoleic acid than the other oils. SP oils contained polyunsaturated fatty acids similar to those in SB and BB oils, which were higher than those in PW, BC, CK, BF, and PF oils. SP oil also exhibited the highest concentration of α-linolenic acid (C18:3 n-3). The fatty acid profile of SP oil was similar to that of fish oil, although it exhibited lower quantities of ARA, EPA, and DHA. The fat-rich edible insect oils were liquid at ambient temperature, solid below −15 ℃, and required less energy (∆Hm-max) for melting than other samples. This study indicated that fat-rich edible insects, particularly SP, could serve as an alternative source of fat to meet its growing demand.

Topics & Concepts

InsectFood scienceFatty acidBiologyChemistryBotanyBiochemistryInsect Utilization and EffectsBee Products Chemical AnalysisNeurobiology and Insect Physiology Research