Affiliation:
1. Department of Food Science, University of Otago, Dunedin 9054, New Zealand
2. Department of Biochemistry, University of Otago, Dunedin 9054, New Zealand
3. Department of Wine, Food and Molecular Biosciences, Lincoln University, Christchurch 7647, New Zealand
Abstract
Aside from their bioremediation roles, little is known about the food and feed value of earthworms. In this study, a comprehensive evaluation of the nutritional composition (proximate analysis and profiles of fatty acids and minerals) and techno-functional properties (foaming and emulsion stability and capacity) of earthworm (Eisenia andrei, sourced in New Zealand) powder (EAP) were investigated. Lipid nutritional indices, ω6/ω3, atherogenicity index, thrombogenicity index, hypocholesterolemic/hypercholesterolemic acid ratio, and health-promoting index of EAP lipids are also reported. The protein, fat, and carbohydrate contents of EAP were found to be 53.75%, 19.30%, and 23.26% DW, respectively. The mineral profile obtained for the EAP consisted of 11 essential minerals, 23 non-essential minerals, and 4 heavy metals. The most abundant essential minerals were potassium (8220 mg·kg−1 DW), phosphorus (8220 mg·kg−1 DW), magnesium (744.7 mg·kg−1 DW), calcium (2396.7 mg·kg−1 DW), iron (244.7 mg·kg−1 DW), and manganese (25.6 mg·kg−1 DW). Toxic metals such as vanadium (0.2 mg·kg−1 DW), lead (0.2 mg·kg−1 DW), cadmium (2.2 mg·kg−1 DW), and arsenic (2.3 mg·kg−1 DW) were found in EAP, which pose safety considerations. Lauric acid (20.3% FA), myristoleic acid (11.20% FA), and linoleic acid (7.96% FA) were the most abundant saturated, monounsaturated, and polyunsaturated fatty acids, respectively. The lipid nutritional indices, such as IT and ω-6/ω-3, of E. andrei were within limits considered to enhance human health. A protein extract derived from EAP (EAPPE), obtained by alkaline solubilisation and pH precipitation, exhibited an isoelectric pH of ~5. The total essential amino acid content and essential amino acid index of EAPPE were 373.3 mg·g−1 and 1.36 mg·g−1 protein, respectively. Techno-functional analysis of EAPPE indicated a high foaming capacity (83.3%) and emulsion stability (88.8% after 60 min). Heat coagulation of EAPPE was greater at pH 7.0 (12.6%) compared with pH 5.0 (4.83%), corroborating the pH-solubility profile and relatively high surface hydrophobicity (1061.0). These findings demonstrate the potential of EAP and EAPPE as nutrient-rich and functional ingredients suitable as alternative food and feed material. The presence of heavy metals, however, should be carefully considered.
Subject
Plant Science,Health Professions (miscellaneous),Health (social science),Microbiology,Food Science
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