Abstract
Simple SummaryInsects are a promising source of lipids. Their fatty acid compositions can vary as a function of diet composition, rearing conditions and developmental stage. In the present study, different agro-industrial by-products were used to feed the insects. Then, the fatty acids and sterols were determined. Notably, these profiles were assessed for the first time for E. kuehniella. According to our results, fatty acid profiles showed differences depending on diet composition, but mostly depended on species. Sterols varied significantly as a function of diet composition and species, showing low cholesterol and high campesterol and β-sitosterol levels in H. illucens, and high cholesterol and low campesterol contents in T. molitor and E. kuehniella. These results suggest that insects are an interesting alternative source of fat for humans and animals, which might promote the use of insects for circular economy practices.Rearing insects on agro-industrial by-products is a sustainable strategy for the circular economy while producing valuable products for feed and foods. In this context, this study investigated the impact of larvae diet containing agro-industrial by-products on the contents of fatty acids and sterols of Ephestia kuehniella (Zeller) (Lepidoptera: Pyralidae), Tenebrio molitor (L.) (Coleoptera: Tenebrionidae), and Hermetia illucens (L.) (Diptera: Stratiomyidae). For each insect, selected diets were formulated using single or combined agro-industrial by-products (i.e., apricot, brewer’s spent grain and yeast, and feed mill) and compared to a control diet. Fatty acid profiles showed differences depending on diet composition, but mostly depended on species: H. illucens was characterized by the abundance of C12:0, C16:0 and C18:2, whereas C:16, C18:1(n-9c), and C18:2(n-6c) were predominant in T. molitor and E. kuehniella. Sterols significantly varied as a function of diet composition and species. H. illucens showed low cholesterol levels and high campesterol and β sitosterol levels (0.031, 0.554 and 1.035 mg/g, respectively), whereas T. molitor and E. kuehniella had high cholesterol and low campesterol contents (1.037 and 0.078 g/kg, respectively, for T. molitor; 0.873 and 0.132 g/kg, respectively, for E. kuehniella).
Highlights
IntroductionWaste management and by-product valorization represent key elements for ensuring resource efficiency and sustainability
The larvae had not been fasted; the results presented reflect both insect fatty acid and sterol compositions as well as any food/diet remaining in the gastrointestinal tract of the insect
Diets formulated with the inclusion of agro-industrial by-prodIn enabled the present study, diets formulated with inclusion of agro-industrial by-products ucts growth of the larval biomasses andthe caused significant changes to the fatty enabled growth of the larval andbut caused to thecharfatty acid acid compositions of the threebiomasses insect species, did notsignificant modify thechanges typical overall compositions three insect but did not modify the typical overall acteristics ofof thethe lipid fraction ofspecies, each species
Summary
Waste management and by-product valorization represent key elements for ensuring resource efficiency and sustainability. In the EU, the total amount of agroindustrial by-products is estimated to be around 16 million tons, where the top producers are Germany (3 million tons), the United Kingdom (2.6 million tons), Italy (1.9 million tons), France (1.8 million tons), and Spain (1.6 million tons) [2]. These by-products are rich sources of bioactive compounds [3,4]. Developing eco-friendly solutions for their reuse and recycling is essential from economic and environmental perspectives
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