Abstract
Simple SummaryThe expansion of the aquaculture industry depends mainly on aquafeed availability at reasonable prices. The common ingredients of aquafeed (e.g., fish and soybean meals) are not sustainable due to a lack of resources and increasing prices. Seeking alternative non-traditional ingredients is among the choices of nutritionists to produce high-quality feed at a feasible cost. Yellow mealworms (Tenebrio molitor) (TM) have been introduced to the feed industry as protein sources of a circular economy. Many studies have investigated the possibility of including T. molitor meals as a substitute for fish and soybean meals in aquafeed. Thus, this review exclusively presents an assemblage of the literature on the possibility of including T. molitor in aquafeed as a suggestion for the sustainability of the aquaculture industry.The success of the aquafeed industry mainly depends on the availability of raw ingredients with high nutritional value, such as fishmeal (FM). However, the increased demand for FM elevates its prices and leads to high feed costs. Thus, there is an urgent need to find suitable alternatives for FM in fish diets to achieve sustainability in aquaculture. Currently, attention is being paid to the possibility of using insect meals as FM substitutes in aquafeed because of their relatively high nutritional quality. TM is one of those insects that can be regarded as a unique candidate because of its relatively high nutritional value. TM are rich sources of essential amino acids (methionine), lipids, and fatty acids, which vary based on the developmental stage of the worms. Although TM have an abundant amount of chitin as a fiber source and other anti-nutritional factors, numerous studies have investigated the efficacy of partial or complete substitution of FM by T. molitor in fish diets. In this context, we reviewed the current research findings on the achievable inclusion levels of T. molitor versus FM substitution in the diets of several finfish and shellfish species. We discussed the potential use of T. molitor as an FM substitute in fish diets and evaluated its effects on growth, biometric indices, and body composition. Besides, the hematological parameters, immunological responses, antioxidative efficacy, intestinal health status, and sensory criteria of fish fed T. molitor-based diets were also assessed.
Highlights
According to the International Feed Industry Federation (IFIF), the world population will be more than 10 billion by 2050
Another different finding was indicated by Ido, et al [29], who found that the highest final body weight (FBW), specific growth rate (SGR), and weight gain (WG) were observed in red seabream fed diets with 100% of fish meal (FM) substituted with defatted TM larvae for 28 days, alongside no significant differences observed in the feed conversion ratio (FCR) and feed intake (FI) among all fish groups
Sankian, et al [73] reported a significant elevation in the WG, SGR, Feed efficiency ratio (FER), protein efficiency ratio (PER), and protein retention (PR) in mandarin fish fed diets supplemented with 20% full-fat TM larvae at the expense of FM and decreased afterward with an increase in the inclusion dose over 20%
Summary
According to the International Feed Industry Federation (IFIF), the world population will be more than 10 billion by 2050. There is an urgent need to find new alternatives for partial or total FM replacement in fish diets, which should be less expensive, environmentally friendly, relatively safe, sustainable, and palatable for fish species [5,6] Among these alternatives, insect meals have attracted the vision of researchers as a relatively available and cheap protein with high nutritional value [7,8,9,10]. The overarching goals of this work are to provide a comprehensive review to summarize the current knowledge and research findings on the effects of dietary substitution of T. molitor on the overall performance of several finfish and shellfish species and mainly focus on the following points: (a) the possibility of TM for partial or complete replacement of FM in aquafeed; (b) evaluation of the nutritional effects of dietary TM on growth, feed use, body composition, and gut health; (c) discussion of the potential impacts of dietary TM on the overall health status in terms of hematobiochemical indices, antioxidant potential, and immunological responses; and (d) sensory criteria of fillets of fish fed TM-based diets.
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