Interaction effects of substrate fermentation and larval density on black soldier fly life-history traits

IF 4.7 3区农林科学 Q1 ENTOMOLOGY

Journal of Insects as Food and Feed Pub Date : 2024-06-12 DOI:10.1163/23524588-00001188

L.O. Opare, S. Holm, T. Esperk

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Abstract

Agricultural by-products can serve as an excellent food source for edible insects, but their high-fibre properties can present challenges. One solution to this is fermentation, which can enhance their nutritional value by breaking down the fibre. However, little research has been conducted on how this method interacts with other environmental factors in insect rearing. To address this gap, our study aimed to investigate the impact of substrate fermentation and larval density on black soldier fly (BSF) larvae. We compared fermented substrates (fermented spent grain and additionally fermented ensiled grass) with standard fibrous substrates (spent grain and ensiled grass) and applied two larval density treatments (high and low). Our findings revealed that prepupal mass was significantly greater in fermented substrates than in standard fibrous substrates, with variations dependent on the substrate and larval density treatments. Larval density significantly influenced prepupal mass only in the fermented spent grain treatment. Substrate type influenced development time, with fermented spent grain resulting in a shorter development time than ensiled grass. However, substrate fermentation and larval density did not affect development time. Substrate fermentation only increased larval survival when individuals were reared on spent grain at high larval density. There were no significant differences in survival between fermented and standard substrates in other substrate and larval density combinations. Our study demonstrates that fermentation could serve as a way to amend fibrous substrates, making them suitable for rearing BSF larvae; however, its effects depend on environmental factors such as larval density.

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基质发酵和幼虫密度对黑实蝇生活史特征的交互影响

农副产品可以作为食用昆虫的绝佳食物来源，但其高纤维特性可能会带来挑战。解决这一问题的方法之一是发酵，它可以通过分解纤维来提高其营养价值。然而，关于这种方法如何与昆虫饲养中的其他环境因素相互作用的研究却很少。为了填补这一空白，我们的研究旨在调查基质发酵和幼虫密度对黑纹伊蚊（BSF）幼虫的影响。我们比较了发酵基质（发酵废谷物和额外发酵的腐草）和标准纤维基质（废谷物和腐草），并采用了两种幼虫密度处理（高密度和低密度）。我们的研究结果表明，发酵基质中的前蛹质量明显大于标准纤维基质中的前蛹质量，其变化取决于基质和幼虫密度处理。幼虫密度只对发酵废谷物处理中的前蛹质量有明显影响。基质类型影响发育时间，发酵废谷物的发育时间比糜烂草的发育时间短。然而，基质发酵和幼虫密度并不影响发育时间。只有在高密度饲养废谷物时，基质发酵才会提高幼虫存活率。在其他基质和幼虫密度组合中，发酵基质和标准基质的存活率没有明显差异。我们的研究表明，发酵可作为一种改良纤维基质的方法，使其适合饲养 BSF 幼虫；但其效果取决于环境因素，如幼虫密度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Insects as Food and Feed Agricultural and Biological Sciences-Insect Science

CiteScore

7.00

自引率

17.60%

发文量

133

期刊介绍： The Journal of Insects as Food and Feed covers edible insects from harvesting in the wild through to industrial scale production. It publishes contributions to understanding the ecology and biology of edible insects and the factors that determine their abundance, the importance of food insects in people’s livelihoods, the value of ethno-entomological knowledge, and the role of technology transfer to assist people to utilise traditional knowledge to improve the value of insect foods in their lives. The journal aims to cover the whole chain of insect collecting or rearing to marketing edible insect products, including the development of sustainable technology, such as automation processes at affordable costs, detection, identification and mitigating of microbial contaminants, development of protocols for quality control, processing methodologies and how they affect digestibility and nutritional composition of insects, and the potential of insects to transform low value organic wastes into high protein products. At the end of the edible insect food or feed chain, marketing issues, consumer acceptance, regulation and legislation pose new research challenges. Food safety and legislation are intimately related. Consumer attitude is strongly dependent on the perceived safety. Microbial safety, toxicity due to chemical contaminants, and allergies are important issues in safety of insects as food and feed. Innovative contributions that address the multitude of aspects relevant for the utilisation of insects in increasing food and feed quality, safety and security are welcomed.