Attenuated-total-reflection Fourier-transformed spectroscopy as a rapid tool to reveal the molecular structure of insect powders as ingredients for animal feeds

IF 4.7 3区农林科学 Q1 ENTOMOLOGY

Journal of Insects as Food and Feed Pub Date : 2024-06-12 DOI:10.1163/23524588-00001092

K. Robertson, J. Ortuño, A. Stratakos, S. Stergiadis, K. Theodoridou

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引用次数: 0

Abstract

Unsustainable agriculture contributes to disastrous global effects – insect-based feed shows potential due to their sustainable, nutritional, and waste upcycling properties. Current EU legislation restricts insect-based meals to fish, pork, and poultry feed; but the near-future shows a great potential for wider acceptance in livestock feed. Black soldier fly larvae (BSFL), mealworm (MW), field cricket (FC), and banded cricket (BC) were sourced within three consecutive weeks – each batch was prepared, freeze-dried, then milled, and stored at −20 °C. Chemical composition of whole-insect meals was analysed for ether extract (EE), crude ash, and nitrogenic contents using standard wet chemistry protocols. Monogastric in vitro digestibility was determined through replicating gastric and full intestinal digestion; during this, R-amino acid content was determined through protein hydrolysis kinetics. Additionally, ATR-FTIR was used for molecular analysis, including identification of nutrient-associated functional spectral bands – structural differences were compared through principal component analysis. Insect-based ATR-FTIR analysis demonstrates notable differences in Amide regions, suggesting distinct protein secondary structures, but overall, FC and BC contain the highest crude protein (CP) levels. The lowest CP content was in BSFL; however, BSFL contained the highest ash content – likely consequence of high calcium. Dry matter (DM) yielded lowest in the crickets (FC-28.6; BC-26.9 g/100 g), and highest in MW-38.5 g/100 g; the sum of CP + EE in MW represented >80% DM, but with higher EE contents-CP: EE = 2.45. Data shows greater chitin content in crickets than BSFL + MW. Crickets showed greater neutral detergent fibre (NDF) than BSFL + MW; however, acid-detergent fibre (ADF) was similar among all species, suggesting NDF may include amalgams of interlinked nutrients released by acid digestion. This first study shows for the first time evidence that rearing conditions and substrates influences molecular structure. Exponential solubilisation was observed during pepsin + pancreatin digestion for all, but BSFL exhibited the highest degree-of-hydrolysis during the pancreatin phase, surpassing others. Analysis indicates protein hydrolysis differences are linked to trypsin activity susceptibility.

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衰减-全反射傅立叶变换光谱法是揭示作为动物饲料成分的昆虫粉末分子结构的快速工具

不可持续的农业对全球造成了灾难性的影响--昆虫饲料因其可持续、营养和废物再循环的特性而显示出潜力。目前的欧盟法律规定，昆虫饲料仅限于鱼类、猪肉和家禽饲料；但不久的将来，家畜饲料将有更大的发展潜力。黑兵蝇幼虫 (BSFL)、黄粉虫 (MW)、田蟋蟀 (FC) 和带壳蟋蟀 (BC) 是在连续三周内采集的，每批昆虫都经过制备、冷冻干燥、碾磨和 -20 °C 保存。采用标准湿化学方法分析全虫餐的化学成分，包括乙醚提取物（EE）、粗灰分和氮含量。单胃体外消化率是通过复制胃和全肠消化测定的；在此过程中，R-氨基酸含量是通过蛋白质水解动力学测定的。此外，ATR-傅立叶变换红外光谱还用于分子分析，包括确定与营养相关的功能光谱带--通过主成分分析比较结构差异。基于昆虫的 ATR-FTIR 分析显示了酰胺区的显著差异，表明蛋白质二级结构不同，但总体而言，FC 和 BC 的粗蛋白（CP）含量最高。BSFL 的 CP 含量最低；但 BSFL 的灰分含量最高，这可能是高钙的结果。蟋蟀的干物质（DM）产量最低（FC-28.6 克/100 克；BC-26.9 克/100 克），而 MW-38.5 克/100 克的产量最高；MW 的 CP + EE 总和占 DM 的 80%以上，但 EE 含量较高--CP: EE = 2.45。数据显示，蟋蟀的甲壳素含量高于 BSFL + MW。蟋蟀的中性洗涤纤维（NDF）含量高于 BSFL + MW；但所有物种的酸性洗涤纤维（ADF）含量相似，表明 NDF 可能包括酸性消化释放的相互关联的营养物质的混合物。这项研究首次证明饲养条件和基质会影响分子结构。在胃蛋白酶+胰蛋白酶消化过程中，都观察到了指数溶解现象，但在胰蛋白酶阶段，BSFL的水解程度最高，超过了其他动物。分析表明，蛋白质水解差异与胰蛋白酶活性敏感性有关。

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.