Development of Chitosan Films from Edible Crickets and Their Performance as a Bio-Based Food Packaging Material

Morgan Malm, A. Liceaga, Fernanda San Martin-Gonzalez, O. Jones, Jose M. Garcia-Bravo, I. Kaplan
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引用次数: 7

Abstract

Edible insects have gained attention due to their impressive nutritional composition, as well as their efficient use of natural resources. However, a research gap remains on the applications of insect chitosan, especially as it relates to their potential use as food packaging material. Chitosan from two reared cricket species (Acheta domesticus and Gryllodes sigillatus) was evaluated for use as food packaging material. Cricket chitosan films (CCF) were structurally similar to commercial shrimp chitosan films (SCF) at controlled glycerol levels, as seen by shared spectral peaks in FT-IR analyses. Mechanical properties of CCF showed they had equal or greater tensile strength when compared to commercial SCF, although flexibility was lower. Scanning electron microscopy showed increased roughness of microstructure, likely increasing the tortuosity. As a result, CCF had improved water vapor permeability compared to commercial SCF. Melanin complexes present in cricket chitin and chitosan increased hydrophobicity and decreased light transmittance. This study also revealed that intrinsic species differences, which occur during insect and crustacean exoskeleton development, could have effects on the functionality of chitosan packaging materials. Overall, CCF were found to be as effective as commercial SCF, while providing additional advantages. CCF derived from reared crickets have good mechanical and barrier properties, and improved water resistance and light barrier characteristics. Edible cricket chitosan has the potential to be used as bio-based packaging material for food and pharmaceutical applications.
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食用蟋蟀壳聚糖薄膜的研制及其作为生物基食品包装材料的性能
食用昆虫因其令人印象深刻的营养成分以及对自然资源的有效利用而受到关注。然而,对昆虫壳聚糖的应用,特别是其作为食品包装材料的潜在用途的研究仍存在空白。对两种饲养蟋蟀(Acheta domesticus和Gryllodes sigillatus)壳聚糖作为食品包装材料进行了评价。在控制甘油水平下,蟋蟀壳聚糖膜(CCF)在结构上与商业虾壳聚糖膜(SCF)相似,在FT-IR分析中可以看到共同的光谱峰。CCF的力学性能表明,与商用SCF相比,CCF具有相同或更高的抗拉强度,尽管柔韧性较低。扫描电镜显示显微组织粗糙度增加,可能增加了弯曲度。因此,与商用SCF相比,CCF具有更好的水蒸气渗透性。在蟋蟀甲壳素和壳聚糖中存在黑色素复合物,增加疏水性,降低透光率。该研究还揭示了昆虫和甲壳类动物外骨骼发育过程中的内在物种差异可能对壳聚糖包装材料的功能产生影响。总的来说,CCF被发现与商业SCF一样有效,同时具有额外的优势。由饲养蟋蟀衍生的CCF具有良好的机械性能和阻隔性能,并且具有较好的耐水性和光阻隔特性。食用蟋蟀壳聚糖具有作为食品和医药生物基包装材料的潜力。
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