A new approach to biotransformation and value of kitchen waste oil driven by gut microorganisms in Hermetia illucens

Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the infl...

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Published inJournal of environmental management Vol. 370; p. 123046
Main Authors Wang, Yuting, Yu, Zuojian, Cao, Qingcheng, Liu, Cuncheng, Qin, Yuanhang, Wang, Tielin, Wang, Cunwen
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2024
Subjects
absorption
Actinomyces
Animals
bioenergy
Biological recovery
biosynthesis
Biotransformation
Black soldier fly larvae
diet
digestion
digestive system
Enterococcus
Fatty Acids - metabolism
Gastrointestinal Microbiome
Gut microbiota
Hermetia illucens
Insect fat
insects
intestinal microorganisms
kitchen waste
Larva
lipids
oils
Providencia
Waste frying oil
waste management
Waste Management - methods
Gut microbiota
Waste frying oil
Black soldier fly larvae
Insect fat
Biological recovery
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Abstract Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium_1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production. [Display omitted] •Hermetia illucens larvae effectively utilize waste oil as a nutritional source.•Gut microbiota play a pivotal role in the digestion of fatty acids from waste oil.•Gut bacteria mediate lipid biosynthesis in the larvae.•Hermetia illucens offer a sustainable approach in waste-to-energy conversion.
AbstractList Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium_1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production.Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium_1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production.
Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium_1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production. [Display omitted] •Hermetia illucens larvae effectively utilize waste oil as a nutritional source.•Gut microbiota play a pivotal role in the digestion of fatty acids from waste oil.•Gut bacteria mediate lipid biosynthesis in the larvae.•Hermetia illucens offer a sustainable approach in waste-to-energy conversion.
Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in this process are not fully understood. To gain further insights, the biological recovery of waste frying oil into valuable lipids and the influence of gut bacteria on this biotransformation were investigated. The larvae efficiently digested and absorbed waste frying oil, demonstrating their potential for converting various oils into insect fat. The presence of different fatty acids in their diet significantly altered gut bacterial communities, enriching certain genera such as Actinomyces, Enterococcus, and Providencia. Redundancy analysis revealed that the composition and structure of these bacterial communities were predictive of their function in the biotransformation of fatty acids and the lipid biosynthesis in the larvae. Specific bacteria, including Corynebacterium_1, Providencia, Actinomyces, Escherichia-Shigella, and others, were identified to play specialized roles in the digestion and absorption of fatty acids, contributing to lipid synthesis and storage. These findings highlight the potential of Hermetia illucens in the biological recovery of waste frying oil and underscore the crucial role of gut microbiota in this process, offering a sustainable approach to waste management and bioenergy production.
ArticleNumber 123046
Author Yu, Zuojian
Cao, Qingcheng
Wang, Cunwen
Wang, Yuting
Liu, Cuncheng
Qin, Yuanhang
Wang, Tielin
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Keywords Gut microbiota
Waste frying oil
Black soldier fly larvae
Insect fat
Biological recovery
Language English
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Snippet Hermetia illucens larvae are known for their ability to recycle organic waste, but their capacity to recover waste oils and the role of gut microorganisms in...
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SubjectTerms absorption
Actinomyces
Animals
bioenergy
Biological recovery
biosynthesis
Biotransformation
Black soldier fly larvae
diet
digestion
digestive system
Enterococcus
Fatty Acids - metabolism
Gastrointestinal Microbiome
Gut microbiota
Hermetia illucens
Insect fat
insects
intestinal microorganisms
kitchen waste
Larva
lipids
oils
Providencia
Waste frying oil
waste management
Waste Management - methods
Title A new approach to biotransformation and value of kitchen waste oil driven by gut microorganisms in Hermetia illucens
URI https://dx.doi.org/10.1016/j.jenvman.2024.123046
https://www.ncbi.nlm.nih.gov/pubmed/39447358
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https://www.proquest.com/docview/3154245331
Volume 370
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