<i>Chrysomya megacephala</i> larvae feeding favourably influences manure microbiome, heavy metal stability and greenhouse gas emissions

Wang, Xiaoyun; Wang, Wanqiang; Gao, Qiao; Lei, Chaoliang; Zhu, Fen

doi:10.1111/1751-7915.13253

Cited by 14 publications

(6 citation statements)

References 55 publications

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“…Iwasa et al [74] observed 66 and 87% reductions in cumulative CH 4 and N 2 O emissions from cattle manure using Neomyia cornicina larvae. Similar results were obtained by Wang et al [182], who found that Chrysomya megacephala larvae can reduce by 58 and 66% of CH 4 and N 2 O emissions, respectively, from swine manure. Moreover, depending on the humidity, H. illucens larvae may reduce by 72.6-99.9% and 99.6-99.9% of CH 4 and N 2 O, respectively, compared to conventional composting [27].…”

Section: Greenhouse Gases Emissions From the Bioconversion Processsupporting

confidence: 90%

“…Different studies reveal the ability of H. illucens and M. domestica larvae to reduce microorganisms on different substrates [38,87,89,102,124,179,197,198]. In this way, Wang et al [182] associated the reductions of CH 4 and N 2 O emissions from swine manure to the effect of C. megacephala larvae on reducing the abundance of methanogenic bacteria (Methanogens, Methanomassiliicoccaceae, Methanobrevibacter) and increased betaproteobacteria after the bioconversion process.…”

Section: Greenhouse Gases Emissions From the Bioconversion Processmentioning

confidence: 99%

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Potentials and Limitations of the Bioconversion of Animal Manure Using Fly Larvae

Matos

Barberino

Aráujo

et al. 2020

Waste Biomass Valor

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Bioconversion of organic waste using fly larvae (such as Hermetia illucens and Musca domestica) is often presented as a promising and sustainable alternative because of its ability to generate high economic value products from excreta, waste or low value-added materials in short term, with the potential to promote a circular economy in agricultural systems. However, bioconversion of some organic waste, such as animal manure, could limit the use of bioconversion products because of contaminants presents in the substrate, offering risks of toxic substances entering the food chain and consequent effects on human health and the environment. This review provides an overview of the limitations and potentials of bioconversion process of cattle, swine, and chicken manure using fly larvae, focusing on nutrient recycling, environmental impacts, direct greenhouse gas emissions, heavy metals, antibiotics, and pathogenic organisms. Potential advantages identified include the ability to reduce manure volume and nutrients, produce biofertilizer and high protein and fat content larval biomass, and reduce environmental impact compared to composting and other protein and oil production sources, as well as, to reduce some metals, antibiotics and pathogenic organisms found in manure. On the other hand, some metals, antibiotics, bacteria, and parasites may be retained or bioaccumulated in larval biomass. Direct use of larval biomass from bioconversion of animal waste, as animal feed, is not recommended, and biofertilizer requires additional treatment before release to agricultural soil, aiming to ensure food and environmental safety.

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Section: Greenhouse Gases Emissions From the Bioconversion Processsupporting

confidence: 90%

Section: Greenhouse Gases Emissions From the Bioconversion Processmentioning

confidence: 99%

Potentials and Limitations of the Bioconversion of Animal Manure Using Fly Larvae

Matos

Barberino

Aráujo

et al. 2020

Waste Biomass Valor

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“…(besides Musca spp.) on Ladang UPM farm was due to the behaviour of this species which sought cattle dung as its preferred food source, as well as its breeding site (Wang et al, 2018). Infestation of fly larvae in live animals can cause myiasis, leading to tissue necrosis in cattle (Ferraz et al, 2010), which was not recorded in our study area.…”

Section: Discussionmentioning

confidence: 73%

Molecular Identification and Species Richness of Flies (Diptera) and Their Associated Bovidae Hosts at Cattle Farms in Selangor, Malaysia

Yaakop¹,

Amiruddin²,

Mohammed³

et al. 2022

JTAS

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Flies (Diptera) play a significant role in the ecosystem as pollinators and decomposers, and they are also important vermin and disease vectors. Studies on the dipteran species are still lacking in Malaysia; therefore, the dipteran species’ biology, morphology, distribution, and abundance are necessary. The objectives of this study were to identify dipteran species using a molecular approach, determine flies’ Bovidae hosts, and investigate the diversity of the fly’s species at three different cattle farms purposively selected in Selangor, Malaysia. The fly species were identified using cytochrome oxidase subunit I (COI) (Haematopota javana, Tabanus rubidus, Tabanus fontinalis, Iranihindia martellata, Musca domestica, and Chrysomya megacephala), while another six species only up to genus level ( Haematopota sp. 1, Musca sp. 1, Asilus sp., Metopia sp., Anasillomos sp., and Ommatius sp.). In addition, two species of hosts: Bos indicus and Bos taurus, were proven to be the associated host species for the dipteran species based on molecular data of cytochrome b (cytb). However, there were no significant differences between farms in species diversity and richness (F = 1.262, df = 2, p = 0.2459 >0.05). Interestingly, the two most dominant dipteran genera collected from the cattle farms were Musca and Chrysomya. At the same time, its abundance may have been influenced by the structure of the cattle cage flooring, which serves as a breeding site and food source. These findings contribute to fundamental epidemiological data in developing control strategies for dipteran species and are of great economic and health importance to livestock production in Malaysia.

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“…We speculate that this may be related to the presence of more sulfides in the sediments. Pseudomonas plays an important role in processing heavy metals ( Zhang et al, 2017 ; Wang X. et al, 2018 ). These microorganisms also play an important ecological role in our co-occurrence network.…”

Section: Discussionmentioning

confidence: 99%

Total Arsenic, pH, and Sulfate Are the Main Environmental Factors Affecting the Microbial Ecology of the Water and Sediments in Hulun Lake, China

Shang

Wei

et al. 2020

Front. Microbiol.

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Bacteria have the metabolic potential to produce a diverse array of secondary metabolites, which have important roles in biogeochemical cycling processes. However, for Hulun Lake and the rivers that enter into it, the bacterial community structures and their effects have not previously been widely studied, limiting our ecological understanding of this habitat. To address this, we have analyzed the bacterial communities in the water ecosystem of the Hulun Lake Basin. 16S rRNA highthroughput sequencing identified 64 phyla, 165 classes, 218 orders, 386 families, and 740 genera of bacteria across all samples. The dominant phyla in the central area of the lake were Proteobacteria, Actinobacteria, Firmicutes, and Cyanobacteria, while in all other areas, Proteobacteria, Actinobacteria, and Bacteroidetes were dominant. The microbial community structures were significantly affected by environmental factors [arsenic (As), pH, and sulfate (SO 4 2−)] and their location in the lake. The species richness in the sediments of Hulun Lake was higher than in the water, and this ecosystem harbored the highest proportion of unclassified sequences, representing unclassified bacteria. This study provides basic data for future investigations into the Hulun lake ecosystem and for water microbial monitoring and protection measures.

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Chrysomya megacephala larvae feeding favourably influences manure microbiome, heavy metal stability and greenhouse gas emissions

Cited by 14 publications

References 55 publications

Potentials and Limitations of the Bioconversion of Animal Manure Using Fly Larvae

Potentials and Limitations of the Bioconversion of Animal Manure Using Fly Larvae

Molecular Identification and Species Richness of Flies (Diptera) and Their Associated Bovidae Hosts at Cattle Farms in Selangor, Malaysia

Total Arsenic, pH, and Sulfate Are the Main Environmental Factors Affecting the Microbial Ecology of the Water and Sediments in Hulun Lake, China

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