Ambient temperature‐mediated enzymic activities and intestinal microflora in <i>Lymantria dispar</i> larvae

Zeng, Jianyong; Shi, Zhang; Shi, Jianhong; Guo, Jiaxing; Zhang, Guocai; Zhang, Jie

doi:10.1002/arch.21597

Cited by 14 publications

(5 citation statements)

References 66 publications

(75 reference statements)

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“…Proteobacteria is associated with diverse metabolisms such as decomposition, fermentation of complex sugars, and the production of vitamins and degraded aromatic compounds, boosting their hosts' absorption of nutrients 49 . Previous study show that Proteobacteria dominate the gut microbiome of Gypsy moths 50 , Bombyx 51 and cotton bollworms 52 , similar findings also have been reported in many other species of insects in the family Cerambycidae 53 , 54 . The aforementioned studies suggested that Proteobacteria are widely found in gut microbiota of insects and the dominant role of Proteobacteria in the insect gut microbiota may be a distinctive feature of insect gut microbiota composition.…”

Section: Discussionsupporting

confidence: 84%

Stable composition of gut microbiome in the Asian ladybeetle Coccinella septempunctata reared on natural and artificial diets

Lu,

Yu,

Liu

et al. 2024

Sci Rep

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The Asian ladybeetle, Coccinella septempunctata, is an important insect of predatory natural enemy, which has a strong control effect and application prospects for aphids, whiteflies, mealybugs, and other small-sized pests of agriculture and forestry crops. Gut microbiota composition posed impacts on development of insects. In order to clarify the effect of artificial feed feeding on the intestinal microbial species and structure of C. septempunctata, we compared the intestinal microbial flora of C. septempunctata reared on bean aphids and artificial food for 15 days. Results show that Proteobacteria was the dominant component in all groups at phylum level, Rhodobacter, Methylovigula, Burkholderia, and Bradyrhizobium were the dominant bacteria among all groups at genus level. As to the differences in bacterial community structure and diversity, there is no significant difference between Shannon index and Simpson index, the principal components analysis of the bacterial communities, and the samples were roughly distributed in different regions. After 15 days of feeding, artificial diet did not significantly reduce the microbial diversity of the gut of C. septempunctata compared to the aphid group, and there was no significant effect on the abundance of dominant flora in the gut of C. septempunctata, C. septempunctata gut has a similar core microbiota. This study clarifies the effects in intestinal microbial diversity and composition structure of the C. septempunctata with artificial diet, and provides a theoretical basis for understanding the intestinal microorganisms and optimizating the artificial diet of C. septempunctata.

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Section: Discussionsupporting

confidence: 84%

Stable composition of gut microbiome in the Asian ladybeetle Coccinella septempunctata reared on natural and artificial diets

Lu,

Yu,

Liu

et al. 2024

Sci Rep

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“…Gut microbiota of 218 insect species in 21 orders are generally dominated by Firmicutes (62.1%) and Proteobacteria (20.7%) ( Yun et al 2014 ). For example, Proteobacteria and Firmicutes are amongst the dominant flora in the intestinal tract of lepidopteran insects, such as Plutella xylostella , Lymantria dispar , Helicoverpa armigera, Spodoptera littoralis, Ectropis obliqua , E. grisescens and Bombyx Mori （ Rajan et al 2020 , Shinde et al 2019 , Xia et al 2017 , Zeng et al 2019 , Chen et al 2016 , Wang et al 2020 ). Proteobacteria and Firmicutes are also dominant in the intestinal bacterial community of other insects, such as Bactrocera tau , Ceratitis capitata , Procecidochares utilis and Lutzomyia longipalpis of Diptera , Anophora glabripennis of Coleoptera and Schistocerca gregaria of Orthoptera ( Behar et al 2008b , Dillon et al 2010 , Gouveia et al 2008 , Prabhakar et al 2013 , Schloss et al 2006 ).…”

Section: Resultsmentioning

confidence: 99%

Midgut bacterial diversity of a leaf-mining beetle, Dactylispa xanthospila (Gestro) (Coleoptera: Chrysomelidae: Cassidinae)

Cui¹,

Guo²,

Wang³

et al. 2021

BDJ

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Microorganisms play an essential role in the growth and development of numerous insect species. In this study, the total DNA from the midgut of adults of Dactylispa xanthospila were isolated and bacterial 16S rRNA sequenced using the high-throughput Illumina MiSeq platform. Then, the composition and diversity of the midgut bacterial community were analysed with QIIME2. The results showed the midgut bacteria of D. xanthospila belong to 30 phyla, 64 classes, 135 orders, 207 families and 369 genera. At the phylum level, Proteobacteria, Bacteroidetes and Firmicutes were the dominant bacteria, accounting for 91.95%, 3.44% and 2.53%, respectively. The top five families are Enterobacteriaceae (69.51%), Caulobacteraceae (5.24%), Rhizobiaceae (4.61%), Sphingomonadaceae (4.23%) and Comamonadaceae (2.67%). The bacterial community's primary functions are carbohydrate metabolism, amino acid metabolism and cofactor and vitamin metabolism, which are important for the nutritional requirements of plant-feeding insects.

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“…Finally, three replicates were evaluated by gut microbial 16S rDNA sequencing. Procedures from DNA extraction to Illumina MiSeq sequencing were performed following our previously described methods (Zeng, Shi, Shi, et al, 2019). Sequencing was performed by MajorBio (Shanghai, China).…”

Section: Methodsmentioning

confidence: 99%

“…We have previously documented that the gut microbial community in Lymantria dispar asiatic is regulated by environmental temperature (Zeng, Shi, Guo, et al, 2019), dietary pH (Zeng, Shi, Shi, et al, 2019), and avermectin stress (Zeng et al, 2020). Previous studies have suggested that gut microbial communities in insects contribute to various biological processes, including pheromone production, pesticide degradation, vitamin synthesis, and pathogen prevention (Reeson et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Diel pattern in the structure and function of the gut microbial community inLymantria dispar asiatica(Lepidoptera: Lymantriidae) larvae

Zeng

Vuong

Guo

et al. 2020

Arch Insect Biochem Physiol

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In the present study, diel pattern in gut microbial communities in insects were evaluated. Lymantria dispar asiatica fourth instar larvae (72 ± 2 hr after molting) at noon (LdD) and midnight (LdN) were used for a comparative analysis of the gut microbial community. Ten bacterial operational taxonomic units (OTUs) were shared between LdD and LdN samples. One bacterial OTU was specific to LdD. The dominant gut microbes were OTU72 in LdD and OTU75 in LdN. A linear discriminant analysis effect size cladogram suggested that ten bacterial OTUs maintain significant differences in relative abundances between LdD and LdN. These results agreed with the discrete ellipses between LdD and LdN in principal coordinates analysis plots. Additionally, using phylogenetic investigation of communities by reconstruction of unobserved states, the gut microbial community was assigned to 23 functional terms, among which 22 exhibited significant differences between LdD and LdN. To conclude, the present study documented a diel pattern in the gut microbial community of L. dispar asiatica larvae. K E Y W O R D S circadian, gut microbial community, Lymantria dispar asiatica larvae Jian-Yong Zeng and Thi-Minh-Dien Vuong contributed equally to this work.

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Ambient temperature‐mediated enzymic activities and intestinal microflora in Lymantria dispar larvae

Cited by 14 publications

References 66 publications

Stable composition of gut microbiome in the Asian ladybeetle Coccinella septempunctata reared on natural and artificial diets

Stable composition of gut microbiome in the Asian ladybeetle Coccinella septempunctata reared on natural and artificial diets

Midgut bacterial diversity of a leaf-mining beetle, Dactylispa xanthospila (Gestro) (Coleoptera: Chrysomelidae: Cassidinae)

Diel pattern in the structure and function of the gut microbial community inLymantria dispar asiatica(Lepidoptera: Lymantriidae) larvae

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