Your search keyword '"fecal microbiota"' showing total 9 results

1. Fecal Metagenomics Study Reveals That a Low-Fiber Diet Drives the Migration of Wild Asian Elephants in Xishuangbanna, China.

Author

Li, Xia, Chen, Junmin, Zhang, Chengbo, Zhang, Shuyin, Shen, Qingzhong, Wang, Bin, Bao, Mingwei, Xu, Bo, Wu, Qian, Han, Nanyu, and Huang, Zunxi

Subjects

*ASIATIC elephant, *ANIMAL migration, *GUT microbiome, *HIGH-fiber diet, *METAGENOMICS, *DIET, *BREAST milk

Abstract

Simple Summary: The infrequent northward migration of wild Asian elephants in Xishuangbanna, China, has attracted global attention due to its rarity. Elephant migration is a complex ecological process, and the factors driving this long-distance migration remain the subject of ongoing research. In this study, by comparing the diets and fecal metagenomes of breastfed elephant calves, captive elephants, and their wild counterparts, we revealed that wild elephants exhibit a preference for crops and grains with a low fiber content. Furthermore, their gastrointestinal tracts harbor distinct microbial communities, functional hydrolases, and metabolic pathways tailored for processing these foods. These findings suggest that wild elephants have adapted to favor a low-fiber diet. This dietary preference, shaped by their unique gut microbiota, provides a significant explanation for the uncommon long-distance migration observed in wild Asian elephants. The rare northward migration of wild Asian elephants in Xishuangbanna, China, has attracted global attention. Elephant migration is a complex ecological process, and the factors driving this long-distance migration remain elusive. In this study, fresh fecal samples were collected from both captive and wild Asian elephants, along with breastfed calves residing within the Wild Elephant Valley of Xishuangbanna. Our aim was to investigate the relationship between diet, gut microbiota, and migration patterns in Asian elephants through comprehensive metagenomic sequencing analyses. Among the breastfed Asian elephant group, Bacteroidales and Escherichia emerged as the dominant bacterial taxa, while the primary carbohydrate-active enzymes (CAZymes) enriched in this group were GH2, GH20, GH92, GH97, GH38, GH23, and GH43, aligning with their dietary source, namely breast milk. The bacterial taxa enriched in captive Asian elephants (CAEs) were mainly Butyrivibrio, Treponema, and Fibrobacter, and the enriched lignocellulose-degrading enzymes mainly included GH25, GH10, GH9, and cellulase (EC 3.2.1.4). These findings are consistent with the high-fiber diet of captive elephants. In contrast, the main bacterial taxa enriched in wild Asian elephants (WAEs) were Ruminococcus and Eubacterium, and the enriched CAZymes included GH109, GH20, GH33, GH28, GH106, and GH39. The abundance of lignocellulose-degrading bacteria and CAZyme content was low in WAEs, indicating challenges in processing high-fiber foods and explaining the low-fiber diet in this group. These findings suggest that wild elephant herds migrate in search of nutritionally suitable, low-fiber food sources. [ABSTRACT FROM AUTHOR]

Published

2023

2. Comparative analysis of the fecal microbiota of healthy and injured common kestrel (Falco tinnunculus) from the Beijing Raptor Rescue Center.

Author

Yu Guan, Lei Bao, Lei Zhou, Chang Dai, Zhisai Li, Shuai Zhang, Yugang Shang, Wenhui Niu, Yizhuo Zhang, and Hongfang Wang

Subjects

GUT microbiome, KESTRELS, FECAL analysis, BIRDS of prey, BACTERIAL communities, NUCLEOTIDE sequencing

Abstract

The gut microbiota is a complex ecosystem that interacts with many other factors to affect the health and disease states of the host. The common kestrel (Falco tinnunculus) is protected at the national level in China. However, the available sequencing data of the gut microbiota from the feces of wild common kestrels, especially for being rescued individuals by professional organization, remains limited. In the present study, we characterized the fecal bacterial communities of healthy and injured common kestrels, and compared the structure of their fecal microbiota by analyzing the V3-V4 region of the 16S rRNA gene using high-throughput sequencing technology with the Illumina MiSeq platform. We found that Firmicutes, Proteobacteria and Actinobacteria were the most predominant phyla in common kestrels. Further, the beta diversity analysis showed that changes in gut microbes were associated with injuries to the common kestrel. The Bacteroides/Firmicutes ratio was significantly lower in the injured group. At the genus level, Glutamicibacter showed significant difference in the two groups. The aim of our current study was to characterize the basic bacterial composition and community structure in the feces of healthy common kestrels, and then compare the differences in the fecal microbiota between healthy and injured individuals. Patescibacteria, Spirochaetes, and Glutamicibacter may be studied as potential biomarkers for certain diseases in raptors. The results could provide the basic data for additional research on the fecal microbiota of common kestrels and contribute to the rescue of wild raptors in the future. [ABSTRACT FROM AUTHOR]

Published

2023

3. Transport stress affects the fecal microbiota in healthy donkeys.

Author

Jiang, Guimiao, Zhang, Xinhao, Gao, Weiping, Ji, Chuanliang, Wang, Yantao, Feng, Peixiang, Feng, Yulong, Zhang, Zhiping, Li, Lin, and Zhao, Fuwei

Subjects

*DONKEYS, *GUT microbiome, *CALPROTECTIN, *INTESTINAL diseases, *HEAT shock proteins, *DISEASE incidence

Abstract

Background: With the development of large‐scale donkey farming in China, long‐distance transportation has become common practice, and the incidence of intestinal diseases after transportation has increased. The intestinal microbiota is important in health and disease, and whether or not transportation disturbs the intestinal microbiota in donkeys has not been investigated. Objectives: To determine the effects of transportation on the fecal microbiota of healthy donkeys using 16S rRNA sequencing. Animals: Fecal and blood samples were collected from 12 Dezhou donkeys before and after transportation. Methods: Prospective controlled study. Cortisol, ACTH, and heat‐shock protein 90 (HSP90) concentrations were measured. Sequencing of 16S rRNA was used to assess the microbial composition. Alpha diversity and beta diversity were assessed. Results: Results showed significant (P <.05) increases in cortisol (58.1 ± 14.6 to 71.1 ± 9.60 ng/mL), ACTH (163.8 ± 31.9 to 315.8 ± 27.9 pg/mL), and HSP90 (10.8 ± 1.67 to 14.6 ± 1.75 ng/mL) on the day of arrival. A significantly lower (P =.04) level of bacterial richness was found in fecal samples after transportation, compared with that before transportation without distinct changes in diversity. Most notably, donkeys had significant decreases in Atopostipes, Eubacterium, Streptococcus, and Coriobacteriaceae. Conclusions and Clinical Importance: Transportation can induce stress in healthy donkeys and have some effect on the composition of the in fecal microbiota. Additional studies are required to understand the potential effect of these microbiota changes, especially significantly decreased bacteria, on the development intestinal diseases in donkeys during recovery from transportation. [ABSTRACT FROM AUTHOR]

Published

2021

4. The Effect of Ryegrass Silage Feeding on Equine Fecal Microbiota and Blood Metabolite Profile.

Author

Zhu, Yiping, Wang, Xuefan, Liu, Bo, Yi, Ziwen, Zhao, Yufei, Deng, Liang, Holyoak, Reed, and Li, Jing

Subjects

LIQUID chromatography-mass spectrometry, RYEGRASSES, HAY, SILAGE, INSULIN resistance, NUCLEOTIDE sequencing, HORSE health

Abstract

Silage is fed to horses in China and other areas in the world, however, knowledge about the impact of feeding silage on horse health is still limited. In the current study, 12 horses were assigned into two groups and fed ryegrass silage and ryegrass hay, respectively, for 8 weeks. High-throughput sequencing was applied to analyze fecal microbiota, while liquid chromatography–tandem mass spectrometry (LC–MS/MS) based metabolomics technique was used for blood metabolite profile to investigate the influence of feeding ryegrass silage (group S) compared to feeding ryegrass hay (group H) on equine intestinal and systemic health. Horses in group S had significantly different fecal microbiota and blood metabolomes from horses in group H. The results showed that Verrucomicrobia was significantly less abundant which plays important role in maintaining the mucus layer of the hindgut. Rikenellaceae and Christensenellaceae were markedly more abundant in group S and Rikenellaceae may be associated with some gut diseases and obesity. The metabolomics analysis demonstrated that ryegrass silage feeding significantly affected lipid metabolism and insulin resistance in horses, which might be associated with metabolic dysfunction. Furthermore, Pearson's correlation analysis revealed some correlations between bacterial taxa and blood metabolites, which added more evidence to diet-fecal microbiota-health relationship. Overall, ryegrass silage feeding impacted systemic metabolic pathways in horses, especially lipid metabolism. This study provides evidence of effects of feeding ryegrass silage on horses, which may affect fat metabolism and potentially increase risk of insulin resistance. Further investigation will be promoted to provide insight into the relationship of a silage-based diet and equine health. [ABSTRACT FROM AUTHOR]

Published

2021

5. Only mass migration of fungi runs through the biotopes of soil, phyllosphere, and feces.

Author

Zhao, Qingzhou, Wang, Yanfen, Ayele, Gebiaw, Xu, Zhihong, and Yu, Zhisheng

Subjects

FECES, GRASSLAND soils, SOILS, GENOMICS, SOIL fungi, STATISTICAL learning, MACHINE learning

Abstract

Purpose: Understanding the microbial linkages among the soils, plants, and animals is crucial for maintaining the balance of the grazed grassland ecosystem. However, previous studies always focused on the biotopes of soil, phyllosphere, and feces separately and little has been known about microbial distributions and migrations among these biotopes. In this study, systematic surveys about the overlap and differentiation among various microbiotas of biotopes and how the environmental filter on microorganisms served for the ecosystem were conducted. Materials and methods: Soil, phyllosphere, and feces samples were collected from grazed and ungrazed grassland in Inner Mongolia, China. High-throughput sequencing and qPCR were employed to obtain the genome data. The results were analyzed by various statistical tools such as genomic analysis and machine learning classification to describe the disparities and linkages among the microbiotas of three biotopes. Results and discussion: Our findings revealed that the biotopes drove the distinct microbial community assemblages with various richness, β-diversity and composition. The substantial overlaps between soil and phyllosphere in fungi, bacteria and archaea indicated that soil played the role of the microbial source for the phyllosphere. Communal OTUs could be found between phyllosphere and feces. Nevertheless, Ascomycota were the only microorganisms migrating among all the biotopes massively. After the long-term impact of feces via grazing, the soil and phyllosphere microbiota also altered significantly. Conclusions: Biotopes drive the discrepancy of microbiota distribution among the soil, phyllosphere, and feces. Soil could potentially perform as the microbial reservoir for the phyllosphere. The phyllosphere plays the role of bridge to link soil and feces biotope through its fluctuated condition. However, there was only fungal migration running through the ecosystem to link all the biotopes. These findings promoted our understanding of the biotope contribution to microbial migration and improved the knowledge of microbial linkages in the grazed grassland ecosystem. [ABSTRACT FROM AUTHOR]

Published

2021

6. Treatment and prevention of pigeon diarrhea through the application of Lactobacillus SNK-6.

Author

Fan W, Zhu Y, Hou H, Yao J, Zhu L, Liu H, and Yan H

Subjects

Animals, Columbidae, Escherichia coli, Sand, China, Chickens, Diarrhea prevention & control, Diarrhea veterinary, Feces, Lactobacillus genetics, Ligilactobacillus salivarius

Abstract

In the pigeon industry, treating and preventing diarrhea is vital because it is a serious health problem for pigeons. This study investigated the incidence of diarrhea in 3 pigeon farms in Shanghai, and analyzed the microflora through 16S rDNA high-throughput sequencing. Four strains of Escherichia coli (E. coli) isolated from pigeon diarrhea feces were administered via gavage to healthy pigeons, with each pigeon receiving 2 × 10 8 CFU. Pigeons that developed diarrhea after E. coli challenge were treated with 3 g of Lactobacillus salivarius SNK-6 (L. salivarius SNK-6) health sand (1.6 × 10 7 CFU/g). Then, a mass feeding experiment expanded to 688 pairs of pigeons with 3 replicates, each receiving 3 g of health sand containing L. salivarius SNK-6 (1.6 × 10 7 CFU/g) every 2 wk, and fecal status monitored and recorded. The study found that the relative abundance of the Lactobacillus genus and L. salivarius in feces from pigeons with diarrhea was significantly lower than in normal pigeon feces (P < 0.05). In contrast, E. coli showed a higher abundance and diversity in feces from pigeons with diarrhea than in normal feces (P < 0.05). Three out of the 4 isolated E. coli strains caused pigeon diarrhea, resulting in a significant reduction in microbial diversity in fecal samples (P < 0.05). Both the small group attack experiment and the mass-fed additive experiment in pigeon farms demonstrated that feeding L. salivarius SNK-6 effectively cured and prevented diarrhea. Pigeons fed with L. salivarius SNK-6 exhibited no diarrhea, while the control group had a 10% diarrhea rate. In summary, a deficiency of Lactobacillus or a high abundance of E. coli in the intestine could easily cause pigeon diarrhea. Feeding L. salivarius SNK-6 could treat pigeon diarrhea, and continuous supplementation could maintain stable preventive effects., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

7. Fecal microbiota characteristics of Chinese patients with primary IgA nephropathy: a cross-sectional study.

Author

Hu, Xiaofang, Du, Jie, Xie, Yuhong, Huang, Qiong, Xiao, Yi, Chen, Juan, Yan, Siyuan, Gong, Zhicheng, and Ouyang, Shaxi

Subjects

CHINESE people, GUT microbiome, CROSS-sectional method, BACTERIAL DNA, IGA glomerulonephritis, GLOMERULAR filtration rate

Abstract

Background: Growing evidence has shown that the gut-renal connection and gut microbiota dysbiosis play a critical role in immunoglobulin A nephropathy (IgAN). However, the fecal microbiome profile in Chinese patients with IgAN remains unknown. A cross-sectional study was designed for the first time to investigate the fecal microbiota compositions in patients with primary IgAN in China and to evaluate the relationship between the fecal microbiome and IgAN clinical presentation.Methods: Fecal samples were collected from 17 IgAN patients and 18 age-, sex-, and body mass index-matched healthy controls, and bacterial DNA was extracted for 16S ribosomal RNA gene sequencing targeting the V3-V4 region.Results: Fecal samples from the IgAN patients and healthy controls showed differences in gut microbiota community richness and compositions. Compared to the healthy controls, IgAN patients at the phylum level had an increased abundance of Fusobacteria, but a decreased abundance of Synergistetes. The significantly increased genera in the IgAN group were Escherichia-Shigella, Hungatella, and Eggerthella, all of which possess pathogenic potential. Furthermore, the genus Escherichia-Shigella was negatively associated with the estimated glomerular filtration rate (eGFR) but was positively associated with the urinary albumin-to-creatinine ratio (uACR). However, the genus rectale_group was present in the IgAN group with a low abundance and was negatively associated with the uACR. Functional analysis disclosed that infection-related pathways were enriched in the IgAN group.Conclusions: We demonstrate that gut microbiota dysbiosis occurs in patients with IgAN, and that changes in gut bacterial populations are closely related to IgAN clinical features, suggesting that certain specific gut microbiota may be a potential therapeutic target for IgAN. [ABSTRACT FROM AUTHOR]

Published

2020

8. Comparative analysis of the intestinal microbiota of black-necked cranes ( Grus nigricollis ) in different wintering areas.

Author

Wang Z, Zhang E, Tang Y, Wu J, Muhammad S, Shang P, Zong C, Rong K, and Ma J

Subjects

China, Bacteria genetics, Firmicutes, Feces microbiology, Gastrointestinal Microbiome

Abstract

Fecal microbiota is essential for host health because it increases digestive effectiveness. The crane species Grus nigricollis ( G. nigricollis ) is considered to be near threatened. The fecal microbial composition of crane is less understood, particularly in the Tibet, China. This study was performed to investigate the differences in fecal microbial composition and diversity of crane in different wintering areas using third-generation single-molecule real-time sequencing technology in the Tibet, China. According to the findings, 20 samples were used to generate 936 bacterial amplicon sequence variants (ASVs) and 1,800 fungal ASVs, only 4 bacterial ASVs and 20 fungal ASVs were shared in four distinct locations. Firmicutes were the dominant bacterial phylum in all samples, and Ascomycota and Basidiomycota were the dominant fungal phylum. At the genus level, Lactobacillus was the dominant genus in Linzhi City (LZ), Shannan City (SN), and Lasa City (LS), whereas Megamonas was the dominant genus in Rikaze City (RKZ). Naganishia and Mycosphaerella were the dominant fungal genera in SN and RKZ. Mycosphaerella and Tausonia were the dominant fungal genera in LZ. Naganishia and Fusarium were the dominant fungal genera in LS. And the fecal microbial composition varied between the four groups, as shown by the underweighted pair-group method with arithmetic means and principal coordinates analysis. This study offers a theoretical basis for understanding the fecal microbial composition of crane., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Wang, Zhang, Tang, Wu, Muhammad, Shang, Zong, Rong and Ma.)

Published

2024

9. Effects of Pasture Grass, Silage, and Hay Diet on Equine Fecal Microbiota.

Author

Zhu, Yiping, Wang, Xuefan, Deng, Liang, Chen, Shulei, Zhu, Chunyan, Li, Jing, and Costa, Marcio

Subjects

*SILAGE, *NUCLEOTIDE sequencing, *GUT microbiome, *PASTURES, *HORSE health, *HAY

Abstract

Simple Summary: The intestinal microbial community in horses is very complex and interacts closely with diets. Apart from traditional forage diets, such as hay and pasture grass, silage is used to feed horses in China and other areas of the world for economic reasons or convenience of storage. Additionally, silage is also used for its convenience of harvesting and its nutrient components, including lactic acid and volatile fatty acids. In this study, we detected the characteristic composition of a fecal microbial community in horses that were fed silage with the use of a relatively new sequencing technique; we compared this result with that from horses that were fed hay and pasture grass. This study revealed some characteristic findings on the fecal microbial composition in horses that were given each of type of diet and showed significant differences between the groups. Our results provided novel data about the fecal microbial composition in horses on the silage diet. We hope that these could help balance the intestinal microbiota in horses that are mainly fed silage in combination with other types of forages in order to maintain intestinal health. Diet is an important factor affecting intestinal microbiota in horses. Fecal microbiota is commonly used as a substitute for studying hindgut microbiota when investigating the relationship between intestinal microbial changes and host health. So far, no study has compared the difference between the fecal microbiota found in horses that are fed pasture grass, silage, and hay. The present study aims to characterize the fecal microbiota in horses that were exclusively on one of the three forage diets, and to analyze the potential impact of these forages, especially silage, on horse intestinal health. There were 36 horses randomly assigned to each of the three groups; each group was fed only one type of forage for 8 weeks. High throughput sequencing was applied to analyze the bacterial taxa in fecal samples collected from the horses at the end of the feeding trial. The Lachnospiraceae family was statistically more abundant in horses fed with hay, while it was the least abundant in horses fed with silage. The Streptococcaceae spp., considered a core microbial component in equine intestinal microbiota, were present in significantly lower quantities in feces from horses that were fed pasture grass as compared to those from horses fed hay or silage. The novel data may help promote the balancing of horse intestinal microbiota and the maintenance of intestinal health in horses. [ABSTRACT FROM AUTHOR]

Published

2021