Exploration of gut microbial diversity of pheasants through pyrosequencing of 16S rRNA gene

Despite the diversity of microbiota in birds is similar to that of other animals, there is a lack of research on the gut microbial diversity of nondomesticated bird species. This study aims to address this gap in knowledge by analyzing the bacterial communities present in the gut of two important ga...

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Veröffentlicht in:	Journal of experimental zoology. Part A, Ecological and integrative physiology Ecological and integrative physiology, 2024-10, Vol.341 (8), p.950-959
Hauptverfasser:	Bukhari, Syed M., Andleeb, Shahla, Alghamdi, Huda A., Rehman, Khalil ur, Javid, Arshad, Ali, Waqas, Abbas, Yassar, Nokhaiz, Kashaf
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Sprache:	eng
Schlagworte:	16S rRNA gene Animals Bacteria - classification Bacteria - genetics Birds Diversity indices Feces Feces - microbiology Galliformes - microbiology Game animals Gastrointestinal Microbiome Gene sequencing Genera Intestinal flora Intestinal microflora microbial diversity Microbiomes Microbiota Microorganisms Phasianus colchicus pheasants Phylogeny pyrosequencing RNA, Bacterial - genetics RNA, Ribosomal, 16S - genetics rRNA 16S Sequencing Species diversity Species richness Taxonomy Wildlife conservation
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container_title	Journal of experimental zoology. Part A, Ecological and integrative physiology
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creator	Bukhari, Syed M. Andleeb, Shahla Alghamdi, Huda A. Rehman, Khalil ur Javid, Arshad Ali, Waqas Abbas, Yassar Nokhaiz, Kashaf
description	Despite the diversity of microbiota in birds is similar to that of other animals, there is a lack of research on the gut microbial diversity of nondomesticated bird species. This study aims to address this gap in knowledge by analyzing the bacterial communities present in the gut of two important game bird species, the Ring‐necked pheasant (Phasianus colchicus) and the Green pheasant (Phasianus versicolor) to understand the gut microbial diversity of these species. The gut microbiome of 10 individual pheasants from two different species was studied using pooled fecal samples. We used 16S rRNA gene sequencing on the Ion S5 XL System next‐generation sequencing with Mothur and SILVA Database for taxonomic division. An average of 141 different operational taxonomic units were detected in the gut microbiome. Analysis of microbial classification revealed the presence of 191 genera belonging to 12 different phyla in both pheasants. Alpha diversity indices revealed that P. colchicus exhibited most prevalence firmicutes with bacillus species microbial community than P. versicolor. Alpha diversity indices indicated that P. colchicus had a more diverse community and P. versicolor had a greater diversity of evolutionary lineages, while both species had similar levels of species richness and sample inclusiveness. These findings may have implications for the health and well‐being of pheasants, serving as a reference for their bacterial diversity. Additionally, they provide a baseline for future research and conservation efforts aimed at improving the health and well‐being of these and possibly other avian species. Research Highlights Our research highlights a gap in understanding nondomesticated bird species' gut microbes, despite similarities across animals. It could impact the health of game birds and provide a reference for pheasant bacterial diversity.
doi_str_mv	10.1002/jez.2855
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This study aims to address this gap in knowledge by analyzing the bacterial communities present in the gut of two important game bird species, the Ring‐necked pheasant (Phasianus colchicus) and the Green pheasant (Phasianus versicolor) to understand the gut microbial diversity of these species. The gut microbiome of 10 individual pheasants from two different species was studied using pooled fecal samples. We used 16S rRNA gene sequencing on the Ion S5 XL System next‐generation sequencing with Mothur and SILVA Database for taxonomic division. An average of 141 different operational taxonomic units were detected in the gut microbiome. Analysis of microbial classification revealed the presence of 191 genera belonging to 12 different phyla in both pheasants. Alpha diversity indices revealed that P. colchicus exhibited most prevalence firmicutes with bacillus species microbial community than P. versicolor. Alpha diversity indices indicated that P. colchicus had a more diverse community and P. versicolor had a greater diversity of evolutionary lineages, while both species had similar levels of species richness and sample inclusiveness. These findings may have implications for the health and well‐being of pheasants, serving as a reference for their bacterial diversity. Additionally, they provide a baseline for future research and conservation efforts aimed at improving the health and well‐being of these and possibly other avian species. Research Highlights Our research highlights a gap in understanding nondomesticated bird species' gut microbes, despite similarities across animals. 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Part A, Ecological and integrative physiology</title><addtitle>J Exp Zool A Ecol Integr Physiol</addtitle><description>Despite the diversity of microbiota in birds is similar to that of other animals, there is a lack of research on the gut microbial diversity of nondomesticated bird species. This study aims to address this gap in knowledge by analyzing the bacterial communities present in the gut of two important game bird species, the Ring‐necked pheasant (Phasianus colchicus) and the Green pheasant (Phasianus versicolor) to understand the gut microbial diversity of these species. The gut microbiome of 10 individual pheasants from two different species was studied using pooled fecal samples. We used 16S rRNA gene sequencing on the Ion S5 XL System next‐generation sequencing with Mothur and SILVA Database for taxonomic division. An average of 141 different operational taxonomic units were detected in the gut microbiome. Analysis of microbial classification revealed the presence of 191 genera belonging to 12 different phyla in both pheasants. Alpha diversity indices revealed that P. colchicus exhibited most prevalence firmicutes with bacillus species microbial community than P. versicolor. Alpha diversity indices indicated that P. colchicus had a more diverse community and P. versicolor had a greater diversity of evolutionary lineages, while both species had similar levels of species richness and sample inclusiveness. These findings may have implications for the health and well‐being of pheasants, serving as a reference for their bacterial diversity. Additionally, they provide a baseline for future research and conservation efforts aimed at improving the health and well‐being of these and possibly other avian species. Research Highlights Our research highlights a gap in understanding nondomesticated bird species' gut microbes, despite similarities across animals. 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Part A, Ecological and integrative physiology</jtitle><addtitle>J Exp Zool A Ecol Integr Physiol</addtitle><date>2024-10</date><risdate>2024</risdate><volume>341</volume><issue>8</issue><spage>950</spage><epage>959</epage><pages>950-959</pages><issn>2471-5638</issn><issn>2471-5646</issn><eissn>2471-5646</eissn><abstract>Despite the diversity of microbiota in birds is similar to that of other animals, there is a lack of research on the gut microbial diversity of nondomesticated bird species. This study aims to address this gap in knowledge by analyzing the bacterial communities present in the gut of two important game bird species, the Ring‐necked pheasant (Phasianus colchicus) and the Green pheasant (Phasianus versicolor) to understand the gut microbial diversity of these species. The gut microbiome of 10 individual pheasants from two different species was studied using pooled fecal samples. We used 16S rRNA gene sequencing on the Ion S5 XL System next‐generation sequencing with Mothur and SILVA Database for taxonomic division. An average of 141 different operational taxonomic units were detected in the gut microbiome. Analysis of microbial classification revealed the presence of 191 genera belonging to 12 different phyla in both pheasants. Alpha diversity indices revealed that P. colchicus exhibited most prevalence firmicutes with bacillus species microbial community than P. versicolor. Alpha diversity indices indicated that P. colchicus had a more diverse community and P. versicolor had a greater diversity of evolutionary lineages, while both species had similar levels of species richness and sample inclusiveness. These findings may have implications for the health and well‐being of pheasants, serving as a reference for their bacterial diversity. Additionally, they provide a baseline for future research and conservation efforts aimed at improving the health and well‐being of these and possibly other avian species. Research Highlights Our research highlights a gap in understanding nondomesticated bird species' gut microbes, despite similarities across animals. It could impact the health of game birds and provide a reference for pheasant bacterial diversity.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>38966934</pmid><doi>10.1002/jez.2855</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-6330-9676</orcidid></addata></record>
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subjects	16S rRNA gene Animals Bacteria - classification Bacteria - genetics Birds Diversity indices Feces Feces - microbiology Galliformes - microbiology Game animals Gastrointestinal Microbiome Gene sequencing Genera Intestinal flora Intestinal microflora microbial diversity Microbiomes Microbiota Microorganisms Phasianus colchicus pheasants Phylogeny pyrosequencing RNA, Bacterial - genetics RNA, Ribosomal, 16S - genetics rRNA 16S Sequencing Species diversity Species richness Taxonomy Wildlife conservation
title	Exploration of gut microbial diversity of pheasants through pyrosequencing of 16S rRNA gene
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