Composition and Drivers of Gut Microbial Communities in Arctic-Breeding Shorebirds

Gut microbiota can have important effects on host health, but explanatory factors and pathways that determine gut microbial composition can differ among host lineages. In mammals, host phylogeny is one of the main drivers of gut microbiota, a result of vertical transfer of microbiota during birth. I...

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Bibliographic Details
Published in:Frontiers in Microbiology
Main Authors: Grond, Kirsten, Santo Domingo, Jorge W., Lanctot, Richard B., Jumpponen, Ari, Bentzen, Rebecca L., Boldenow, Megan L., Brown, Stephen C., Casler, Bruce, Cunningham, Jenny A., Doll, Andrew C., Freeman, Scott, Hill, Brooke L., Kendall, Steven J., Kwon, Eunbi, Liebezeit, Joseph R., Pirie-Dominix, Lisa, Rausch, Jennie, Sandercock, Brett K.
Other Authors: Fish and Wildlife Conservation
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
16S rRNA gene
breeding site
environment
gut microbiome
host health
Arctic
Online Access:http://hdl.handle.net/10919/96787
https://doi.org/10.3389/fmicb.2019.02258
Description
Summary:Gut microbiota can have important effects on host health, but explanatory factors and pathways that determine gut microbial composition can differ among host lineages. In mammals, host phylogeny is one of the main drivers of gut microbiota, a result of vertical transfer of microbiota during birth. In birds, it is less clear what the drivers might be, but both phylogeny and environmental factors may play a role. We investigated host and environmental factors that underlie variation in gut microbiota composition in eight species of migratory shorebirds. We characterized bacterial communities from 375 fecal samples collected from adults of eight shorebird species captured at a network of nine breeding sites in the Arctic and sub-Arctic ecoregions of North America, by sequencing the V4 region of the bacterial 16S ribosomal RNA gene. Firmicutes (55.4%), Proteobacteria (13.8%), Fusobacteria (10.2%), and Bacteroidetes (8.1%) dominated the gut microbiota of adult shorebirds. Breeding location was the main driver of variation in gut microbiota of breeding shorebirds (R-2 = 11.6%), followed by shorebird host species (R-2 = 1.8%), and sampling year (R-2 = 0.9%), but most variation remained unexplained. Site variation resulted from differences in the core bacterial taxa, whereas rare, lowabundance bacteria drove host species variation. Our study is the first to highlight a greater importance of local environment than phylogeny as a driver of gut microbiota composition in wild, migratory birds under natural conditions. Avian Health Program grants from the U.S. Fish and Wildlife Service [2013-02]; National Science FoundationNational Science Foundation (NSF) [DDIG-1501479]; Arctic Landscape Conservation Cooperative; U.S. Fish and Wildlife ServiceUS Fish & Wildlife Service; Division of Biology at the Kansas State University; Kansas State University Open Access Publishing Fund This work was funded by the Avian Health Program grants from the U.S. Fish and Wildlife Service (to JS and RL, and 2013-02 to KG and RL), a ...

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