Data_Sheet_5_Patterns of Microbiome Variation Among Infrapopulations of Permanent Bloodsucking Parasites.pdf

While interspecific variation in microbiome composition can often be readily explained by factors such as host species identity, there is still limited knowledge of how microbiomes vary at scales lower than the species level (e.g., between individuals or populations). Here, we evaluated variation in...

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Bibliographic Details
Main Authors: Jorge Doña, Stephany Virrueta Herrera, Tommi Nyman, Mervi Kunnasranta, Kevin P. Johnson
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Microbiology
Microbial Genetics
Microbial Ecology
Mycology
genome-resolved metagenomics
host-symbiont
intraspecific variation
lice
microbiota
shotgun metagenomics
symbiont
Pusa hispida
Online Access:https://doi.org/10.3389/fmicb.2021.642543.s005
https://figshare.com/articles/dataset/Data_Sheet_5_Patterns_of_Microbiome_Variation_Among_Infrapopulations_of_Permanent_Bloodsucking_Parasites_pdf/14429756
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Summary:While interspecific variation in microbiome composition can often be readily explained by factors such as host species identity, there is still limited knowledge of how microbiomes vary at scales lower than the species level (e.g., between individuals or populations). Here, we evaluated variation in microbiome composition of individual parasites among infrapopulations (i.e., populations of parasites of the same species living on a single host individual). To address this question, we used genome-resolved and shotgun metagenomic data of 17 infrapopulations (balanced design) of the permanent, bloodsucking seal louse Echinophthirius horridus sampled from individual Saimaa ringed seals Pusa hispida saimensis. Both genome-resolved and read-based metagenomic classification approaches consistently show that parasite infrapopulation identity is a significant factor that explains both qualitative and quantitative patterns of microbiome variation at the intraspecific level. This study contributes to the general understanding of the factors driving patterns of intraspecific variation in microbiome composition, especially of bloodsucking parasites, and has implications for understanding how well-known processes occurring at higher taxonomic levels, such as phylosymbiosis, might arise in these systems.

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