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Fungal microbiomes are determined by host phylogeny and exhibit widespread associations with the bacterial microbiome

Harrison, XA; McDevitt, A; Dunn, JC; Griffiths, S; Benvenuto, C; Birtles, RJ; Boubli, JP; Bown, K; Bridson, C; Brooks, D; Browett, SS; Carden, RF; Chantrey, J; Clever, F; Coscia, I; Edwards, KL; Ferry, N; Goodhead, IB; Highlands, A; Hopper, J; Jackson, JA; Jehle, R; Da Cruz Kaizer, M; King, T; Lea, JMD; Lenka, JL; McCubbin, A; Mckenzie, J; de Moraes, BLC; O’Meara, DB; Pescod, P; Preziosi, RF; Rowntree, JK; Shultz, S; Silk, MJ; Stockdale, JE; Symondson, WOC; de la Pena, MV; Walker, SL; Wood, M; Antwis, RE

Authors

XA Harrison

A McDevitt

JC Dunn

S Griffiths

K Bown

C Bridson

D Brooks

SS Browett

RF Carden

J Chantrey

F Clever

I Coscia

KL Edwards

A Highlands

J Hopper

M Da Cruz Kaizer

T King

JMD Lea

JL Lenka

A McCubbin

J Mckenzie

BLC de Moraes

DB O’Meara

P Pescod

RF Preziosi

JK Rowntree

S Shultz

MJ Silk

JE Stockdale

WOC Symondson

MV de la Pena

SL Walker

Profile image of Mike Wood

Prof Mike Wood M.D.Wood@salford.ac.uk
Associate Dean Research & Innovation

RE Antwis



Abstract

Interactions between hosts and their resident microbial communities are a fundamental component of fitness for both agents. Though recent research has highlighted the importance of interactions between animals and their bacterial communities, comparative evidence for fungi is lacking, especially in natural populations. Using data from 49 species, we present novel evidence of strong covariation between fungal and bacterial communities across the host phylogeny, indicative of recruitment by hosts for specific suites of microbes. Using co-occurrence networks, we demonstrate that fungi form critical components of putative microbial interaction networks, where the strength and frequency of interactions varies with host taxonomy. Host phylogeny drives differences in overall richness of bacterial and fungal communities, but the effect of diet on richness was only evident in mammals and for the bacterial microbiome. Collectively these data indicate fungal microbiomes may play a key role in host fitness and suggest an urgent need to study multiple agents of the animal microbiome to accurately determine the strength and ecological significance of host-microbe interactions.

SIGNIFICANCE STATEMENT Microbes perform vital metabolic functions that shape the physiology of their hosts. However, almost all research to date in wild animals has focused exclusively on the bacterial microbiota, to the exclusion of other microbial groups. Although likely to be critical components of the host microbiome, we have limited knowledge of the drivers of fungal composition across host species. Here we show that fungal community composition is determined by host species identity and phylogeny, and that fungi form extensive interaction networks with bacteria in the microbiome of a diverse range of animal species. This highlights the importance of microbial interactions as mediators of microbiome-health relationships in the wild.

Other Type Experiment
Online Publication Date Feb 24, 2021
Publication Date Feb 24, 2021
Deposit Date Nov 1, 2021
Publicly Available Date Nov 1, 2021
DOI https://doi.org/10.1101/2020.07.07.177535
Related Public URLs https://www.biorxiv.org/
https://doi.org/10.1101/2020.07.07.177535
Additional Information Access Information : This is a pre-print paper and has not been through the peer-review process.

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