Nature Communications (Jun 2023)

Ecology of Endozoicomonadaceae in three coral genera across the Pacific Ocean

  • Corentin Hochart,
  • Lucas Paoli,
  • Hans-Joachim Ruscheweyh,
  • Guillem Salazar,
  • Emilie Boissin,
  • Sarah Romac,
  • Julie Poulain,
  • Guillaume Bourdin,
  • Guillaume Iwankow,
  • Clémentine Moulin,
  • Maren Ziegler,
  • Barbara Porro,
  • Eric J. Armstrong,
  • Benjamin C. C. Hume,
  • Jean-Marc Aury,
  • Claudia Pogoreutz,
  • David A. Paz-García,
  • Maggy M. Nugues,
  • Sylvain Agostini,
  • Bernard Banaigs,
  • Emmanuel Boss,
  • Chris Bowler,
  • Colomban de Vargas,
  • Eric Douville,
  • Michel Flores,
  • Didier Forcioli,
  • Paola Furla,
  • Eric Gilson,
  • Fabien Lombard,
  • Stéphane Pesant,
  • Stéphanie Reynaud,
  • Olivier P. Thomas,
  • Romain Troublé,
  • Patrick Wincker,
  • Didier Zoccola,
  • Denis Allemand,
  • Serge Planes,
  • Rebecca Vega Thurber,
  • Christian R. Voolstra,
  • Shinichi Sunagawa,
  • Pierre E. Galand

DOI
https://doi.org/10.1038/s41467-023-38502-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract Health and resilience of the coral holobiont depend on diverse bacterial communities often dominated by key marine symbionts of the Endozoicomonadaceae family. The factors controlling their distribution and their functional diversity remain, however, poorly known. Here, we study the ecology of Endozoicomonadaceae at an ocean basin-scale by sampling specimens from three coral genera (Pocillopora, Porites, Millepora) on 99 reefs from 32 islands across the Pacific Ocean. The analysis of 2447 metabarcoding and 270 metagenomic samples reveals that each coral genus harbored a distinct new species of Endozoicomonadaceae. These species are composed of nine lineages that have distinct biogeographic patterns. The most common one, found in Pocillopora, appears to be a globally distributed symbiont with distinct metabolic capabilities, including the synthesis of amino acids and vitamins not produced by the host. The other lineages are structured partly by the host genetic lineage in Pocillopora and mainly by the geographic location in Porites. Millepora is more rarely associated to Endozoicomonadaceae. Our results show that different coral genera exhibit distinct strategies of host-Endozoicomonadaceae associations that are defined at the bacteria lineage level.