Host transcriptomic plasticity and photosymbiotic fidelity underpin Pocillopora acclimatization across thermal regimes in the Pacific Ocean.
Eric J ArmstrongJulie Lê-HoangQuentin CarradecJean-Marc AuryBenjamin NoelBenjamin C C HumeChristian R VoolstraJulie PoulainCaroline BelserDavid A Paz GarcíaCorinne CruaudKarine LabadieCorinne Da SilvaClémentine MoulinEmilie BoissinGuillaume BourdinGuillaume IwankowSarah RomacSylvain AgostiniBernard BanaigsEmmanuel S BossChris BowlerColomban de VargasEric DouvilleJ Michel FloresDidier ForcioliPaola FurlaPierre E GalandEric GilsonFabien LombardStéphane PesantStéphanie ReynaudMatthew B SullivanShinichi SunagawaOlivier P ThomasRomain TroubléRebecca L Vega ThurberDidier ZoccolaSerge PlanesDenis AllemandPatrick WinckerPublished in: Nature communications (2023)
Heat waves are causing declines in coral reefs globally. Coral thermal responses depend on multiple, interacting drivers, such as past thermal exposure, endosymbiont community composition, and host genotype. This makes the understanding of their relative roles in adaptive and/or plastic responses crucial for anticipating impacts of future warming. Here, we extracted DNA and RNA from 102 Pocillopora colonies collected from 32 sites on 11 islands across the Pacific Ocean to characterize host-photosymbiont fidelity and to investigate patterns of gene expression across a historical thermal gradient. We report high host-photosymbiont fidelity and show that coral and microalgal gene expression respond to different drivers. Differences in photosymbiotic association had only weak impacts on host gene expression, which was more strongly correlated with the historical thermal environment, whereas, photosymbiont gene expression was largely determined by microalgal lineage. Overall, our results reveal a three-tiered strategy of thermal acclimatization in Pocillopora underpinned by host-photosymbiont specificity, host transcriptomic plasticity, and differential photosymbiotic association under extreme warming.