# Diversity and dynamics of multiple symbionts contribute to early development of broadcast spawning reef-building coral Dipsastraea veroni

**Authors:** Minglan Guo, Lei Jiang, Guowei Zhou, Jiansheng Lian, Xiaolei Yu, Hui Huang

PMC · DOI: 10.1128/aem.02359-24 · 2025-01-29

## TL;DR

This study explores how symbiotic relationships with algae, bacteria, and archaea help a type of coral survive and develop during its early life stages.

## Contribution

The study reveals that symbiosis with multiple organisms is a heritable and adaptive process in Dipsastraea veroni coral during early development.

## Key findings

- Symbiosis with Symbiodiniaceae, bacteria, and archaea is crucial for early development in Dipsastraea veroni.
- The coral shows dynamic shifts in dominant symbionts at different developmental stages.
- Flexible symbiotic mechanisms support coral survival and evolution under environmental changes.

## Abstract

Sexual reproduction and recruitment enhance the genetic diversity and evolution of reef-building corals for population recovery and coral reef conservation under climate change. However, new recruits are vulnerable to physical changes and the mechanisms of symbiosis establishment remain poorly understood. Here, Dipsastraea veroni, a broadcast spawning hermaphrodite reef-building coral, was subjected to settlement and juvenile growth in flow-through in situ seawater at 27.93 ± 0.96°C. Symbiosis of Symbiodiniaceae, bacteria, and/or archaea by horizontal acquisition and/or hypothetical vertical transmission through the mucus with symbionts from the parent appears to be a heritable process of selection and adaptation in D. veroni at the egg, larva, juvenile (5 days post settlement, d p.s. and 32 d p.s.) stages. Symbiodiniaceae was dominated by the genera Cladocopium, Durusdinium, Symbiodinium, with increasing relative abundance of Durusdinium at 5 d p.s. and Symbiodinium at 32 d p.s. Mixed acquisition of the dominant phyla Pseudomonadota, Bacteroidota, Cyanobacteriota, Bacillota, Planctomycetota, and Actinomycetota in egg, larva, and/or juvenile showed a winnowing and regulated bacterial diversity and dynamics, resulting in stage-abundant orders Pseudomonadales and Bacillales in egg and Rhodobacterales, Rhodospirillales, Cyanobacteria, and Cyanobacteriales in larva and/or juvenile. The photoautotrophic Chloroflexales, Cyanobacteriales, and Chlorobiales were abundant in adults. The stable archaeal community contained predominant Crenarchaeota, Halobacterota, Nanoarchaeia Thermoplasmatota, and eight rare phyla, with increased relative abundance of the genera Bathyarchaeota, Candidatus_Nitrosopumilus, Candidatus_Nitrocosmicus, Nitrosarchaeum, Candidatus_Nitrosotenuis, Candidatus_Nitrosopelagicus, Cenarchaeum, Haladaptatus, Halogranum, Halolamina, and Woesearchaeales and GW2011-AR15 in juveniles. All results revealed flexible symbiotic mechanisms in D. veroni during early ontogeny for coral survival and evolution.

Flexible symbioses of Symbiodiniaceae, bacteria, and archaea appear to be a heritable process of selection and adaptation in Dipsastraea veroni in the field, benefiting early coral development and facilitating coral population recovery and reef conversation.

## Linked entities

- **Species:** Dipsastraea veroni (taxon 1869263)

## Full-text entities

- **Species:** Rhodobacterales (order) [taxon 204455], Candidatus Nitrosopelagicus (genus) [taxon 1593364], Haladaptatus (genus) [taxon 367188], Pseudomonadales (order) [taxon 72274], Nitrosarchaeum (genus) [taxon 1007082], Halolamina (genus) [taxon 1075397], Candidatus Nitrosotenuis (genus) [taxon 1825023], Planctomycetota (phylum) [taxon 203682], Cyanobacteriota (blue-green algae, phylum) [taxon 1117], Candidatus Cenarchaeum (genus) [taxon 46769], Halogranum (genus) [taxon 695982], Dipsastraea veroni (species) [taxon 1869263]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11837535/full.md

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Source: https://tomesphere.com/paper/PMC11837535