Guangjun Chai scite author profile

The coral symbiont Symbiodinium plays important roles in the adaptation of coral to environmental changes. However, coral-Symbiodinium symbiotic associations are not well-understood in the South China Sea (SCS) whilst considering environmental factors and host taxa. In this study, next-generation sequencing of the internal transcribed spacer region 2 (ITS2) marker gene was used to explore the symbiotic associations between Symbiodinium and five typical coral species across tropical and subtropical reef regions of the SCS. The results showed that Acropora sp., Galaxea fascicularis, Platygyra lamellina, and Sarcophyton glaucum exhibited distinct Symbiodinium compositions between tropical and subtropical reef regions, whereas Porites lutea had stable Symbiodinium compositions. More heterogeneous Symbiodinium compositions among different coral species were observed in the tropical region, but there were no statistically significant differences in Symbiodinium compositions among different coral species in subtropical reef regions. There was a correlation between the Symbiodinium compositions and environmental factors, except for the composition of P. lutea. Symbiodinium subclades D1, D2, C71, C71a, C21, C3b, and C161 were primarily explained by the seawater temperature, nitrate, ammonia, and phosphate. Several host-specific Symbiodinium subclades (e.g., C15, C15.6, and C91) were observed in P. lutea as well. The findings of this study demonstrate the relationship of Symbiodinium diversity with coral hosts and the environment are helpful for elucidating the adaptation of corals to global climate change and anthropogenic disturbance.

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Global-Scale Diversity and Distribution Characteristics of Reef-Associated Symbiodiniaceae via the Cluster-Based Parsimony of Internal Transcribed Spacer 2 Sequences

Gong

Chai

Sun

et al. 2021

J. Ocean Univ. China

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The impacts of ocean acidification, warming and their interactive effects on coral prokaryotic symbionts

Chai

Xiao

et al. 2023

Environmental Microbiome

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Background Reef-building corals, the foundation of tropical coral reefs, are vulnerable to climate change e.g. ocean acidification and elevated seawater temperature. Coral microbiome plays a key role in host acclimatization and maintenance of the coral holobiont’s homeostasis under different environmental conditions, however, the response patterns of coral prokaryotic symbionts to ocean acidification and/or warming are rarely known at the metatranscriptional level, particularly the knowledge of interactive and persistent effects is limited. Using branching Acropora valida and massive Galaxea fascicularis as models in a lab system simulating extreme ocean acidification (pH 7.7) and/or warming (32 °C) in the future, we investigated the changes of in situ active prokaryotic symbionts community and gene expression of corals under/after (6/9 d) acidification (A), warming (H) and acidification–warming (AH) by metatranscriptome analysis with pH8.1, 26 °C as the control. Results A, H and AH increased the relative abundance of in situ active pathogenic bacteria. Differentially expressed genes (DEGs) involved in virulence, stress resistance, and heat shock proteins were up-regulated. Many DEGs involved in photosynthesis, carbon dioxide fixation, amino acids, cofactors and vitamins, auxin synthesis were down-regulated. A broad array of new DEGs involved in carbohydrate metabolism and energy production emerged after the stress treatment. Different response patterns of prokaryotic symbionts of massive G. fascicularis and branching A. valida were suggested, as well as the interactive effects of combined AH and persistent effects. Conclusions The metatranscriptome-based study indicates that acidification and/or warming might change coral’s in situ active prokaryotic microbial diversity and functional gene expression towards more pathogenic and destabilized coral-microbes symbioses, particularly combined acidification and warming show interactive effects. These findings will aid in comprehension of the coral holobiont’s ability for acclimatization under future climate change.

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Synergistic effects of ocean acidification and warming on coral host, Symbiodinium and nutrients exchange-based symbioses indicated by metatranscriptome

Chai

et al. 2022

Preprint

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Global climate changes e.g. ocean acidification and warming caused by anthropogenic emission of CO2 are the greatest global threat to coral reef ecosystems. However, compared with the knowledge of Symbiodinium, little is known about the synergistic effects of combined ocean acidification and warming on the coral host and coral-Symbiodinium symbioses. In this study, metatranscriptomic analysis was performed to reveal the response of coral host and its symbiotic Symbiodinium to acidification (A), warming (H) and combined acidification and acidification (AH), using branching A. valida and massive G. fascicularis as models in a laboratory simulation system. RNA-Seq-based differently expressed genes (DEGs), together with coral’s morphological change, suggested the synergistic effects of AH on the coral host and coral-Symbiodinium symbioses, e.g. photosynthesis inhibition and negative effect on nutrients exchange between the host and its Symbiodinium. Particularly, AH showed a far greater impact on coral host than on Symbiodinium. These findings provide novel insights into the molecular mechanism of coral holobionts’ response to future extreme ocean acidification and warming, meanwhile highlight the molecular evidence for the different tolerance of branching and massive corals to environmental changes.

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Complete genome of Mycetocola spongiae MSC19T isolated from deep-sea sponge Cacospongia mycofijiensis indicates the adaptation to deep-sea environment and sponge-microbe symbioses

et al. 2022

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Guangjun Chai

Flexible Symbiotic Associations of Symbiodinium With Five Typical Coral Species in Tropical and Subtropical Reef Regions of the Northern South China Sea

Global-Scale Diversity and Distribution Characteristics of Reef-Associated Symbiodiniaceae via the Cluster-Based Parsimony of Internal Transcribed Spacer 2 Sequences

The impacts of ocean acidification, warming and their interactive effects on coral prokaryotic symbionts

Synergistic effects of ocean acidification and warming on coral host, Symbiodinium and nutrients exchange-based symbioses indicated by metatranscriptome

Complete genome of Mycetocola spongiae MSC19T isolated from deep-sea sponge Cacospongia mycofijiensis indicates the adaptation to deep-sea environment and sponge-microbe symbioses

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