Coral microbiome in estuary coral community of Pearl River Estuary: insights into variation in coral holobiont adaptability to low-salinity conditions

Coral microbiome in estuary coral community of Pearl River Estuary: insights into variation in coral holobiont adaptability to low-salinity conditions

Abstract Background Low salinity is a crucial environmental stressor that affects estuarine coral ecosystems considerably. However, few studies have focused on the effects of low-salinity conditions on coral-associated microorganisms and the adaptability of coral holobionts. Methods We explored the...

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Main Authors: Mengling Lan, Kaixiang Gao, Zhenjun Qin, Zhanhong Li, Ru Meng, Lifei Wei, Biao Chen, Xiaopeng Yu, Lijia Xu, Yongzhi Wang, Kefu Yu
Format: Article
Language:English
Published: BMC 2025-05-01
Series:BMC Microbiology
Subjects:
Coral holobionts
Associated bacteria
Symbiotic Symbiodiniaceae
Low-salinity stress
Microbial community variation
Online Access:https://doi.org/10.1186/s12866-025-04013-4
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Summary:Abstract Background Low salinity is a crucial environmental stressor that affects estuarine coral ecosystems considerably. However, few studies have focused on the effects of low-salinity conditions on coral-associated microorganisms and the adaptability of coral holobionts. Methods We explored the community structure of coral symbiotic Symbiodiniaceae and associated bacteria in low-salinity conditions using samples of six coral species from the Pearl River Estuary and analyzed the adaptability of coral holobionts in estuaries. Results The symbiotic Symbiodiniaceae of all six studied coral species were dominated by Cladocopium, but, the Symbiodiniaceae subclades differed among these coral species. Some coral species (e.g., Acropora solitaryensis) had a high diversity of symbiotic Symbiodiniaceae but low Symbiodiniaceae density, with different adaptability to low-salinity stress in the Pearl River Estuary. Other coral species (e.g., Plesiastrea versipora) potentially increased their resistance by associating with specific Symbiodiniaceae subclades and with high Symbiodiniaceae density under low-salinity stress. The microbiome associated with the coral species were dominated by Proteobacteria, Chloroflexi, and Bacteroidetes; however, its diversity and composition varied among coral species. Some coral species (e.g., Acropora solitaryensis) had a high diversity of associated bacteria, with different adaptability owing to low-salinity stress. Other coral species (e.g., Plesiastrea versipora) potentially increased their resistance by having minority bacterial dominance under low-salinity stress. Conclusions High Symbiodiniaceae density and high bacterial diversity may be conducive to increase the tolerance of coral holobiont to low-salinity environments. Different coral species have distinct ways of adapting to low-salinity stress, and this difference is mainly through the dynamic regulation of the coral microbiome by corals.
ISSN:1471-2180

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