Dynamics of coral-associated bacterial communities acclimated to temperature stress based on recent thermal history

Seasonal variation in temperature fluctuations may provide corals and their algal symbionts varying abilities to acclimate to changing temperatures. We hypothesized that different temperature ranges between seasons may promote temperature-tolerance of corals, which would increase stability of a bact...

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Bibliographic Details
Published in:Scientific reports 2017-11, Vol.7 (1), p.14933-13, Article 14933
Main Authors: Shiu, Jia-Ho, Keshavmurthy, Shashank, Chiang, Pei-Wen, Chen, Hsing-Ju, Lou, Shueh-Ping, Tseng, Ching-Hung, Justin Hsieh, Hernyi, Allen Chen, Chaolun, Tang, Sen-Lin
Format: Article
Language:English
Subjects:
631/326/171/1878
631/326/2565/855
Acclimation
Acclimatization
Algae
Animals
Anthozoa - microbiology
Anthozoa - physiology
Bacteria
Bacteria - genetics
Bacteria - isolation & purification
Bacterial Physiological Phenomena
Cold-Shock Response
Community composition
Corals
Heat-Shock Response
Humanities and Social Sciences
multidisciplinary
RNA, Ribosomal, 16S - genetics
rRNA 16S
Science
Science (multidisciplinary)
Seasonal variations
Seasons
Stress, Physiological
Symbionts
Symbiosis
Temperature
Temperature effects
Temperature tolerance
Thermotolerance
Water temperature
Winter
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Summary:Seasonal variation in temperature fluctuations may provide corals and their algal symbionts varying abilities to acclimate to changing temperatures. We hypothesized that different temperature ranges between seasons may promote temperature-tolerance of corals, which would increase stability of a bacterial community following thermal stress. Acropora muricata coral colonies were collected in summer and winter (water temperatures were 23.4–30.2 and 12.1–23.1 °C, respectively) from the Penghu Archipelago in Taiwan, then exposed to 6 temperature treatments (10–33 °C). Changes in coral-associated bacteria were determined after 12, 24, and 48 h. Based on 16S rRNA gene amplicons and Illumina sequencing, bacterial communities differed between seasons and treatments altered the dominant bacteria. Cold stress caused slower shifts in the bacterial community in winter than in summer, whereas a more rapid shift occurred under heat stress in both seasons. Results supported our hypothesis that bacterial community composition of corals in winter are more stable in cold temperatures but changed rapidly in hot temperatures, with opposite results for the bacterial communities in summer. We infer that the thermal tolerance ranges of coral-associated bacteria, with a stable community composition, are associated with their short-term (3 mo) seawater thermal history. Therefore, seasonal acclimation may increase tolerance of coral-associated bacteria to temperature fluctuations.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-14927-3