Simulated marine heat wave alters abundance and structure of vibrio populations associated with the Pacific oyster resulting in a mass mortality event
Simulated marine heat wave alters abundance and structure of vibrio populations associated with the Pacific oyster resulting in a mass mortality event
Marine heat waves are predicted to become more frequent and intense due to anthropogenically induced climate change, which will impact global production of seafood. Links between rising seawater temperature and disease have been documented for many aquaculture species, including the Pacific oyster Crassostrea gigas. The oyster harbours a diverse microbial community that may act as a source of opportunistic pathogens during temperature stress. We rapidly raised the seawater temperature from 20 °C to 25 °C resulting in an oyster mortality rate of 77.4%. Under the same temperature conditions and with the addition of antibiotics, the mortality rate was only 4.3%, strongly indicating a role for bacteria in temperature-induced mortality. 16S rRNA amplicon sequencing revealed a change in the oyster microbiome when the temperature was increased to 25 °C, with a notable increase in the proportion of Vibrio sequences. This pattern was confirmed by qPCR, which revealed heat stress increased the abundance of Vibrio harveyi and Vibrio fortis by 324-fold and 10-fold, respectively. Our findings indicate that heat stress-induced mortality of C. gigas coincides with an increase in the abundance of putative bacterial pathogens in the oyster microbiome and highlights the negative consequences of marine heat waves on food production from aquaculture.
Crassostrea, Disease event, Marine heat wave, Temperature stress, Vibrio harveyi
736-747
Green, Timothy J.
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Siboni, Nachshon
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King, William L.
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Labbate, Maurizio
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Seymour, Justin R.
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Raftos, David
379c4d22-907c-41cb-b502-aa6b3e2cd0a2
10 August 2019
Green, Timothy J.
7af314e0-92e8-476b-b575-4f01932d5525
Siboni, Nachshon
cd5ba51e-896e-4b3f-be74-ab136fd96675
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4
Seymour, Justin R.
9b8a8df1-b392-4a9b-a513-54ea4c7172c7
Raftos, David
379c4d22-907c-41cb-b502-aa6b3e2cd0a2
Green, Timothy J., Siboni, Nachshon, King, William L., Labbate, Maurizio, Seymour, Justin R. and Raftos, David
(2019)
Simulated marine heat wave alters abundance and structure of vibrio populations associated with the Pacific oyster resulting in a mass mortality event.
Microbial Ecology, 77 (3), .
(doi:10.1007/s00248-018-1242-9).
Abstract
Marine heat waves are predicted to become more frequent and intense due to anthropogenically induced climate change, which will impact global production of seafood. Links between rising seawater temperature and disease have been documented for many aquaculture species, including the Pacific oyster Crassostrea gigas. The oyster harbours a diverse microbial community that may act as a source of opportunistic pathogens during temperature stress. We rapidly raised the seawater temperature from 20 °C to 25 °C resulting in an oyster mortality rate of 77.4%. Under the same temperature conditions and with the addition of antibiotics, the mortality rate was only 4.3%, strongly indicating a role for bacteria in temperature-induced mortality. 16S rRNA amplicon sequencing revealed a change in the oyster microbiome when the temperature was increased to 25 °C, with a notable increase in the proportion of Vibrio sequences. This pattern was confirmed by qPCR, which revealed heat stress increased the abundance of Vibrio harveyi and Vibrio fortis by 324-fold and 10-fold, respectively. Our findings indicate that heat stress-induced mortality of C. gigas coincides with an increase in the abundance of putative bacterial pathogens in the oyster microbiome and highlights the negative consequences of marine heat waves on food production from aquaculture.
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Published date: 10 August 2019
Additional Information:
Funding Information:
The authors acknowledge the funding provided by Macquarie University postdoctoral research scheme to TG (MQ grant #9201300681) and Australian Research Council to JS (ARC grants FT130100218 and LP160101785).
Funding Information:
Acknowledgements The authors acknowledge the funding provided by Macquarie University postdoctoral research scheme to TG (MQ grant #9201300681) and Australian Research Council to JS (ARC grants FT130100218 and LP160101785).
Publisher Copyright:
© 2018, Springer Science+Business Media, LLC, part of Springer Nature.
Keywords:
Crassostrea, Disease event, Marine heat wave, Temperature stress, Vibrio harveyi
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Local EPrints ID: 486609
URI: http://eprints.soton.ac.uk/id/eprint/486609
ISSN: 0095-3628
PURE UUID: d4bb6d2c-ee18-4432-a085-d6fac302f1ad
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Date deposited: 26 Jan 2024 18:00
Last modified: 18 Mar 2024 04:18
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Contributors
Author:
Timothy J. Green
Author:
Nachshon Siboni
Author:
William L. King
Author:
Maurizio Labbate
Author:
Justin R. Seymour
Author:
David Raftos
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