The Sydney rock oyster microbiota is influenced by location, season and genetics
The Sydney rock oyster microbiota is influenced by location, season and genetics
Queensland unknown (QX) disease is a significant cause of economic loss for the Sydney rock oyster (SRO) aquaculture industry. Evidence is emerging that QX disease is multi-factorial in nature, with a number of environmental and host factors contributing to disease dynamics. Efforts to mitigate the impacts of QX disease are primarily focused on breeding for disease resistance however, the mechanisms that drive disease resistance are poorly understood. One potential factor influencing disease resistance is the microbiota. To determine the influence of location, season and disease resistance on the SRO microbiota, we used 16S rRNA (V1 – V3 region) amplicon sequencing. The microbiota of six SRO families with two categorised as QX-resistant and four as QX-susceptible, deployed to two different locations (Port Stephens and Wallis Lake, NSW, Australia) and over two seasons (Austral summer and winter), were characterised. As expected, the SRO microbiota was distinct to the microbial community found in seawater. Further, the SRO microbiota was significantly influenced by location and season, with operational taxonomic units (OTUs) assigned to the Candidatus Hepatoplasma and Endozoicomonas genera identified as significant drivers of microbiota dissimilarity between locations and seasons. Disease resistance also significantly influenced the SRO microbiota but only at the winter time point which is before the typical QX disease period. Overall, OTUs assigned to the Mycoplasma, Borrelia and Endozoicomonas genera were over-represented in QX-resistant SRO microbiota, whereas members of the Pseudoalteromonas, Vibrio, and Candidatus Hepatoplasma genera were over-represented in QX-sensitive microbiota. These findings confirm the influencing role of location and season on the microbiota structure as evidenced in other molluscan species, but also provide preliminary evidence that the microbiota assemblage before the QX disease period may be important for resistance to disease and may provide new avenues for managing SRO aquaculture in the future.
16S rRNA, Disease resistance, Microbiota, QX disease, Sydney rock oyster
Nguyen, Viet Khue
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King, William L.
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Siboni, Nachshon
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Mahbub, Khandaker Rayhan
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Dove, Michael
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O'Connor, Wayne
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Seymour, Justin R.
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Labbate, Maurizio
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21 May 2020
Nguyen, Viet Khue
5e0a88d3-0b91-4248-90f8-f32b74204fda
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Siboni, Nachshon
cd5ba51e-896e-4b3f-be74-ab136fd96675
Mahbub, Khandaker Rayhan
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Dove, Michael
bfeb35ed-73fa-42b2-8c2a-8f07ee8a0acc
O'Connor, Wayne
31b4e663-682f-448c-8236-a53dc9604c81
Seymour, Justin R.
9b8a8df1-b392-4a9b-a513-54ea4c7172c7
Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4
Nguyen, Viet Khue, King, William L., Siboni, Nachshon, Mahbub, Khandaker Rayhan, Dove, Michael, O'Connor, Wayne, Seymour, Justin R. and Labbate, Maurizio
(2020)
The Sydney rock oyster microbiota is influenced by location, season and genetics.
Aquaculture, 527, [735472].
(doi:10.1016/j.aquaculture.2020.735472).
Abstract
Queensland unknown (QX) disease is a significant cause of economic loss for the Sydney rock oyster (SRO) aquaculture industry. Evidence is emerging that QX disease is multi-factorial in nature, with a number of environmental and host factors contributing to disease dynamics. Efforts to mitigate the impacts of QX disease are primarily focused on breeding for disease resistance however, the mechanisms that drive disease resistance are poorly understood. One potential factor influencing disease resistance is the microbiota. To determine the influence of location, season and disease resistance on the SRO microbiota, we used 16S rRNA (V1 – V3 region) amplicon sequencing. The microbiota of six SRO families with two categorised as QX-resistant and four as QX-susceptible, deployed to two different locations (Port Stephens and Wallis Lake, NSW, Australia) and over two seasons (Austral summer and winter), were characterised. As expected, the SRO microbiota was distinct to the microbial community found in seawater. Further, the SRO microbiota was significantly influenced by location and season, with operational taxonomic units (OTUs) assigned to the Candidatus Hepatoplasma and Endozoicomonas genera identified as significant drivers of microbiota dissimilarity between locations and seasons. Disease resistance also significantly influenced the SRO microbiota but only at the winter time point which is before the typical QX disease period. Overall, OTUs assigned to the Mycoplasma, Borrelia and Endozoicomonas genera were over-represented in QX-resistant SRO microbiota, whereas members of the Pseudoalteromonas, Vibrio, and Candidatus Hepatoplasma genera were over-represented in QX-sensitive microbiota. These findings confirm the influencing role of location and season on the microbiota structure as evidenced in other molluscan species, but also provide preliminary evidence that the microbiota assemblage before the QX disease period may be important for resistance to disease and may provide new avenues for managing SRO aquaculture in the future.
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Published date: 21 May 2020
Additional Information:
Funding Information:
This research was supported by an Australian Research Council Linkage Project ( LP160101785 ), a Cooperative Research Centre Project ( CRC-P 2016-805 ; Future Oysters), led by the Australian Seafood Industry Pty Ltd. in partnership with a number of Australian research organisations and, Ausgem, a research partnership initiated between the University of Technology Sydney and the New South Wales Department of Primary Industries . VKN was supported by a University of Technology Sydney – Vietnam International Education Development (UTS - VIED) Scholarship.
Publisher Copyright:
© 2020 Elsevier B.V.
Keywords:
16S rRNA, Disease resistance, Microbiota, QX disease, Sydney rock oyster
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Local EPrints ID: 487298
URI: http://eprints.soton.ac.uk/id/eprint/487298
ISSN: 0044-8486
PURE UUID: 1ce555e0-a415-4796-b3e1-a9d93227b5e7
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Date deposited: 16 Feb 2024 17:17
Last modified: 18 Mar 2024 04:18
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Contributors
Author:
Viet Khue Nguyen
Author:
William L. King
Author:
Nachshon Siboni
Author:
Khandaker Rayhan Mahbub
Author:
Michael Dove
Author:
Wayne O'Connor
Author:
Justin R. Seymour
Author:
Maurizio Labbate
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