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Variability in the composition of pacific oyster microbiomes across oyster families exhibiting different levels of susceptibility to OsHV-1 μvar disease

Variability in the composition of pacific oyster microbiomes across oyster families exhibiting different levels of susceptibility to OsHV-1 μvar disease
Variability in the composition of pacific oyster microbiomes across oyster families exhibiting different levels of susceptibility to OsHV-1 μvar disease

Oyster diseases are a major impediment to the profitability and growth of the oyster aquaculture industry. In recent years, geographically widespread outbreaks of disease caused by ostreid herpesvirus-1 microvariant (OsHV-1 μvar) have led to mass mortalities among Crassostrea gigas, the Pacific Oyster. Attempts to minimize the impact of this disease have been largely focused on breeding programs, and although these have shown some success in producing oyster families with reduced mortality, the mechanism(s) behind this protection is poorly understood. One possible factor is modification of the C. gigas microbiome. To explore how breeding for resistance to OsHV-1 μvar affects the oyster microbiome, we used 16S rRNA amplicon sequencing to characterize the bacterial communities associated with 35 C. gigas families, incorporating oysters with different levels of susceptibility to OsHV-1 μvar disease. The microbiomes of disease-susceptible families were significantly different to the microbiomes of disease-resistant families. OTUs assigned to the Photobacterium, Vibrio, Aliivibrio, Streptococcus, and Roseovarius genera were associated with low disease resistance. In partial support of this finding, qPCR identified a statistically significant increase of Vibrio-specific 16S rRNA gene copies in the low disease resistance families, possibly indicative of a reduced host immune response to these pathogens. In addition to these results, examination of the core microbiome revealed that each family possessed a small core community, with OTUs assigned to the Winogradskyella genus and the Bradyrhizobiaceae family consistent members across most disease-resistant families. This study examines patterns in the microbiome of oyster families exhibiting differing levels of OsHV-1 μvar disease resistance and reveals some key bacterial taxa that may provide a protective or detrimental role in OsHV-1 μvar disease outbreaks.

Crassostrea gigas, Disease resistance, Microbiome, Ostreid herpesvirus, POMS, Vibrio
1664-302X
King, William L.
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Siboni, Nachshon
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Williams, Nathan L.R.
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Kahlke, Tim
7e81423a-06db-4430-ba7a-7981c91501bb
Nguyen, Khue Viet
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Jenkins, Cheryl
37f9b73f-b7ee-4f0a-8c15-b23593f50ceb
Dove, Michael
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O’Connor, Wayne
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Seymour, Justin R.
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Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4
King, William L.
0bd4328a-34ba-4b9a-bf4e-1442c18c43fc
Siboni, Nachshon
cd5ba51e-896e-4b3f-be74-ab136fd96675
Williams, Nathan L.R.
7dca1dd0-2b53-413d-8499-f2558158265d
Kahlke, Tim
7e81423a-06db-4430-ba7a-7981c91501bb
Nguyen, Khue Viet
5e0a88d3-0b91-4248-90f8-f32b74204fda
Jenkins, Cheryl
37f9b73f-b7ee-4f0a-8c15-b23593f50ceb
Dove, Michael
bfeb35ed-73fa-42b2-8c2a-8f07ee8a0acc
O’Connor, Wayne
b57abd5d-9f0a-44ff-af57-17f361d6255e
Seymour, Justin R.
9b8a8df1-b392-4a9b-a513-54ea4c7172c7
Labbate, Maurizio
033d5ac8-a659-47ff-a5dc-79e99fa46ea4

King, William L., Siboni, Nachshon, Williams, Nathan L.R., Kahlke, Tim, Nguyen, Khue Viet, Jenkins, Cheryl, Dove, Michael, O’Connor, Wayne, Seymour, Justin R. and Labbate, Maurizio (2019) Variability in the composition of pacific oyster microbiomes across oyster families exhibiting different levels of susceptibility to OsHV-1 μvar disease. Frontiers in Microbiology, 10 (MAR), [473]. (doi:10.3389/fmicb.2019.00473).

Record type: Article

Abstract

Oyster diseases are a major impediment to the profitability and growth of the oyster aquaculture industry. In recent years, geographically widespread outbreaks of disease caused by ostreid herpesvirus-1 microvariant (OsHV-1 μvar) have led to mass mortalities among Crassostrea gigas, the Pacific Oyster. Attempts to minimize the impact of this disease have been largely focused on breeding programs, and although these have shown some success in producing oyster families with reduced mortality, the mechanism(s) behind this protection is poorly understood. One possible factor is modification of the C. gigas microbiome. To explore how breeding for resistance to OsHV-1 μvar affects the oyster microbiome, we used 16S rRNA amplicon sequencing to characterize the bacterial communities associated with 35 C. gigas families, incorporating oysters with different levels of susceptibility to OsHV-1 μvar disease. The microbiomes of disease-susceptible families were significantly different to the microbiomes of disease-resistant families. OTUs assigned to the Photobacterium, Vibrio, Aliivibrio, Streptococcus, and Roseovarius genera were associated with low disease resistance. In partial support of this finding, qPCR identified a statistically significant increase of Vibrio-specific 16S rRNA gene copies in the low disease resistance families, possibly indicative of a reduced host immune response to these pathogens. In addition to these results, examination of the core microbiome revealed that each family possessed a small core community, with OTUs assigned to the Winogradskyella genus and the Bradyrhizobiaceae family consistent members across most disease-resistant families. This study examines patterns in the microbiome of oyster families exhibiting differing levels of OsHV-1 μvar disease resistance and reveals some key bacterial taxa that may provide a protective or detrimental role in OsHV-1 μvar disease outbreaks.

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More information

Published date: 11 March 2019
Additional Information: Funding Information: This research was supported by an Australian Research Council Linkage Project (LP160101795) to JS and ML; a Cooperative Research Centre Project (CRC-P 2016-805; Future Oysters), led by the Australian Seafood Industry Pty Ltd. in partnership with Publisher Copyright: Copyright © 2019 King, Siboni, Williams, Kahlke, Nguyen, Jenkins, Dove, O’Connor, Seymour and Labbate.
Keywords: Crassostrea gigas, Disease resistance, Microbiome, Ostreid herpesvirus, POMS, Vibrio

Identifiers

Local EPrints ID: 487306
URI: http://eprints.soton.ac.uk/id/eprint/487306
DOI: doi:10.3389/fmicb.2019.00473
ISSN: 1664-302X
PURE UUID: b8513112-c0c4-4189-a0dc-c82f825b36b9
ORCID for William L. King: ORCID iD orcid.org/0000-0001-7272-8242

Catalogue record

Date deposited: 16 Feb 2024 17:26
Last modified: 18 Mar 2024 04:18

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Contributors

Author: William L. King ORCID iD
Author: Nachshon Siboni
Author: Nathan L.R. Williams
Author: Tim Kahlke
Author: Khue Viet Nguyen
Author: Cheryl Jenkins
Author: Michael Dove
Author: Wayne O’Connor
Author: Justin R. Seymour
Author: Maurizio Labbate

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