Changes in planktonic microbial components in interaction with juvenile oysters during a mortality episode in the Thau lagoon (France)

Richard, Marion; Bakhouche, Béatrice; Vanhuysse, Charles; Mas, Sébastien; Parin, David; Chantalat, Camila; Gall, P. Le; Fiandrino, Annie; Lagarde, Franck; Mortreux, Serge; Ouisse, Vincent; Rolland, Jean‐Luc; Degut, Anaïs; Hatey, Elise; Fortune, Martine; D’Orbcastel, Emmanuelle Roque; Messiaen, Grégory; Munaron, Dominique; Callier, Myriam D.; Oheix, Jocelyne; Derolez, Valérie; Mostajir, Behzad

doi:10.1016/j.aquaculture.2018.12.082

Cited by 10 publications

(15 citation statements)

References 62 publications

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“…Although many studies have explored disease-controlling factors (Petton et al, 2013(Petton et al, , 2015aWhittington et al, 2015a) and the consequences of infection for oysters (Corporeau et al, 2014;Green et al, 2015Green et al, , 2016Tamayo et al, 2014), few have investigated the consequences of these mortality events for the environment. Indeed, unlike in most other animal production industries, sick and dead individuals are not separated from conspecifics in shellfish farms, but remain in the rearing environment until their flesh totally disappears (Richard et al 2017(Richard et al , 2019. The mortality of oyster juveniles has been shown to increase ammonium and phosphate fluxes at the oyster interface (Richard et al, 2017) and to reduce the N/P ratio due to decomposition of the flesh (Richard et al, 2017(Richard et al, , 2019.…”

Section: Introductionmentioning

confidence: 99%

“…Indeed, unlike in most other animal production industries, sick and dead individuals are not separated from conspecifics in shellfish farms, but remain in the rearing environment until their flesh totally disappears (Richard et al 2017(Richard et al , 2019. The mortality of oyster juveniles has been shown to increase ammonium and phosphate fluxes at the oyster interface (Richard et al, 2017) and to reduce the N/P ratio due to decomposition of the flesh (Richard et al, 2017(Richard et al, , 2019. Oyster mortality has been also shown to induce changes in microbial planktonic components during the infection and mortality peak, with proliferation of picophytoplankton and heterotrophic ciliates (Balanion, Uronema) (Richard et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…The mortality of oyster juveniles has been shown to increase ammonium and phosphate fluxes at the oyster interface (Richard et al, 2017) and to reduce the N/P ratio due to decomposition of the flesh (Richard et al, 2017(Richard et al, , 2019. Oyster mortality has been also shown to induce changes in microbial planktonic components during the infection and mortality peak, with proliferation of picophytoplankton and heterotrophic ciliates (Balanion, Uronema) (Richard et al, 2019). Ciliates may proliferate in response to a bacterial proliferation associated with decaying oyster tissue (Richard et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…Oyster mortality has been also shown to induce changes in microbial planktonic components during the infection and mortality peak, with proliferation of picophytoplankton and heterotrophic ciliates (Balanion, Uronema) (Richard et al, 2019). Ciliates may proliferate in response to a bacterial proliferation associated with decaying oyster tissue (Richard et al, 2019). Beyond disturbing the ecosystem, the fact sick and dead individuals remain in the environment could also favour cross-contamination and disease spread.…”

Section: Introductionmentioning

confidence: 99%

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In situ characterisation of pathogen dynamics during a Pacific oyster mortality syndrome episode

Richard

Rolland

Gueguen

et al. 2021

Marine Environmental Research

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Significant mortality of Crassostrea gigas juveniles is observed systematically every year worldwide. Pacific Oyster Mortality Syndrome (POMS) is caused by Ostreid Herpesvirus 1 (OsHV-1) infection leading to immune suppression, followed by bacteraemia caused by a consortium of opportunistic bacteria. Using an in-situ approach and pelagic chambers, our aim in this study was to identify pathogen dynamics in oyster flesh and in the water column during the course of a mortality episode in the Mediterranean Thau lagoon (France). OsHV-1 concentrations in oyster flesh increased before the first clinical symptoms of the disease appeared, reached maximum concentrations during the moribund phase and the mortality peak. The structure of the bacterial community associated with oyster flesh changed in favour of bacterial genera previously associated with oyster mortality including Vibrio, Arcobacter, Psychrobium, and Psychrilyobacter. During the oyster mortality episode, releases of OsHV-1 and opportunistic bacteria were observed, in succession, in the water surrounding the oyster lanterns. These releases may favour the spread of disease within oyster farms and potentially impact other marine species, thereby reducing marine biodiversity in shellfish farming areas

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

In situ characterisation of pathogen dynamics during a Pacific oyster mortality syndrome episode

Richard

Rolland

Gueguen

et al. 2021

Marine Environmental Research

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“…Bivalve activities exert a non-neutral influence on coastal ecosystems (e.g., Dupuy et al 1999, 2000, Chapelle et al 2000, Mostajir et al 2015, and an increase in the number of shellfish farms in specific areas will certainly impact their nearby ecosystems. The roles of bivalves can be summarised by three main functions (Richard et al 2019): filtration (Dupuy et al 2000, Trottet et al 2008, excretion (Mazouni 2004, Richard et al 2007, Jansen et al 2011, and biodeposition (Callier et al 2006, 2009, Robert et al 2013. Filtration by oysters selectively removes suspended living or non-living particles from the water column (Gosling 2015, Bayne 2017.…”

Section: Introductionmentioning

confidence: 99%

Impact of oysters as top predators on microbial food web dynamics: a modelling approach with parameter optimisation

Caillibotte

Leredde

Vidussi

et al. 2020

Mar. Ecol. Prog. Ser.

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Aquaculture is becoming a relevant and productive source of seafood, and production is expected to double in the near future. However, bivalve activities can significantly impact coastal ecosystem functioning. To study the direct and indirect impacts of oysters on the microbial food web, a 0D biogeochemical modelling approach was adopted. The model was adjusted by parameter optimisation, assimilating data from several mesocosm observations of concentrations of nitrate, phosphate, silicate, dissolved organic carbon, chlorophyll, and bacterial biomass. The optimisation method provided a set of optimal parameters to fit the experimental observations of ‘control’ (i.e. natural water without oysters) and ‘oyster’ (i.e. natural water with oysters) mesocosms. The modelling results showed good accordance with the experimental observations, suggesting that the oysters directly reduced phytoplankton community biomass, thus constraining the ecosystem to a more heterotrophic state. Oysters also reduced competition between bacteria and phytoplankton for nutrient uptake, favouring higher bacterial biomass than in the control experiment. Additionally, the presence of oysters strongly increased large micro-zooplankton biomass (50-200 µm; mainly ciliates and large flagellates). This was a consequence of bacterivory by small zooplankton (5-50 µm; mostly flagellates and small ciliates), providing a trophic link between bacteria and larger zooplankton. In conclusion, parameter optimisation showed good capacity to manage experimental data in order to build a more realistic model. Such models, in connection with future developments in aquaculture and global change scenarios, could be a promising tool for exploited ecosystem management and testing different environmental scenarios.

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Impact of anoxia and oyster mortality on nutrient and microbial planktonic components: A mesocosm study

et al. 2023

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Changes in planktonic microbial components in interaction with juvenile oysters during a mortality episode in the Thau lagoon (France)

Cited by 10 publications

References 62 publications

In situ characterisation of pathogen dynamics during a Pacific oyster mortality syndrome episode

In situ characterisation of pathogen dynamics during a Pacific oyster mortality syndrome episode

Impact of oysters as top predators on microbial food web dynamics: a modelling approach with parameter optimisation

Impact of anoxia and oyster mortality on nutrient and microbial planktonic components: A mesocosm study

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