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

The Thau lagoon is a Mediterranean coastal lagoon used for shellfish farming. It is periodically affected by anoxia events that trigger oyster mortality. To investigate the effects of an anoxia event focussed on nutrient dynamics and the responses of the microbial planktonic communities a 13-day in...

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Bibliographic Details
Published in:Aquaculture 2023-03, Vol.566, p.739171, Article 739171
Main Authors: Le Ray, Julie, Bec, Béatrice, Fiandrino, Annie, Lagarde, Franck, Cimiterra, Nicolas, Raimbault, Patrick, Roques, Cécile, Rigaud, Sylvain, Régis, Julie, Mostajir, Behzad, Mas, Sébastien, Richard, Marion
Format: Article
Language:English
Subjects:
Anoxia, Crassostrea gigas
Biodiversity and Ecology
Community shift
Environmental Sciences
Global Changes
Microbial loop
Oxygen
Phytoplankton
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Summary:The Thau lagoon is a Mediterranean coastal lagoon used for shellfish farming. It is periodically affected by anoxia events that trigger oyster mortality. To investigate the effects of an anoxia event focussed on nutrient dynamics and the responses of the microbial planktonic communities a 13-day in situ experiment was performed in September 2020. Transparent mesocosms (270 L) were placed at a depth of 4 m, inserted in the sediment, and kept closed throughout the experiment. The experiment comprised three treatments: i) Natural environment (N), i.e. in the natural water outside the mesocosms containing a rope of 30 oysters (Crassostrea gigas), ii) Control mesocosm (C) filled with natural water with no oysters, and iii) Oyster mesocosm (O) filled with natural water containing a rope of 30 oysters. Oyster respiration in the oyster mesocosm depleted oxygen after 54 h. All the oysters from O mesocosm were dead after nine days and decomposition of their flesh combined with releases from the water-sediment interface increased dissolved inorganic nitrogen (dominated by ammonium), phosphates, and ∑H2S up to 390, 17 and 295 μmol·L−1, respectively. Phytoplankton biomass consequently increased by 20 (11.8 μg chlal−1) and abundance by 4.5 (186 × 106 cells·L1) dominated largely by green algae
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2022.739171