Can seagrass modify the effects of ocean acidification on oysters?

Solutions are being sought to ameliorate the impacts of anthropogenic climate change. Seagrass may be a solution to provide refugia from climate change for marine organisms. This study aimed to determine if the seagrass Zostera muelleri sub spp. capricorni benefits the Sydney rock oyster Saccostrea...

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Veröffentlicht in:	Marine pollution bulletin 2022-04, Vol.177, p.113438-113438, Article 113438
Hauptverfasser:	Garner, Natasha, Ross, Pauline M., Falkenberg, Laura J., Seymour, Justin R., Siboni, Nachshon, Scanes, Elliot
Format:	Artikel
Sprache:	eng
Schlagworte:	Acidification Anthropogenic factors Carbon dioxide Climate change Environmental impact Human influences Marine molluscs Marine organisms Mesocosms Microbiome Microbiomes Ocean acidification Oysters Refuges Refugia Sea grasses Seagrass Seagrasses Shellfish
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creator	Garner, Natasha Ross, Pauline M. Falkenberg, Laura J. Seymour, Justin R. Siboni, Nachshon Scanes, Elliot
description	Solutions are being sought to ameliorate the impacts of anthropogenic climate change. Seagrass may be a solution to provide refugia from climate change for marine organisms. This study aimed to determine if the seagrass Zostera muelleri sub spp. capricorni benefits the Sydney rock oyster Saccostrea glomerata, and if these benefits can modify any anticipated negative impacts of ocean acidification. Future and ambient ocean acidification conditions were simulated in 52 L mesocosms at control (381 μatm) and elevated (848 μatm) CO2 with and without Z. muelleri. Oyster growth, physiology and microbiomes of oysters and seagrass were measured. Seagrass was beneficial to oyster growth at ambient pCO2, but did not positively modify the impacts of ocean acidification on oysters at elevated pCO2. Oyster microbiomes were altered by the presence of seagrass but not by elevated pCO2. Our results indicate seagrasses may not be a panacea for the impacts of climate change. •Effect of seagrass on oyster shell growth and extracellular pH at ambient pCO2•No effects of seagrass on oyster growth or extracellular pH at elevated pCO2•Microbiome of oysters was not affected by elevated pCO2.•Microbiome of seagrass was altered by elevated pCO2.•Seagrass may not modify the impacts of climate change.
doi_str_mv	10.1016/j.marpolbul.2022.113438
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Seagrass may be a solution to provide refugia from climate change for marine organisms. This study aimed to determine if the seagrass Zostera muelleri sub spp. capricorni benefits the Sydney rock oyster Saccostrea glomerata, and if these benefits can modify any anticipated negative impacts of ocean acidification. Future and ambient ocean acidification conditions were simulated in 52 L mesocosms at control (381 μatm) and elevated (848 μatm) CO2 with and without Z. muelleri. Oyster growth, physiology and microbiomes of oysters and seagrass were measured. Seagrass was beneficial to oyster growth at ambient pCO2, but did not positively modify the impacts of ocean acidification on oysters at elevated pCO2. Oyster microbiomes were altered by the presence of seagrass but not by elevated pCO2. 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subjects	Acidification Anthropogenic factors Carbon dioxide Climate change Environmental impact Human influences Marine molluscs Marine organisms Mesocosms Microbiome Microbiomes Ocean acidification Oysters Refuges Refugia Sea grasses Seagrass Seagrasses Shellfish
title	Can seagrass modify the effects of ocean acidification on oysters?
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