Energetic lipid responses of larval oysters to ocean acidification.

Climate change will increase energetic demands on marine invertebrate larvae and make planktonic food more unpredictable. This study determined the impact of ocean acidification on larval energetics of the oysters Saccostrea glomerata and Crassostrea gigas. Larvae of both oysters were reared until t...

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Bibliographic Details
Main Authors: Gibbs, MC, Parker, LM, Scanes, E, Byrne, M, O'Connor, WA, Ross, PM
Format: Article in Journal/Newspaper
Language:English
Published: PERGAMON-ELSEVIER SCIENCE LTD 2022
Subjects:
Marine Biology & Hydrobiology
Animals
Carbon Dioxide
Crassostrea
Hydrogen-Ion Concentration
Larva
Lipids
Oceans and Seas
Seawater
Crassostrea gigas
Ocean acidification
Online Access:http://hdl.handle.net/10453/153967
Description
Summary:Climate change will increase energetic demands on marine invertebrate larvae and make planktonic food more unpredictable. This study determined the impact of ocean acidification on larval energetics of the oysters Saccostrea glomerata and Crassostrea gigas. Larvae of both oysters were reared until the 9-day-old, umbonate stage under orthogonal combinations of ambient and elevated p CO 2 (340 and 856 μatm) and food was limited. Elevated p CO 2 reduced the survival, size and larval energetics, larvae of C. gigas being more resilient than S. glomerata. When larvae were fed, elevated p CO 2 reduced lipid levels across all lipid classes. When larvae were unfed elevated p CO 2 resulted in increased lipid levels and mortality. Ocean acidification and food will interact to limit larval energetics. Larvae of S. glomerata will be more impacted than C. gigas and this is of concern given their aquacultural status and ecological function.

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