AUTHOR=Jiang Zengjie , Jiang Weiwei , Rastrick Samuel P. S. , Wang Xiaoqin , Fang Jinghui , Du Meirong , Gao Yaping , Mao Yuze , Strand Øivind , Fang Jianguang 

TITLE=The Potential of Kelp Saccharina japonica in Shielding Pacific Oyster Crassostrea gigas From Elevated Seawater pCO2 Stress

JOURNAL=Frontiers in Marine Science

VOLUME=9

YEAR=2022

URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2022.862172

DOI=10.3389/fmars.2022.862172

ISSN=2296-7745

ABSTRACT=<p>Ocean acidification (OA) caused by elevated atmospheric CO<sub>2</sub> concentration is predicted to have negative impacts on marine bivalves in aquaculture. However, to date, most of our knowledge is derived from short-term laboratory-based experiments, which are difficult to scale to real-world production. Therefore, field experiments, such as this study, are critical for improving ecological relevance. Due to the ability of seaweed to absorb dissolved carbon dioxide from the surrounding seawater through photosynthesis, seaweed has gained theoretical attention as a potential partner of bivalves in integrated aquaculture to help mitigate the adverse effects of OA. Consequently, this study investigates the impact of elevated <italic>p</italic>CO<sub>2</sub> on the physiological responses of the Pacific oyster <italic>Crassostrea gigas</italic> in the presence and absence of kelp (<italic>Saccharina japonica</italic>) using <italic>in situ</italic> mesocosms. For 30 days, mesocosms were exposed to six treatments, consisting of two <italic>p</italic>CO<sub>2</sub> treatments (500 and 900 μatm) combined with three biotic treatments (oyster alone, kelp alone, and integrated kelp and oyster aquaculture). Results showed that the clearance rate (CR) and scope for growth (SfG) of <italic>C. gigas</italic> were significantly reduced by elevated <italic>p</italic>CO<sub>2</sub>, whereas respiration rates (MO<sub>2</sub>) and ammonium excretion rates (ER) were significantly increased. However, food absorption efficiency (AE) was not significantly affected by elevated <italic>p</italic>CO<sub>2</sub>. The presence of <italic>S. japonica</italic> changed the daytime pH<sub>NBS</sub> of experimental units by ~0.16 units in the elevated <italic>p</italic>CO<sub>2</sub> treatment. As a consequence, CR and SfG significantly increased and MO<sub>2</sub> and ER decreased compared to <italic>C. gigas</italic> exposed to elevated <italic>p</italic>CO<sub>2</sub> without <italic>S. japonica.</italic> These findings indicate that the presence of <italic>S. japonica</italic> in integrated aquaculture may help shield <italic>C. gigas</italic> from the negative effects of elevated seawater <italic>p</italic>CO<sub>2</sub>.</p>