Effects of Ocean Acidification and Temperature Coupling on Photosynthetic Activity and Physiological Properties of Ulva fasciata and Sargassum horneri

To investigate the ecological impacts of macroalgae in the framework of shifting global CO concentrations, we conducted a study utilizing and specimens sourced from the Ma'an Archipelago in Zhejiang Province on how ocean acidification (OA) and temperature changes interact to affect the photosyn...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Switzerland), 2024-08, Vol.13 (8), p.640
Main Authors: Wang, Kai, Tao, Xiang, Zhang, Shouyu, Zhao, Xu
Format: Article
Language:English
Subjects:
Acidification
Adaptation
Algae
Archipelagoes
Carbon
Carbon dioxide
Chlorophyll
chlorophyll fluorescence
Climate change
Dissolved organic carbon
Environmental conditions
Global warming
greenhouse effect
Light
macroalgae
Metabolism
Ocean acidification
Photoinhibition
Photosynthetic pigments
Physiological aspects
Physiology
Sargassum horneri
Sea-water
Seawater
Seaweeds
Temperature
Temperature tolerance
Ulva fasciata
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Summary:To investigate the ecological impacts of macroalgae in the framework of shifting global CO concentrations, we conducted a study utilizing and specimens sourced from the Ma'an Archipelago in Zhejiang Province on how ocean acidification (OA) and temperature changes interact to affect the photosynthetic physiological responses of macroalgae. The results of the study showed that OA reduced the tolerance of to bright light at 20 °C, resulting in more pronounced photoinhibition, while 15 °C caused significant inhibition of , reducing its growth and photosynthetic activity, but OA alleviated the inhibition and promoted the growth of the alga to a certain extent. The tolerance of to bright light was also reduced at 20 °C; the inhibition was relieved at 15 °C, and the OA further improved the algal growth. The Relative Growth Rate ( ), photosynthetic pigment content, and the release of the dissolved organic carbon (DOC) of were mainly affected by the change in temperature; the growth of the alga and the synthesis of metabolites were more favored by 20 °C. A similar temperature dependence was observed for , with faster growth and high metabolism at 15 °C. Our results suggest that OA reduces the tolerance of macroalgae to high light at suitable growth temperatures; however, at unsuitable growth temperatures, OA effectively mitigates this inhibitory effect and promotes algal growth.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology13080640