TY - JOUR
T1 - Ocean acidification impairs seagrass performance under thermal stress in shallow and deep water
AU - Ravaglioli, Chiara
AU - De Marchi, Lucia
AU - Anselmi, Serena
AU - Dattolo, Emanuela
AU - Fontanini, Debora
AU - Pretti, Carlo
AU - Procaccini, Gabriele
AU - Rilov, Gil
AU - Renzi, Monia
AU - Silverman, Jacob
AU - Bulleri, Fabio
N1 - Publisher Copyright:
© 2023 The Authors
PY - 2024/1/15
Y1 - 2024/1/15
N2 - Despite the effects of ocean acidification (OA) on seagrasses have been widely investigated, predictions of seagrass performance under future climates need to consider multiple environmental factors. Here, we performed a mesocosm study to assess the effects of OA on shallow and deep Posidonia oceanica plants. The experiment was run in 2021 and repeated in 2022, a year characterized by a prolonged warm water event, to test how the effects of OA on plants are modulated by thermal stress. The response of P. oceanica to experimental conditions was investigated at different levels of biological organization. Under average seawater temperature, there were no effects of OA in both shallow and deep plants, indicating that P. oceanica is not limited by current inorganic carbon concentration, regardless of light availability. In contrast, under thermal stress, exposure of plants to OA increased lipid peroxidation and decreased photosynthetic performance, with deep plants displaying higher levels of heat stress, as indicated by the over-expression of stress-related genes and the activation of antioxidant systems. In addition, warming reduced plant growth, regardless of seawater CO2 and light levels, suggesting that thermal stress may play a fundamental role in the future development of seagrass meadows. Our results suggest that OA may exacerbate the negative effects of future warming on seagrasses.
AB - Despite the effects of ocean acidification (OA) on seagrasses have been widely investigated, predictions of seagrass performance under future climates need to consider multiple environmental factors. Here, we performed a mesocosm study to assess the effects of OA on shallow and deep Posidonia oceanica plants. The experiment was run in 2021 and repeated in 2022, a year characterized by a prolonged warm water event, to test how the effects of OA on plants are modulated by thermal stress. The response of P. oceanica to experimental conditions was investigated at different levels of biological organization. Under average seawater temperature, there were no effects of OA in both shallow and deep plants, indicating that P. oceanica is not limited by current inorganic carbon concentration, regardless of light availability. In contrast, under thermal stress, exposure of plants to OA increased lipid peroxidation and decreased photosynthetic performance, with deep plants displaying higher levels of heat stress, as indicated by the over-expression of stress-related genes and the activation of antioxidant systems. In addition, warming reduced plant growth, regardless of seawater CO2 and light levels, suggesting that thermal stress may play a fundamental role in the future development of seagrass meadows. Our results suggest that OA may exacerbate the negative effects of future warming on seagrasses.
KW - Climate change
KW - Light availability
KW - Marine plants
KW - Ocean acidification
KW - Synergistic effects
KW - Thermal stress
UR - http://www.scopus.com/inward/record.url?scp=85177173575&partnerID=8YFLogxK
U2 - 10.1016/j.envres.2023.117629
DO - 10.1016/j.envres.2023.117629
M3 - Article
C2 - 37967703
AN - SCOPUS:85177173575
SN - 0013-9351
VL - 241
JO - Environmental Research
JF - Environmental Research
M1 - 117629
ER -