Elevated CO2 reduces copper accumulation and toxicity in the diatom Thalassiosira pseudonana
文献类型: 外文期刊
作者: Xu, Dong 1 ; Huang, Shujie 1 ; Fan, Xiao 1 ; Zhang, Xiaowen 1 ; Wang, Yitao 1 ; Wang, Wei 1 ; Beardall, John 3 ; Brennan, Georgina 4 ; Ye, Naihao 1 ;
作者机构: 1.Chinese Acad Fishery Sci, Yellow Sea Fisheries Res Inst, Qingdao, Peoples R China
2.Qingdao Natl Lab Marine Sci & Technol, Funct Lab Marine Fisheries Sci & Food Prod Proc, Qingdao, Peoples R China
3.Monash Univ, Sch Biol Sci, Clayton, Vic, Australia
4.ICM CSIC, Inst Marine Sci, Barcelona, Spain
关键词: ocean acidification; copper accumulation; copper toxicity; adaptation; Thalassiosira pseudonana
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:5.2; 五年影响因子:6.2 )
ISSN:
年卷期: 2023 年 13 卷
页码:
收录情况: SCI
摘要: The projected ocean acidification (OA) associated with increasing atmospheric CO2 alters seawater chemistry and hence the bio-toxicity of metal ions. However, it is still unclear how OA might affect the long-term resilience of globally important marine microalgae to anthropogenic metal stress. To explore the effect of increasing pCO(2) on copper metabolism in the diatom Thalassiosira pseudonana (CCMP 1335), we employed an integrated eco-physiological, analytical chemistry, and transcriptomic approach to clarify the effect of increasing pCO(2) on copper metabolism of Thalassiosira pseudonana across different temporal (short-term vs. long-term) and spatial (indoor laboratory experiments vs. outdoor mesocosms experiments) scales. We found that increasing pCO(2) (1,000 and 2,000 mu atm) promoted growth and photosynthesis, but decreased copper accumulation and alleviated its bio-toxicity to T. pseudonana. Transcriptomics results indicated that T. pseudonana altered the copper detoxification strategy under OA by decreasing copper uptake and enhancing copper-thiol complexation and copper efflux. Biochemical analysis further showed that the activities of the antioxidant enzymes glutathione peroxidase (GPX), catalase (CAT), and phytochelatin synthetase (PCS) were enhanced to mitigate oxidative damage of copper stress under elevated CO2. Our results provide a basis for a better understanding of the bioremediation capacity of marine primary producers, which may have profound effect on the security of seafood quality and marine ecosystem sustainability under further climate change.
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