Microplastics (MPs) in marine environments simultaneously affect microalgae with UV-B radiation, while their joint effecting mechanisms remain largely unknown. To fill this research gap, the joint effects of polymethyl methacrylate (PMMA) MPs and UV-B radiation (natural environments intensity) on the model marine diatom Thalassiosira pseudonana were investigated. Antagonism was found between the two factors with regards to population growth. Furthermore, we found more inhibited population growth and photosynthetic parameters when pre-treated with PMMA MPs compared to pre-treated with UV-B radiation before joint-treated by the two factors. Transcriptional analysis elucidated that UV-B radiation could alleviate the down-regulation of photosynthetic (PSII, cyt b6/f complex and photosynthetic electron transport) and chlorophyll biosynthesis genes caused by PMMA MPs. Besides, the genes encoding carbon fixation and metabolisms was up-regulated under UV-B radiation, which could provide extra energy for the enhanced anti-oxidative activities and DNA replication-repair processes. These consequences showed that the toxicity of PMMA MPs was comprehensively alleviated when T. pseudonana was jointed treated by UV-B radiation. Our results reveled the underlying molecular mechanisms of antagonistic effects between PMMA MPs and UV-B radiation. This study provides important information that environmental factors like UV-B radiation should be considered when accessing the ecological risks of MPs on marine organisms.
Keywords: Antagonism; Joint effects; Microalgae; Molecular mechanisms; Transcriptional analysis.
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