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Title： Zhou Jingzhe， Cao Yu*， Liu Xiaoning， Jiang Hongsheng， Li Wei Bladder entrance of microplastic likely induces toxic effects in carnivorous macrophyteUtricularia aureaLour
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Corresponding Author： Zhou Jingzhe， Cao Yu*， Liu Xiaoning， Jiang Hongsheng， Li Wei
Pubyear： 2020
Title of Journal： Environmental Science and Pollution Research
Paper Code：
Volume： 27
Number： 25
Page： 32124-32131
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The global distribution of microplastic (particle size < 5 mm) is of growing concern, especially in aquatic environments where it may cause adverse effects on resident organisms. To date, however, few studies have focused on the impacts of microplastic on aquatic plants. Here, we conducted a microcosm study to investigate the toxic effects of microplastic on the carnivorous aquatic macrophyteUtricularia aureaLour. Based on microscopic images and Raman spectrum analysis, we found that most polyvinyl chloride (PVC) particles were smaller than the valve ofU. aureabladders, thus allowing entrance into the plant, but this was not so for polyethylene (PE) particles. Furthermore, PVC (50 mg L-1) had significantly negative effects on growth and physiological parameters such as macrophyte length, chlorophyll content, and fluorescence, whereas, at the same concentration, PE had no such effects. Further analysis revealed that after bladder removal, the macrophytes did not respond to PVC particle toxicity. Thus, intake of microplastics (i.e., PVC) through bladders is likely responsible for inducing toxic effects to the growth and physiological parameters ofU. aurea.