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Microplastics retention by reeds in freshwater environment

The Science of The Total Environment 2021 122 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Danlian Huang, Lingshi Yin Danlian Huang, Danlian Huang, Xiaofeng Wen, Lingshi Yin Lingshi Yin Lingshi Yin Lingshi Yin Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Lingshi Yin Xiaofeng Wen, Danlian Huang, Danlian Huang, Zhenyu Zhou, Danlian Huang, Danlian Huang, Danlian Huang, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Jiaxi Tao, Xiaofeng Wen, Jiaxi Tao, Xiaofeng Wen, Jiaxi Tao, Lingshi Yin Jiaxi Tao, Zhenyu Zhou, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Danlian Huang, Danlian Huang, Zhenyu Zhou, Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Guangming Zeng, Xiaofeng Wen, Guangming Zeng, Danlian Huang, Xiaofeng Wen, Guangming Zeng, Danlian Huang, Xiaofeng Wen, Guangming Zeng, Danlian Huang, Xiaofeng Wen, Guangming Zeng, Guangming Zeng, Ruihao Xiao, Ruihao Xiao, Guangming Zeng, Xiaofeng Wen, Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Danlian Huang, Zhenyu Zhou, Guangming Zeng, Rui Deng, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Jiaxi Tao, Jiaxi Tao, Jiaxi Tao, Ruyi Liu, Danlian Huang, Danlian Huang, Zhenyu Zhou, Jiaxi Tao, Jiaxi Tao, Jiaxi Tao, Guangming Zeng, Guangming Zeng, Guangming Zeng, Guangming Zeng, Guangming Zeng, Guangming Zeng, Xiaofeng Wen, Ruihao Xiao, Ruihao Xiao, Guangming Zeng, Lingshi Yin Guangming Zeng, Xiaofeng Wen, Guangming Zeng, Guangming Zeng, Guangming Zeng, Guangming Zeng, Rui Deng, Lingshi Yin Danlian Huang, Ruihao Xiao, Xiaofeng Wen, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Jiaxi Tao, Zhenyu Zhou, Xiaofeng Wen, Jiaxi Tao, Xiaofeng Wen, Rui Deng, Xiaofeng Wen, Xiaofeng Wen, Ruihao Xiao, Ruihao Xiao, Lingshi Yin Ruyi Liu, Zhenyu Zhou, Ruihao Xiao, Lingshi Yin Ruyi Liu, Guangming Zeng, Xiaofeng Wen, Lingshi Yin Guangming Zeng, Lingshi Yin Guangming Zeng, Xiaofeng Wen, Lingshi Yin Ruihao Xiao, Guangming Zeng, Guangming Zeng, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Xiaofeng Wen, Ruihao Xiao, Danlian Huang, Zhenyu Zhou, Jiaxi Tao, Guangming Zeng, Guangming Zeng, Guangming Zeng, Guangming Zeng, Xiaofeng Wen, Xiaofeng Wen, Ruihao Xiao, Jiaxi Tao, Ruihao Xiao, Jiaxi Tao, Ruihao Xiao, Ruihao Xiao, Guangming Zeng, Danlian Huang, Ruihao Xiao, Jiaxi Tao, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Lingshi Yin Ruihao Xiao, Xiaofeng Wen, Ruihao Xiao, Ruihao Xiao, Xiaofeng Wen, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Ruihao Xiao, Heming Pan, Jiaxi Tao, Zhenyu Zhou, Zhenyu Zhou, Lingshi Yin Lingshi Yin Lingshi Yin Jiaxi Tao, Heming Pan, Xiaofeng Wen, Lingshi Yin Xiaofeng Wen, Guangming Zeng, Guangming Zeng, Guangming Zeng, Lingshi Yin Rui Deng, Lingshi Yin Lingshi Yin Xiaofeng Wen, Xiaofeng Wen, Lingshi Yin

Summary

Researchers sampled microplastics in sediment and plant tissue from reed beds in a freshwater environment, finding that reeds retained significantly more microplastics than adjacent open water sediments, suggesting that emergent vegetation may act as a natural microplastic sink.

Study Type Environmental

Microplastic pollution has recently gained increasing attention. The accumulation of microplastics in plants has been confirmed in the marine environment. However, the extent of the microplastic retention in freshwater plants is still unknown. In this study, sediment and plant samples from six reed farms in the wetland of East Dongting Lake were collected and analyzed. The abundance of microplastics in the sediment of reed farms varied from 125.7 to 1219.5 items/kg dry weight (dw), with an average of 511.2 ± 295.0 items/kg. Moreover, different levels of microplastic abundance were found in reeds from 0 to 14 items/individual. The abundance of microplastics in sediment samples was moderate compared to that worldwide and higher than that in other regions of Dongting Lake. The microplastic pollution level was significantly higher in the reed vegetation belt than that in other sampling positions. On the basis of the distribution and characteristics of the collected microplastics, lake water and fishery are suggested as important sources of microplastics. Furthermore, the factors influencing microplastic retention in the reeds are discussed. This study, as the first direct evidence demonstrating that freshwater reeds tend to accumulate microplastics, constitutes valuable reference for future research.

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