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Prevalence of microplastics in animal-based traditional medicinal materials: Widespread pollution in terrestrial environments
The Science of The Total Environment2019
84 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Defu He,
Shibo Lu,
Defu He,
Yingxin Chen,
Huahong Shi
Yingxin Chen,
Defu He,
Shibo Lu,
Defu He,
Rongliang Qiu,
Xinyu Li,
Xinyu Li,
Xinyu Li,
Xinyu Li,
Wei‐Min Wu,
Xiaoting Zhang,
Xiaoting Zhang,
Jiani Hu,
Xiaoting Zhang,
Xinyu Li,
Jiani Hu,
Huahong Shi
Huahong Shi
Jiani Hu,
Xinyu Li,
Xinyu Li,
Xinyu Li,
Huahong Shi
Wei‐Min Wu,
Xiaoting Zhang,
Xinyu Li,
Shibo Lu,
Wei‐Min Wu,
Shibo Lu,
Rongliang Qiu,
Xiaoting Zhang,
Xinyu Li,
Shibo Lu,
Chengjin Cao,
Chengjin Cao,
Defu He,
Huahong Shi
Wei‐Min Wu,
Xiaoting Zhang,
Huahong Shi
Xiaoting Zhang,
Yingxin Chen,
Xinyu Li,
Rongliang Qiu,
Defu He,
Shibo Lu,
Jiani Hu,
Huahong Shi
Huahong Shi
Bing Xie,
Xiaoting Zhang,
Chengjin Cao,
Huahong Shi
Chengjin Cao,
Huahong Shi
Shibo Lu,
Xiaoting Zhang,
Shibo Lu,
Huahong Shi
Shibo Lu,
Shibo Lu,
Rongliang Qiu,
Rongliang Qiu,
Jiani Hu,
Jiani Hu,
Defu He,
Jiani Hu,
Defu He,
Chengjin Cao,
Defu He,
Shibo Lu,
Shibo Lu,
Shibo Lu,
Shibo Lu,
Wei‐Min Wu,
Huahong Shi
Yingxin Chen,
Wei‐Min Wu,
Xinyu Li,
Huahong Shi
Defu He,
Xinyu Li,
Xinyu Li,
Huahong Shi
Xinyu Li,
Bing Xie,
Xinyu Li,
Huahong Shi
Huahong Shi
Defu He,
Xiaoting Zhang,
Wei‐Min Wu,
Xinyu Li,
Huahong Shi
Huahong Shi
Bing Xie,
Huahong Shi
Bing Xie,
Huahong Shi
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Shibo Lu,
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Bing Xie,
Chengjin Cao,
Wei‐Min Wu,
Bing Xie,
Wei‐Min Wu,
Jiani Hu,
Defu He,
Jiani Hu,
Defu He,
Huahong Shi
Rongliang Qiu,
Bing Xie,
Huahong Shi
Shibo Lu,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Wei‐Min Wu,
Xinyu Li,
Chengjin Cao,
Wei‐Min Wu,
Rongliang Qiu,
Huahong Shi
Huahong Shi
Wei‐Min Wu,
Xiaoting Zhang,
Defu He,
Jiani Hu,
Defu He,
Chengjin Cao,
Defu He,
Jiani Hu,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Chengjin Cao,
Chengjin Cao,
Chengjin Cao,
Chengjin Cao,
Chengjin Cao,
Chengjin Cao,
Yingxin Chen,
Yingxin Chen,
Huahong Shi
Yingxin Chen,
Huahong Shi
Huahong Shi
Xinyu Li,
Xinyu Li,
Huahong Shi
Chengjin Cao,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Xiaoting Zhang,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Chengjin Cao,
Huahong Shi
Huahong Shi
Chengjin Cao,
Wei‐Min Wu,
Rongliang Qiu,
Rongliang Qiu,
Huahong Shi
Wei‐Min Wu,
Rongliang Qiu,
Chengjin Cao,
Defu He,
Jiani Hu,
Chengjin Cao,
Bing Xie,
Wei‐Min Wu,
Chengjin Cao,
Chengjin Cao,
Wei‐Min Wu,
Wei‐Min Wu,
Wei‐Min Wu,
Wei‐Min Wu,
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Defu He,
Defu He,
Defu He,
Defu He,
Defu He,
Defu He,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Rongliang Qiu,
Xiaoting Zhang,
Yingxin Chen,
Shibo Lu,
Chengjin Cao,
Chengjin Cao,
Shibo Lu,
Huahong Shi
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Huahong Shi
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Huahong Shi
Chengjin Cao,
Huahong Shi
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Chengjin Cao,
Wei‐Min Wu,
Wei‐Min Wu,
Rongliang Qiu,
Rongliang Qiu,
Rongliang Qiu,
Huahong Shi
Rongliang Qiu,
Wei‐Min Wu,
Huahong Shi
Wei‐Min Wu,
Defu He,
Huahong Shi
Huahong Shi
Rongliang Qiu,
Wei‐Min Wu,
Wei‐Min Wu,
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Rongliang Qiu,
Defu He,
Defu He,
Defu He,
Huahong Shi
Huahong Shi
Huahong Shi
Rongliang Qiu,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Chengjin Cao,
Wei‐Min Wu,
Wei‐Min Wu,
Chengjin Cao,
Chengjin Cao,
Chengjin Cao,
Wei‐Min Wu,
Bing Xie,
Defu He,
Defu He,
Huahong Shi
Defu He,
Defu He,
Huahong Shi
Huahong Shi
Rongliang Qiu,
Huahong Shi
Wei‐Min Wu,
Bing Xie,
Huahong Shi
Chengjin Cao,
Wei‐Min Wu,
Huahong Shi
Chengjin Cao,
Defu He,
Wei‐Min Wu,
Wei‐Min Wu,
Bing Xie,
Huahong Shi
Huahong Shi
Wei‐Min Wu,
Wei‐Min Wu,
Wei‐Min Wu,
Rongliang Qiu,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Defu He,
Defu He,
Huahong Shi
Defu He,
Huahong Shi
Wei‐Min Wu,
Huahong Shi
Huahong Shi
Summary
Researchers found microplastics in all 20 types of traditional Chinese medicinal animal materials tested, with an average occurrence rate of 94.67% and polyethylene terephthalate (40.45%) as the dominant polymer. The findings indicate that terrestrial environments are significantly contaminated with microplastics and raise concerns about health exposure through traditional medicine consumption.
Microplastics (MPs) pollution is an emerging environmental and health concern. MPs have been extensively observed in the aquatic environment, yet rarely investigated in the terrestrial ecosystem, especially in relation to health risks. To evaluate potential MPs pollution in land-dwelling animal medicine materials, we collected 20 types of small animal-based medicinal materials and 10 types of available fresh terrestrial animals from eight different regions in China. MPs were found in all medicinal materials with an average incidence rate of 94.67%. The abundance of MPs was in the range of 1.80 ± 0.38 to 7.80 ± 0.83 items/individual or 1.59 ± 0.33 to 43.56 ± 9.22 items/g (dry weight), with polymer distribution by polyethylene terephthalate (40.45%), rayon (30.64%), polyethylene (10.11%), nylon (7.35%), polypropylene (5.93%), and polyvinyl chloride (5.52%). The majority of MPs were microfibers (84.68%), with 15.32% of fragments. Moreover, MPs were directly observed in the intestine, detected in all ten types of fresh medicinal animals with the abundance of 0.83 ± 0.35 to 3.42 ± 0.46 items/individual. Furthermore, significant positive correlations (R: 0.32-0.99, p < 0.05) of MPs characteristics were found between medicinal materials and fresh animals, including shape, size, color, and polymer distribution of MPs. The results support that MPs in the medicinal materials were likely derived from living animals. This study demonstrates the prevalence of MPs in animal-based, traditional medicinal materials, and also suggests widespread MPs pollution in terrestrial environments and latent health risks.