New Perspective on the Nanoplastics Disrupting the Reproduction of an Endangered Fern in Artificial Freshwater
Environmental Science & Technology2019
103 citations
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Wenke Yuan
Wenke Yuan
Wenke Yuan
Wenke Yuan
Wenke Yuan
Wenke Yuan
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Jun Wang,
Yanfei Zhou,
Xiaoning Liu,
Xiaoning Liu,
Jun Wang,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Yanfei Zhou,
Wenke Yuan
Jun Wang,
Wenke Yuan
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Yanfei Zhou,
Yanfei Zhou,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Wenke Yuan
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Xiaoning Liu,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Wenke Yuan
Yanfei Zhou,
Jun Wang,
Jun Wang,
Xiaoning Liu,
Jun Wang,
Jun Wang,
Jun Wang,
Wenke Yuan
Wenke Yuan
Wenke Yuan
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
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Wenke Yuan
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Wenke Yuan
Summary
The endangered aquatic fern Ceratopteris pteridoides was exposed to polystyrene nanoplastics for four weeks, with particles adsorbing onto spores, causing 2.3–22.4% reduction in spore imbibition, and impairing early developmental stages at concentrations as low as 1 μg/mL. The study provides first evidence of nanoplastic toxicity to an endangered aquatic plant.
The potential risks of micro/nanoplastics on the ecological environment, particularly aquatic fauna, have been realized in recent years. However, information about its potential effects on aquatic plants is scarce. In this study, a four-week exposure experiment was conducted to investigate the effects of varying polystyrene nanoplastics concentration (PS-NPs, 0-100 μg/mL) on the early development of an endangered aquatic plant, <i>Ceratopteris pteridoides</i>. Fluorescent observations demonstrated that PS-NPs were adsorbed and accumulated on the spore surface of <i>C. pteridoides</i> rapidly and massively with increasing exposure concentration and time. The adsorption and accumulation of PS-NPs on the spore surface posed a negative effect on spore imbibition, causing 2.3-22.4% reduction in final spore size. Spore germination and gametophyte sex differentiation were both negatively affected by PS-NP exposure, resulting in 10.4-88.0% inhibition in germination ratio and 2.9-53.4% reduction in hermaphroditic gametophyte ratio. Additionally, PS-NPs were observed to penetrate into the roots of gametophytes. Higher concentration of PS-NPs (100 μg/mL) can even induce pathological changes on gametophytes, although with a low incidence (4.9%). The results above indicated that exposure to PS-NPs caused a series of disruptions from the spore imbibition to germination and gametophyte stages, and are likely to pose an eco-physiological risk on the reproductive success of endangered ferns.