Route-Specific Phytotoxicity: Foliar Polystyrene Nanoplastics Inhibit Rice Photosynthesis

光合作用 化学 蒸腾作用 鲁比斯科 气孔导度 叶绿体 固碳 光系统II 生物物理学 共域化 植物 蓝藻 染色体易位 叶绿素 园艺 光合效率 颜料 植物生理学 二氧化碳 水稻 新陈代谢 光合色素 禾本科 C4光合作用
作者
R Zhu,Yuhuai Wang,Yuan Yuan,Fanqi Zhou,Neng Yan,Qingfeng Song,Huan Zhong,Fei Dang
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:60 (5): 3899-3910 被引量:2
标识
DOI:10.1021/acs.est.5c15586
摘要

We examine the effects of polystyrene (PS) NPs at 5.4 ± 1.0 nm on rice (Oryza sativa L.) under two scenarios: a comparative 14-day hydroponic exposure (3.6–35.7 μg PS plant–1 d–1) of root vs foliar exposure and a 30-day soil-based foliar exposure (5.3–73.4 μg PS plant–1 d–1) from heading to maturity. PS NPs exhibit route-specific phytotoxicity: while only high-dose root exposure inhibits photosynthesis, foliar exposure causes sustained inhibition. Importantly, soil-based foliar exposure also inhibits photosynthesis without the PS NP translocation to grains. This foliar-specific inhibition correlates directly with PS accumulation in leaves and is mechanistically attributed to its colocalization with chloroplasts (Pearson’s r = 0.592), as confirmed by confocal imaging in high-dose (35.7 μg PS plant–1 d–1) exposed leaf. The colocalization impairs both the light-dependent reactions and carbon fixation during photosynthesis, as evidenced by significant reductions in photosynthetic pigments (54.4–61.0%), Hill reaction activity (49.9–70.2%), ATP production (22.1–24.3%), net photosynthetic rate (84.5–89.0%), Rubisco activity (84.6–87.5%), stomatal conductance (47.9–69.5%), and transpiration rate (47.4–48.9%). Transcriptomic analysis identifies the genetic basis of this inhibition, showing significant downregulation of the core photosynthesis pathway and key genes for photosynthetic-antenna proteins, carbon fixation, and carotenoid/porphyrin metabolism. These findings provide mechanistic insights into PS NP-induced photosynthesis inhibition and underscore atmospheric NPs as an emerging threat to global food security.
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