Zinc ions enhance tolerance to nanoplastics stress in rice seedlings: Advancing the development and optimization of traditional zinc fertilizers
Jia Liu, Yang Guo, Yanan Gao, Xi Chen, Lunyan Wang, Xiangqian Jia, Zhonghua Zhang, Xiaorui Guo, Yang Liu
Abstract
Microplastic pollution threatens sustainable agriculture. Zinc (Zn), an essential micronutrient, plays a key role in crop growth and stress responses. While zinc oxide nanoparticles (ZnO NPs) mitigate microplastic toxicity in rice, their long-term use poses environmental risks. Zinc sulfate (ZnSO₄) is a traditional Zn fertilizer, but its interaction with microplastics remains unclear. This study treated rice seedlings with polystyrene (PS) microplastics and ZnSO₄ to assess their effects on growth, Zn uptake, and stress response mechanisms. PS exposure inhibited growth, impaired photosynthesis, reduced stomatal conductance, and induced ROS accumulation, causing oxidative stress that damaged cells and disrupted metabolism, while activating antioxidant enzymes. It also reduced Zn content and altered metabolite accumulation, affecting growth regulation. Appropriate Zn levels alleviated PS toxicity via distinct mechanisms: in shoots, Zn optimized nitrogen metabolism to restore photosynthesis, while in roots, it regulated carbon metabolism to reduce ROS and enhance development. The findings indicate that zinc enhances rice tolerance to microplastic stress by revealing organspecific mechanisms through which traditional zinc fertilizers exert their alleviating effects, providing both mechanistic insight and scientific evidence to optimize their application. This study also offers a viable alternative to reduce the environmental risks associated with ZnO nanoparticles, thereby promoting greener and more sustainable agricultural development. • Microplastics Inhibit Growth : PS suppresses growth, impairs photosynthesis, reduces stomatal conductance, and induces ROS. • Zinc Alleviates Stress : Zn mitigates PS stress via metabolic regulation in shoots and roots. • Tissue-Specific Responses : Zn regulates nitrogen in shoots and carbon metabolism in roots. • Zinc Absorption & Gene Regulation : PS reduces Zn uptake and activates Zn-related transcription factors. • Sustainable Fertilizer Use : Optimizing Zn fertilizers counteracts PS toxicity and supports sustainability.