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Engineered Nanomaterials Enhance Crop Drought Resistance for Sustainable Agriculture

Li Chen, Fengyu Huang, Ji Liu, Ruohan Yang, Qing Hu, Tao Li, Yi Zeng, Wei Dai, Tianyi Qiu, Jason C. White, Linchuan Fang

2025Journal of Agricultural and Food Chemistry15 citationsDOI

Abstract

Nanotechnology has emerged as a promising strategy for enhancing crop resilience to extreme weather events induced by climate change, such as drought. However, the potential of nanomaterials (NMs) to mitigate drought-induced stress remains insufficiently understood. Here, we conducted a meta-analysis to quantify the effects of NMs on crop growth and yield under drought. Our findings reveal that NMs significantly improved crop growth under drought, with a more pronounced positive impact on C 3 than C 4 crops. Furthermore, seed application of NMs exhibits more significant potential in protecting crops than root or foliar applications. Specifically, NMs increased the relative water content and water use efficiency of crops by 10.8 and 33.3%, respectively. The potential of NMs to enhance the drought resistance was associated with improving the photosynthetic process, increasing osmolyte accumulation, enhancing nutrient uptake, and alleviating oxidative damage. This analysis raises the potential of nanotechnology as a significant tool for sustainable nano-enabled agriculture in a changing climate.

Topics & Concepts

Sustainable agricultureCropDrought resistanceAgricultureResistance (ecology)NanomaterialsAgroforestryEnvironmental scienceBusinessAgronomyBiologyNanotechnologyMaterials scienceEcologyNanoparticles: synthesis and applications
Engineered Nanomaterials Enhance Crop Drought Resistance for Sustainable Agriculture | Litcius