纳米颗粒缓解作物干旱胁迫机制的研究进展OA
Research progress on the mechanism of nanoparticles in alleviating crop drought stress
在全球气候变化和水资源短缺的背景下,干旱已成为影响作物生长的主要非生物胁迫因素,严重威胁全球粮食安全.近年来,纳米颗粒凭借其独特的理化性质,在作物抗旱能力方面展现出显著的协同提升能力.本文在综述干旱胁迫在植物生理、生化及分子层面的影响与响应策略的基础上,系统总结了纳米颗粒对作物抗旱的调控机制,包括改善光合作用、增强抗氧化防御系统、促进渗透调节过程、调节植物激素平衡与抗旱相关基因表达,以及维持养分稳态等,同时讨论了纳米颗粒的类型与施用方式对作物抗旱性能的影响,并指出纳米颗粒在缓解干旱胁迫中的应用现状与挑战.未来纳米材料在作物抗旱领域的研究可关注精准施用标准化、纳米设计组分构成优化、干旱响应深层信号调控、多组学与基因编辑技术融合解析机制、复合逆境适应性等问题,以推动其高效可持续应用.本文旨在探讨纳米颗粒介导的作物抗旱机制,为纳米肥料的研发与应用提供理论指导,促进农业可持续发展,保障全球粮食安全.
Under the background of global climate change and water scarcity,drought has become one of the major abiotic factors af-fecting crop growth and yields,thereby posing a serious threat to global food security.In recent years,nanoparticles(NPs)have demonstrated significant potential for synergistically enhancing the drought resistance of crops due to their unique physicochemical properties.Therefore,this paper reviews the related studies in recent years to summarize the effects of drought stress on plant physiology,biochemistry,and morphology,as well as the response strategies of plants.Drought stress exerts adverse effects on plant development,as well as on physiological and metabolic pathways,to interfere with cell membranes,antioxidant activity,photosyn-thetic systems,and nutrient absorption,thereby affecting plant growth and crop productivity.In response,plants have evolved adapt-ive mechanisms such as drought escape,drought avoidance,and drought tolerance.The strategic application of nanoparticles under drought conditions can effectively bolster crop resilience,subsequently elevating crop yields and quality.This review systematically summarizes the regulatory mechanisms of nanoparticles on the drought resistance of crops.These mechanisms encompass reinfor-cing the antioxidant defense system,optimizing photosynthetic performance,facilitating osmotic adjustment,modulating phytohor-mone balance and associated gene expression,and preserving nutrient homeostasis.Furthermore,this review discusses the influences of the properties of nanoparticles on the drought resistance of crops.In terms of the types of nanoparticles,ZnO NPs exhibited re-markable plant growth-promoting effects under drought stress;in terms of application concentrations,the application concentration of NPs under drought conditions presents a quadratic parabolic trend on the biomass of the aboveground parts of crops,which decreases at low application concentrations and increases at high application concentrations;in terms of application methods,foliar spraying and soil application of NPs are the most effective for crop growth under drought conditions.In addition,this article points out the cur-rent application status and challenges of nanoparticles in alleviating drought stress.Future research on nanomaterials in the drought resistance of crops can focus on issues such as the standardization of precise application,optimization of nanodesign components,deep-level signal regulation of drought responses,integration of multi-omics and gene editing technologies to decipher mechanisms,and adaptability to multiple stresses.On the basis of eliminating the biological toxicity and eco-environmental risks of nanoparticles,it is necessary to promote the efficient and sustainable application of nanoparticles in enhancing drought resistance.The paper aims to explore the role of nanoparticles in alleviating the drought stress of crops,thereby providing theoretical guidance for the research and application of nano-fertilizers,and promoting sustainable agricultural development and ensuring global food security.
王玥;李洪昭;王紫卉;刘敦一;杨怀玉
西南大学资源环境学院 重庆 400715西南大学资源环境学院 重庆 400715长江经济带农业绿色发展研究中心 重庆 400715西南大学资源环境学院 重庆 400715长江经济带农业绿色发展研究中心 重庆 400715
农业科技
纳米颗粒作物干旱胁迫缓解机制植物生理
nanoparticlescropdrought stressmitigation mechanismplant physiology
《中国生态农业学报(中英文)》 2026 (1)
21-32,12
国家重点研发计划项目(2023YFD1902200,2022YFD1900702)资助 This study was supported by the National Key Research and Development Program of China(2023YFD1902200,2022YFD1900702).
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