弹性(材料科学)
非生物胁迫
心理弹性
农业
风险分析(工程)
可持续农业
持续性
环境资源管理
生物
非生物成分
适应(眼睛)
生物技术
环境规划
转化式学习
气候变化
自然资源经济学
粮食安全
业务
可持续发展
生态学
适应不良
预警系统
新兴技术
适应性
钥匙(锁)
战斗或逃跑反应
生化工程
全球变暖
生物逆境
自然(考古学)
全球挑战
气候弹性
全球气候
工程类
农业生产力
作者
Muhammad Ateeq,Shariq Mahmood Alam,Muhammad Mohsin Kaleem,Shah Fahad,M. Ashraf,Muhammad Asim,Kaijie Zhu,Fareeha Shireen,Junwei Liu,Hanzi He
摘要
Frequent changes in global climate enhance environmental cues, threaten agricultural systems, which jeopardizes food security, and impair the achievements of the United Nations Sustainable Development Goal 2 "Zero Hunger". To achieve a sustainable path, use of biostimulants represents a new strategy to enhance plant resilience against abiotic stresses like drought, temperature, salt, waterlogging, and heavy metals. This review explores recent developments in biostimulant technologies, aiming to clarify the processes that underlie their ability to promote plant tolerance. We also highlight the versatile roles of small RNA, peptides, and hormones as emerging molecular regulators, thereby revealing their potential for use as natural biostimulants. Developing on this, transformative effects of microbial biostimulants that use microbiota to strongly regulate plant stress-responsive modules are explored. Furthermore, AI-driven early warning systems provide the opportunity to identify timely stress responses, thus enabling the discovery of multi-omics network modules, allowing rational biostimulant design. These findings are then used to guide the metabolic engineering of tailored biostimulants, where the identified key regulators and network modules become direct targets for formulation or synthetic biology approaches. This review defines a roadmap for crop stress tolerance by clarifying the mechanisms of rationally designed biostimulants, thereby paving the way for climate-resilient agriculture and sustainable food systems.
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