兴奋
压力源
持续性
农业
可持续农业
农作物产量
生物技术
农业生产力
生产(经济)
生物
风险分析(工程)
业务
生态学
宏观经济学
经济
神经科学
生物化学
氧化应激
作者
Pablo L. Godínez-Mendoza,Amanda Kim Rico-Chávez,Noelia I. Ferrusquía‐Jiménez,Ireri A. Carbajal-Valenzuela,Ana Laura Villagómez-Aranda,Irineo Torres‐Pacheco,Ramón Gerardo Guevara-González
标识
DOI:10.1016/j.scitotenv.2023.164883
摘要
Current research in basic and applied knowledge of plant science has aimed to unravel the role of the interaction between environmental factors and the genome in the physiology of plants to confer the ability to overcome challenges in a climate change scenario. Evidence shows that factors causing environmental stress (stressors), whether of biological, chemical, or physical origin, induce eustressing or distressing effects in plants depending on the dose. The latter suggests the induction of the "hormesis" phenomenon. Sustainable crop production requires a better understanding of hormesis, its basic concepts, and the input variables to make its management feasible. This implies that acknowledging hormesis in plant research could allow specifying beneficial effects to effectively manage environmental stressors according to cultivation goals. Several factors have been useful in this regard, which at low doses show beneficial eustressing effects (biostimulant/elicitor), while at higher doses, they show distressing toxic effects. These insights highlight biostimulants/elicitors as tools to be included in integrated crop management strategies for reaching sustainability in plant science and agricultural studies. In addition, compelling evidence on the inheritance of elicited traits in plants unfolds the possibility of implementing stressors as a tool in plant breeding.
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