硅在甘蔗生产中防御昆虫草食性的作用

IF 2.8 3区 材料科学 Q3 CHEMISTRY, PHYSICAL Silicon Pub Date : 2024-09-18 DOI:10.1007/s12633-024-03144-z
Priya, Rajinder Kumar
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引用次数: 0

摘要

硅(Si)对许多单子叶和双子叶植物物种的营养状况至关重要,并能以各种方式帮助它们抵抗非生物和生物挑战。本文阐述了在探索硅介导的甘蔗虫害抗性方面取得的进展、硅在提高果汁质量属性和甘蔗产量方面的作用、土壤中硅的状况和甘蔗植物对硅的吸收以及相关机制。研究的目的是确定施用不同来源的硅对土壤中硅的可用性、植物对硅的吸收、硅在减少生物胁迫(如抵御甘蔗虫害)方面的作用,以及硅对甘蔗果汁和其他成分性状产量的影响。有两种基本的作用模式:增强物理或机械屏障,以及通过位营养(植物-食草动物)相互作用和三营养(植物-食草动物-天敌)相互作用激活植物防御反应的生化或分子机制。通过整合本研究中报告的数据,可以全面了解各种硅处理来源、甘蔗植物抗性增强和甘蔗虫害减少之间的关系。
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Role of Silicon in Providing Defence Against Insect Herbivory in Sugarcane Production

Silicon (Si) is essential to the nutritional status of many monocot and dicot plant species, and it aids them in resisting abiotic and biotic challenges in various ways. This article explained the progress in exploring silicon-mediated resistance to sugarcane insect pests, its role in increasing juice quality attributes and cane production, the silicon status of soil and uptake by sugarcane plant, and the mechanisms involved. The aim is to determine the influence of different sources of Si application on the availability of silicon in soil, silicon uptake by plants, silicon effect in minimizing biotic stresses such as defence against sugarcane insect pest herbivory along with its effect on sugarcane yield in terms of juice and other component traits. There are two basic modes of action: enhanced physical or mechanical barriers and biochemical or molecular mechanisms that activate plant defence responses via bitrophic (plant-herbivore) interactions and tritrophic (plant-herbivore-natural enemy) interactions. By integrating the data reported in this research, a comprehensive understanding of the relationship between various sources of silicon treatments, increased sugarcane plant resistance and decreased sugarcane insect pest damage might be attained.

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来源期刊
Silicon
Silicon CHEMISTRY, PHYSICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
5.90
自引率
20.60%
发文量
685
审稿时长
>12 weeks
期刊介绍: The journal Silicon is intended to serve all those involved in studying the role of silicon as an enabling element in materials science. There are no restrictions on disciplinary boundaries provided the focus is on silicon-based materials or adds significantly to the understanding of such materials. Accordingly, such contributions are welcome in the areas of inorganic and organic chemistry, physics, biology, engineering, nanoscience, environmental science, electronics and optoelectronics, and modeling and theory. Relevant silicon-based materials include, but are not limited to, semiconductors, polymers, composites, ceramics, glasses, coatings, resins, composites, small molecules, and thin films.
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