Potential Role of Silicon in Plants Against Biotic and Abiotic Stresses

被引:0
|
作者
Syed Riaz Ahmed
Zunaira Anwar
Umar Shahbaz
Milan Skalicky
Aqsa Ijaz
Muhammad Sayyam Tariq
Usman Zulfiqar
Marian Brestic
Nadiyah M. Alabdallah
Moodi Saham Alsubeie
Hassan Mujtaba
Abdul Manan Saeed
Tafseer Zahra
Md. Mahadi Hasan
Hina Firdous
Abdul Razzaq
Muhammad Mubashar Zafar
机构
[1] Nuclear Institute for Agriculture and Biology College,Department of Botany and Plant Physiology, Faculty of Agrobiology, Food and Natural Resources
[2] Pakistan Institute of Engineering and Applied Sciences,Department of Agronomy
[3] University of Trento Dipartimento Di Genomica E Biologia Delle Piante da Frutto Fondazione Edmund Mach - www.fmach.it,Institute of Plant and Environmental Sciences
[4] Via Mach 1,Department of Biology, College of Science
[5] Czech University of Life Sciences,Biology Department, College of Science
[6] University of Agriculture,Institute of Soil and Environmental Sciences
[7] Slovak University of Agriculture,Department of Botany
[8] Imam Abdulrahman Bin Faisal University,State Key Laboratory of Grassland Agro
[9] Imam Mohammad Ibn Saud Islamic University (IMSIU),Ecosystems, School of Life Sciences
[10] University of Agricultural Faisalabad,Department of Plant Pathology
[11] Scientific Officer,Institute of Molecular Biology and Biotechnology
[12] Soil and Water Testing Laboratory for Research Gujranwala,Institute of Cotton Research
[13] University of Agricultural Faisalabad,undefined
[14] Lanzhou University,undefined
[15] University of Agricultural Faisalabad,undefined
[16] The University of Lahore,undefined
[17] Chinese Academy of Agricultural Sciences,undefined
来源
Silicon | 2023年 / 15卷
关键词
Abiotic stress; Biotic stress; Biofortification; Reactive oxygen species; Biochemical responses; Antioxidant defence;
D O I
暂无
中图分类号
学科分类号
摘要
In climate change scenarios, biotic and abiotic stresses are among the serious environmental strains that limit agricultural productivity worldwide. Silicon (Si) compounds are now getting much attention in agriculture as a result of explorations into their beneficial effects on plant growth, and development under adverse environments. This review seeks to understand the roles of transport pathways, the up- and down-regulation of biochemical responses, and transporter genes in Si’s effects. Exogenous application of Si enhances plant antioxidant defenses and decreases oxidative stress by limiting production of reactive oxygen species (ROS). Biofortification is one of the best techniques to reduce biotic and abiotic stresses by enhancing a plant’s capacity to accumulate Si. Identifying the novel genes involved in Si transport and modulating their expression level through genetic engineering is one option being considered to prevent biotic and abiotic damage to crop, and to reduce the applications of toxic pesticides, herbicides, and fungicides.
引用
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页码:3283 / 3303
页数:20
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