Induction of regulatory mechanisms by plant growth promoting rhizobacteria in crops facing drought stress

IF 1.8 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
Sundas Tanveer, N. Ilyas, N. Akhtar, R. Sayyed, W. Almalki
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Abstract

ABSTRACT Climate change and global warming are leading to severe drought stress, causing damage to crops in different regions of the world. Drought stress is an abiotic stress that interferes with major metabolic pathways, influencing mainly morphological, physiological and biochemical parameters of plants, ultimately resulting in decreased growth and yield of crops. Plants should be able to utilise available moisture efficiently, and there is a need to focus on organic and eco-friendly methods for improving crops facing drought stress. A practical approach for enhancing growth and development under stressful conditions is the application of plant growth promoting rhizobacteria (PGPR), soil microbes that help plants to cope with extreme ecological conditions. This review aims to highlight the function of various PGPR metabolites that help to mitigate water-deficit conditions. These microbes exist naturally in the rhizosphere of plants, and they enhance plant growth by several direct mechanisms such as aminocyclopropane-1-carboxylate deaminase and osmolyte production, secretion of exopolysaccharides and phytohormones, triggering of antioxidant defence mechanisms against reactive oxygen species and production of volatile organic compounds, as well as by indirect mechanisms including enhancing induced systemic resistance and pathogen suppression. This review recommends the use of PGPR for improving growth and development of crops under drought stress and supports their role as effective and sustainable bioinoculants for enhancing the growth and production of crops.
植物生长促进菌在干旱胁迫下对作物调控机制的诱导
摘要气候变化和全球变暖正在导致严重的干旱压力,对世界不同地区的作物造成损害。干旱胁迫是一种干扰主要代谢途径的非生物胁迫,主要影响植物的形态、生理和生化参数,最终导致作物生长和产量下降。植物应该能够有效利用可用的水分,有必要专注于有机和环保的方法来改善面临干旱胁迫的作物。在胁迫条件下促进生长发育的一种实用方法是应用植物生长促进根际细菌(PGPR),这是一种帮助植物应对极端生态条件的土壤微生物。本综述旨在强调各种PGPR代谢产物的功能,这些代谢产物有助于缓解缺水状况。这些微生物自然存在于植物根际,它们通过几种直接机制促进植物生长,如氨基环丙烷-1-羧酸脱氨酶和渗透液的产生、胞外多糖和植物激素的分泌、对活性氧的抗氧化防御机制的触发和挥发性有机化合物的产生,以及通过包括增强诱导的系统抗性和病原体抑制在内的间接机制。这篇综述建议使用PGPR来改善干旱胁迫下作物的生长发育,并支持其作为有效和可持续的生物接种剂来促进作物的生长和生产。
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来源期刊
Crop & Pasture Science
Crop & Pasture Science AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
4.20
自引率
15.80%
发文量
111
审稿时长
3 months
期刊介绍: Crop and Pasture Science (formerly known as Australian Journal of Agricultural Research) is an international journal publishing outcomes of strategic research in crop and pasture sciences and the sustainability of farming systems. The primary focus is broad-scale cereals, grain legumes, oilseeds and pastures. Articles are encouraged that advance understanding in plant-based agricultural systems through the use of well-defined and original aims designed to test a hypothesis, innovative and rigorous experimental design, and strong interpretation. The journal embraces experimental approaches from molecular level to whole systems, and the research must present novel findings and progress the science of agriculture. Crop and Pasture Science is read by agricultural scientists and plant biologists, industry, administrators, policy-makers, and others with an interest in the challenges and opportunities facing world agricultural production. Crop and Pasture Science is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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