The Microbially Extended Phenotype of Plants, a Keystone against Abiotic Stress

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES The EuroBiotech Journal Pub Date : 2022-10-01 DOI:10.2478/ebtj-2022-0017
Mario X. Ruiz-González, Ó. Vicente
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引用次数: 1

Abstract

Abstract Background: Climate change affects every region across the globe with heterogeneous effects on local temperatures and precipitation patterns. In plants, sessile organisms, climate change imposes more drastic effects leading to loss of yield or even death. However, plants establish mutualistic interactions with microorganisms that boost plant tolerance against abiotic stresses or strengthen the plant immune system against pathogens, thus, enhancing their survival and fitness. Moreover, in the wild, microbial endophytes provide important ecosystem services. Purpose and scope: Little we know about the mechanisms of response against the adverse effects of climate change on natural populations of wild plants and even less about the potential role played by microbial biostimulants. In this article, we review the effects of biostimulants on plant responses against abiotic stresses, with a particular focus on the role of mycorrhizas and leaf endophytes. Results: We have reviewed the effects of the main abiotic stresses in plants, the mechanisms that plants use to face these abiotic challenges, and the interaction plant-biostimulant-abiotic stress, highlighting the primary responses and parameters to evaluate different plant responses. Conclusion: Abiotic stresses can check the phenotypic plasticity of plants and also trigger a complex and heterogeneous array of responses to face different abiotic stresses, and beneficial microorganisms do play an essential role in enhancing such responses. Our laboratory has initiated a project to characterise microbial populations associated with plants from wild areas and analyse their potential role in aiding the plants to cope with abiotic stresses.
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植物的微生物扩展表型是抵御非生物胁迫的关键
摘要背景:气候变化影响着全球每个地区,对当地温度和降水模式产生了异质性影响。在植物这种固着生物中,气候变化会产生更剧烈的影响,导致产量损失甚至死亡。然而,植物与微生物建立了互惠的相互作用,提高了植物对非生物胁迫的耐受性,或增强了植物对病原体的免疫系统,从而提高了它们的生存和适应性。此外,在野外,微生物内生菌提供重要的生态系统服务。目的和范围:我们对应对气候变化对野生植物自然种群不利影响的机制知之甚少,对微生物生物刺激剂发挥的潜在作用知之甚少。在这篇文章中,我们综述了生物刺激剂对植物对非生物胁迫反应的影响,特别关注菌根和叶片内生菌的作用。结果:我们综述了植物中主要非生物胁迫的影响,植物面对这些非生物挑战的机制,以及植物生物刺激性非生物胁迫之间的相互作用,强调了评估不同植物反应的主要反应和参数。结论:非生物胁迫可以检测植物的表型可塑性,并引发一系列复杂而异质的反应来面对不同的非生物胁迫,而有益微生物在增强这种反应中确实发挥着重要作用。我们的实验室启动了一个项目,以表征与野生地区植物相关的微生物种群,并分析它们在帮助植物应对非生物胁迫方面的潜在作用。
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来源期刊
The EuroBiotech Journal
The EuroBiotech Journal Agricultural and Biological Sciences-Food Science
CiteScore
3.60
自引率
0.00%
发文量
17
审稿时长
10 weeks
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