Endophytic fungi: versatile partners for pest biocontrol, growth promotion, and climate change resilience in plants

IF 3.7 2区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
Tarekegn Fite, Erana Kebede, T. Tefera, Z. Bekeko
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引用次数: 0

Abstract

Plant-associated endophytic fungi (EFs) are emerging as a promising solution to advancing modern agriculture and fostering environmental sustainability, especially in the face of climate change scenarios. These fungi, either naturally residing in plants or introduced through artificial inoculation techniques, improve agricultural production due to their various roles in protecting and supporting host plants. The majority of EFs serve as natural biocontrol agents for a variety of agricultural pests, such as insects, phytopathogens, nematodes, and weeds. Notably, EFs produce secondary metabolites, trigger immune responses, modify plant defense gene expression, confer host plant resistance and/or tolerance, and regulate pest growth, populations, and survival to combat agricultural pests. Beyond controlling pests, EFs promote optimal plant growth, development, and resilience by aiding in the synthesis of vital compounds such as phytohormones and bioactive metabolites, nutrient acquisition, and fortifying plants against environmental stresses and climatic changes. Moreover, the mostly nonpathogenic nature of EFs, coupled with their high yield potential, environmental safety, and cost effectiveness, positions them as eco-friendly and economically viable alternatives to synthetic agrochemicals amidst rapid climate change scenarios. As a result, the promising horizon of EFs in agricultural production necessitates interdisciplinary study and microbial modulation approaches to optimize symbiotic plant-EF relationships and their potential for improved productivity. This review provides current and comprehensive insights into the practical applications and multifaceted benefits of EFs in pest management, plant growth promotion, and climate change resilience for future agricultural production improvements. The analysis reveals the potential of developing EFs into innovative bioformulations such as biofertilizers, biostimulants, and biopesticides, thereby paving the way for their integration into a sustainable and more resilient future agricultural system.
内生真菌:植物害虫生物控制、生长促进和抵御气候变化的多功能合作伙伴
植物相关内生真菌(EFs)正在成为推动现代农业发展和促进环境可持续发展的一种前景广阔的解决方案,尤其是在面对气候变化的情况下。这些真菌或天然存在于植物中,或通过人工接种技术引入,由于其在保护和支持寄主植物方面的各种作用,可提高农业产量。大多数 EF 都是各种农业害虫(如昆虫、植物病原体、线虫和杂草)的天然生物控制剂。值得注意的是,EFs 能产生次级代谢产物、引发免疫反应、改变植物防御基因的表达、赋予寄主植物抗性和/或耐受性,以及调节害虫的生长、种群和存活,以防治农业害虫。除控制害虫外,EF 还能帮助植物激素和生物活性代谢物等重要化合物的合成、养分的获取以及增强植物抵御环境胁迫和气候变化的能力,从而促进植物的最佳生长、发育和恢复能力。此外,EFs 多为非致病性,加上其高产潜力、环境安全性和成本效益,使其在快速气候变化的情况下成为生态友好和经济可行的合成农用化学品替代品。因此,面对 EFs 在农业生产中的广阔前景,有必要进行跨学科研究并采用微生物调节方法来优化植物与 EFs 的共生关系及其提高生产力的潜力。本综述就 EFs 在病虫害管理、植物生长促进和抵御气候变化等方面的实际应用和多方面益处提供了最新、最全面的见解,以改善未来的农业生产。分析揭示了将环境因子开发成创新生物制剂(如生物肥料、生物刺激剂和生物农药)的潜力,从而为将环境因子纳入可持续和更具复原力的未来农业系统铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Sustainable Food Systems
Frontiers in Sustainable Food Systems Agricultural and Biological Sciences-Horticulture
CiteScore
5.60
自引率
6.40%
发文量
575
审稿时长
14 weeks
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