社论:植物与微生物共生,实现可持续粮食安全。

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-01-05 DOI:10.1080/15592324.2023.2298054
Ixchel Campos-Avelar, Amelia C Montoya-Martínez, Fannie I Parra-Cota, Sergio de Los Santos-Villalobos
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引用次数: 0

摘要

人们正越来越多地研究如何利用与植物相关的微生物,将其作为减轻生物和非生物威胁对作物的影响以及促进向可持续农业实践转变的重要工具。微生物群在农业生态系统中发挥着多种功能,如有机物转化、养分循环和植物/病原体生长调节。由于气候变化和全球变暖正在改变生态系统中植物与微生物相互作用的动态,因此有必要开展全面研究,破解当前和未来的微生物相互作用,因为可以更好地利用其有用的共生机制来实现可持续农业。这将有助于开发有效的微生物接种剂,以最小的能量消耗促进植物的营养供应,从而提高植物对生物和非生物压力的适应能力。本论文集旨在汇集有关阐明和优化作物与其相关微生物之间共生关系的最新研究成果。这里提供的信息将有助于开发下一代微生物接种剂,从而实现更可持续的农业发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Editorial: plant-microbial symbiosis toward sustainable food security.

The use of plant-associated microorganisms is increasingly being investigated as a key tool for mitigating the impact of biotic and abiotic threats to crops and facilitating migration to sustainable agricultural practices. The microbiome is responsible for several functions in agroecosystems, such as the transformation of organic matter, nutrient cycling, and plant/pathogen growth regulation. As climate change and global warming are altering the dynamics of plant-microbial interactions in the ecosystem, it has become essential to perform comprehensive studies to decipher current and future microbial interactions, as their useful symbiotic mechanisms could be better exploited to achieve sustainable agriculture. This will allow for the development of effective microbial inoculants that facilitate nutrient supply for the plant at its minimal energy expense, thus increasing its resilience to biotic and abiotic stresses. This article collection aims to compile state-of-the-art research focused on the elucidation and optimization of symbiotic relationships between crops and their associated microbes. The information presented here will contribute to the development of next-generation microbial inoculants for achieving a more sustainable agriculture.

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