Biological and experimental factors that define the effectiveness of microbial inoculation on plant traits: a meta-analysis.

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-10-14 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae122
Hamed Azarbad, Robert R Junker
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Abstract

Bacterial and fungal microbiomes associated with plants can significantly affect the host's phenotype. Inoculating plants with one or multiple bacterial and fungal species can affect specific plant traits, which is exploited in attempts to increase plant performance and stress tolerance by microbiome engineering. Currently, we lack a comprehensive synthesis on the generality of these effects related to different biological (e.g. plant models, plant traits, and microbial taxa) and experimental factors. In a meta-analysis, we showed that the plant trait under consideration and the microbial taxa used to inoculate plants significantly influenced the strength of the effect size. In a methodological context, experiments under sterilized conditions and short-term periods resulted in larger positive effects on plant traits than those of unsterilized and long-term experiments. We recommend that future studies should not only consider (short-term) laboratory experiments with sterilized plants and single inoculants but also and more often (long-term) field or greenhouse experiments with naturally occurring microbial communities associated with the plants and inoculated consortia including both bacteria and fungi.

确定微生物接种对植物性状有效性的生物和实验因素:荟萃分析。
与植物相关的细菌和真菌微生物组可显著影响宿主的表型。给植物接种一种或多种细菌和真菌可影响植物的特定性状,人们试图通过微生物组工程提高植物的性能和抗逆性。目前,我们还缺乏对这些影响与不同生物(如植物模型、植物性状和微生物类群)和实验因素相关的普遍性的综合分析。在一项荟萃分析中,我们发现所考虑的植物性状和用于接种植物的微生物类群会显著影响效应大小的强度。在方法上,灭菌条件下的短期实验比未经灭菌的长期实验对植物性状的积极影响更大。我们建议,今后的研究不仅要考虑用灭菌植物和单一接种剂进行(短期)实验室实验,还要更多地考虑用与植物相关的天然微生物群落和包括细菌和真菌在内的接种联合体进行(长期)田间或温室实验。
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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