Increasing Phylogenetic Clustering of Arbuscular Mycorrhizal Fungal Communities in Roots Explains Enhanced Plant Growth and Phosphorus Uptake.

IF 3.3 3区 生物学 Q2 ECOLOGY
Adam Frew, Carlos A Aguilar-Trigueros
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引用次数: 0

Abstract

Temporal variation during the assembly of arbuscular mycorrhizal (AM) fungal communities within plant roots have been posited as critical drivers of the plant-fungal symbiotic outcomes. However, functional implications of these dynamics for the host plant remain poorly understood. We conducted a controlled pot experiment with Sorghum bicolor to investigate how temporal shifts in AM fungal community composition and phylogenetic diversity influence plant growth and phosphorus responses to the symbiosis. We characterised the root-colonising AM fungal communities across three time points and explored their community assembly processes by analysing their phylogenetic diversity and employing joint species distribution modelling with the Hierarchical Modelling of Species Communities (HMSC) framework. We found strong AM fungal turnover through time with a high phylogenetic signal, indicating recruitment of phylogenetically clustered AM fungal species in the host. This temporal phylogenetic clustering of communities coincided with marked increases in plant biomass and phosphorus responses to the AM fungal symbiosis, suggesting that host selection for specific fungi may be a key determinant of these benefits.

根部丛枝菌根真菌群落系统发育聚类的增加解释了植物生长和磷吸收能力增强的原因。
植物根部丛枝菌根(AM)真菌群落形成过程中的时间变化被认为是植物-真菌共生结果的关键驱动因素。然而,这些动态变化对宿主植物的功能影响仍然知之甚少。我们用双色高粱(Sorghum bicolor)进行了一项盆栽对照实验,研究 AM 真菌群落组成和系统发育多样性的时间变化如何影响植物生长和磷对共生的响应。我们分析了三个时间点的根定植AM真菌群落的特征,并通过分析其系统发育多样性和使用物种群落分级建模(HMSC)框架建立联合物种分布模型,探索了其群落组装过程。我们发现,随着时间的推移,AM 真菌发生了强烈的更替,并具有较高的系统发育信号,这表明宿主中系统发育集群的 AM 真菌物种被招募进来。群落在时间上的系统发育聚类与植物生物量和磷对 AM 真菌共生反应的显著增加相吻合,这表明宿主对特定真菌的选择可能是这些益处的关键决定因素。
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来源期刊
Microbial Ecology
Microbial Ecology 生物-海洋与淡水生物学
CiteScore
6.90
自引率
2.80%
发文量
212
审稿时长
3-8 weeks
期刊介绍: The journal Microbial Ecology was founded more than 50 years ago by Dr. Ralph Mitchell, Gordon McKay Professor of Applied Biology at Harvard University in Cambridge, MA. The journal has evolved to become a premier location for the presentation of manuscripts that represent advances in the field of microbial ecology. The journal has become a dedicated international forum for the presentation of high-quality scientific investigations of how microorganisms interact with their environment, with each other and with their hosts. Microbial Ecology offers articles of original research in full paper and note formats, as well as brief reviews and topical position papers.
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