森林顶冠细菌群落受海拔高度和寄主树特性的影响

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY
Yiwei Duan, Andjin Siegenthaler, Andrew K. Skidmore, Anthony A. Chariton, Ivo Laros, Mélody Rousseau, G. Arjen De Groot
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引用次数: 0

摘要

叶球微生物群对植物健康和生态系统功能至关重要。虽然寄主物种对植物叶球微生物组的形成起着决定性作用,但同一物种的寄主树木在不同的环境条件下,其微生物组的多样性和组成仍会表现出很大程度的差异。在更广阔的森林景观中,是否能观察到植物层微生物组多样性和组成的这些特异性内部差异,目前仍不清楚。在这项研究中,我们以欧洲山毛榉(Fagus sylvatica)和挪威云杉(Picea abies)为重点,评估了温带欧洲森林中不同寄主树种之间以及不同寄主树种内部树冠层细菌群落的差异。我们对荷兰维鲁威国家公园和德国巴伐利亚森林国家公园这两个温带森林中 211 棵树的树冠顶层植物层中的细菌多样性、组成、驱动因素和判别类群进行了分析。我们发现细菌群落主要是由宿主物种形成的,山毛榉和云杉内部存在很大差异。虽然我们发现在所有考察的树种中都有一个核心微生物群落,但群落组成随海拔高度、树木胸径和叶片特异性状(如叶绿素和磷含量)的变化而变化。细菌群落组成的这些驱动因素还与特定细菌家族的相对丰度相关。虽然我们的研究结果强调了寄主物种的重要性,但我们也证明了在一个寄主物种内,叶球细菌多样性和组成的变化范围很大。这些变化的驱动因素对寄主树木个体和森林景观都有影响,在寄主树木个体层面,细菌群落因树木特征而异;而在森林景观层面,某些高度可塑的叶片特征等驱动因素有可能将森林冠层细菌群落的变化与森林生态系统过程联系起来。我们的研究最终表明,森林树冠叶球细菌群落与寄主树木之间存在密切联系,而这些联系所产生的一致模式对寄主植物的功能至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forest top canopy bacterial communities are influenced by elevation and host tree traits
The phyllosphere microbiome is crucial for plant health and ecosystem functioning. While host species play a determining role in shaping the phyllosphere microbiome, host trees of the same species that are subjected to different environmental conditions can still exhibit large degrees of variation in their microbiome diversity and composition. Whether these intra-specific variations in phyllosphere microbiome diversity and composition can be observed over the broader expanse of forest landscapes remains unclear. In this study, we aim to assess the variation in the top canopy phyllosphere bacterial communities between and within host tree species in the temperate European forests, focusing on Fagus sylvatica (European beech) and Picea abies (Norway spruce). We profiled the bacterial diversity, composition, driving factors, and discriminant taxa in the top canopy phyllosphere of 211 trees in two temperate forests, Veluwe National Parks, the Netherlands and Bavarian Forest National Park, Germany. We found the bacterial communities were primarily shaped by host species, and large variation existed within beech and spruce. While we showed that there was a core microbiome in all tree species examined, community composition varied with elevation, tree diameter at breast height, and leaf-specific traits (e.g., chlorophyll and P content). These driving factors of bacterial community composition also correlated with the relative abundance of specific bacterial families. While our results underscored the importance of host species, we demonstrated a substantial range of variation in phyllosphere bacterial diversity and composition within a host species. Drivers of these variations have implications at both the individual host tree level, where the bacterial communities differed based on tree traits, and at the broader forest landscape level, where drivers like certain highly plastic leaf traits can potentially link forest canopy bacterial community variations to forest ecosystem processes. We eventually showed close associations between forest canopy phyllosphere bacterial communities and host trees exist, and the consistent patterns emerging from these associations are critical for host plant functioning.
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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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