阿拉斯加苔藓的细菌群落及其对固氮的贡献。

The bacterial communities of Alaskan mosses and their contributions to N-fixation.

作者信息

Holland-Moritz Hannah, Stuart Julia E M, Lewis Lily R, Miller Samantha N, Mack Michelle C, Ponciano Jose Miguel, McDaniel Stuart F, Fierer Noah

机构信息

Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, CO, USA.

Center for Ecosystem Science and Society and the Department of Biological Sciences, Northern Arizona University, Flagstaff, AZ, USA.

出版信息

Microbiome. 2021 Feb 23;9(1):53. doi: 10.1186/s40168-021-01001-4.

DOI:10.1186/s40168-021-01001-4

PMID:33622403

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7903681/

Abstract

BACKGROUND

Mosses in high-latitude ecosystems harbor diverse bacterial taxa, including N-fixers which are key contributors to nitrogen dynamics in these systems. Yet the relative importance of moss host species, and environmental factors, in structuring these microbial communities and their N-fixing potential remains unclear. We studied 26 boreal and tundra moss species across 24 sites in Alaska, USA, from 61 to 69° N. We used cultivation-independent approaches to characterize the variation in moss-associated bacterial communities as a function of host species identity and site characteristics. We also measured N-fixation rates via N isotopic enrichment and identified potential N-fixing bacteria using available literature and genomic information.

RESULTS

Host species identity and host evolutionary history were both highly predictive of moss microbiome composition, highlighting strong phylogenetic coherence in these microbial communities. Although less important, light availability and temperature also influenced composition of the moss microbiome. Finally, we identified putative N-fixing bacteria specific to some moss hosts, including potential N-fixing bacteria outside well-studied cyanobacterial clades.

CONCLUSIONS

The strong effect of host identity on moss-associated bacterial communities demonstrates mosses' utility for understanding plant-microbe interactions in non-leguminous systems. Our work also highlights the likely importance of novel bacterial taxa to N-fixation in high-latitude ecosystems. Video Abstract.

摘要

背景

高纬度生态系统中的苔藓含有多种细菌类群，包括固氮菌，这些固氮菌是这些系统中氮动态的关键贡献者。然而，苔藓宿主物种和环境因素在构建这些微生物群落及其固氮潜力方面的相对重要性仍不清楚。我们在美国阿拉斯加北纬61°至69°的24个地点研究了26种北方和苔原苔藓物种。我们采用非培养方法来表征与苔藓相关的细菌群落随宿主物种身份和地点特征的变化。我们还通过氮同位素富集测量固氮率，并利用现有文献和基因组信息鉴定潜在的固氮细菌。

结果

宿主物种身份和宿主进化历史都能高度预测苔藓微生物组的组成，突出了这些微生物群落中强大的系统发育一致性。虽然重要性稍低，但光照可用性和温度也影响了苔藓微生物组的组成。最后，我们鉴定出了一些苔藓宿主特有的假定固氮细菌，包括研究充分的蓝藻分支之外的潜在固氮细菌。

结论

宿主身份对与苔藓相关的细菌群落有强烈影响，这表明苔藓在理解非豆科系统中植物与微生物相互作用方面的作用。我们的工作还强调了新型细菌类群对高纬度生态系统中氮固定的可能重要性。视频摘要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f5b1/7903681/7f0683d3b767/40168_2021_1001_Fig1_HTML.jpg

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阿拉斯加苔藓的细菌群落及其对固氮的贡献。

The bacterial communities of Alaskan mosses and their contributions to N-fixation.

作者信息

Holland-Moritz Hannah, Stuart Julia E M, Lewis Lily R, Miller Samantha N, Mack Michelle C, Ponciano Jose Miguel, McDaniel Stuart F, Fierer Noah

机构信息

Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, CO, USA.

Center for Ecosystem Science and Society and the Department of Biological Sciences, Northern Arizona University, Flagstaff, AZ, USA.