叶际附生和内生真菌群落及网络结构在热带红树林生态系统中存在差异。

Phyllosphere epiphytic and endophytic fungal community and network structures differ in a tropical mangrove ecosystem.

机构信息

State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing, 100101, People's Republic of China.

College of Life Sciences, University of Chinese Academy of Sciences, Beijing, 100049, People's Republic of China.

出版信息

Microbiome. 2019 Apr 9;7(1):57. doi: 10.1186/s40168-019-0671-0.

DOI:10.1186/s40168-019-0671-0

PMID:30967154

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6456958/

Abstract

BACKGROUND

Revealing the relationship between plants and fungi is very important in understanding biodiversity maintenance, community stability, and ecosystem functioning. However, differences in the community and network structures of phyllosphere epiphytic and endophytic fungi are currently poorly documented. In this study, we examined epiphytic and endophytic fungal communities associated with the leaves of six mangrove species using Illumina MiSeq sequencing of internal transcribed spacer 2 (ITS2) sequences.

RESULTS

A total of 635 operational taxonomic units (OTUs) of endophytic and epiphytic fungi were obtained at a 97% sequence similarity level; they were dominated by Dothideomycetes and Tremellomycetes. Plant identity had a significant effect on the OTU richness of endophytic fungi, but not on epiphytic fungi. The community composition of epiphytic and endophytic fungi was significantly different, and plant identity had a greater effect on endophytic fungi than on epiphytic fungi. Network analysis showed that both epiphytic and endophytic network structures were characterized by significantly highly specialized and modular but lowly connected and anti-nested properties. Furthermore, the endophytic network had higher levels of specialization and modularity but lower connectance and stronger anti-nestedness than the epiphytic network.

CONCLUSIONS

This study reveals that the phyllosphere epiphytic and endophytic fungal communities differ, and plant identity has a greater effect on the endophytic fungi than on epiphytic fungi. These findings demonstrate the role of host plant identity in driving phyllosphere epiphytic and endophytic community structure.

摘要

背景

揭示植物与真菌之间的关系对于理解生物多样性维持、群落稳定性和生态系统功能非常重要。然而，叶际附生真菌和内生真菌群落的差异目前记录较少。本研究采用 Illumina MiSeq 测序内部转录间隔区 2（ITS2）序列，研究了 6 种红树林叶片相关的附生和内生真菌群落。

结果

在 97%序列相似性水平下，共获得了 635 个内生和附生真菌的操作分类单元（OTUs）；它们主要由散囊菌纲和银耳纲组成。植物种类对内生真菌的 OTU 丰富度有显著影响，但对附生真菌没有影响。附生和内生真菌的群落组成存在显著差异，且植物种类对内生真菌的影响大于对附生真菌的影响。网络分析表明，附生和内生网络结构均具有高度专业化和模块化但连接度低和反嵌套的特征。此外，内生网络的专业化和模块化程度高于附生网络，而连接度和嵌套度则较低。

结论

本研究表明，叶际附生真菌和内生真菌群落存在差异，且植物种类对内生真菌的影响大于对附生真菌的影响。这些发现表明宿主植物种类在驱动叶际附生和内生真菌群落结构方面发挥了作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0bf2/6456958/c1160be0bbbe/40168_2019_671_Fig1_HTML.jpg

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叶际附生和内生真菌群落及网络结构在热带红树林生态系统中存在差异。

Phyllosphere epiphytic and endophytic fungal community and network structures differ in a tropical mangrove ecosystem.

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出版信息

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背景

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