中欧森林中的栖息地和树种身份塑造了地上和地下真菌群落。

Habitat and tree species identity shape aboveground and belowground fungal communities in central European forests.

作者信息

Hofmann Benjamin, Dreyling Lukas, Dal Grande Francesco, Otte Jürgen, Schmitt Imke

机构信息

Institute of Ecology, Diversity and Evolution, Goethe University Frankfurt, Frankfurt, Germany.

Senckenberg Biodiversity and Climate Research Centre (SBiK-F), Frankfurt, Germany.

出版信息

Front Microbiol. 2023 Mar 6;14:1067906. doi: 10.3389/fmicb.2023.1067906. eCollection 2023.

DOI:10.3389/fmicb.2023.1067906

PMID:36950169

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10025312/

Abstract

INTRODUCTION

Trees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. With their extensive aboveground and belowground structures, trees provide diverse habitats for fungi. Thus, tree species identity is an important driver of fungal community composition in forests.

METHODS

Here we investigate how forest habitat (bark surface vs. soil) and tree species identity (deciduous vs. coniferous) affect fungal communities in two Central European forests. We assess differences and interactions between fungal communities associated with bark surfaces and soil, in forest plots dominated either by , , or in two study regions in southwestern and northeastern Germany.

RESULTS

ITS metabarcoding yielded 3,357 fungal amplicon sequence variants (ASVs) in the northern and 6,088 in the southern region. Overall, soil communities were 4.7 times more diverse than bark communities. Habitat type explained 48-69% of the variation in alpha diversity, while tree species identity explained >1-3%. NMDS ordinations showed that habitat type and host tree species structured the fungal communities. Overall, few fungal taxa were shared between habitats, or between tree species, but the shared taxa were highly abundant. Network analyses, based on co-occurrence patterns, indicate that aboveground and belowground communities form distinct subnetworks.

DISCUSSION

Our study suggests that habitat (bark versus soil) and tree species identity are important factors structuring fungal communities in temperate European forests. The aboveground (bark-associated) fungal community is currently poorly known, including a high proportion of reads assigned to "unknown Ascomycota" or "unknown Dothideomycetes." The role of bark as a habitat and reservoir of unique fungal diversity in forests has been underestimated.

摘要

引言

树木与真菌存在互利共生、腐生和致病等关系。树木凭借其广泛的地上和地下结构，为真菌提供了多样的栖息地。因此，树种特性是森林中真菌群落组成的重要驱动因素。

方法

在此，我们研究森林栖息地（树皮表面与土壤）和树种特性（落叶树与针叶树）如何影响中欧两个森林中的真菌群落。我们评估了在德国西南部和东北部两个研究区域中，以、或为主的森林地块中，与树皮表面和土壤相关的真菌群落之间的差异及相互作用。

结果

内转录间隔区（ITS）宏条形码分析在北部区域产生了3357个真菌扩增子序列变体（ASV），在南部区域产生了6088个。总体而言，土壤群落的多样性比树皮群落高4.7倍。栖息地类型解释了48 - 69%的α多样性变化，而树种特性解释了>1 - 3%的变化。非度量多维尺度分析（NMDS）排序表明，栖息地类型和寄主树种构建了真菌群落。总体而言，不同栖息地之间或不同树种之间共享的真菌分类单元很少，但共享的分类单元丰度很高。基于共现模式的网络分析表明，地上和地下群落形成了不同的子网络。

讨论

我们的研究表明，栖息地（树皮与土壤）和树种特性是构建欧洲温带森林真菌群落的重要因素。目前对地上（与树皮相关的）真菌群落了解甚少，其中很大一部分序列被归类为“未知子囊菌门”或“未知座囊菌纲”。树皮作为森林中独特真菌多样性的栖息地和储存库的作用一直被低估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/74e1/10025312/1056487d016c/fmicb-14-1067906-g001.jpg

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中欧森林中的栖息地和树种身份塑造了地上和地下真菌群落。

Habitat and tree species identity shape aboveground and belowground fungal communities in central European forests.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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