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大规模平行 454 测序表明温带巨桉叶层中真菌群落高度多样。

Massively parallel 454 sequencing indicates hyperdiverse fungal communities in temperate Quercus macrocarpa phyllosphere.

机构信息

Division of Biology, Kansas State University, Manhattan, KS 66506, USA.

Ecological Genomics Institute, Kansas State University, Manhattan, KS 66506, USA.

出版信息

New Phytol. 2009 Oct;184(2):438-448. doi: 10.1111/j.1469-8137.2009.02990.x. Epub 2009 Aug 11.

DOI:10.1111/j.1469-8137.2009.02990.x
PMID:19674337
Abstract
  • This study targeted the fungal communities in the phyllosphere of Quercus macrocarpa and compared the fungal species richness, diversity and community composition among trees located within and outside a small urban center using recently developed 454 sequencing and DNA tagging. * The results indicate that the fungal phyllosphere communities are extremely diverse and strongly dominated by ascomycetes, with Microsphaeropsis [two Operational Taxonomic Units (OTUs); 23.6%], Alternaria (six OTUs; 16.1%), Epicoccum (one OTU; 6.0%) and Erysiphe (two OTUs; 5.9%) as the most abundant genera. * Although the sequencing effort averaged 1000 reads per tree and detected nearly 700 distinct molecular OTUs at 95% internal transcribed spacer 1 similarity, the richness of the hyperdiverse phyllosphere communities could not be reliably estimated as nearly one-half of the molecular OTUs were singletons. * The fungal communities within and outside the urban center differed in richness and diversity, which were lower within the urban development. The two land-use types contained communities that were distinct and more than 10% of the molecular OTUs differed in their frequency.
摘要

本研究以栓皮栎的叶际真菌群落为研究对象,利用最新的 454 测序和 DNA 标记技术,比较了位于小型城市中心内外树木的真菌物种丰富度、多样性和群落组成。结果表明,叶际真菌群落极其多样,以子囊菌为主,其中包括 Microsphaeropsis(两个操作分类单位 (OTU);23.6%)、Alternaria(六个 OTU;16.1%)、Epicoccum(一个 OTU;6.0%)和 Erysiphe(两个 OTU;5.9%)。尽管测序工作平均每棵树有 1000 个读数,在 95%内部转录间隔区 1 相似度下检测到近 700 个不同的分子 OTU,但由于近一半的分子 OTU 是单峰,因此无法可靠估计高度多样化的叶际群落的丰富度。城市中心内外的真菌群落在丰富度和多样性上存在差异,城市发展内部的丰富度和多样性较低。这两种土地利用类型包含的群落是不同的,而且有超过 10%的分子 OTU 在频率上存在差异。

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