Cristina Mircea, Ioana Rusu, Erika Andrea Levei, Adorján Cristea, Ionuț Mădălin Gridan, Adrian Vasile Zety, Horia Leonard Banciu
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The fungal communities, illustrated by the 18S rRNA gene and ITS2 region, exhibited contrasting patterns between the lakes. The ITS2 region assessed better than the 18S rRNA gene the fungal diversity. The ITS2 data showed that Ascomycota was the most abundant fungal group identified in both lakes, followed by Aphelidiomycota, Chytridiomycota, and Basidiomycota. Despite similar α-diversity levels, significant differences in fungal community structure were observed between the lakes, correlated with salinity, total organic carbon, total nitrogen, and ammonium. Taxonomic profiling revealed depth-specific variations, with Saccharomycetes prevalent in Ursu Lake's deeper layers and Lecanoromycetes prevalent in the Fără Fund Lake. The functional annotation using FungalTraits revealed diverse ecological roles within the fungal communities. Lichenized fungi were dominant in Fără Fund Lake, while saprotrophs were abundant in Ursu Lake. Additionally, wood and soil saprotrophs, along with plant pathogens, were more prevalent in the surrounding soils, rivulet, and surface water layers. A global overview of the trophic relations in each studied niche was impossible to establish due to the unconnected graphs corresponding to the trophic interactions of the analyzed fungi. Plotting the unweighted connected subgraphs at the genus level suggests that salinity made the studied niches similar for the identified taxa. 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引用次数: 0
摘要
地球表面四分之三以上的区域都是极端环境,在这些环境中,生命在严酷的物理化学条件下茁壮成长。虽然原核生物经常在这些环境中被研究,但只有最近的研究才揭示了真核生物,特别是真菌的非凡适应能力。本研究探索了特兰西瓦尼亚(罗马尼亚)乌苏湖和法尔基金湖这两个兼性高盐湖泊的真菌生物群。通过对来自沉积物、水柱、周围土壤和相关河流的环境 DNA 样品进行扩增子测序,对真菌的内在和外在多样性进行了评估。通过 18S rRNA 基因和 ITS2 区域显示的真菌群落在湖泊之间呈现出截然不同的模式。ITS2 区域比 18S rRNA 基因更能评估真菌的多样性。ITS2 数据显示,Ascomycota 是两个湖泊中发现的最丰富的真菌群,其次是 Aphelidiomycota、Chytridiomycota 和 Basidiomycota。尽管α多样性水平相似,但两个湖泊之间的真菌群落结构存在显著差异,这与盐度、总有机碳、总氮和氨有关。分类剖析显示了特定深度的差异,乌苏湖的深层主要是酵母菌,而法尔基金湖则主要是乐果酵母菌。利用 FungalTraits 进行的功能注释揭示了真菌群落的不同生态作用。地衣化真菌在 Fără Fund 湖中占主导地位,而嗜渍真菌在 Ursu 湖中大量存在。此外,木材和土壤嗜凋落物以及植物病原体在周围土壤、河流和地表水层中更为普遍。由于所分析真菌的营养互作图没有连接,因此无法全面了解每个研究生态位中的营养关系。绘制属一级的非加权连接子图表明,盐度使已确定类群的研究壁龛相似。这项研究揭示了低盐环境中未被充分研究的真菌多样性、分布和生态功能。
The Fungal Side of the Story: Saprotrophic- vs. Symbiotrophic-Predicted Ecological Roles of Fungal Communities in Two Meromictic Hypersaline Lakes from Romania.
Over three-quarters of Earth's surface exhibits extreme environments where life thrives under harsh physicochemical conditions. While prokaryotes have often been investigated in these environments, only recent studies have revealed the remarkable adaptability of eukaryotes, in particular fungi. This study explored the mycobiota of two meromictic hypersaline lakes, Ursu and Fără Fund, in Transylvania (Romania). The intrinsic and extrinsic fungal diversity was assessed using amplicon sequencing of environmental DNA samples from sediments, water columns, surrounding soils, and an associated rivulet. The fungal communities, illustrated by the 18S rRNA gene and ITS2 region, exhibited contrasting patterns between the lakes. The ITS2 region assessed better than the 18S rRNA gene the fungal diversity. The ITS2 data showed that Ascomycota was the most abundant fungal group identified in both lakes, followed by Aphelidiomycota, Chytridiomycota, and Basidiomycota. Despite similar α-diversity levels, significant differences in fungal community structure were observed between the lakes, correlated with salinity, total organic carbon, total nitrogen, and ammonium. Taxonomic profiling revealed depth-specific variations, with Saccharomycetes prevalent in Ursu Lake's deeper layers and Lecanoromycetes prevalent in the Fără Fund Lake. The functional annotation using FungalTraits revealed diverse ecological roles within the fungal communities. Lichenized fungi were dominant in Fără Fund Lake, while saprotrophs were abundant in Ursu Lake. Additionally, wood and soil saprotrophs, along with plant pathogens, were more prevalent in the surrounding soils, rivulet, and surface water layers. A global overview of the trophic relations in each studied niche was impossible to establish due to the unconnected graphs corresponding to the trophic interactions of the analyzed fungi. Plotting the unweighted connected subgraphs at the genus level suggests that salinity made the studied niches similar for the identified taxa. This study shed light on the understudied fungal diversity, distribution, and ecological functions in hypersaline environments.
期刊介绍:
The journal Microbial Ecology was founded more than 50 years ago by Dr. Ralph Mitchell, Gordon McKay Professor of Applied Biology at Harvard University in Cambridge, MA. The journal has evolved to become a premier location for the presentation of manuscripts that represent advances in the field of microbial ecology. The journal has become a dedicated international forum for the presentation of high-quality scientific investigations of how microorganisms interact with their environment, with each other and with their hosts. Microbial Ecology offers articles of original research in full paper and note formats, as well as brief reviews and topical position papers.