Spatial variations impact the soil fungal communities of Larix gmelinii forests in Northeast China

Frontiers in Plant Science Pub Date : 2024-05-24 DOI:10.3389/fpls.2024.1408272

Wen Zhao, Kaichuan Huang, Reyila Mumin, Junning Li, Yifei Sun, Baokai Cui

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Abstract

Soil fungi play a critical role in the biogeochemical cycles of forest ecosystems. Larix gmelinii is a strong and important timber tree species, which forms close associations with a wide range of soil fungi. However, the temporal-spatial disparity effects on the assembly of soil fungal communities in L. gmelinii forests are poorly understood. To address these questions, a total of 120 samples, including 60 bulk soil and 60 root samples, were collected from Aershan and Genhe in July (summer) and October (autumn)2021. We obtained 7,788 operational taxonomic units (OTUs) after merging, filtering, and rarefying using high-throughput sequencing. The dominant phyla are Basidiomycota, Ascomycota, Mortierellomycota, and Mucoromycota. There were 13 dominant families, among which the families with average relative abundance more than 5% included Thelephoraceae, Mortierellaceae, Archaeorhizomycoaceae, and Inocybaceae. In the functional guilds, symbiotrophic fungi had a relative advantage in the identified functions, and the relative abundances of pathotrophic and saprotrophic fungi varied significantly between sites. There were 12 families differentially expressed across compartments, 10 families differentially expressed between seasons, and 69 families were differentially expressed between sites. The variation in alpha diversity in the bulk soil was greater than that in the rhizosphere soil. Among the three parts (compartment, season, and site), the site had a crucial effect on the beta diversity of the fungal community. Deterministic processes dominated fungal community assembly in Genhe, whereas stochastic processes dominated in Aershan. Soil physicochemical properties and climatic factors significantly affected fungal community structure, among which soil total nitrogen and pH had the greatest effect. This study highlights that spatial variations play a vital role in the structure and assembly of soil fungal communities in L. gmelinii forests, which is of great significance for us in maintaining the health of the forests.

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空间变化对中国东北桤木林土壤真菌群落的影响

土壤真菌在森林生态系统的生物地球化学循环中发挥着至关重要的作用。格氏落叶松（Larix gmelinii）是一种强壮而重要的用材树种，它与多种土壤真菌形成了密切的联系。然而，人们对桤木林中土壤真菌群落的时空差异效应知之甚少。为了解决这些问题，我们分别于 2021 年 7 月（夏季）和 10 月（秋季）在阿尔山和根河采集了 120 个样本，其中包括 60 个块状土壤样本和 60 个根部样本。利用高通量测序技术，经过合并、过滤和稀释，我们获得了 7788 个操作分类单元（OTU）。主要的门类为担子菌门（Basidiomycota）、子囊菌门（Ascomycota）、毛霉菌门（Mortierellomycota）和粘菌门（Mucoromycota）。有 13 个优势科，其中平均相对丰度超过 5%的科包括 Thelephoraceae、Mortierellaceae、Archaeorhizomycoaceae 和 Inocybaceae。在功能区中，共生真菌在已确定的功能中具有相对优势，而病原真菌和嗜渍真菌的相对丰度在不同地点之间存在显著差异。有 12 个菌科在不同区系之间有差异表达，10 个菌科在不同季节有差异表达，69 个菌科在不同地点有差异表达。块状土壤中α多样性的差异大于根圈土壤中α多样性的差异。在三个部分（区系、季节和地点）中，地点对真菌群落的贝塔多样性有重要影响。确定性过程在根河占主导地位，而随机过程在阿尔山占主导地位。土壤理化性质和气候因素对真菌群落结构有显著影响，其中土壤全氮和 pH 值的影响最大。这项研究表明，空间变化对格梅林森林土壤真菌群落的结构和组合起着至关重要的作用，这对我们维护森林健康具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in Plant Science

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