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高格斯台罕乌拉自然保护区不同阔叶林中大型真菌多样性
引用本文:白慧,姜海燕,丛林,史东明,林任杰,狄佳麟. 高格斯台罕乌拉自然保护区不同阔叶林中大型真菌多样性[J]. 浙江农林大学学报, 2022, 39(4): 765-774. DOI: 10.11833/j.issn.2095-0756.20210661
作者姓名:白慧  姜海燕  丛林  史东明  林任杰  狄佳麟
作者单位:1.内蒙古农业大学 林学院,内蒙古 呼和浩特 0100182.内蒙古自治区农牧业科学院 蔬菜花卉研究所,内蒙古 呼和浩特 010031
基金项目:阿鲁科尔沁旗生物多样性专项调查与保护规划服务项目(AQJYZX-2018TP047-FW);内蒙古大学生创新创业项目(201810129013);教育部高等学校科技创新工程重大项目培育资金(707014)
摘    要:【目的】以高格斯台罕乌拉自然保护区为研究区域,调查保护区白桦Betula platyphylla林(Ⅰ)、蒙古栎Quercus mongolica林(Ⅱ)、白桦-蒙椴Tilia mongolica混交林(Ⅲ)、白桦-蒙古栎-山杨Populus davidiana-黑桦B. platyphylla混交林(Ⅳ)、山杨-蒙古栎-黑桦混交林(Ⅴ)5种阔叶林中大型真菌资源分布状况及其与植被的关系,为日后保护区大型真菌保育工作提供依据。【方法】通过随机踏查和样地法采集大型真菌,结合形态学和分子学对采集标本进行鉴定,分析大型真菌种群分布、多样性、群落相似性及大型真菌与植物的关系。【结果】保护区大型真菌共有213种,隶属于2门4纲19目54科119属;优势属为红菇属Russula、蘑菇属Agaricus、香蘑属Lepista等共8属;植被类型Ⅳ的丰富度指数、多样性指数及均匀度指数在5种植被类型中为最高;乔木层、灌木层及草本层Shannon-Wiener多样性指数和乔木层、草本层Simpson多样性指数对大型真菌各项指数影响较大;植被总盖度、草本盖度、郁闭度及海拔对大型真菌优势属显著相关;类型Ⅱ与类型Ⅳ...

关 键 词:大型真菌  植被类型  物种多样性  相似性
收稿时间:2021-09-26

Diversity of macrofungi in different broad-leaved forests in Gaogestai Hanwula Nature Reserve
BAI Hui,JIANG Haiyan,CONG Lin,SHI Dongming,LIN Renjie,DI Jialin. Diversity of macrofungi in different broad-leaved forests in Gaogestai Hanwula Nature Reserve[J]. Journal of Zhejiang A&F University, 2022, 39(4): 765-774. DOI: 10.11833/j.issn.2095-0756.20210661
Authors:BAI Hui  JIANG Haiyan  CONG Lin  SHI Dongming  LIN Renjie  DI Jialin
Affiliation:1.Forestry College, Inner Mongolia Agricultural University, Hohhot 010018, Inner Mongolia, China2.Institute of Vegetables and Flowers, Inner Mongolia Academy of Agricultural and Animal Husbandry Sciences, Hohhot 010031, Inner Mongolia, China
Abstract:  Objective  This study, taking Gogestai Hanwula Nature Reserve as the research area, is aimed to investigate the distribution of macrofungi and its relationship with the local vegetation in five broad-leaved forests so as to provide plausible reference for the conservation of macrofungi in the future.   Method  First, macrofungi were collected from Betula platyphylla (Type Ⅰ), Quercus mongolica (Type Ⅱ), B. platyphylla-Tilia mongolica (Type Ⅲ), B. platyphylla-T. mongolica and B. platyphylla-Q. mongolica-Populus davidiana-B. dahurica (Type Ⅳ), and P. davidiana-Q. mongolica-B. dahurica (Type Ⅴ) in the nature reserve with the employment of random sampling and sample plot method. Then the collected specimens were identified from the perspectives of morphology and molecular chemistry before an analysis was conducted of the species distribution, diversity, community similarity and macrofungi-plant relationships.   Result  (1) There were 213 species of macrofungi in the reserve, which can be categorized into 2 phyla, 4 classes, 19 orders, 54 families, 119 genera. (2) There were a total of 8 dominant genera including Russula, Agaricus and Lepista. (3) Of the five vegetation types, Type Ⅳ wuranked the first in richness, diversity and evenness. (4) The diversity index and evenness index of tree layer, shrub layer and herb layer and the diversity index of tree layer and herb layer had significant influence on the indices of macrofungi. (5) The total vegetation coverage, herbage coverage, canopy closure and altitude were significantly correlated with the dominant genera of macrofungi. (6) The similarity between Type Ⅱ and Type Ⅳ was the highest (0.27) whereas the one between Type Ⅲ and Type Ⅳ and the one between Type Ⅰ and Type Ⅱ were the lowest (both being 0.14). (7) In terms of species clustering, with the distance coefficient being 25, they could be divided into two groups, while with the distance coefficient being 14, they could be divided into three clusters.   Conclusion  The diversity and similarity of plants affected the distribution of macrofungi to varying degrees, and the more similar the plant type was, the more similar the composition of macrofungi was. [Ch, 2 fig. 7 tab. 28 ref.]
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