Epixylic diversity in an old-growth boreal forest is influenced by dynamic substrate attributes

Q3 Agricultural and Biological Sciences
Helena Kushnevskaya, E. Borovichev, E. Shorohova
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引用次数: 0

Abstract

Quantifying the factors influencing wood-inhabiting species in boreal forests is crucial for better understanding of their ecology and conservation needs. We estimated the influence of substrate attributes on epixylic diversity on logs of Picea abies, Betula pubescens, B. pendula, Populus tremula and Pinus sylvestris in a mixed European old-growth boreal forest with high substrate availability and continuity. The number of species of different taxonomic and substrate groups in respect of log attributes was estimated with generalized linear models. The composition of epixylic communities was analysed using non-metric multidimensional scaling with subsequent environmental fitting. Additionally, we calculated species interaction networks of log (tree) species and epixylic plants and lichens. Species richness per log decreased with the increasing height above the ground and increased with the increasing amount of accumulated litter. True epixylics were the most sensitive to a log position above the ground. Aspen and conifer logs harbored the highest richness of rare species of lichens and liverworts. Birch logs hosted mainly species with wide substrate amplitude. The whole epixylic community specialization index decreased in the order lichens, liverworts, mosses, vascular plants. Tree species identity and associated attributes (bark cover, pH etc.) as well as ‘dynamic’ attributes (accumulation of litter, wood decomposition and time since tree death) influenced the total species number, their taxonomic diversity, and the composition of epixylic communities. Our results indicate the importance of wood of various age and tree species for the conservation of epixylic diversity in boreal forests.
北方古老森林中的木糖学多样性受动态基质属性的影响
量化影响北方森林中木材栖息物种的因素对于更好地了解其生态和保护需求至关重要。在具有高基质可利用性和连续性的欧洲老林中,我们估计了基质属性对云杉、毛桦树、垂枝杨、曲柳和樟子松原木表层多样性的影响。用广义线性模型估计了不同分类和基质组的物种数量与对数属性的关系。使用非度量多维标度和随后的环境拟合来分析表层群落的组成。此外,我们还计算了原木(树木)物种、表层植物和地衣的物种相互作用网络。每根原木的物种丰富度随离地高度的增加而降低,随枯枝落叶总量的增加而增加。真正的表面活性物质对地面上的原木位置最敏感。阿斯彭和针叶树原木中蕴藏着最丰富的地衣和苔类稀有物种。桦树原木主要为基质振幅较宽的物种。地衣、苔类、苔藓、维管植物的整个表观群落特化指数均呈下降趋势。树种身份和相关属性(树皮覆盖、pH等)以及“动态”属性(枯枝落叶的积累、木材分解和树木死亡后的时间)影响了物种总数、分类多样性和表层群落的组成。我们的研究结果表明,不同年龄和树种的木材对保护北方森林表层多样性的重要性。
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来源期刊
Biological Communications
Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.70
自引率
0.00%
发文量
21
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