微生境多样性--形成枯木中大型真菌群落和形态特征表达的关键因素

IF 1.9 3区 环境科学与生态学 Q3 ECOLOGY
Monika Kolényová , Jan Běťák , Lucie Zíbarová , Daniel Dvořák , Miroslav Beran , Jacob Heilmann-Clausen
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引用次数: 0

摘要

大多数研究都将单个原木作为同质取样单位,忽视了微生境的存在和内部的复杂性。根据 134 根腐烂榉树原木上 450 多个真菌分类群的近 7000 份孢子囊记录,我们研究了大型真菌的微生境偏好,并将这些偏好与孢子囊特征联系起来。各个微生境是根据当地木材的腐朽阶段、倒伏原木的垂直位置和特殊生境特征(凹陷、断裂面、从原木上掉落的木质材料)来定义的。我们发现,与真菌群落组成和孢子囊形态有关的微生境关联是非随机的,这表明枯木生态位和孢子囊形态之间存在进化联系。虽然对数水平的真菌物种丰富度在中间腐朽阶段达到峰值,但在微生境腐朽水平定义时,具有显著指标值的类群偏向于早期和晚期腐朽阶段。这表明,在中期腐朽阶段,枯木上真菌物种丰富度的峰值通常是生态位多样性的峰值,而不是分类群腐朽阶段偏好的峰值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microhabitat diversity – A crucial factor shaping macrofungal communities and morphological trait expression in dead wood

The majority of studies exploring the ecology of saprotrophic fungi have worked with individual logs as homogenous sampling units, neglecting the presence of microhabitats and inner complexity. Based on close to 7000 sporocarp records of more than 450 fungal taxa from 134 decaying beech logs we investigated microhabitat preferences in macrofungi and linked these to sporocarp traits. The respective microhabitats were defined by the local wood decay stage, vertical position on the fallen log and special habitat features (hollows, fracture surfaces, woody material fallen from the log). We found microhabitat associations to be non-random in relation to fungal community composition and sporocarp morphology, indicating an evolutionary link between dead wood niche and sporocarp morphology. While log-level fungal species richness peaked at intermediate decay stages, taxa with significant indicator values were skewed towards early and late decay stages, when defined at microhabitat decay level. This suggests that the commonly found peak in fungal species richness on dead logs in intermediate decay stages expresses a peak in niche diversity rather than a peak in taxa decay stage preferences.

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来源期刊
Fungal Ecology
Fungal Ecology 环境科学-生态学
CiteScore
5.80
自引率
3.40%
发文量
51
审稿时长
3 months
期刊介绍: Fungal Ecology publishes investigations into all aspects of fungal ecology, including the following (not exclusive): population dynamics; adaptation; evolution; role in ecosystem functioning, nutrient cycling, decomposition, carbon allocation; ecophysiology; intra- and inter-specific mycelial interactions, fungus-plant (pathogens, mycorrhizas, lichens, endophytes), fungus-invertebrate and fungus-microbe interaction; genomics and (evolutionary) genetics; conservation and biodiversity; remote sensing; bioremediation and biodegradation; quantitative and computational aspects - modelling, indicators, complexity, informatics. The usual prerequisites for publication will be originality, clarity, and significance as relevant to a better understanding of the ecology of fungi.
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