瑞士内高山山谷干燥草原维管植物、苔藓植物和地衣多样性的尺度依赖模式和驱动因素

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Miro Bergauer, Iwona Dembicz, Steffen Boch, Wolfgang Willner, Manuel Babbi, Jonathan Blank-Pachlatko, Chiara Catalano, Beata Cykowska-Marzencka, Jamyra Gehler, Riccardo Guarino, Sabrina Keller, Ivan Moysiyenko, Denys Vynokurov, Stefan Widmer, Jürgen Dengler
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引用次数: 2

摘要

瑞士阿尔卑斯山脉的内高山干燥山谷具有次大陆气候的特点,导致了干燥草原物种组成的许多特点。尽管它们具有众所周知的独特性,但对这些山谷中干燥草原的生物多样性模式的全面研究仍然缺失。为了缩小这一差距,我们在罗纳、莱茵和因河谷采样了161块10平方米的植被,记录了维管植物、陆生苔藓植物和地衣物种以及环境数据。此外,我们使用34个具有7个粒度(0.0001-100 m2)的嵌套图系列测试了环境驱动因素的尺度依赖性。我们分析了与生产力/压力、干扰和小区内异质性相关的环境驱动因素对物种丰富度的影响。平均物种丰富度为0.0001平方米2.3种至100平方米58.8种。对于所有分类群的组合,在粒径为10 m2时,最相关的驱动因素是南移(负)、枯枝落叶(负),年平均降水量(单峰)、砾石覆盖(负)和倾斜度(单峰)以及年平均降水(单峰)。维管植物的模式相似,而苔藓植物和地衣的丰富度与年平均降水量以及平均草本层高度、放牧和割草的负面影响呈相反关系。多元回归模型的解释方差随着晶粒度的增加而增加,最小的两个晶粒度的值非常低。虽然南移和枯枝落叶对较大粒径的土壤具有高度重要性,但pH和砾石覆盖在中等粒径的土地上尤为重要,两个最大粒径的倾斜度和年平均降水量也尤为重要。这些发现强调了分类群和粒度对植被物种丰富度模式和驱动因素的重要性,这与生态学理论一致。三个分类群之间多样性-环境关系的差异可以部分解释为不对称竞争,这导致苔藓植物和地衣的多样性较低,而维管植物表现良好,反之亦然。与古北界其他地区的类似群落相比,瑞士内高山山谷干燥草原上维管植物的α多样性相对较低,这仍然令人困惑,尤其是因为瑞士的林分通常很大,保存完好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Scale-dependent patterns and drivers of vascular plant, bryophyte and lichen diversity in dry grasslands of the Swiss inneralpine valleys

Scale-dependent patterns and drivers of vascular plant, bryophyte and lichen diversity in dry grasslands of the Swiss inneralpine valleys

The inner-alpine dry valleys of the Swiss Alps are characterized by subcontinental climate, leading to many peculiarities in dry grassland species composition. Despite their well-known uniqueness, comprehensive studies on biodiversity patterns of the dry grasslands in these valleys were still missing. To close this gap, we sampled 161 10-m2 vegetation plots in the Rhône, Rhine and Inn valleys, recording vascular plants, terricolous bryophyte and lichen species, as well as environmental data. Additionally, we tested the scale-dependence of environmental drivers using 34 nested-plot series with seven grain sizes (0.0001–100 m2). We analysed the effects of environmental drivers related to productivity/stress, disturbance and within-plot heterogeneity on species richness. Mean species richness ranged from 2.3 species in 0.0001 m2 to 58.8 species in 100 m2. For all taxa combined, the most relevant drivers at the grain size of 10 m2 were southing (negative), litter (negative), mean annual precipitation (unimodal), gravel cover (negative), inclination (unimodal) and mean annual precipitation (unimodal). For vascular plants the pattern was similar, while bryophyte and lichen richness differed by the opposite relationship to mean annual precipitation as well as negative influences of mean herb layer height, grazing and mowing. The explained variance of the multiple regression model increased with grain size, with very low values for the smallest two grain sizes. While southing and litter had high importance for the fiver larger grain sizes, pH and gravel cover were particularly important at the intermediate grain sizes, and inclination and mean annual precipitation for the two largest grain sizes. The findings emphasize the importance of taxonomic group and grain size for patterns and drivers of species richness in vegetation, consistent with ecological theory. Differences in the diversity–environment relationships among the three taxonomic groups can partly be explained by asymmetric competition that leads to low bryophyte and lichen diversity where vascular plants do well and vice versa. The relatively low alpha diversity of vascular plants in dry grasslands in Swiss inner-alpine valleys compared to similar communities in other parts of the Palaearctic remains puzzling, especially because Swiss stands are often large and well-preserved.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
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2.10%
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464
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