Previous research on the relationship between edaphic factors and species diversity patterns has mostly focused on topsoil between 0 and 30 cm, with less attention paid to deeper layers where many plant root systems are concentrated. Since considering deeper edaphic layers might help to unravel the maintenance mechanisms of plant diversity, in the present study we explored the relationship between vegetation β-diversity and a comprehensive set of soil chemical attributes at different depths. Based on vegetation and soil data from subtropical broad-leaved forest plots in the Nanling Mountains, China, we analyzed the driving factors of β-diversity patterns of trees, shrubs, and herbs using multi-site generalized dissimilarity modeling (MS-GDM...
This study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korea...
Aim Our aim was to address the potential effect of the geographical range size of species on the rel...
1. Plant elemental properties are fundamentally important for physiology and biogeochemical cycling ...
Topography and soil factors are known to play crucial roles in the species composition of plant comm...
Varying patterns of plant community diversity along geographical gradients are a significant topic i...
An in-depth exploration of plant–soil interactions can improve our knowledge of the succession and e...
<div><p>Varying patterns of plant community diversity along geographical gradients are a significant...
We studied the influence of altitude on the spatial heterogeneity of tree diversity and forest struc...
The evergreen and deciduous broadleaved mixed forests (EDBMFs) belong to one of the ecosystems most ...
Subtropical forest is recognized as an important global vegetation type with high levels of plant sp...
Despite the numerous studies on the large-scale patterns of species richness, the spatial variation ...
The lower reaches of the Heihe River, in northwestern China, is characterised by unique local edaphi...
Climate, topography, and human activities are known to influence plant diversity. In the present stu...
Root chemical traits play a critical role in plant resource use strategies and ecosystem nutrient cy...
International audienceThe plant-soil interactions may drive the diversity and functioning of forests...
This study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korea...
Aim Our aim was to address the potential effect of the geographical range size of species on the rel...
1. Plant elemental properties are fundamentally important for physiology and biogeochemical cycling ...
Topography and soil factors are known to play crucial roles in the species composition of plant comm...
Varying patterns of plant community diversity along geographical gradients are a significant topic i...
An in-depth exploration of plant–soil interactions can improve our knowledge of the succession and e...
<div><p>Varying patterns of plant community diversity along geographical gradients are a significant...
We studied the influence of altitude on the spatial heterogeneity of tree diversity and forest struc...
The evergreen and deciduous broadleaved mixed forests (EDBMFs) belong to one of the ecosystems most ...
Subtropical forest is recognized as an important global vegetation type with high levels of plant sp...
Despite the numerous studies on the large-scale patterns of species richness, the spatial variation ...
The lower reaches of the Heihe River, in northwestern China, is characterised by unique local edaphi...
Climate, topography, and human activities are known to influence plant diversity. In the present stu...
Root chemical traits play a critical role in plant resource use strategies and ecosystem nutrient cy...
International audienceThe plant-soil interactions may drive the diversity and functioning of forests...
This study uses detailed soil and vegetation data collected in a 30-ha old-growth broad-leaved Korea...
Aim Our aim was to address the potential effect of the geographical range size of species on the rel...
1. Plant elemental properties are fundamentally important for physiology and biogeochemical cycling ...