Add to ORKGAssessing the ecological impacts of environmental change on biological communities requires knowledge of the factors driving the spatial patterns of the three diversity facets along extensive environmental gradients. We quantified the taxonomic (TD), functional (FD), and phylogenetic diversity (PD) of lichen epiphytic communities in 23 beech forests along Europe to examine their response to environmental variation (climate, habitat quality, spatial predictors) at a continental geographic scale. We selected six traits related to the climatic conditions in forest ecosystems, the water-use strategy and the nutrient uptake, and we built a phylogenetic tree based on four molecular markers. FD and climate determined TD and PD, with spatial variab...
1. Climate change is expected to cause several impacts at the global scale and drylands will be amon...
1. Climate change is expected to cause several impacts at the global scale, and drylands will be amo...
Background: Few studies analysing lichen diversity have simultaneously considered interactions among...
Assessing the ecological impacts of environmental change on biological communities requires knowledg...
Assessing the ecological impacts of environmental change on biological communities requires knowledg...
Traditional approaches in trait‐based community ecology typically expect that trait filtering across...
[Question] In order to identify the factors and assembly rules which potentially shape natural liche...
Characterizing functional trait variation and covariation, and its drivers, is critical to understan...
Several studies have evaluated lichen responses in terms of shifts in species climate suitability, s...
Lichens are composite organisms consisting of a symbiotic association of a fungus with a photosynthe...
Several experimental studies support the effectiveness of lichen diversity as an indicator of enviro...
Aim: We evaluate the scale dependence of species richness–environment relationships with a continent...
We propose that a qualitative trait approach based on more detailed nuanced traits may reveal previo...
1. Climate change is expected to cause several impacts at the global scale and drylands will be amon...
1. Climate change is expected to cause several impacts at the global scale, and drylands will be amo...
Background: Few studies analysing lichen diversity have simultaneously considered interactions among...
Assessing the ecological impacts of environmental change on biological communities requires knowledg...
Assessing the ecological impacts of environmental change on biological communities requires knowledg...
Traditional approaches in trait‐based community ecology typically expect that trait filtering across...
[Question] In order to identify the factors and assembly rules which potentially shape natural liche...
Characterizing functional trait variation and covariation, and its drivers, is critical to understan...
Several studies have evaluated lichen responses in terms of shifts in species climate suitability, s...
Lichens are composite organisms consisting of a symbiotic association of a fungus with a photosynthe...
Several experimental studies support the effectiveness of lichen diversity as an indicator of enviro...
Aim: We evaluate the scale dependence of species richness–environment relationships with a continent...
We propose that a qualitative trait approach based on more detailed nuanced traits may reveal previo...
1. Climate change is expected to cause several impacts at the global scale and drylands will be amon...
1. Climate change is expected to cause several impacts at the global scale, and drylands will be amo...
Background: Few studies analysing lichen diversity have simultaneously considered interactions among...