Detailed information on species’ ecological niche characteristics that can be related to declines and extinctions is indispensable for a better understanding of the relationship between the occurrence and performance of wild species and their environment and, moreover, for an improved assessment of the impacts of global change. Knowledge on species characteristics such as habitat requirements is already available in the ecological literature for butterflies, but information about their climatic requirements is still lacking. Here we present a unique dataset on the climatic niche characteristics of 397 European butterflies representing 91% of the European species (see Appendix). These characteristics were obtained by combining detailed infor...
Trait-based analyses explaining the different responses of species and communities to environmental ...
1. Animals with distinct life stages are often exposed to different temperatures during each stage. ...
Understanding the causes of temporal variation in abundance is a fundamental question within populat...
Detailed information on species’ ecological niche characteristics that can be related to decli...
af282b4ea1c5, Data Paper ID: doi: 10.3897/zookeys.367.6185 Detailed information on species ’ ecologi...
In drawing up Red Lists, the extinction risks of butterflies and other insects are currently assesse...
Among the factors that determine habitat quality for butterflies, an adequate microclimate has cruci...
Although the effects of climate change on biodiversity are increasingly evident by the shifts in spe...
Although it is well established that butterfly richness is affected by climate and human factors (e....
Species are thought to have more restricted niches towards their range boundaries, although this has...
Aim: To describe spatial patterns of Mediterranean butterfly species richness by functional groups, ...
Climate change is considered one of the greatest future threats against biodiversity. One predicted ...
1. Phenological change is the most widely documented biological impact of climate change, but shows ...
Abstract Climate change impacts biodiversity and is driving range shifts of species and populations ...
Although climate-driven phenological shifts have been documented for many taxa across the globe, we ...
Trait-based analyses explaining the different responses of species and communities to environmental ...
1. Animals with distinct life stages are often exposed to different temperatures during each stage. ...
Understanding the causes of temporal variation in abundance is a fundamental question within populat...
Detailed information on species’ ecological niche characteristics that can be related to decli...
af282b4ea1c5, Data Paper ID: doi: 10.3897/zookeys.367.6185 Detailed information on species ’ ecologi...
In drawing up Red Lists, the extinction risks of butterflies and other insects are currently assesse...
Among the factors that determine habitat quality for butterflies, an adequate microclimate has cruci...
Although the effects of climate change on biodiversity are increasingly evident by the shifts in spe...
Although it is well established that butterfly richness is affected by climate and human factors (e....
Species are thought to have more restricted niches towards their range boundaries, although this has...
Aim: To describe spatial patterns of Mediterranean butterfly species richness by functional groups, ...
Climate change is considered one of the greatest future threats against biodiversity. One predicted ...
1. Phenological change is the most widely documented biological impact of climate change, but shows ...
Abstract Climate change impacts biodiversity and is driving range shifts of species and populations ...
Although climate-driven phenological shifts have been documented for many taxa across the globe, we ...
Trait-based analyses explaining the different responses of species and communities to environmental ...
1. Animals with distinct life stages are often exposed to different temperatures during each stage. ...
Understanding the causes of temporal variation in abundance is a fundamental question within populat...