Add to ORKGAbstract During the last century, the human footprint on natural ecosystems has increased strongly and human-altered habitats such as urban and agricultural areas have extended globally. Despite their negative impacts on biodiversity, these habitats offer unique opportunities to study how native species respond to novel environmental conditions. Here, we studied phenotypic divergence associated with colonization of human-altered habitats in the Speckled wood (Pararge aegeria). We reared butterflies of woodland, urban and agricultural origins under common garden conditions and we measured boldness and activity at the adult stage. Both behavioural traits were repeatable at the individual level (i.e. personality traits), but we found weak evi...
Bergman and converse Bergman rules, amongst others, describe latitudinal variation in size of organi...
(Nymphalidae) which has recently colonized agricultural landscapes in NW-Europe. Butterflies from w...
The ability of an organism to find new habitat is likely to contribute to dispersal success in diffe...
During the last century, the human footprint on natural ecosystems has increased strongly and human-...
Urbanization and agriculture are strongly modifying natural ecosystems and these land use changes ar...
For developing organisms, early environmental conditions are critical as they provide cues about the...
Animal behaviour may change with age, when young individuals experience different environments from ...
Behavioural plasticity in biological traits is assumed crucial for allowing organisms to cope with a...
Abstract Most behavioural traits show plastic responses to changes in internal or external conditio...
In evolutionary time, varying environments may lead to different morphs as a result of genetic adapt...
© 2017 The Association for the Study of Animal Behaviour Globally increasing urbanization causes maj...
As landscapes change, mobility patterns of species may alter. Different mechanistic scenarios may, h...
Organisms that colonize new habitats may gain fitness advantages from changes in habitat selection i...
The world-wide, rapid urbanization is leading to substantial changes in environmental and habitat co...
Habitat changes (e.g. deforestation, urbanization, etc.), the introduction of exotic species, human ...
Bergman and converse Bergman rules, amongst others, describe latitudinal variation in size of organi...
(Nymphalidae) which has recently colonized agricultural landscapes in NW-Europe. Butterflies from w...
The ability of an organism to find new habitat is likely to contribute to dispersal success in diffe...
During the last century, the human footprint on natural ecosystems has increased strongly and human-...
Urbanization and agriculture are strongly modifying natural ecosystems and these land use changes ar...
For developing organisms, early environmental conditions are critical as they provide cues about the...
Animal behaviour may change with age, when young individuals experience different environments from ...
Behavioural plasticity in biological traits is assumed crucial for allowing organisms to cope with a...
Abstract Most behavioural traits show plastic responses to changes in internal or external conditio...
In evolutionary time, varying environments may lead to different morphs as a result of genetic adapt...
© 2017 The Association for the Study of Animal Behaviour Globally increasing urbanization causes maj...
As landscapes change, mobility patterns of species may alter. Different mechanistic scenarios may, h...
Organisms that colonize new habitats may gain fitness advantages from changes in habitat selection i...
The world-wide, rapid urbanization is leading to substantial changes in environmental and habitat co...
Habitat changes (e.g. deforestation, urbanization, etc.), the introduction of exotic species, human ...
Bergman and converse Bergman rules, amongst others, describe latitudinal variation in size of organi...
(Nymphalidae) which has recently colonized agricultural landscapes in NW-Europe. Butterflies from w...
The ability of an organism to find new habitat is likely to contribute to dispersal success in diffe...