Ecological performance determines phenological responses of butterflies in Northern Austria

Ecological performance determines phenological responses of butterflies in Northern Austria

Climate change influences the composition of species and the phenology of insect. Species tend to appear earlier in spring and to be active later in autumn. However, species respond differently to climatic changes according to their ecological and behavioural performance. However, it has not yet bee...

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Bibliographic Details
Published in:Global ecology and conservation Vol. 54; p. e03114
Main Authors: Löckinger, Melanie, Trutschnig, Wolfgang, Ulrich, Werner, Gros, Patrick, Schmitt, Thomas, Habel, Jan Christian
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2024
Elsevier
Subjects:
Alps
Behaviour
Burnet moths
Butterflies
Climate change
Larval ecology
Life cycle
Phenology
Seasons
Times series
Traits
Vegetation period
Climate change
Alps
Life cycle
Behaviour
Larval ecology
Phenology
Seasons
Burnet moths
Times series
Butterflies
Traits
Vegetation period
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Summary:Climate change influences the composition of species and the phenology of insect. Species tend to appear earlier in spring and to be active later in autumn. However, species respond differently to climatic changes according to their ecological and behavioural performance. However, it has not yet been clarified which ecological characteristics determine which responses. In this study, we analysed potential phenological shifts of butterflies and burnet moths across Northern Austria over a period of four decades. To investigate this, we used extensive museum data and compared the time windows 1980 to 2000 and 2001 to 2022. We found species´ specific responses to climate change differing for spring and autumn. Species hibernating as imago or pupa as well as migratory habitat ubiquists showed particularly strong phenological responses. These species may become active immediately when weather conditions become suitable. The later occurrence of species during autumn is largely controlled by day length. Therefore, altering temperature regimes did not detectably influence autumn activity. Our study highlights that ecological specialists suffer most from climate change as these are least able to adapt to new thermal conditions and altered seasonality. [Display omitted] •Butterflies and Zygaenid moths across Northern Austria were studied over a period of four decades using extensive museum data.•Comparing the time windows 19802000 and 20012022, we found species´ specific responses to climate change differing between spring and autumn.•Species hibernating as imago or pupae, as well as migratory habitat ubiquists showed particularly strong phenological responses.•Ecological specialists suffered most from climate change as these are least able to adapt to new thermal conditions and altered seasonality.
ISSN:2351-9894
2351-9894
DOI:10.1016/j.gecco.2024.e03114