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Sensitivity of UK butterflies to local climatic extremes: Which life stages are most at risk?

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Abstract

1. There is growing recognition as to the importance of extreme climatic events (ECEs) in determining changes in species populations. In fact it’s often the extent of climate variability that determines a population’s ability to persist at a given site.
2. This study examined the impact of ECEs on the resident UK butterfly species (n=41) over a 37 year period. The study investigated the sensitivity of butterflies to four extremes (Drought, Extreme Precipitation, Extreme Heat, Extreme Cold), identified at the site level, across each species’ life stages. Variations in the vulnerability of butterflies at the site level were also compared based on 3 life history traits (voltinism, habitat requirement, and range).

3. This is the first study to examine the effects of ECEs at the site level across all life stages of a butterfly, identifying sensitive life stages and unravelling the role life history traits play in species sensitivity to ECEs.
4. Butterfly population changes were found to be primarily driven by temperature extremes. Extreme heat was detrimental during overwintering periods and beneficial during adult periods and extreme cold had opposite impacts on both of these life stages. Previously undocumented detrimental effects were identified for extreme precipitation during the pupal life stage for univoltine species. Generalists were found to have significantly more negative associations with ECEs than specialists.
5. With future projections of warmer, wetter winters and more severe weather events, UK butterflies could come under severe pressure given the findings of this study.

Details

Original languageEnglish
Pages (from-to)108–116
Number of pages9
JournalJournal of Animal Ecology
Volume86
Issue number1
Early online date31 Oct 2016
DOIs
Publication statusPublished - Jan 2017
Peer-reviewedYes

Keywords

    Research areas

  • Butterfly population changes, climate change, life-history traits, linear mixed-effects model, sensitivity

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