| Title: | Genotype-environment interactions rule the response of a widespread butterfly to temperature variation |
|---|
| Authors: | ID Günter, Franziska (Author)
ID Beaulieu, Michaël (Author)
ID Freiberg, Kasimir F. (Author)
ID Welzel, Ines (Author)
ID Toshkova, Nia (Author)
ID Žagar, Anamarija (Author)
ID Simčič, Tatjana (Author)
ID Fischer, Klaus (Author) |
|---|
| Files: |  URL - Source URL, visit https://onlinelibrary.wiley.com/doi/abs/10.1111/jeb.13623
 PDF - Presentation file, download (859,19 KB)
MD5: 0F78C017FD479AA1DC4A994E2431FB84
|
|---|
| Language: | English |
|---|
| Typology: | 1.01 - Original Scientific Article |
|---|
| Organization: |  NIB - National Institute of Biology
|
|---|
| Abstract: | Understanding how organisms adapt to complex environments is a central goal of evolutionary biology and ecology. This issue is of special interest in the current era of rapidly changing climatic conditions. Here, we investigate clinal variation and plastic responses in life history, morphology and physiology in the butterfly Pieris napi along a pan‐European gradient by exposing butterflies raised in captivity to different temperatures. We found clinal variation in body size, growth rates and concomitant development time, wing aspect ratio, wing melanization and heat tolerance. Individuals from warmer environments were more heat‐tolerant and had less melanised wings and a shorter development, but still they were larger than individuals from cooler environments. These findings suggest selection for rapid growth in the warmth and for wing melanization in the cold, and thus fine‐tuned genetic adaptation to local climates. Irrespective of the origin of butterflies, the effects of higher developmental temperature were largely as expected, speeding up development; reducing body size, potential metabolic activity and wing melanization; while increasing heat tolerance. At least in part, these patterns likely reflect adaptive phenotypic plasticity. In summary, our study revealed pronounced plastic and genetic responses, which may indicate high adaptive capacities in our study organism. Whether this may help such species, though, to deal with current climate change needs further investigation, as clinal patterns have typically evolved over long periods. |
|---|
| Publication status: | Published |
|---|
| Publication version: | Version of Record |
|---|
| Publication date: | 01.07.2020 |
|---|
| Year of publishing: | 2020 |
|---|
| Number of pages: | str. 920-929 |
|---|
| Numbering: | Vol. 33, iss. 7 |
|---|
| PID: | 20.500.12556/DiRROS-19547  |
|---|
| UDC: | 57 |
|---|
| ISSN on article: | 1010-061X |
|---|
| DOI: | 10.1111/jeb.13623 |
|---|
| COBISS.SI-ID: | 40591109 |
|---|
| Publication date in DiRROS: | 23.07.2024 |
|---|
| Views: | 1030 |
|---|
| Downloads: | 439 |
|---|
| Metadata: |    |
|---|
|
:
|
Copy citation |
|---|
| | | | Share: |  |
|---|
Hover the mouse pointer over a document title to show the abstract or click
on the title to get all document metadata. |
