Winters restrict a climate change-driven butterfly range expansion despite rapid evolution of seasonal timing traits
成果类型:
Article
署名作者:
Ittonen, Mats; Nielsen, Matthew E.; Siemers, Isabelle; Friberg, Magne; Gotthard, Karl
署名单位:
University of Tartu; Stockholm University; Stockholm University; University of Bremen; Lund University
刊物名称:
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
ISSN/ISSBN:
0027-8459
DOI:
10.1073/pnas.2418392122
发表日期:
2025-07-01
关键词:
species range
photoperiodic response
temperature-dependence
satyrine butterflies
geographic-variation
diapause induction
shifts
adaptation
impacts
CONSEQUENCES
摘要:
Climate change pushes species toward higher latitudes and altitudes, but the proximate drivers of range expansions vary, and it is unclear whether evolution facilitates climate change-induced range changes. In a temporally replicated field experiment, we trans-located wall brown butterflies (Lasiommata megera) descending from range interior and range margin populations to sites at 1) the range interior, 2) the range margin, and 3) beyond the current northern range edge. Thereby, we tested for local adaptation in seasonal timing and winter survival and evaluated to what extent local adaptation influences the ongoing, climate-driven range expansion. Almost all individuals from all populations entered diapause at an appropriate time, despite previously identified among-population variation in diapause induction thresholds. Caterpillars of northern descent, however, grew faster than those from southern populations at all field sites. This may be a countergradient adaptation to compensate for the short, northern growing seasons, but we found no evidence for prewinter body mass affecting winter survival. In fact, winter survival was low overall-extremely so at the beyond range site-regardless of population origin, indicating that the primary constraint to range expansion is an inability to adapt to winter conditions. Hence, although range-expanding wall browns show clear local evolution of two traits related to seasonal timing, these putative local adaptations likely do not contribute to range expansion, which is instead limited by winter survival. To predict future range changes, it will be important to distinguish between the traits that evolve during range expansion and those that set the range limit.
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