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Reduced evolutionary potential under heat and drought stress at the southern range edge of North American Arabidopsis lyrata.

Jessica HeblackJudith R SchepersYvonne Willi
Published in: Journal of evolutionary biology (2024)
The warm edges of species' distributions are vulnerable under global warming. Evidence is the recent range retraction from there found in many species. It is unclear why populations cannot easily adapt to warmer, drier, or combined hot and dry conditions and locally persist. Here, we assessed the ability to adapt to these stressors in the temperate species Arabidopsis lyrata. We grew plants from replicate seed families of a central population with high genetic diversity under a temperature and precipitation regime typical of the low-latitude margin or under hotter and/or drier conditions within naturally occurring amplitudes. We then calculated genetic variance-covariance (G-) matrices of traits depicting growth and allocation as well as selection vectors to compare the predicted adaptation potential under the different climate-stress regimes. We found that the sum of genetic variances and genetic correlations were not significantly different under stress as compared to benign conditions. But under drought and heat-drought, the predicted ability to adapt was severely constrained due to strong selection and selection pointing in a direction with less multivariate genetic variation. The much-reduced ability to adapt to dry and hot-dry conditions is likely to reduce the persistence of populations at the low-latitude margin of the species' distribution and contributes to the local extinction of the species under further warming.
Keyphrases
  • genetic diversity
  • genome wide
  • heat stress
  • transcription factor
  • copy number
  • plant growth
  • gene expression
  • stress induced