Among-population variation in drought responses is consistent across life stages but not between native and non-native ranges

Dávid U. Nagy, Arpad E. Thoma, Mohammad Al-Gharaibeh, Ragan M. Callaway, S. Luke Flory, Lauren J. Frazee, Matthias Hartmann, Isabell Hensen, Kateřina Jandová, Damase P. Khasa, Ylva Lekberg, Robert W. Pal, Ioulietta Samartza, Manzoor A. Shah, Min Sheng, Mandy Slate, Claudia Stein, Tomonori Tsunoda, Christoph Rosche

Research output: Contribution to journalArticlepeer-review

Abstract

Understanding how widespread species adapt to variation in abiotic conditions across their ranges is fundamental to ecology. Insight may come from studying how among-population variation (APV) in the common garden corresponds with the environmental conditions of source populations. However, there are no such studies comparing native vs non-native populations across multiple life stages. We examined APV in the performance and functional traits of 59 Conyza canadensis populations, in response to drought, across large aridity gradients in the native (North America) and non-native (Eurasia) ranges in three experiments. Our treatment (dry vs wet) was applied at the recruitment, juvenile, and adult life stages. We found contrasting patterns of APV in drought responses between the two ranges. In the native range, plant performance was less reduced by drought in populations from xeric than mesic habitats, but such relationship was not apparent for non-native populations. These range-specific patterns were consistent across the life stages. The weak adaptive responses of non-native populations indicate that they can become highly abundant even without complete local adaptation to abiotic environments and suggest that long-established invaders may still be evolving to the abiotic environment. These findings may explain lag times in invasions and raise concern about future expansions.

Original languageEnglish
Pages (from-to)922-935
Number of pages14
JournalNew Phytologist
Volume243
Issue number3
DOIs
StatePublished - Jun 10 2024

Keywords

  • Conyza canadensis
  • climate change
  • drought responses
  • intraspecific variation
  • invasiveness
  • natural selection
  • ontogeny
  • plasticity

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