1 / 22

* safaawasof@hotmail . com

Ecological niche shifts of understory plants along a latitudinal gradient of temperate deciduous forests. Safaa WASOF*, Jonathan LENOIR, and Guillaume DECOCQ . * safaawasof@hotmail . com. Research question :. climate change and biological diversity. species responses to climate change.

wardah
Télécharger la présentation

* safaawasof@hotmail . com

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Ecological niche shifts of understory plants along a latitudinal gradient of temperate deciduous forests Safaa WASOF*, Jonathan LENOIR, and Guillaume DECOCQ *safaawasof@hotmail.com

  2. Research question : • climate change and biological diversity • species responses to climate change Bellardet al, 2012, Ecology lettre

  3. Research question : • Ecological niche: • role it plays in ecosystem • n-dimensional hyper-volume (Hutchinson 1957) • Fundamentalniche: full potential range of conditions and resources it could theoretically use if there were no direst competition from other species • Realizedniche: when a species usually occupies only part of its fundamental niche in a particular ecosystem Fundamental niche Realized niche

  4. Research question : • climate change affects distributional range of plant species (Lenoir et al, 2008) • modifications within the ecological niche species are unlikely to happen   amplitude  optimum IS IT TRUE??   Latitudinal gradient • amplitude =  (latitude) ? • optimum =  (latitude) ?

  5. Materiels • study area • Common species pool across the 14 studied windows • Richness gradient • Climatic gradient • Environmental gradients

  6. Location of windowsstudy

  7. Common species pool 48 common species across the windows 26 species present in at least 10 windows

  8. Richness gradient p-value = 0.0002 45 40 35 -diversity (N = 48) 30 25 20 50 52 54 56 58 Latitude

  9. Climatic gradients: NewLocClim 1.10 (FAO 2005) MAT (°C) TAP (mm) Latitude Latitude

  10. Environmental gradients: EIVs from 48 species ns pb ns ns Latitude Latitude Latitude

  11. R_median N_median 8 8 6 6 4 4 2 2 50 50 52 52 54 54 56 56 58 58 Latitude Latitude • Environmental gradients: EIVs from 48 species p-value = 4.646e-06 p-value = 0.0002

  12. methods • Amplitude:  Fridley + target species • Generalist : many co-occurring species  occur in many different • Specialist: few co-occurring species  occur the same habitat Amplitude conserve but optimum shift • Optimum  target species + Ellenberg

  13. Results and discussion • 4 major groups of response: • Species whose  increase along the gradient • Species whose  follow a concave relationship along the gradient • Species whose  follow a convex relationship along the gradient • Species whose  is invariant along the gradient

  14. Niche expansion

  15. Local adaptation

  16. Niche modification

  17. No local adaptation

  18. Conservedniche width

  19. Local adaptation

  20. Niche modification

  21. conclusion • Species would be able to modify their ecological niche to cope with environmental changes?? • Adaptation potential of many forest understory species to climate change will likely be a key feature for their short- and long-term persistence • Difference in species responses to environmental changes could alter future understory community dynamics by changing relative abundance of species and their inter-specific relationships

  22. Thanks for your attention

More Related