Climatic niche shift of an invasive shrub, a combined modeling and common garden approach from individuals to population levels
Christina M., Atlan A., Bakker M., Udo N., Cardinal G., Champagne M., Gire C., Niollet S., Leckie A., Xue J., Gonzalez M.. 2017. La Grande Motte : INRA, 1 p.. JEF : Functional Ecology Conference / Journées d'Ecologie Fonctionnelle AnaEE France, 2017-03-28/2017-03-31, La Grande Motte (France).
Biological invasion is a major component of global change, as invading species can alter the biodiversity and functioning of ecosystems. The assumption that climatic requirements of invasive species are conserved between their native and invaded environment is a key issue to assess the risk of invasion. In this study we assess the climatic niche shift of an invasive shrub (common gorse) comparing native and invasive populations using a combined species distribution modeling (SDM) approach at the world scale, growth chamber and common garden experiments along altitudinal gradient in both invaded and native environments. Climatic shifts of already established populations were assessed using a combination of 8 SDM in native area (Wester Europe) and invasive area (North America, South Africa, Oceania) based on 2381 known populations. Additionally, seed of gorse populations were sampled in native (France, Spain) and invasive populations (Canary, Reunion islands and New Zealand). These seeds were used in two common gardens of seedlings transplant experiments along an altitudinal gradient (sea level, 400, 800 and >1000m) over one year in both native (Spain) and invasive area (New Zealand). Lastly, resistance to high temperature (30°C) and drought of gorse seedlings were assessed over a one-month experiment in growth chamber. The aim of the common garden and growth chamber experiment was to assess the climatic niche of gorse seedlings during the early invasion phases. The world scale approach revealed a climatic niche shift between native European populations and invasive ones. Invasive populations of Australia and South America could invade drier and warmer areas than native populations. Similarly, invasive populations from North Europe and North America, could invade drier and colder areas than native ones. The climatic limit in the establishment phase due to drought and high temperature was confirmed by the growth chamber experiment. Nevertheless, invasive populations sh
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Agents Cirad, auteurs de cette publication :
- Christina Mathias — Persyst / UPR AIDA