Global climate change and human-induced land use are changing ecological systems worldwide, with strong consequences for biodiversity and ecosystem. It is therefore a key challenge for science to provide a better predictive understanding of the dynamics involved. Climate warming is expected to move the ranges of terrestrial plants and, in particular, to shift the habitats suitable for them towards higher altitudes and latitudes. The ability to keep pace with these shifting habitat patterns is likely to be the key to the survival of many species and thus the provisioning and maintaining of ecosystem services. However, our understanding of the mechanisms involved and, therefore, our ability to predict future dynamics is very limited.
Marie-Curie project 'KeyDynamics' aimed at addressing three key limits in our understanding of the reaction of species and associated ecosystem services to climate dynamics. There is limited knowledge i) to which extend current species' distributions are in equilibrium with their climatic niches, ii) how necessary range shifts are modulated by complex biotic interactions, which may depend on arrival order in a community i.e. "priority effects", and iii) if 'species' is the adequate unit for impact assessments and predictive modelling given large within-species variability in adaptive capacity. Addressing these objectives has the potential to greatly enhance our understanding of climate-biosphere interactions, with immediate practical applicability as well as contributions to fundamental ecological theory. The project further aimed in capacity building for the Postdoc by developing various skills beneficial for a successful scientist.