Summary
Understanding the tempo and mode of species diversification and concomitant ecological divergence has been a long-sought goal in evolutionary biology. As clades diversify, disparity in niches typically increases when new lineages colonize previously unfilled zones of niche space. Despite its critical importance in understanding life’s evolution, the universality of an interdependence between species diversification and niche evolution, as well as the directionality and drivers of this association, are still poorly understood. This is presumably attributable to the inherent computational and mathematical challenges to develop process-generating models that would couple diversification and niche evolutionary dynamics and the limited availability of extensive and comparable datasets to characterize niches over large radiations integrating neontological and paleontological data. In this project, I will first develop much-needed novel flexible models that allow joint inference on coupled diversification and trait evolution dynamics by allowing joint rate-heterogeneity for radiations of considerable size. Subsequently, I will enhance biological realism by expanding to multivariate evolution of traits, better characterizing the niche concept, and by integrating paleontological data. Finally, I will allow inference on biotic and abiotic drivers of the interrelationship of species and niche diversification. These models will enable examining hitherto untestable classic evolutionary hypotheses in a formal framework on the feedback between diversification and niche evolution, at the intersection of ecology and evolutionary biology. By applying these models to big scale curated datasets of species-level niches and recently available phylogenetic trees for thousands of species and the ability to integrate fossil information, I will substantially increase our understanding on how biodiversity, both in terms of richness and niches, is generated.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/897225 |
| Start date: | 01-06-2020 |
| End date: | 31-05-2022 |
| Total budget - Public funding: | 184 707,84 Euro - 184 707,00 Euro |
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Original description
Understanding the tempo and mode of species diversification and concomitant ecological divergence has been a long-sought goal in evolutionary biology. As clades diversify, disparity in niches typically increases when new lineages colonize previously unfilled zones of niche space. Despite its critical importance in understanding life’s evolution, the universality of an interdependence between species diversification and niche evolution, as well as the directionality and drivers of this association, are still poorly understood. This is presumably attributable to the inherent computational and mathematical challenges to develop process-generating models that would couple diversification and niche evolutionary dynamics and the limited availability of extensive and comparable datasets to characterize niches over large radiations integrating neontological and paleontological data. In this project, I will first develop much-needed novel flexible models that allow joint inference on coupled diversification and trait evolution dynamics by allowing joint rate-heterogeneity for radiations of considerable size. Subsequently, I will enhance biological realism by expanding to multivariate evolution of traits, better characterizing the niche concept, and by integrating paleontological data. Finally, I will allow inference on biotic and abiotic drivers of the interrelationship of species and niche diversification. These models will enable examining hitherto untestable classic evolutionary hypotheses in a formal framework on the feedback between diversification and niche evolution, at the intersection of ecology and evolutionary biology. By applying these models to big scale curated datasets of species-level niches and recently available phylogenetic trees for thousands of species and the ability to integrate fossil information, I will substantially increase our understanding on how biodiversity, both in terms of richness and niches, is generated.Status
CLOSEDCall topic
MSCA-IF-2019Update Date
28-04-2024
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