Robin Aguilée
Paul Sabatier University
21 Papers
5 Citations
Robin Aguilée is an academic researcher from Paul Sabatier University. The author has contributed to research in topics: Biology & Population. The author has an hindex of 11, co-authored 16 publications. Previous affiliations of Robin Aguilée include Centre national de la recherche scientifique & École Normale Supérieure.
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Papers
Islands as model systems in ecology and evolution: prospects fifty years after MacArthur‐Wilson
Ben H. Warren,Ben H. Warren,Ben H. Warren,Daniel Simberloff,Robert E. Ricklefs,Robin Aguilée,Fabien L. Condamine,Dominique Gravel,Hélène Morlon,Nicolas Mouquet,James Rosindell,Juliane Casquet,Elena Conti,Josselin Cornuault,José María Fernández-Palacios,Tomislav Hengl,Sietze J. Norder,Kenneth F. Rijsdijk,Isabel Sanmartín,Dominique Strasberg,Kostas A. Triantis,Luis M. Valente,Robert J. Whittaker,Rosemary G. Gillespie,Brent C. Emerson,Christophe Thébaud +25 more
TL;DR: P prospects for research on islands are highlighted to improve understanding of the ecology and evolution of communities in general and how attributes of islands combine to provide unusual research opportunities, the implications of which stretch far beyond islands.
The probability of evolutionary rescue: towards a quantitative comparison between theory and evolution experiments
Guillaume Martin,Guillaume Martin,Robin Aguilée,Robin Aguilée,Johan Ramsayer,Johan Ramsayer,Oliver Kaltz,Oliver Kaltz,Ophélie Ronce,Ophélie Ronce +9 more
TL;DR: This work extends the rescue model of Orr & Unckless to a broader demographic and genetic context, allowing the model to apply to empirical systems with variation among mutation effects on demography, overlapping generations and bottlenecks, all common features of microbial populations.
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Clade diversification dynamics and the biotic and abiotic controls of speciation and extinction rates.
TL;DR: A computational model is developed to predict clade diversification dynamics and rates of speciation and extinction under the influences of resource competition, genetic differentiation, and random landscape fluctuation.
Adaptive radiation driven by the interplay of eco‐evolutionary and landscape dynamics
TL;DR: It is shown that landscape dynamics can generate a significantly higher diversity than allopatric or sympatric speciation alone, possibly subject to the temporary collapse of all species into a hybrid swarm.
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Pollen dispersal slows geographical range shift and accelerates ecological niche shift under climate change.
TL;DR: It is demonstrated that plants dispersing their pollen could survive under a faster climate change than expected: pollen dispersal slows the range shift in space but facilitates the evolution of new climatic niche limits, such that the species becomes adapted to warmer conditions.
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