Michael • Kopp
Professeur (PR) • Affiliation : Aix-Marseille Université (AMU)
Site : Saint-Charles • Bureau : • Etage du bureau : •
ALEA-BMA-MEB (équipe BioMath Alea - Mathématiques, Évolution, Biologie)
Groupe(s) scientifiques(s) de l'utilisateur :
Rechercher mots clef :
- Sexual selection Science of science Speciation Citation network Theory Self-referent phenotype matching Imprinting
Thématiques scientifiques :
- Mathematics for Evolution and Biology
- Modelization, equations related to biology
- Probabilities
- Statistic
Publications HAL
2020/05 - Dark Matter properties through cosmic history2018/11 Journal of Mathematical Biology - Phenotypic lag and population extinction in the moving-optimum model: insights from a small-jumps limit
2018/10 Bioscience - Theory Meets Empiry: A Citation Network Analysis
2018/01 American Naturalist - Mechanisms of Assortative Mating in Speciation with Gene Flow: Connecting Theory and Empirical Research
2015/08 Scientific Reports - Density-dependent adjustment of inducible defenses
2015/06 Genetics - Catch Me if You Can: Adaptation from Standing Genetic Variation to a Moving Phenotypic Optimum
2014/09 Evolution - International Journal of Organic Evolution - Fisher'S geometric model with a moving optimum.
2014/01 Molecular Ecology - The more the better - polyandry and genetic similarity are positively linked to reproductive success in a natural population of terrestrial salamanders (Salamandra salamandra).
2014/01 Evolutionary Applications - Rapid evolution of quantitative traits: theoretical perspectives.
2013/12 American Naturalist - Three modes of adaptive speciation in spatially structured populations.
2013/10 Physical Review D - Spherical collapse and halo mass function in f ( R ) theories
2012/06 Current zoology - Sexual selection and magic traits in speciation with gene flow
2012/06 Current zoology - A robust new metric of phenotypic distance to estimate and compare multiple trait differences among populations
2012/01 Trends in Ecology and Evolution - Magic traits, pleiotropy and effect sizes: a response to Haller et al.