FRONT PROPAGATION OF A SEXUAL POPULATION WITH EVOLUTION OF DISPERSION: A FORMAL ANALYSIS.

The adaptation of biological species to their environment depends on their traits. When various biological processes occur (survival, reproduction, migration, etc.), the trait distribution may change with respect to time and space. In the context of invasions, when considering the evolution of a heritable trait that encodes the dispersive ability of individuals, the trait distribution develops a particular spatial structure that leads to the acceleration of the front propagation. That phenomenon is known as spatial sorting. Many biological examples can be cited like the bush cricket in Britain, the cane toad invasion in Australia, or the common myna one in South Africa. Adopting this framework, recent mathematical studies have led to highlighting the influence of the reproductive mode on the front propagation. Asexual populations have been shown to spread with an asymptotic rate of t3/2 in a minimal reaction-diffusion model, whereas the analogous rate for sexual populations is of t5/4 (where t denotes the time). However, the precise description of the behavior of the front propagation in the sexual case is still an open question. The aim of this paper is to give precise approximations for large times of its position, as well as some features of the local trait distribution at the front. To do so, we solve explicitly the asymptotic problem derived formally. Numerical simulations are shown to confirm these calculations. [ABSTRACT FROM AUTHOR]