Can deleterious mutations surf deterministic population waves?
Abstract
In spatially structured populations, rare neutral mutations can spread through large regions during a range expansion, a phenomenon known as gene surfing.
Whether deleterious mutations can also surf remains poorly understood.
To address this question, we study a deterministic version of the spatial Muller's ratchet, given by an infinite system of reaction-diffusion equations describing an asexual population subject to mutation, migration, and density-dependent reproduction and death.
After establishing that the system of PDEs is well-posed, we analyse the distribution of deleterious mutations within the population.
In the monostable regime, we derive quantitative bounds on the ratio between the density of individuals carrying a given number of mutations and the density of mutation-free individuals.
Under a Fisher-KPP condition, we further determine the spreading speed of the population into an empty habitat, confirming non-rigorous computations of Foutel-Rodier and Etheridge.
Finally, using a tracer dynamics approach, we show that deleterious mutations cannot surf deterministic waves: although they are present at the expansion front, they only arise as recent descendants of the wild type.
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