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Science
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Mutation Accumulation in Space and the Maintenance
of Sexual Reproduction
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Marcel Salathé, Rahel Salathé, Paul Schmid-Hempel and Sebastian Bonhoeffer
Ecology Letters,
9 (8), 941-946 ( 2006)
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Abstract
The maintenance of sexual reproduction remains one of the major puzzles of
evolutionary biology, since, all else being equal, an asexual mutant should have a twofold
fitness advantage over the sexual wildtype. Most theories suggest that sex helps either to
purge deleterious mutations, or to adapt to changing environments. Both mechanisms
have their limitations if they act in isolation because they require either high genomic
mutation rates or very virulent pathogens, and it is therefore often thought that they
must act together to maintain sex. Typically, however, these theories have in common
that they are not based on spatial processes. Here, we show that local dispersal and local
competition can explain the maintenance of sexual reproduction as a means of purging
deleterious mutations. Using a spatially explicit individual-based model, we find that even
with reasonably low genomic mutation rates and large total population sizes, asexual
clones cannot invade a sexual population. Our results demonstrate how spatial processes
affect mutation accumulation such that it can fully erode the twofold benefit of
asexuality faster than an asexual clone can take over a sexual population. Thus, the cost
of sex is generally overestimated in models that ignore the effects of space on mutation
accumulation.
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