Using individual-based modeling to investigate whether fluctuating resources help to explain the prevalence of sexual reproduction in animal species

The prevalence of sexual reproduction of animal species is a paradox for evolutionary theory since it remains unclear whether the evolutionary benefits of sexual reproduction outweigh the costs. One attempt at explaining the maintenance of sex is the Tangled Bank hypothesis: Sexual reproduction shuffles around alleles through crossing over and recombination, resulting in a wide range of individuals, some of whom will be able to survive in the harshest of environments with low and dwindling food resources. Whereas, with respect to clonally reproduced individuals there is arguably less genetic variation so that if food resources start to fluctuate, these individuals may not be able to survive under the new conditions. In our study, we conducted individual based modeling computer simulations using the program EcoSim to investigate two hypotheses related to fluctuating resources: First, in the context of fluctuating resources, populations of sexual species will outpace the populations of asexual species who are unable to adapt to changing conditions. The second hypothesis that we investigated is that with respect to facultative species there will be an increase in sexual reproduction and a decrease in asexual reproduction as a response to fluctuating resources. The control runs involved relatively stable food resources for obligate sexual, obligate asexual and facultatively reproducing prey species, whereas the experimental runs involved unstable fluctuating resources. Although we found that population levels were higher for obligate sexual prey vs. obligate asexual prey, this was not due to the manipulation of the independent variable, food resources, since these results were consistent across experimental, and control runs. However, in terms of the runs for facultative species, we found that in experimental runs, there was a discernably lower level of asexual reproduction and a slight increase in sexual reproduction in the later stages of the runs, which is likely a response to fluctuating resources. These results tend to confirm the hypothesis that in terms of facultative species, there will be a decrease in asexual reproduction and an increase in sexual reproduction in response to fluctuating resources. Moreover, we found that these features may be evolutionary in nature rather than simply a matter of phenotypic plasticity, which to the best of our knowledge is not a result in any other simulation or empirical study on Tangled Bank with respect to facultative species. Our study therefore contributes to the ongoing debate of whether the switch to sex in facultative species is the result of phenotypic plasticity or evolutionary in character.