The new study investigated experimentally more than 100 host generations of the alga Chlorella variabilis and the chlorovirus. The researchers were able thereafter to combine data on the development of the population sizes, strength of the agents and genetic changes. They found that adaptations took place quickly and always at the same time. But the changes cannot be explained solely by existing models for coevolution – giving a choice between evolutionary arms race and fluctuating selective dynamics. Change in population size, especially, must also be considered. It was expected that the alga would build up resistance against the virus and that thereafter not much would happen, says evolution biologist Philine Feulner from Eawag, who directed the study along with Lutz Becks from the University of Konstanz. According to the hypothesis, only if the virus mutates and becomes infectious once again, do new genetic mutations in the alga take place. But then came the surprise: even at times during which the selective pressure due to the virus was reduced, the genetic diversity of the alga was quickly established. The massive growth of the population size of the host increased the frequency of mutation, and that in turn created diversity.
Evolution that takes place rapidly and ecological changes have a mutual influence on one another. “This ecoevolutionary dynamic is of fundamental importance for our understanding of molecular evolution and how this takes place in time,” says Feulner.
Media information from the University of Konstanz: https://www.uni-konstanz.de/en/university/news-and-media/current-announcements/press-releases/
Original publication: Cas Retel, Vienna Kowallik, Weini Huang, Benjamin Werner, Sven Künzel, Lutz Becks, Philine G. D. Feulner. The feedback between selection and demography shapes genomic diversity during coevolution. Science Advances, 2 October 2019. https://doi.org/10.1126/sciadv.aax0530 / (follows after 8 p.m., 2 October 2019).
Financing: the study was sponsored by the German Research Foundation (DFG) as part of the priority program Rapid Evolutionary Adaptation and is a Lead Agency Project of the DFG and the Swiss National Science Foundation (SNF).