The propagation of admixture-derived evolutionary potential

October 07, 2020

Adaptive radiation - the rapid evolution of many new species from a single ancestor - is a major focus in evolutionary biology. Adaptive radiations often show remarkable repeatability where lineages have undergone multiple episodes of adaptive radiation in distant places and at various points in time - implying their extraordinary evolutionary potential.

Now, researchers from the Swiss Federal Institute of Aquatic Science and Technology and Tohoku University have developed a novel "individual-based model" that simulates the evolution of an ecosystem of virtual organisms. This model reveals additional information about recurrent adaptive radiation and the role that hybridization plays in that process.

Hybridization - the interbreeding of different species - generates extraordinary genetic variation by mixing and recombining genetic materials from different species. Then the enriched genetic variation can facilitate rapid adaptive radiation into various unoccupied habitats if available. However, hybridization generates large genetic variation locally and for a short period, meaning the simultaneous coexistence of hybridization and unoccupied habits is rare. Because of this, hybridization seemed unlikely to explain the recurrent adaptive radiation in the same lineage.

Yet, a recent genomics study on adaptive radiations of East African cichlid fish caused researchers to reevaluate what they previously thought. The study discovered that a genetic variation generated through an ancient hybridization event permanently increased evolutionary potential of the descendant lineage and facilitated a recurrent adaptive radiation of the lineage in several geographically distant lakes - one of which started over 100000 years after the hybridization event.

To address this theoretical conundrum, Kotaro Kagawa and his colleague Ole Seehausen used their individual-based model to simulate the evolutionary dynamics caused by hybridization under various geographic, ecological, and historical scenarios. Results from over 15000 simulations provided two theoretical findings. First, simulations showed that hybridization-derived genetic variation geographically spreads and persists for long periods only if the hybrid population becomes separated into isolated sub-lineages. Subsequent secondary hybridization of the sub-lineages can potentially reestablish genetic polymorphisms from the ancestral hybridization in places far from the birthplace of the hybrid-clade and long after the ancestral hybridization event. This leads to the second finding: genetic variation generated through a single hybridization event could lead to multiple independent episodes of adaptive radiation far apart in location and time when ecological and geographic conditions promote the temporal isolation and subsequent admixture of sub-lineages.

"These findings provide not only an explanation for the recurrent adaptive radiation of African cichlids but also a novel insight that exceptional genetic variation, once generated through a rare hybridization event, may significantly influence clade-wide macroevolutionary trends ranging over large spatial and temporal scales," said Dr. Kagawa.
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Tohoku University

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