TY - JOUR T1 - Ancestral admixture is the main determinant of global biodiversity in fission yeast JF - bioRxiv DO - 10.1101/415091 SP - 415091 AU - Sergio Tusso AU - Bart P.S. Nieuwenhuis AU - Fritz J. Sedlazeck AU - John W. Davey AU - Daniel Jeffares AU - Jochen B. W. Wolf Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/01/22/415091.abstract N2 - Mutation and recombination are key evolutionary processes governing phenotypic variation and reproductive isolation. We here demonstrate that biodiversity within all globally known strains of Schizosaccharomyces pombe arose through admixture between two divergent ancestral lineages. Initial hybridization occurred ~20 sexual outcrossing generations ago consistent with recent, human-induced migration at the onset of intensified transcontinental trade. Species-wide heritable phenotypic variation was explained near-exclusively by strain-specific arrangements of alternating ancestry components with evidence for transgressive segregation. Reproductive compatibility between strains was likewise predicted by the degree of shared ancestry. To assess the genetic determinants of ancestry block distribution across the genome, we characterized the type, frequency and position of structural genomic variation (SV) using nanopore and single-molecule real time sequencing, discovering over 800 SVs. Despite being associated with double-strand break initiation points, SV exerted overall little influence on the introgression landscape or on reproductive compatibility that exist between strains. In contrast, we find strongly increased statistical linkage between ancestral populations that is consistent with negative epistatic selection shaping genomic ancestry combinations during the course of hybridization. This study provides a detailed, experimentally tractable example that genomes of natural populations are mosaics reflecting different evolutionary histories. Exploiting genome-wide heterogeneity in the history of ancestral recombination and lineage-specific mutations sheds new light on the population history of S. pombe and highlights the importance of hybridization as a creative force in generating biodiversity. ER -