Worth, J. R. P.; Grimm, G. W.; Ihara-Udino, T.; Li, P.; Papageorgiou, A. C.; Simeone, M. C.; Shanjani, P. S.; Lopez-Saez, J. A.; Chiang, Y.-C.; Kitamura, K.; Tomaru, N.; Denk, T.

Major northern temperate tree genera emerged in the Eocene and now have vast ranges across the Northern Hemisphere. However, few sufficiently high-resolution studies have been done to understand the biogeographic history shaping modern day temperate forests. Here we undertake a multi-discipline study to provide unprecedented insights into the formation of a dominant temperate tree genus, Fagus L.. A whole chloroplast genome phylogeny with multi-accessions of most species was determined and contrasted with the timing of lineage diversification inferred from nuclear and chloroplast gene time-calibrated phylogenies using 101 dated fossils. Five deeply diverged chloroplast lineages were revealed that, with the exception of a Eurasian lineage, underwent divergence decoupled from speciation predating modern species lineages by up to 28 ma. The geographic distribution of chloroplast lineages reflects a complex history of genetic admixture during past contact between extinct and modern species including between different subgenera in East Asia and long-term persistence particularly in Japan which is the hotspot of plastome diversity. Modern Fagus forests are the consequence of 62 million years of evolution, migration, genetic exchange and species extinction with most modern species harbouring a mosaic of genetic material, a legacy of multiple admixture events in deep time.