RT Journal Article SR Electronic T1 Fossils matter: improved estimates of divergence times in Pinus reveal older diversification JF bioRxiv FD Cold Spring Harbor Laboratory SP 073312 DO 10.1101/073312 A1 Bianca Saladin A1 Andrew B. Leslie A1 Rafael O. Wüeest A1 Glenn Litsios A1 Elena Conti A1 Nicolas Salamin A1 Niklaus E. Zimmermann YR 2016 UL http://biorxiv.org/content/early/2016/09/04/073312.abstract AB Background The taxonomy of the genus Pinus is widely accepted and a well-resolved phylogeny based on entire plastome sequences exists. However, there is a large discrepancy in estimated divergence times of major pine clades among existing studies mainly due to differences in fossil placement and dating methods used. We currently lack a dated molecular pine phylogeny that makes full usage of the rich fossil record in pines. This study is the first to estimate the divergence dates of pines based on a large number of fossils (21) evenly distributed across all major clades in combination with applying the most novel dating method.Results We present a range of molecular phylogenetic trees of Pinus generated within a Bayesian framework using both the novel fossilized birth-death and the traditional node dating method with different fossil sets. We find the origin of pines likely to be up to 30 Myr older (Early Cretaceous) than inferred in most previous studies (Late Cretaceous) and propose generally older divergence times for major clades within Pinus than previously thought. Our age estimates vary significantly between the different dating approaches but the results generally agree on older divergence times. We present a revised list of 21 fossils that are suitable to use in dating or comparative analyses of pines.Conclusions An accurate timescale for the divergence times in pines is essential if we are to link diversification processes and functional adaptation of this genus to geological events or to changing climates. Next to older divergence times in Pinus, our results indicate that node age estimates in pines depend on dating approaches and fossil sets used due to different inherent characteristics of dating approaches. Our set of dated phylogenetic trees of pines presented herein provide the basis to account for uncertainties in age estimations when applying comparative phylogenetic methods, which will improve our understanding of the evolutionary and ecological history in pines.