TY - JOUR A1 - Schulte, Luise A1 - Li, Chenzhi A1 - Lisovski, Simeon A1 - Herzschuh, Ulrike T1 - Forest-permafrost feedbacks and glacial refugia help explain the unequal distribution of larch across continents JF - Journal of biogeography N2 - Aim: The continental-scale distribution of plant functional types, such as evergreen and summergreen needle-leaf forest, is assumed to be determined by contemporary climate. However, the distribution of summergreen needle-leaf forest of larch (Larix Mill.) differs markedly between the continents, despite relatively similar climatic conditions. The reasons for these differences are little understood. Our aim is to identify potential triggers and drivers of the current distribution patterns by comparing species' bioclimatic niches, glacial refugia and postglacial recolonization patterns. Location: Northern hemisphere. Taxon: Species of the genus Larix (Mill.). Methods: We compare species distribution and dominance using species ranges and sites of dominance, as well as their occurrence on modelled permafrost extent, and active layer thickness (ALT). We compare the bioclimatic niches and calculate the niche overlap between species, using the same data in addition to modern climate data. We synthesize pollen, macrofossil and ancient DNA palaeo-evidence of past Larix occurrences of the last 60,000 years and track differences in distribution patterns through time. Results: Bioclimatic niches show large overlaps between Asian larch species and American Larix laricina. The distribution across various degrees of permafrost extent is distinctly different for Asian L. gmelinii and L. cajanderi compared to the other species, whereas the distribution on different depths of ALT is more similar among Asian and American species. Northern glacial refugia for Larix are only present in eastern Asia and Alaska. Main Conclusion: The dominance of summergreen larches in Asia, where evergreen conifers dominate most of the rest of the boreal forests, is dependent on the interaction of several factors which allows Asian L. gmelinii and L. cajanderi to dominate where these factors coincide. These factors include the early postglacial spread out of northern glacial refugia in the absence of competitors as well as a positive feedback mechanism between frozen ground and forest. KW - bioclimatic niche KW - glacial refugia KW - larch KW - Larix KW - permafrost KW - phylogeography KW - postglacial recolonization Y1 - 2022 U6 - https://doi.org/10.1111/jbi.14456 SN - 0305-0270 SN - 1365-2699 VL - 49 IS - 10 SP - 1825 EP - 1838 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Coraman, Emrah A1 - Dietz, Christian A1 - Hempel, Elisabeth A1 - Ghazaryan, Astghik A1 - Levin, Eran A1 - Presetnik, Primoz A1 - Zagmajster, Maja A1 - Mayer, Frieder T1 - Reticulate evolutionary history of a Western Palaearctic Bat Complex explained by multiple mtDNA introgressions in secondary contacts JF - Journal of biogeography N2 - Aim There is an increasing evidence showing that species within various taxonomic groups have reticulate evolutionary histories with several cases of introgression events. Investigating the phylogeography of species complexes can provide insight into these introgressions, and when and where these hybridizations occurred. In this study, we investigate the biogeography of a widely distributed Western Palaearctic bat species complex, namely Myotis nattereri sensu lato. This complex exhibits high genetic diversity and in its western distribution range is composed of deeply diverged genetical lineages. However, little is known about the genetic structure of the eastern populations. We also infer the conservation and taxonomical implications of the identified genetic divergences. Taxon Myotis nattereri sensu lato including M. schaubi. Location Western Palaearctic. Methods We analysed 161 specimens collected from 67 locations and sequenced one mitochondrial and four nuclear DNA markers, and combined these with the available GenBank sequences. We used haplotype networks, PCA, t-SNE and Bayesian clustering algorithms to investigate the population structure and Bayesian trees to infer the phylogenetic relationship of the lineages. Results We identified deeply divergent genetical lineages. In some cases, nuclear and mitochondrial markers were discordant, which we interpret are caused by hybridization between lineages. We identified three such introgression events. These introgressions occurred when spatially separated lineages came into contact after range expansions. Based on the genetic distinction of the identified lineages, we suggest a revision in the taxonomy of this species group with two possible new species: M. hoveli and M. tschuliensis. Main conclusions Our findings suggest that the M. nattereri complex has a reticulate evolutionary history with multiple cases of hybridizations between some of the identified lineages. KW - cryptic species KW - glacial refugia KW - hybridization KW - introgression KW - range expansions KW - the Caucasus Y1 - 2019 U6 - https://doi.org/10.1111/jbi.13509 SN - 0305-0270 SN - 1365-2699 VL - 46 IS - 2 SP - 343 EP - 354 PB - Wiley CY - Hoboken ER -