@article{MeyerPalkopoulouBalekaetal.2017, author = {Meyer, Matthias and Palkopoulou, Eleftheria and Baleka, Sina Isabelle and Stiller, Mathias and Penkman, Kirsty E. H. and Alt, Kurt W. and Ishida, Yasuko and Mania, Dietrich and Mallick, Swapan and Meijer, Tom and Meller, Harald and Nagel, Sarah and Nickel, Birgit and Ostritz, Sven and Rohland, Nadin and Schauer, Karol and Schueler, Tim and Roca, Alfred L. and Reich, David and Shapiro, Beth and Hofreiter, Michael}, title = {Palaeogenomes of Eurasian straight-tusked elephants challenge the current view of elephant evolution}, series = {eLife}, volume = {6}, journal = {eLife}, publisher = {eLife Sciences Publications}, address = {Cambridge}, issn = {2050-084X}, doi = {10.7554/eLife.25413}, pages = {14}, year = {2017}, abstract = {The straight-tusked elephants Palaeoloxodon spp. were widespread across Eurasia during the Pleistocene. Phylogenetic reconstructions using morphological traits have grouped them with Asian elephants (Elephas maximus), and many paleontologists place Palaeoloxodon within Elephas. Here, we report the recovery of full mitochondrial genomes from four and partial nuclear genomes from two P. antiquus fossils. These fossils were collected at two sites in Germany, Neumark-Nord and Weimar-Ehringsdorf, and likely date to interglacial periods similar to 120 and similar to 244 thousand years ago, respectively. Unexpectedly, nuclear and mitochondrial DNA analyses suggest that P. antiquus was a close relative of extant African forest elephants (Loxodonta cyclotis). Species previously referred to Palaeoloxodon are thus most parsimoniously explained as having diverged from the lineage of Loxodonta, indicating that Loxodonta has not been constrained to Africa. Our results demonstrate that the current picture of elephant evolution is in need of substantial revision.}, language = {en} } @article{HornProstStilleretal.2014, author = {Horn, Susanne and Prost, Stefan and Stiller, Mathias and Makowiecki, Daniel and Kuznetsova, Tatiana and Benecke, Norbert and Pucher, Erich and Hufthammer, Anne K. and Schouwenburg, Charles and Shapiro, Beth and Hofreiter, Michael}, title = {Ancient mitochondrial DNA and the genetic history of Eurasian beaver (Castor fiber) in Europe}, series = {Molecular ecology}, volume = {23}, journal = {Molecular ecology}, number = {7}, publisher = {Wiley-Blackwell}, address = {Hoboken}, issn = {0962-1083}, doi = {10.1111/mec.12691}, pages = {1717 -- 1729}, year = {2014}, abstract = {After centuries of human hunting, the Eurasian beaver Castor fiber had disappeared from most of its original range by the end of the 19th century. The surviving relict populations are characterized by both low genetic diversity and strong phylogeographical structure. However, it remains unclear whether these attributes are the result of a human-induced, late Holocene bottleneck or already existed prior to this reduction in range. To investigate genetic diversity in Eurasian beaver populations during the Holocene, we obtained mitochondrial control region DNA sequences from 48 ancient beaver samples and added 152 modern sequences from GenBank. Phylogeographical analyses of the data indicate a differentiation of European beaver populations into three mitochondrial clades. The two main clades occur in western and eastern Europe, respectively, with an early Holocene contact zone in eastern Europe near a present-day contact zone. A divergent and previously unknown clade of beavers from the Danube Basin survived until at least 6000years ago, but went extinct during the transition to modern times. Finally, we identify a recent decline in effective population size of Eurasian beavers, with a stronger bottleneck signal in the western than in the eastern clade. Our results suggest that the low genetic diversity and the strong phylogeographical structure in recent beavers are artefacts of human hunting-associated population reductions. While beaver populations have been growing rapidly since the late 19th century, genetic diversity within modern beaver populations remains considerably reduced compared to what was present prior to the period of human hunting and habitat reduction.}, language = {en} } @article{GermonpreSablinLaznickovaGaletovaetal.2015, author = {Germonpre, Mietje and Sablin, Mikhail V. and Laznickova-Galetova, Martina and Despres, Viviane and Stevens, Rhiannon E. and Stiller, Mathias and Hofreiter, Michael}, title = {Palaeolithic dogs and Pleistocene wolves revisited: a reply to Morey (2014)}, series = {Journal of archaeological science}, volume = {54}, journal = {Journal of archaeological science}, publisher = {Elsevier}, address = {London}, issn = {0305-4403}, doi = {10.1016/j.jas.2014.11.035}, pages = {210 -- 216}, year = {2015}, abstract = {This is a reply to the comments of Morey (2014) on our identification of Palaeolithic dogs from several European Palaeolithic sites. In his comments Morey (2014) presents some misrepresentations and misunderstandings that we remedy here. In contrast to what Morey (2014) propounds, our results suggest that the domestication of the wolf was a long process that started early in the Upper Palaeolithic and that since that time two sympatric canid morphotypes can be seen in Eurasian sites: Pleistocene wolves and Palaeolithic dogs. Contrary to Morey (2014), we are convinced that the study of this domestication process should be multidisciplinary. (C) 2014 Elsevier Ltd. All rights reserved.}, language = {en} } @article{CasasMarceMarmesatSorianoetal.2017, author = {Casas-Marce, Mireia and Marmesat, Elena and Soriano, Laura and Martinez-Cruz, Begona and Lucena-Perez, Maria and Nocete, Francisco and Rodriguez-Hidalgo, Antonio and Canals, Antoni and Nadal, Jordi and Detry, Cleia and Bernaldez-Sanchez, Eloisa and Fernandez-Rodriguez, Carlos and Perez-Ripoll, Manuel and Stiller, Mathias and Hofreiter, Michael and Rodriguez, Alejandro and Revilla, Eloy and Delibes, Miguel and Godoy, Jose A.}, title = {Spatiotemporal Dynamics of Genetic Variation in the Iberian Lynx along Its Path to Extinction Reconstructed with Ancient DNA}, series = {Molecular biology and evolution}, volume = {34}, journal = {Molecular biology and evolution}, publisher = {Oxford Univ. Press}, address = {Oxford}, issn = {0737-4038}, doi = {10.1093/molbev/msx222}, pages = {2893 -- 2907}, year = {2017}, abstract = {There is the tendency to assume that endangered species have been both genetically and demographically healthier in the past, so that any genetic erosion observed today was caused by their recent decline. The Iberian lynx (Lynx pardinus) suffered a dramatic and continuous decline during the 20th century, and now shows extremely low genome- and species-wide genetic diversity among other signs of genomic erosion. We analyze ancient (N\&\#8201;=\&\#8201;10), historical (N\&\#8201;=\&\#8201;245), and contemporary (N\&\#8201;=\&\#8201;172) samples with microsatellite and mitogenome data to reconstruct the species' demography and investigate patterns of genetic variation across space and time. Iberian lynx populations transitioned from low but significantly higher genetic diversity than today and shallow geographical differentiation millennia ago, through a structured metapopulation with varying levels of diversity during the last centuries, to two extremely genetically depauperate and differentiated remnant populations by 2002. The historical subpopulations show varying extents of genetic drift in relation to their recent size and time in isolation, but these do not predict whether the populations persisted or went finally extinct. In conclusion, current genetic patterns were mainly shaped by genetic drift, supporting the current admixture of the two genetic pools and calling for a comprehensive genetic management of the ongoing conservation program. This study illustrates how a retrospective analysis of demographic and genetic patterns of endangered species can shed light onto their evolutionary history and this, in turn, can inform conservation actions.}, language = {en} }