Large-scale mitogenomic analysis of the phylogeography of the Late Pleistocene cave bear

Joscha Gretzinger,Rafał Kowalczyk,Isaac Rufí,Susanne C Münzel,Magdalena Krajcarz,Dorothée G Drucker,Vesna Dimitrijević,Hervé Bocherens,Saskia Pfrengle,Martyna Molak,Maciej T Krajcarz,Michel Blant,Christian Urban,Emilia Hofman‐Kamińska ,Nicholas J Conard,Johannes Krause,Ella Reiter,Judith Neukamm,Joaquim Soler,Gabriele Terlato,Christophe Cupillard,Matteo Romandini,Marco Peresani,Verena J Schuenemann

doi:10.1038/s41598-019-47073-z

Abstract

The cave bear (Ursus spelaeus) is one of the Late Pleistocene megafauna species that faced extinction at the end of the last ice age. Although it is represented by one of the largest fossil records in Europe and has been subject to several interdisciplinary studies including palaeogenetic research, its fate remains highly controversial. Here, we used a combination of hybridisation capture and next generation sequencing to reconstruct 59 new complete cave bear mitochondrial genomes (mtDNA) from 14 sites in Western, Central and Eastern Europe. In a Bayesian phylogenetic analysis, we compared them to 64 published cave bear mtDNA sequences to reconstruct the population dynamics and phylogeography during the Late Pleistocene. We found five major mitochondrial DNA lineages resulting in a noticeably more complex biogeography of the European lineages during the last 50,000 years than previously assumed. Furthermore, our calculated effective female population sizes suggest a drastic cave bear population decline starting around 40,000 years ago at the onset of the Aurignacian, coinciding with the spread of anatomically modern humans in Europe. Thus, our study supports a potential significant human role in the general extinction and local extirpation of the European cave bear and illuminates the fate of this megafauna species.

Highlights

Www.nature.com/scientificreports had cascading consequences on terrestrial ecosystems with consequences still to be seen in modern ecosystems[4,5,6]
The latter pattern of withering away was assumed for the Pleistocene cave bear Ursus spelaeus sensu lato[11]. As this Late Quaternary mammal is represented by a largest fossil record in Europe[12], the cave bear is a useful model to study the causes of the extinction of a species, especially in the context of population dynamics, climate instability and changing human impact
For ancient mtDNA extraction, 81 bone specimens morphologically identified as cave bears were selected from Bärenloch (Switzerland), Perspektywiczna cave (Poland), Casamène and Prélétang (France), l’Arbreda (Spain), Hohle Fels (Germany), Broion, Paina and Trene (Italy) as well as Vrelska, Kovačevića, Vasiljska, Smolućka, and Mirilovska cave (Serbia), covering temporally spaced sites from the Iberian Peninsula to the Balkans in a time range from >49 to 23 cal. ka before present (Fig. 1, Table 1)

Summary

Introduction

Www.nature.com/scientificreports had cascading consequences on terrestrial ecosystems with consequences still to be seen in modern ecosystems[4,5,6]. We present the first mitochondrial genome of a specimen morphologically classified as Ursus spelaeus ladinicus as well as the youngest cave bear mtDNA sequences far, which dates to 19,656 14C years before present

Results

Conclusion