TY - JOUR A1 - Foster, William J. A1 - Lehrmann, Daniel J. A1 - Yu, Meiyi A1 - Martindale, Rowan C. T1 - Facies selectivity of benthic invertebrates in a Permian/Triassic boundary microbialite succession: Implications for the "microbialite refuge" hypothesis JF - Geobiology N2 - Thrombolite and stromatolite habitats are becoming increasingly recognized as important refuges for invertebrates during Phanerozoic Oceanic Anoxic Events (OAEs); it is posited that oxygenic photosynthesis by cyanobacteria in these microbialites provided a refuge from anoxic conditions (i.e., the "microbialite refuge" hypothesis). Here, we test this hypothesis by investigating the distribution of ~34, 500 benthic invertebrate fossils found in ~100 samples from a microbialite succession that developed following the latest Permian mass extinction event on the Great Bank of Guizhou (South China), representing microbial (stromatolites and thrombolites) and non-microbial facies. The stromatolites were the least taxonomically diverse facies, and the thrombolites also recorded significantly lower diversities when compared to the non-microbial facies. Based on the distribution and ornamentation of the bioclasts within the thrombolites and stromatolites, the bioclasts are inferred to have been transported and concentrated in the non-microbial fabrics, that is, cavities around the microbial framework. Therefore, many of the identified metazoans from the post-extinction microbialites are not observed to have been living within a microbial mat. Furthermore, the lifestyle of many of the taxa identified from the microbialites was not suited for, or even amenable to, life within a benthic microbial mat. The high diversity of oxygen-dependent metazoans in the non-microbial facies on the Great Bank of Guizhou, and inferences from geochemical records, suggests that the microbialites and benthic communities developed in oxygenated environments, which disproves that the microbes were the source of the oxygenation. Instead, we posit that microbialite successions represent a taphonomic window for exceptional preservation of the biota, similar to a Konzentrat-Lagerstatte, which has allowed for diverse fossil assemblages to be preserved during intervals of poor preservation. KW - anoxia KW - extinction KW - microbialite KW - Permian KW - Triassic KW - refuge Y1 - 2019 U6 - https://doi.org/10.1111/gbi.12343 SN - 1472-4677 SN - 1472-4669 VL - 17 IS - 5 SP - 523 EP - 535 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - González-Fortes, Gloria M. A1 - Kolbe, Ben A1 - Fernandes, Daniel A1 - Meleg, Ioana N. A1 - Garcia-Vazquez, Ana A1 - Pinto-Llona, Ana C. A1 - Constantin, Silviu A1 - de Torres, Trino J. A1 - Ortiz, Jose E. A1 - Frischauf, Christine A1 - Rabeder, Gernot A1 - Hofreiter, Michael A1 - Barlow, Axel T1 - Ancient DNA reveals differences in behaviour and sociality between brown bears and extinct cave bears JF - Molecular ecology N2 - Ancient DNA studies have revolutionized the study of extinct species and populations, providing insights on phylogeny, phylogeography, admixture and demographic history. However, inferences on behaviour and sociality have been far less frequent. Here, we investigate the complete mitochondrial genomes of extinct Late Pleistocene cave bears and middle Holocene brown bears that each inhabited multiple geographically proximate caves in northern Spain. In cave bears, we find that, although most caves were occupied simultaneously, each cave almost exclusively contains a unique lineage of closely related haplotypes. This remarkable pattern suggests extreme fidelity to their birth site in cave bears, best described as homing behaviour, and that cave bears formed stable maternal social groups at least for hibernation. In contrast, brown bears do not show any strong association of mitochondrial lineage and cave, suggesting that these two closely related species differed in aspects of their behaviour and sociality. This difference is likely to have contributed to cave bear extinction, which occurred at a time in which competition for caves between bears and humans was likely intense and the ability to rapidly colonize new hibernation sites would have been crucial for the survival of a species so dependent on caves for hibernation as cave bears. Our study demonstrates the potential of ancient DNA to uncover patterns of behaviour and sociality in ancient species and populations, even those that went extinct many tens of thousands of years ago. KW - ancient DNA KW - extinction KW - homing KW - sociality KW - Ursus arctos KW - Ursus spelaeus Y1 - 2016 U6 - https://doi.org/10.1111/mec.13800 SN - 0962-1083 SN - 1365-294X VL - 25 SP - 4907 EP - 4918 PB - Wiley-Blackwell CY - Hoboken ER - TY - THES A1 - Hempel, Elisabeth T1 - Resolving the evolutionary history of two hippotragin antelopes using archival and ancient DNA N2 - African antelopes are iconic but surprisingly understudied in terms of their genetics, especially when it comes to their evolutionary history and genetic diversity. The age of genomics provides an opportunity to investigate evolution using whole nuclear genomes. Decreasing sequencing costs enable the recovery of multiple loci per genome, giving more power to single specimen analyses and providing higher resolution insights into species and populations that can help guide conservation efforts. This age of genomics has only recently begun for African antelopes. Many African bovids have a declining population trend and hence, are often endangered. Consequently, contemporary samples from the wild are often hard to collect. In these cases, ex situ samples from contemporary captive populations or in the form of archival or ancient DNA (aDNA) from historical museum or archaeological/paleontological specimens present a great research opportunity with the latter two even offering a window to information about the past. However, the recovery of aDNA is still considered challenging from regions with prevailing climatic conditions that are deemed adverse for DNA preservation like the African continent. This raises the question if DNA recovery from fossils as old as the early Holocene from these regions is possible. This thesis focuses on investigating the evolutionary history and genetic diversity of two species: the addax (Addax nasomaculatus) and the blue antelope (Hippotragus leucophaeus). The addax is critically endangered and might even already be extinct in the wild, while the blue antelope became extinct ~1800 AD, becoming the first extinct large African mammal species in historical times. Together, the addax and the blue antelope can inform us about current and past extinction events and the knowledge gained can help guide conservation efforts of threatened species. The three studies used ex situ samples and present the first nuclear whole genome data for both species. The addax study used historical museum specimens and a contemporary sample from a captive population. The two studies on the blue antelope used mainly historical museum specimens but also fossils, and resulted in the recovery of the oldest paleogenome from Africa at that time. The aim of the first study was to assess the genetic diversity and the evolutionary history of the addax. It found that the historical wild addax population showed only limited phylogeographic structuring, indicating that the addax was a highly mobile and panmictic population and suggesting that the current European captive population might be missing the majority of the historical mitochondrial diversity. It also found the nuclear and mitochondrial diversity in the addax to be rather low compared to other wild ungulate species. Suggestions on how to best save the remaining genetic diversity are presented. The European zoo population was shown to exhibit no or only minor levels of inbreeding, indicating good prospects for the restoration of the species in the wild. The trajectory of the addax’s effective population size indicated a major bottleneck in the late Pleistocene and a low effective population size well before recent human impact led to the species being critically endangered today. The second study set out to investigate the identities of historical blue antelope specimens using aDNA techniques. Results showed that six out of ten investigated specimens were misidentified, demonstrating the blue antelope to be one of the scarcest mammal species in historical natural history collections, with almost no bone reference material. The preliminary analysis of the mitochondrial genomes suggested a low diversity and hence low population size at the time of the European colonization of southern Africa. Study three presents the results of the analyses of two blue antelope nuclear genomes, one ~200 years old and another dating to the early Holocene, 9,800–9,300 cal years BP. A fossil-calibrated phylogeny dated the divergence time of the three historically extant Hippotragus species to ~2.86 Ma and demonstrated the blue and the sable antelope (H. niger) to be sister species. In addition, ancient gene flow from the roan (H. equinus) into the blue antelope was detected. A comparison with the roan and the sable antelope indicated that the blue antelope had a much lower nuclear diversity, suggesting a low population size since at least the early Holocene. This concurs with findings from the fossil record that show a considerable decline in abundance after the Pleistocene–Holocene transition. Moreover, it suggests that the blue antelope persisted throughout the Holocene regardless of a low population size, indicating that human impact in the colonial era was a major factor in the blue antelope’s extinction. This thesis uses aDNA analyses to provide deeper insights into the evolutionary history and genetic diversity of the addax and the blue antelope. Human impact likely was the main driver of extinction in the blue antelope, and is likely the main factor threatening the addax today. This thesis demonstrates the value of ex situ samples for science and conservation, and suggests to include genetic data for conservation assessments of species. It further demonstrates the beneficial use of aDNA for the taxonomic identification of historically important specimens in natural history collections. Finally, the successful retrieval of a paleogenome from the early Holocene of Africa using shotgun sequencing shows that DNA retrieval from samples of that age is possible from regions generally deemed unfavorable for DNA preservation, opening up new research opportunities. All three studies enhance our knowledge of African antelopes, contributing to the general understanding of African large mammal evolution and to the conservation of these and similarly threatened species. N2 - Afrikanische Antilopen sind sehr bekannte Tiere. Allerdings sind sie genetisch wenig untersucht, vor allem hinsichtlich ihrer Evolutionsgeschichte und genetischen Diversität. Das Zeitalter der Genomik ermöglicht es, Evolution mit Hilfe von kompletten nukleären Genomen zu untersuchen. Durch sinkende Sequenzierkosten können zahlreiche Genloci pro Genom gewonnen werden, wodurch Analysen mit nur einem Exemplar mehr Aussagekraft zukommt und tiefere Erkenntnisse über Arten und Populationen zulassen, die Artenschutzbemühungen unterstützen können. Für afrikanische Antilopen hat dieses Zeitalter gerade erst begonnen. Viele afrikanische Boviden haben einen sinkenden Populationstrend und sind daher häufig gefährdet. Dies erschwert es oft, Proben freilebender Tiere zu bekommen. In diesen Fällen bieten ex situ Proben von in Gefangenschaft lebenden Tieren oder in Form von alter DNA (aDNA) aus naturhistorischen Sammlungen eine gute Forschungsmöglichkeit. Letztere ermöglicht zudem den Zugang zu Informationen aus der Vergangenheit. Es gilt noch immer als Herausforderung, aDNA aus Regionen zu erlangen, deren Bedingungen schlecht für den Erhalt von DNA sind. Dies wirft die Frage auf, ob es möglich ist, aDNA aus Fossilien vom Beginn des Holozäns aus Afrika zu erhalten. Das Ziel dieser Doktorarbeit war die Erforschung der Evolutionsgeschichte und der genetischen Diversität der Mendesantilope (Addax nasomaculatus) und des Blaubocks (Hippotragus leucophaeus). Die Mendesantilope ist vom Aussterben bedroht und könnte in freier Wildbahn bereits ausgestorben sein. Der Blaubock starb ca. 1800 aus und war das erste afrikanische Großsäugetier, das in historischer Zeit ausstarb. Beide Arten können unsere Kenntnisse über derzeitige und vergangene Aussterbeereignisse erweitern, um den Schutz bedrohter Arten zu unterstützen. Die drei Studien dieser Doktorarbeit nutzten ex situ Proben und präsentieren die ersten kompletten nukleären Genome dieser beiden Arten. Die Studie über die Mendesantilope nutzte historische Präparate aus naturhistorischen Sammlungen sowie eine rezente Probe eines Tieres aus Gefangenschaft. Beide Blaubock-Studien nutzten vor allem Präparate aus naturhistorischen Sammlungen, aber auch Fossilien, woraus das zu diesem Zeitpunkt älteste Paläogenom aus Afrika resultierte. Die erste Studie untersuchte die genetische Diversität und Evolutionsgeschichte der Mendesantilope. Es zeigte sich, dass ihre historische Wildpopulation nur eine geringe phylogeographische Strukturierung aufwies, was auf eine sehr mobile und panmiktische Population hindeutet. Dies legt nahe, dass die rezente europäische Zoopopulation vermutlich Großteile der historischen mitochondrialen Diversität verloren hat. Zusätzlich zeigte sich, dass die nukleäre und mitochondriale Diversität relativ gering waren im Vergleich zu anderen wilden Huftierarten. Es werden Möglichkeiten zum Erhalt der verbliebenen Diversität aufgezeigt. Die europäische Zoopopulation zeigte keine beziehungsweise nur geringe Anzeichen von Inzucht, was für gute Wiederauswilderungsaussichten spricht. Die effektive Populationsgröße der Mendesantilope weist einen starken genetischen Flaschenhals im späten Pleistozän auf. Zudem war sie bereits deutlich niedrig, bevor der derzeitige menschliche Einfluss zu ihrer heutigen Bedrohung führte. Die zweite Stude untersuchte mit Hilfe von aDNA die Identitäten historischer Blaubock-Präparate. Nur vier der zehn untersuchten Präparate stellten sich als Blauböcke heraus. Somit ist der Blaubock eine der seltensten Säugetierarten in naturhistorischen Sammlungen, für die es zudem kaum Knochenreferenzmaterial gibt. Die vorläufige Analyse des mitochondrialen Genoms deutet auf eine geringe Diversität und daher eine geringe Populationsgröße zur Zeit der europäischen Kolonialisierung Südafrikas hin. Die dritte Studie analysierte zwei nukleäre Blaubockgenome, ein ~200 Jahre altes Präparat und eines aus dem frühen Holozän, 9.800–9.300 Jahre. Ein mit Hilfe von Fossilien kalibrierter Stammbaum datiert die Aufspaltung der drei historisch rezenten Hippotragus-Arten auf ~2,86 Mio. Jahre und zeigt die Rappenantilope (H. niger) und den Blaubock als Schwesterarten. Darüber hinaus wurde früherer Genfluss der Pferdeantilope (H. equinus) zum Blaubock festgestellt. Der Vergleich der drei Hippotragus-Arten legt nahe, dass der Blaubock eine deutlich geringere nukleäre Diversität besaß und somit seit mindestens dem frühen Holozän nur über eine geringe Populationsgröße verfügte. Dies stimmt mit Ergebnissen aus dem Fossilbericht überein, die eine deutliche Häufigkeitsabnahme nach dem Übergang des Pleistozäns zum Holozän aufzeigen. Außerdem suggeriert es, dass der Blaubock unabhängig von einer geringen Populationsgröße das Holozän überdauerte und sein Aussterben stark durch den Menschen während der Kolonialzeit beeinflusst wurde. Diese Doktorarbeit bietet mit Hilfe von aDNA gewonnene Erkenntnisse über die Evolutionsgeschichte und die genetische Diversität der Mendesantilope und des Blaubocks. Der menschliche Einfluss war vermutlich der Hauptaussterbegrund des Blaubocks. Dies gilt wahrscheinlich ebenso für die heutige Bedrohung der Mendesantilope. Diese Doktorarbeit zeigt den Wert von ex situ Proben für die Wissenschaft und den Artenschutz und legt die Einbindung von genetischen Daten für die Bewertung des Gefährdungsstatus einer Art nahe. Des Weiteren demonstriert sie die Nutzung von aDNA für taxonomische Bestimmungen von historisch wichtigen Präparaten in naturhistorischen Sammlungen. Die erfolgreiche Gewinnung eines Paläogenoms aus dem frühen Holozän Afrikas mittels shotgun-Sequenzierung zeigt, dass die DNA-Gewinnung aus Proben diesen Alters aus Regionen möglich ist, deren Bedingungen allgemein als ungünstig für den Erhalt von DNA gelten. Dies eröffnet neue Forschungsmöglichkeiten. Alle drei Studien erweitern unser Wissen über afrikanische Antilopen und tragen damit zum allgemeinen Verständnis der Evolution von afrikanischen Großsäugetieren sowie zu deren Erhalt und dem ähnlich gefährdeter Arten bei. KW - Addax nasomaculatus KW - antelope KW - aDNA KW - conservation KW - museomics KW - extinction KW - South Africa KW - Blue antelope KW - Hippotragus leucophaeus KW - bluebuck KW - Addax nasomaculatus KW - Blaubock KW - Hippotragus leucophaeus KW - Südafrika KW - aDNA KW - Antilope KW - Artenschutz KW - Aussterben KW - museomics Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-647718 ER - TY - JOUR A1 - Huston, Joseph P. A1 - Kornhuber, Johannes A1 - Muehle, Christiane A1 - Japtok, Lukasz A1 - Komorowski, Mara A1 - Mattern, Claudia A1 - Reichel, Martin A1 - Gulbins, Erich A1 - Kleuser, Burkhard A1 - Topic, Bianca A1 - Silva, Maria A. De Souza A1 - Mueller, Christian P. T1 - A sphingolipid mechanism for behavioral extinction JF - Journal of neurochemistry N2 - Reward-dependent instrumental behavior must continuously be re-adjusted according to environmental conditions. Failure to adapt to changes in reward contingencies may incur psychiatric disorders like anxiety and depression. When an expected reward is omitted, behavior undergoes extinction. While extinction involves active re-learning, it is also accompanied by emotional behaviors indicative of frustration, anxiety, and despair (extinction-induced depression). Here, we report evidence for a sphingolipid mechanism in the extinction of behavior. Rapid extinction, indicating efficient re-learning, coincided with a decrease in the activity of the enzyme acid sphingomyelinase (ASM), which catalyzes turnover of sphingomyelin to ceramide, in the dorsal hippocampus of rats. The stronger the decline in ASM activity, the more rapid was the extinction. Sphingolipid-focused lipidomic analysis showed that this results in a decline of local ceramide species in the dorsal hippocampus. Ceramides shape the fluidity of lipid rafts in synaptic membranes and by that way can control neural plasticity. We also found that aging modifies activity of enzymes and ceramide levels in selective brain regions. Aging also changed how the chronic treatment with corticosterone (stress) or intranasal dopamine modified regional enzyme activity and ceramide levels, coinciding with rate of extinction. These data provide first evidence for a functional ASM-ceramide pathway in the brain involved in the extinction of learned behavior. This finding extends the known cellular mechanisms underlying behavioral plasticity to a new class of membrane-located molecules, the sphingolipids, and their regulatory enzymes, and may offer new treatment targets for extinction- and learning-related psychopathological conditions. KW - acid sphingomyelinase KW - ceramide KW - extinction KW - hippocampus KW - operant behavior KW - sphingomyelin Y1 - 2016 U6 - https://doi.org/10.1111/jnc.13537 SN - 0022-3042 SN - 1471-4159 VL - 137 SP - 589 EP - 603 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Kehlmaier, Christian A1 - Barlow, Axel A1 - Hastings, Alexander K. A1 - Vamberger, Melita A1 - Paijmans, Johanna L. A. A1 - Steadman, David W. A1 - Albury, Nancy A. A1 - Franz, Richard A1 - Hofreiter, Michael A1 - Fritz, Uwe T1 - Tropical ancient DNA reveals relationships of the extinct bahamian giant tortoise Chelonoidis alburyorum JF - Proceedings of the Royal Society of London : Series B, Biological sciences N2 - Ancient DNA of extinct species from the Pleistocene and Holocene has provided valuable evolutionary insights. However, these are largely restricted to mammals and high latitudes because DNA preservation in warm climates is typically poor. In the tropics and subtropics, non-avian reptiles constitute a significant part of the fauna and little is known about the genetics of the many extinct reptiles from tropical islands. We have reconstructed the near-complete mitochondrial genome of an extinct giant tortoise from the Bahamas (Chelonoidis alburyorum) using an approximately 1000-year-old humerus from a water-filled sinkhole (blue hole) on Great Abaco Island. Phylogenetic and molecular clock analyses place this extinct species as closely related to Galapagos (C. niger complex) and Chaco tortoises (C. chilensis), and provide evidence for repeated overseas dispersal in this tortoise group. The ancestors of extant Chelonoidis species arrived in South America from Africa only after the opening of the Atlantic Ocean and dispersed from there to the Caribbean and the Galapagos Islands. Our results also suggest that the anoxic, thermally buffered environment of blue holes may enhance DNA preservation, and thus are opening a window for better understanding evolution and population history of extinct tropical species, which would likely still exist without human impact. KW - Bahamas KW - biogeography KW - extinction KW - palaeontology KW - phylogeny Y1 - 2017 U6 - https://doi.org/10.1098/rspb.2016.2235 SN - 0962-8452 SN - 1471-2954 VL - 284 PB - The Royal Society CY - London ER - TY - JOUR A1 - Radchuk, Viktoriia A1 - De Laender, Frederik A1 - Cabral, Juliano Sarmento A1 - Boulangeat, Isabelle A1 - Crawford, Michael Scott A1 - Bohn, Friedrich A1 - De Raedt, Jonathan A1 - Scherer, Cedric A1 - Svenning, Jens-Christian A1 - Thonicke, Kirsten A1 - Schurr, Frank M. A1 - Grimm, Volker A1 - Kramer-Schadt, Stephanie T1 - The dimensionality of stability depends on disturbance type JF - Ecology letters N2 - Ecosystems respond in various ways to disturbances. Quantifying ecological stability therefore requires inspecting multiple stability properties, such as resistance, recovery, persistence and invariability. Correlations among these properties can reduce the dimensionality of stability, simplifying the study of environmental effects on ecosystems. A key question is how the kind of disturbance affects these correlations. We here investigated the effect of three disturbance types (random, species-specific, local) applied at four intensity levels, on the dimensionality of stability at the population and community level. We used previously parameterized models that represent five natural communities, varying in species richness and the number of trophic levels. We found that disturbance type but not intensity affected the dimensionality of stability and only at the population level. The dimensionality of stability also varied greatly among species and communities. Therefore, studying stability cannot be simplified to using a single metric and multi-dimensional assessments are still to be recommended. KW - Community model KW - disturbance intensity KW - disturbance type KW - extinction KW - individual-based model KW - invariability KW - persistence KW - recovery KW - resistance Y1 - 2019 U6 - https://doi.org/10.1111/ele.13226 SN - 1461-023X SN - 1461-0248 VL - 22 IS - 4 SP - 674 EP - 684 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Seifert, Linda I. A1 - Weithoff, Guntram A1 - Vos, Matthijs T1 - Extreme heat changes post-heat wave community reassembly JF - Ecology and evolution N2 - Climate forecasts project further increases in extremely high-temperature events. These present threats to biodiversity, as they promote population declines and local species extinctions. This implies that ecological communities will need to rely more strongly on recovery processes, such as recolonization from a meta-community context. It is poorly understood how differences in extreme event intensity change the outcome of subsequent community reassembly and if such extremes modify the biotic environment in ways that would prevent the successful re-establishment of lost species. We studied replicated aquatic communities consisting of algae and herbivorous rotifers in a design that involved a control and two different heat wave intensity treatments (29 degrees C and 39 degrees C). Animal species that suffered heat-induced extinction were subsequently re-introduced at the same time and density, in each of the two treatments. The 39 degrees C treatment led to community closure in all replicates, meaning that a previously successful herbivore species could not re-establish itself in the postheat wave community. In contrast, such closure never occurred after a 29 degrees C event. Heat wave intensity determined the number of herbivore extinctions and strongly affected algal relative abundances. Re-introduced herbivore species were thus confronted with significantly different food environments. This ecological legacy generated by heat wave intensity led to differences in the failure or success of herbivore species re-introductions. Reassembly was significantly more variable, and hence less predictable, after an extreme heat wave, and was more canalized after a moderate one. Our results pertain to relatively simple communities, but they suggest that ecological legacies introduced by extremely high-temperature events may change subsequent ecological recovery and even prevent the successful re-establishment of lost species. Knowing the processes promoting and preventing ecological recovery is crucial to the success of species re-introduction programs and to our ability to restore ecosystems damaged by environmental extremes. KW - Biodiversity KW - climate change KW - conservation KW - ecological restoration KW - extinction KW - extreme temperature events KW - global warming KW - maximum temperature KW - variability Y1 - 2015 U6 - https://doi.org/10.1002/ece3.1490 SN - 2045-7758 VL - 5 IS - 11 SP - 2140 EP - 2148 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Sommer, Robert S. A1 - Kalbe, Johannes A1 - Ekstrom, Jonas A1 - Benecke, Norbert A1 - Liljegren, Ronnie T1 - Range dynamics of the reindeer in Europe during the last 25,000 years JF - Journal of biogeography N2 - Aim To understand the role and significance of the reindeer, Rangifer tarandus (Linnaeus, 1758), as a specific indicator in terms of late Quaternary biogeography and to determine the effects of global climate change on its range and local extinction dynamics at the end of the Ice Age. Location Late Pleistocene/early Holocene range of reindeer over all of central and western Europe, including southern Scandinavia and northern Iberia, but excluding Russia, Belarus and the Ukraine. Methods Radiocarbon-dated subfossil records of R. tarandus from both archaeological and natural deposits younger than 25,000 years were assembled in a database. The distribution area was divided into six representative regions. The C-14 dates were calibrated and plotted chronologically in maps in order to compare presence and absence and regional extinction patterns from one region to another. Main conclusions The late Quaternary record for reindeer in Europe during the last 25 kyr shows a climate-driven dispersal and retreat in response to climate change, with regional variations. The collapse of the mammoth steppe biome did not lead to the local extinction in Europe, as in the case of other megafaunal species. Rangifer tarandus co-existed for about 3000 years during the Late Glacial and early Holocene with typical temperate species such as red deer and roe deer in non-analogue faunal communities. The regional extinction at the end of the Pleistocene coincides with the transition from light open birch/pine forests to pine/deciduous forests. KW - Climate change KW - environmental change KW - extinction KW - global change KW - late Quaternary KW - Pleistocene/Holocene transition KW - Rangifer tarandus KW - reindeer Y1 - 2014 U6 - https://doi.org/10.1111/jbi.12193 SN - 0305-0270 SN - 1365-2699 VL - 41 IS - 2 SP - 298 EP - 306 PB - Wiley-Blackwell CY - Hoboken ER -