Your search keyword '"Valdiosera C"' showing total 38 results

1. Sex estimation using long bones in the largest burial site of the Copper Age: Linear discriminant analysis and random forest

Author

Díaz-Navarro, S., Díez-Hermano, S., Rojo-Guerra, M.A., Lomba Maurandi, J., Valdiosera, C., Gunther, T., and Uriarte, M. Haber

Published

2024

2. El ADN antiguo aplicado a contextos arqueopaleontológicos: el caso de la cueva de Arlanpe (Lemoa, Bizkaia)

Author

Iriarte, E., Arsuaga, J.L., Rodríguez, R., Arceredillo, D., Ureña, I., Garate, D., Svensson, E.M., Ríos-Garaizar, J., Gómez-Olivencia, A., and Valdiosera, C.

Subjects

Determinación taxonómica, domesticación, ADN mitocondrial., Auxiliary sciences of history, Archaeology, CC1-960

Abstract

Los estudios de ADN antiguo están permitiendo conocer nuevos datos sobre la biología de especies actuales y extintas. Las técnicas de ADN antiguo pueden ser una herramienta adicional y complementaria dentro de los estudios multidisciplinares que son necesarios para abordar distintas problemáticas arqueopaleontológicas. En este artículo repasamos algunas de las aplicaciones en estos contextos: la determinación taxonómica y sexual, los estudios para conocer el proceso de domesticación, o la estructura filogeográfica durante ciclos glaciares subrayando la existencia o no de refugios glaciares. También proporcionamos información preliminar referente a la aplicación de estas técnicas en el yacimiento de Arlanpe (Lemoa, Bizkaia). En este yacimiento hemos obtenido ADN mitocondrial de muestras de oso pardo, gran bóvido y cabra montés. Una de las muestras de oso pardo de Arlanpe está dentro del clado 3c compuesto de osos pardos extintos de Alaska. Dos de las muestras de gran bóvido de Arlanpe han sido clasificadas como uro (Bos primigenius) mediante métodos genéticos.

Published

2011

3. Four millennia of Iberian biomolecular prehistory illustrate the impact of prehistoric migrations at the far end of Eurasia

Author

Valdiosera, C., Günther, T., Vera-Rodríguez, J.C., Ureña, I., Iriarte, E., Rodríguez-Varela, R., Simões, L.G., Martínez-Sánchez, R.M., Svensson, E.M., Malmström, H., Rodríguez, L., De Castro, J.-M.B., Carbonell, E., Alday, A., Hernández Vera, J.A., Götherström, A., Carretero, J.-M., Arsuaga, J.L., Smith, C.I., and Jakobsson, M.

Abstract

Population genomic studies of ancient human remains have shown how modern-day European population structure has been shaped by a number of prehistoric migrations. The Neolithization of Europe has been associated with large-scale migrations from Anatolia, which was followed by migrations of herders from the Pontic steppe at the onset of the Bronze Age. Southwestern Europe was one of the last parts of the continent reached by these migrations, and modern-day populations from this region show intriguing similarities to the initial Neolithic migrants. Partly due to climatic conditions that are unfavorable for DNA preservation, regional studies on the Mediterranean remain challenging. Here, we present genome-wide sequence data from 13 individuals combined with stable isotope analysis from the north and south of Iberia covering a four-millennial temporal transect (7, 500–3, 500 BP). Early Iberian farmers and Early Central European farmers exhibit significant genetic differences, suggesting two independent fronts of the Neolithic expansion. The first Neolithic migrants that arrived in Iberia had low levels of genetic diversity, potentially reflecting a small number of individuals; this diversity gradually increased over time from mixing with local hunter-gatherers and potential population expansion. The impact of post-Neolithic migrations on Iberia was much smaller than for the rest of the continent, showing little external influence from the Neolithic to the Bronze Age. Paleodietary reconstruction shows that these populations have a remarkable degree of dietary homogeneity across space and time, suggesting a strong reliance on terrestrial food resources despite changing culture and genetic make-up.

Published

2018

4. Unraveling the genetic history of the European wild goats

Author

Urena, I., Ersmark, E., Samaniego, J. A., Galindo-Pellicena, M. A., Cregut-Bonnoure, E., Bolivar, H., Gomez-Olivencia, A., Rios-Garaizar, J., Garate, D., Dalen, L., Arsuaga, J. L., Valdiosera, C. E., Urena, I., Ersmark, E., Samaniego, J. A., Galindo-Pellicena, M. A., Cregut-Bonnoure, E., Bolivar, H., Gomez-Olivencia, A., Rios-Garaizar, J., Garate, D., Dalen, L., Arsuaga, J. L., and Valdiosera, C. E.

Published

2018

5. Fallen and Lost into the Abyss? A Mesolithic Human Skull from Sima Hedionda IV (Casares, Málaga, Iberian Peninsula)

Author

Martinez-Sanchez Rafael M., Bretones-García María Dolores, Valdiosera Cristina, Vera-Rodríguez Juan Carlos, López Flores Inmaculada, Simón-Vallejo María D., Ruiz Borrega Pilar, Martínez Fernández María J., Romo Villalba Jorge L., Bermúdez Jiménez Francisco, Martín de los Santos Rafael, Pardo-Gordó Salvador, and Cortés Sánchez Miguel

Subjects

human remains, mesolithic, southern iberia, sinkholes, radiocarbon, Archaeology, CC1-960

Abstract

The presence of scattered prehistoric human bones in caves and sinkholes is common in many regions of Iberia. These are usually interpreted as erratic elements coming from burial contexts, usually collective associations. These burial contexts are very frequent in karst areas of the Iberian Peninsula since the Early Neolithic, mostly in the Late Neolithic, and Copper Age, while findings from earlier chronologies are much more unusual. In this work, we present partial remains of a human skull from the Mesolithic period, recovered from a cave in the Strait of Gibraltar area. Although there is no conclusive evidence pointing to a dismantled burial context, this constitutes an isolated find, where its final location appears to be consistent with gravitational fall followed by water transportation.

Published

2022

6. Ancient DNA reveals past existence of Eurasian lynx in Spain

Author

Rodríguez-Varela, R., García, N., Nores, C., Álvarez-Lao, D., Barnett, Ross, Arsuaga, J. L., Valdiosera, C., Rodríguez-Varela, R., García, N., Nores, C., Álvarez-Lao, D., Barnett, Ross, Arsuaga, J. L., and Valdiosera, C.

Abstract

The known distribution of the Iberian lynx Lynx pardinus within the Iberian Peninsula since the Middle Pleistocene and the lack of reliable records of Eurasian lynx Lynx lynx in this region have led to the assumption that the Iberian lynx was the sole inhabitant of Iberia. In this study, we identified ancient mitochondrial DNA (a total of 337 base pairs from the control region and cytochrome b) from eight northern Iberian lynx remains as Eurasian lynx. These results confirm the presence of Eurasian lynx in northern Iberia from the Pleistocene/Holocene boundary until just a few centuries ago. The paleontological record and our data indicate a population replacement of the Iberian lynx by the Eurasian lynx during the Pleistocene/Holocene transition in the Cantabrian cornice of Spain. Phylogeographic patterns of Late Pleistocene and Holocene Eurasian lynx from Iberia, France, Italy and Denmark show that this felid had a more complex phylogeographic history in the past than modern day populations suggest.

Published

2016

7. Pulling out the 1 %: Whole-Genome Capture for the Targeted Enrichment of Ancient DNA Sequencing Libraries

Author

Carpenter ML, Buenrostro JD, Valdiosera C, Schroeder H, Allentoft ME, Sikora M, Rasmussen M, Gravel S, Guillxe9n S, Nekhrizov G, Leshtakov K, Dimitrova D, Theodossiev N, Pettener D, Luiselli D, Sandoval K, Moreno-Estrada A, Li Y, Wang J, Gilbert MTP, Willerslev E, and Greenleaf WJ

Published

2013

8. AncientDNAreveals past existence ofEurasian lynx inSpain

Author

Rodríguez‐Varela, R., primary, García, N., additional, Nores, C., additional, Álvarez‐Lao, D., additional, Barnett, R., additional, Arsuaga, J. L., additional, and Valdiosera, C., additional

Published

2015

9. Pulling out the 1%: Whole-Genome Capture for the Targeted Enrichment of Ancient DNA Sequencing Libraries

Author

Carpenter, M., Buenrostro, J., Valdiosera, C., Schroeder, H., Allentoft, M., Sikora, M., Rasmussen, M., Gravel, S., Guillen, S., Nekhrizov, G., Leshtakov, K., Dimitrova, D., Theodossiev, N., Petterner, D., Luiselli, D., Sandoval, K., Moreno-Estrada, A., Li, Y., Wang, Jun, Gilbert, Thomas, Willerslev, E., Greenleaf, W., Bustamante, C., Carpenter, M., Buenrostro, J., Valdiosera, C., Schroeder, H., Allentoft, M., Sikora, M., Rasmussen, M., Gravel, S., Guillen, S., Nekhrizov, G., Leshtakov, K., Dimitrova, D., Theodossiev, N., Petterner, D., Luiselli, D., Sandoval, K., Moreno-Estrada, A., Li, Y., Wang, Jun, Gilbert, Thomas, Willerslev, E., Greenleaf, W., and Bustamante, C.

Abstract

Most ancient specimens contain very low levels of endogenous DNA, precluding the shotgun sequencing of many interesting samples because of cost. Ancient DNA (aDNA) libraries often contain <1% endogenous DNA, with the majority of sequencing capacity taken up by environmental DNA. Here we present a capture-based method for enriching the endogenous component of aDNA sequencing libraries. By using biotinylated RNA baits transcribed from genomic DNA libraries, we are able to capture DNA fragments from across the human genome. We demonstrate this method on libraries created from four Iron Age and Bronze Age human teeth from Bulgaria, as well as bone samples from seven Peruvian mummies and a Bronze Age hair sample from Denmark. Prior to capture, shotgun sequencing of these libraries yielded an average of 1.2% of reads mapping to the human genome (including duplicates). After capture, this fraction increased substantially, with up to 59% of reads mapped to human and enrichment ranging from 6- to 159-fold. Furthermore, we maintained coverage of the majority of regions sequenced in the precapture library. Intersection with the 1000 Genomes Project reference panel yielded an average of 50,723 SNPs (range 3,062–147,243) for the postcapture libraries sequenced with 1 million reads, compared with 13,280 SNPs (range 217–73,266) for the precapture libraries, increasing resolution in population genetic analyses. Our whole-genome capture approach makes it less costly to sequence aDNA from specimens containing very low levels of endogenous DNA, enabling the analysis of larger numbers of samples.

Published

2013

10. Surprising migration and population size dynamics in ancient Iberian brown bears (Ursus arctos)

Author

Valdiosera, C., Garía-Garitagoitia, L., Garcia, N., Doadrio, I., Thomas, M., Hänni, C., Arsuaga, J.L., Barnes, I., Hofreiter, M., Orlando, L., Götherström, Anders, Valdiosera, C., Garía-Garitagoitia, L., Garcia, N., Doadrio, I., Thomas, M., Hänni, C., Arsuaga, J.L., Barnes, I., Hofreiter, M., Orlando, L., and Götherström, Anders

Abstract

The endangered brown bear populations (Ursus arctos) in Iberia have been suggested to be the last fragments of the brown bear population that served as recolonization stock for large parts of Europe during the Pleistocene. Conservation efforts are intense, and results are closely monitored. However, the efforts are based on the assumption that the Iberian bears are a unique unit that has evolved locally for an extended period. We have sequenced mitochondrial DNA (mtDNA) from ancient Iberian bear remains and analyzed them as a serial clataset, monitoring changes in diversity and occurrence of European haplogroups over time. Using these data, we show that the Iberian bear population has experienced a dynamic, recent evolutionary history. Not only has the population undergone mitochondrial gene flow from other European brown bears, but the effective population size also has fluctuated substantially. We conclude that the Iberian bear population has been a fluid evolutionary unit, developed by gene flow from other populations and population bottlenecks, far from being in genetic equilibrium or isolated from other brown bear populations. Thus, the current situation is highly unusual and the population may in fact be isolated for the first time in its history.

Published

2008

11. Ancient DNA reveals past existence of Eurasian lynx in Spain.

Author

Rodríguez‐Varela, R., García, N., Nores, C., Álvarez‐Lao, D., Barnett, R., Arsuaga, J. L., and Valdiosera, C.

Subjects

LYNX, DNA analysis, PLEISTOCENE-Holocene boundary

Abstract

The known distribution of the Iberian lynx Lynx pardinus within the Iberian Peninsula since the Middle Pleistocene and the lack of reliable records of Eurasian lynx Lynx lynx in this region have led to the assumption that the Iberian lynx was the sole inhabitant of Iberia. In this study, we identified ancient mitochondrial DNA (a total of 337 base pairs from the control region and cytochrome b) from eight northern Iberian lynx remains as Eurasian lynx. These results confirm the presence of Eurasian lynx in northern Iberia from the Pleistocene/ Holocene boundary until just a few centuries ago. The paleontological record and our data indicate a population replacement of the Iberian lynx by the Eurasian lynx during the Pleistocene/ Holocene transition in the Cantabrian cornice of Spain. Phylogeographic patterns of Late Pleistocene and Holocene Eurasian lynx from Iberia, France, Italy and Denmark show that this felid had a more complex phylogeographic history in the past than modern day populations suggest. [ABSTRACT FROM AUTHOR]

Published

2016

12. Typing single polymorphic nucleotides in mitochondrial DNA as a way to access Middle Pleistocene DNA

Author

Valdiosera, C., Garcia, N., Dalen, L., Smith, C., Kahlke, R. D., Liden, K., Angerbjörn, A., Arsuaga, J. L., Götherström, A., Valdiosera, C., Garcia, N., Dalen, L., Smith, C., Kahlke, R. D., Liden, K., Angerbjörn, A., Arsuaga, J. L., and Götherström, A.

Abstract

In this study, we have used a technique designed to target short fragments containing informative mitochondrial substitutions to extend the temporal limits of DNA recovery and study the molecular phylogeny of Ursus deningeri. We present a cladistic analysis using DNA recovered from 400 kyr old U. deningeri remains, which demonstrates U. deningeri's relation to Ursus spelaeus. This study extends the limits of recovery from skeletal remains by almost 300 kyr. Plant material from permafrost environments has yielded DNA of this age in earlier studies, and our data suggest that DNA in teeth from cave environments may be equally well preserved.

Published

2006

13. Genomic evidence for the Pleistocene and recent population history of Native Americans

Author

Raghavan, M., Steinrücken, M, Harris, M, Schiffels, Stephan, DeGiorgio, Michael, Albrechtsen, M, Valdiosera, M, Ávila-Arcos, M, Malaspinas, M, Eriksson, Anders, Moltke, M, Homburger, M, Wall, Jeff, Cornejo, Omar, Moreno-Mayar, M, Korneliussen, M, Pierre, M, Rasmussen, Rasmus, Campos, Paul, de Barros Damgaard, Peter, Allentoft, M., Lindo, John, Metspalu, M., Rodríguez-Varela, Carlos, Mansilla, M, Henrickson, Celeste, Seguin-Orlando, M, Malmström, M, Stafford, M, Shringarpure, M, Moreno-Estrada, M, Karmin, M., Tambets, Kristiina, Bergström, Anders, Xue, Yali, Vera, Vera, Friend, Andrew, Singarayer, M, Valdes, Paul, Balloux, François, Leboreiro, M, Vera, M, Rangel-Villalobos, M, Pettener, David, Luiselli, Donata, Davis, Loren, Heyer, M, Zollikofer, Chris, Ponce de León, M, Smith, M, Grimes, John, Pike, John, Deal, John, Fuller, M, Arriaza, Bernardo, Standen, Vivien, Luz, M., Ricaut, M, Guidon, M, Osipova, Ludmila, Voevoda, M., Posukh, Olga, Balanovsky, M, Lavryashina, M., Bogunov, M, Khusnutdinova, M, Gubina, M., Balanovska, M, Fedorova, M, Litvinov, Sergey, Malyarchuk, M, Derenko, M., Mosher, M., Archer, David, Cybulski, Jerome, Petzelt, Barbara, Mitchell, Joycelynn, Worl, Rosita, Norman, Paul, Parham, Peter, Kemp, Brian, Kivisild, Toomas, Smith, Chris, Sandhu, Manjinder, Crawford, Michael, Villems, Richard, Smith, David, Waters, Michael, Goebel, Ted, Johnson, John, Malhi, Ripan, Jakobsson, Mattias, Meltzer, David, Manica, Andrea, Durbin, Richard, Bustamante, Carlos, Song, Yun, Nielsen, Rasmus, Willerslev, Eske, Steinrucken, M., Harris, K., Rasmussen, S., Albrechtsen, A., Valdiosera, C., Avila-Arcos, M., Malaspinas, S., Moltke, I., Homburger, J., Moreno-Mayar, J., Korneliussen, S., Pierre, T., Rasmussen, M., Damgaard, P., Metspalu, E., Rodriguez-Varela, R., Mansilla, J., Seguin-Orlando, A., Malmstrom, H., Stafford, T., Shringarpure, S., Moreno-Estrada, A., Bergstrom, A., Warmuth, V., Singarayer, J., Leboreiro, I., Vera, J., Rangel-Villalobos, H., Heyer, E., Ponce De Leon, M., Grimes, V., Pike, K., Deal, M., Fuller, T., Ricaut, F., Guidon, N., Balanovsky, O., Bogunov, Y., Khusnutdinova, E., Balanovska, E., Fedorova, S., Malyarchuk, B., Norman, J., Kemp, M., Malhi, S., Meltzer, J., Song, S., Swedish Institute of Space Physics [Uppsala] (IRF), Institut de Recherche sur le Cancer et le Vieillissement (IRCAN), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), Human Evolution, The Wellcome Trust Sanger Institute [Cambridge], Centre National de la Recherche Scientifique (CNRS), School of Geographical Sciences [Bristol], University of Bristol [Bristol], University of Edinburgh, University of Bologna, Universidad de Tarapaca, Institute of Cytology and Genetics, Russian Academy of Sciences [Moscow] (RAS), School of Health Science, Higher Education Centre Novo mesto, Departments of Chemistry and of Structural Biology, Stanford University, Department of Anthropology, Washington State University (WSU), Leverhulme Centre for Human Evolutionary Studies University of Cambridge, University of Cambridge [UK] (CAM), Centre for Cybercrime and Computer Security [Newcastle], School of Computing Science [Newcastle], Newcastle University [Newcastle]-Newcastle University [Newcastle], Strangeways Research Laboratory, MRC, UMR 6578 : Anthropologie Bio-Culturelle (UAABC), Université de la Méditerranée - Aix-Marseille 2-Centre National de la Recherche Scientifique (CNRS), Harvard Medical School [Boston] (HMS), Evolutionary Biology, Uppsala University, Department of Biological Statistics and Computational Biology, Cornell University [New York], Dept Integrat Biol, Section for GeoGenetics, Globe Institute, Faculty of Health and Medical Sciences, University of Copenhagen = Københavns Universitet (KU)-University of Copenhagen = Københavns Universitet (KU)-Faculty of Health and Medical Sciences, University of Copenhagen = Københavns Universitet (KU)-University of Copenhagen = Københavns Universitet (KU), Eco-Anthropologie et Ethnobiologie (EAE), Muséum national d'Histoire naturelle (MNHN)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Department of Nuclear Medicine, Austin Health-Centre for Positron Emission Tomography (PET)-Austin Hospital [Melbourne], Austin Health, Laboratoire d'études spatiales et d'instrumentation en astrophysique (LESIA (UMR_8109)), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Fundaçao Museu do Homem Americano (FUMDHAM), Department of Mechanical Engineering, Sogang University, parent, Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Nice Sophia Antipolis (... - 2019) (UNS), Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA), Stanford University [Stanford], UMR 6578 : Adaptabilité Biologique et Culturelle (UAABC), Cornell University, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Raghavan, Maanasa, Steinrücken, Matthia, Harris, Kelley, Schiffels, Stephan, Rasmussen, Simon, Degiorgio, Michael, Albrechtsen, Ander, Valdiosera, Cristina, Ávila-Arcos, María C., Malaspinas, Anna-Sapfo, Eriksson, Ander, Moltke, Ida, Metspalu, Mait, Homburger, Julian R., Wall, Jeff, Cornejo, Omar E., Moreno-Mayar, J. Víctor, Korneliussen, Thorfinn S., Pierre, Tracey, Rasmussen, Morten, Campos, Paula F., De Barros Damgaard, Peter, Allentoft, Morten E., Lindo, John, Metspalu, Ene, Rodríguez-Varela, Ricardo, Mansilla, Josefina, Henrickson, Celeste, Seguin-Orlando, Andaine, Malmstöm, Helena, Stafford, Thoma, Shringarpure, Suyash S., Moreno-Estrada, André, Karmin, Monika, Tambets, Kristiina, Bergström, Ander, Xue, Yali, Warmuth, Vera, Friend, Andrew D., Singarayer, Joy, Valdes, Paul, Balloux, Francoi, Leboreiro, Ilán, Vera, Jose Lui, Rangel-Villalobos, Hector, Pettener, Davide, Luiselli, Donata, Davis, Loren G., Heyer, Evelyne, Zollikofer, Christoph P. E., Ponce De León, Marcia S., Smith, Colin I., Grimes, Vaughan, Pike, Kelly-Anne, Deal, Michael, Fuller, Benjamin T., Arriaza, Bernardo, Standen, Vivien, Luz, Maria F., Ricaut, Francoi, Guidon, Niede, Osipova, Ludmila, Voevoda, Mikhail I., Posukh, Olga L., Balanovsky, Oleg, Lavryashina, Maria, Bogunov, Yuri, Khusnutdinova, Elza, Gubina, Marina, Balanovska, Elena, Fedorova, Sardana, Litvinov, Sergey, Malyarchuk, Bori, Derenko, Miroslava, Mosher, M.J., Archer, David, Cybulski, Jerome, Petzelt, Barbara, Mitchell, Joycelynn, Worl, Rosita, Norman, Paul J., Parham, Peter, Kemp, Brian M., Kivisild, Tooma, Tyler-Smith, Chri, Sandhu, Manjinder S., Crawford, Michael, Villems, Richard, Smith, David Glenn, Waters, Michael R., Goebel, Ted, Johnson, John R., Malhi, Ripan S., Jakobsson, Mattia, Meltzer, David J., Manica, Andrea, Durbin, Richard, Bustamante, Carlos D., Song, Yun S., Nielsen, Rasmu, Willerslev, Eske, Université Nice Sophia Antipolis (1965 - 2019) (UNS), University of Bologna/Università di Bologna, University of Copenhagen = Københavns Universitet (UCPH)-University of Copenhagen = Københavns Universitet (UCPH)-Faculty of Health and Medical Sciences, and University of Copenhagen = Københavns Universitet (UCPH)-University of Copenhagen = Københavns Universitet (UCPH)

Subjects

ARCHAEOLOGICAL SEQUENCE, Gene Flow, Pleistocene, CRANIAL MORPHOLOGY, CLOVIS, MIGRATION, Human Migration, Population, [SHS.ANTHRO-BIO]Humanities and Social Sciences/Biological anthropology, Population genetics, NEW-WORLD, America, Biology, Beringia, Gene flow, SOUTH-AMERICA, 03 medical and health sciences, 0601 history and archaeology, education, History, Ancient, 030304 developmental biology, 0303 health sciences, education.field_of_study, CONDITIONAL SAMPLING DISTRIBUTION, Multidisciplinary, 060102 archaeology, Models, Genetic, Human migration, business.industry, Medicine (all), 06 humanities and the arts, BRAZIL, MODEL, Siberia, South american, ORIGINS, Genomic, Indians, North American, Ethnology, Athabascans, business, Human

Abstract

How and when the Americas were populated remains contentious. Using ancient and modern genome wide data we found that the ancestors of all present day Native Americans including Athabascans and Amerindians entered the Americas as a single migration wave from Siberia no earlier than 23 thousand years ago (ka) and after no more than an 8000 year isolation period in Beringia. After their arrival to the Americas ancestral Native Americans diversified into two basal genetic branches around 13 ka one that is now dispersed across North and South America and the other restricted to North America. Subsequent gene flow resulted in some Native Americans sharing ancestry with present day East Asians (including Siberians) and more distantly Australo Melanesians. Putative “Paleoamerican” relict populations including the historical Mexican Pericúes and South American Fuego Patagonians are not directly related to modern Australo Melanesians as suggested by the Paleoamerican Model. INTRODUCTION The consensus view on the peopling of the Americas is that ancestors of modern Native Americans entered the Americas from Siberia via the Bering Land Bridge and that this occurred at least {\textasciitilde}14.6 thousand years ago (ka). However the number and timing of migrations into the Americas remain controversial with conflicting interpretations based on anatomical and genetic evidence. RATIONALE In this study we address four major unresolved issues regarding the Pleistocene and recent population history of Native Americans: (i) the timing of their divergence from their ancestral group (ii) the number of migrations into the Americas (iii) whether there was {\textasciitilde}15000 years of isolation of ancestral Native Americans in Beringia (Beringian Incubation Model) and (iv) whether there was post Pleistocene survival of relict populations in the Americas related to Australo Melanesians as suggested by apparent differences in cranial morphologies between some early (“Paleoamerican”) remains and those of more recent Native Americans. We generated 31 high coverage modern genomes from the Americas Siberia and Oceania; 23 ancient genomic sequences from the Americas dating between {\textasciitilde}0.2 and 6 ka; and SNP chip genotype data from 79 present day individuals belonging to 28 populations from the Americas and Siberia. The above data sets were analyzed together with published modern and ancient genomic data from worldwide populations after masking some present day Native Americans for recent European admixture. RESULTS Using three different methods we determined the divergence time for all Native Americans (Athabascans and Amerindians) from their Siberian ancestors to be {\textasciitilde}20 ka and no earlier than {\textasciitilde}23 ka. Furthermore we dated the divergence between Athabascans (northern Native American branch together with northern North American Amerindians) and southern North Americans and South and Central Americans (southern Native American branch) to be {\textasciitilde}13 ka. Similar divergence times from East Asian populations and a divergence time between the two branches that is close in age to the earliest well established archaeological sites in the Americas suggest that the split between the branches occurred within the Americas. We additionally found that several sequenced Holocene individuals from the Americas are related to present day populations from the same geographical regions implying genetic continuity of ancient and modern populations in some parts of the Americas over at least the past 8500 years. Moreover our results suggest that there has been gene flow between some Native Americans from both North and South America and groups related to East Asians and Australo Melanesians the latter possibly through an East Asian route that might have included ancestors of modern Aleutian Islanders. Last using both genomic and morphometric analyses we found that historical Native American groups such as the Pericúes and Fuego Patagonians were not “relicts” of Paleoamericans and hence our results do not support an early migration of populations directly related to Australo Melanesians into the Americas. CONCLUSION Our results provide an upper bound of {\textasciitilde}23 ka on the initial divergence of ancestral Native Americans from their East Asian ancestors followed by a short isolation period of no more than {\textasciitilde}8000 years and subsequent entrance and spread across the Americas. The data presented are consistent with a single migration model for all Native Americans with later gene flow from sources related to East Asians and indirectly Australo Melanesians. The single wave diversified {\textasciitilde}13 ka likely within the Americas giving rise to the northern and southern branches of present day Native Americans. View larger version: In this page In a new window Download PowerPoint Slide for Teaching Population history of present day Native Americans.The ancestors of all Native Americans entered the Americas as a single migration wave from Siberia (purple) no earlier than {\textasciitilde}23 ka separate from the Inuit (green) and diversified into “northern” and “southern” Native American branches {\textasciitilde}13 ka. There is evidence of post divergence gene flow between some Native Americans and groups related to East Asians/Inuit and Australo Melanesians (yellow). Genetic history of Native Americans Several theories have been put forth as to the origin and timing of when Native American ancestors entered the Americas. To clarify this controversy Raghavan et al. examined the genomic variation among ancient and modern individuals from Asia and the Americas. There is no evidence for multiple waves of entry or recurrent gene flow with Asians in northern populations. The earliest migrations occurred no earlier than 23000 years ago from Siberian ancestors. Amerindians and Athabascans originated from a single population splitting approximately 13000 years ago. Science this issue 10.1126/science.aab3884

14. Genetic turnovers and northern survival during the last glacial maximum in European brown bears.

Author

Ersmark, E., Baryshnikov, G., Higham, T., Argant, A., Castaños, P., Döppes, D., Gasparik, M., Germonpré, M., Lidén, K., Lipecki, G., Marciszak, A., Miller, R., Moreno-Garcia, M., Pacher, M., Robu, M., Rodriguez-Varela, R., Rojo Guerra, M., Sabol, M., Spassov, N., Storå, J., Valdiosera, C., Villaluenga, A., Stewart, John R., Dalén, L., Ersmark, E., Baryshnikov, G., Higham, T., Argant, A., Castaños, P., Döppes, D., Gasparik, M., Germonpré, M., Lidén, K., Lipecki, G., Marciszak, A., Miller, R., Moreno-Garcia, M., Pacher, M., Robu, M., Rodriguez-Varela, R., Rojo Guerra, M., Sabol, M., Spassov, N., Storå, J., Valdiosera, C., Villaluenga, A., Stewart, John R., and Dalén, L.

Abstract

The current phylogeographic pattern of European brown bears (Ursus arctos) has commonly been explained by postglacial recolonization out of geographically distinct refugia in southern Europe, a pattern well in accordance with the expansion/contraction model. Studies of ancient DNA from brown bear remains have questioned this pattern, but have failed to explain the glacial distribution of mitochondrial brown bear clades and their subsequent expansion across the European continent. We here present 136 new mitochondrial sequences generated from 346 remains from Europe, ranging in age between the Late Pleistocene and historical times. The genetic data show a high Late Pleistocene diversity across the continent and challenge the strict confinement of bears to traditional southern refugia during the last glacial maximum (LGM). The mitochondrial data further suggest a genetic turnover just before this time, as well as a steep demographic decline starting in the mid-Holocene. Levels of stable nitrogen isotopes from the remains confirm a previously proposed shift toward increasing herbivory around the LGM in Europe. Overall, these results suggest that in addition to climate, anthropogenic impact and inter-specific competition may have had more important effects on the brown bear's ecology, demography, and genetic structure than previously thought.

15. Ancient DNA identifies post-glacial recolonisation, not recent bottlenecks, as the primary driver of contemporary mtDNA phylogeography and diversity in Scandinavian brown bears

Author

Alan Cooper, Sarah C Bray, Christina J. Adler, Stein-Erik Lauritzen, Jessica L. Metcalf, Kjartan Østbye, Eivind Østbye, Jeremy J. Austin, Kim Aaris-Sørensen, Cristina Valdiosera, Bray, Sarah, Austin, J J, Metcalfe, J, Ostbye, K, Ostbye, E, Lauritzen, S, Aaris-Sorensen, K, Valdiosera, C, Adler, C, and Cooper, A

Subjects

Conservation genetics, Phylogeography, Genetic diversity, Ancient DNA, Population bottleneck, Refugium (population biology), Ecology, Genetic structure, Biology, Ecology, Evolution, Behavior and Systematics, Holocene

Abstract

Aim: Brown bear populations in Scandinavia show a strong mitochondrial DNA (mtDNA) phylogeographic structure and low diversity relative to other parts of Europe. Identifying the timing and origins of this mtDNA structure is important for conservation programs aimed at restoring populations to a natural state. Therefore, it is essential to identify whether contemporary genetic structure is linked to post-glacial recolonisation from divergent source populations or an artefact of demographic impacts during recent population bottlenecks. We employed ancient DNA techniques to investigate the timing and potential causes of these patterns. Location: Scandinavia and Europe. Methods: Ancient mtDNA sequences from 20 post-glacial Scandinavian bears were used to investigate phylogeographic structure and genetic diversity over the last 6000 years. MtDNA from 19 Holocene Norwegian bears was compared with 499 sequences from proximate extant populations in Sweden, Finland, Estonia and western Russia. A single mtDNA sequence from a Holocene Denmark sample was compared with 149 ancient and modern bears from Western Europe. Results: All nineteen Holocene Norwegian samples are identical to or closely related to the most common mtDNA haplotype found in northern Europe today. MtDNA diversity was low and not significantly different from extant populations in northern Europe. In Denmark, we identified a single mtDNA haplotype that is previously unrecorded from Scandinavia. Main conclusions: The current discrete phylogeographic structure and lack of mtDNA diversity in Scandinavia is attributed to serial founder effects during post-glacial recolonisation from divergent source populations rather than an artefact of recent anthropogenic impacts. In contrast to previous interpretations, the recolonisation of southern Scandinavia may not have been limited to bears from a single glacial refugium. Results highlight the importance of conserving the long-term evolutionary separation between northern and southern populations and identify southern Scandinavia as an important reservoir of mtDNA diversity that is under threat in other parts of Europe. © 2012 Blackwell Publishing Ltd.

Published

2012

16. POPULATION GENETICS. Genomic evidence for the Pleistocene and recent population history of Native Americans

Author

Maanasa, Raghavan, Matthias, Steinrücken, Kelley, Harris, Stephan, Schiffels, Simon, Rasmussen, Michael, DeGiorgio, Anders, Albrechtsen, Cristina, Valdiosera, María C, Ávila-Arcos, Anna-Sapfo, Malaspinas, Anders, Eriksson, Ida, Moltke, Mait, Metspalu, Julian R, Homburger, Jeff, Wall, Omar E, Cornejo, J Víctor, Moreno-Mayar, Thorfinn S, Korneliussen, Tracey, Pierre, Morten, Rasmussen, Paula F, Campos, Peter, de Barros Damgaard, Morten E, Allentoft, John, Lindo, Ene, Metspalu, Ricardo, Rodríguez-Varela, Josefina, Mansilla, Celeste, Henrickson, Andaine, Seguin-Orlando, Helena, Malmström, Thomas, Stafford, Suyash S, Shringarpure, Andrés, Moreno-Estrada, Monika, Karmin, Kristiina, Tambets, Anders, Bergström, Yali, Xue, Vera, Warmuth, Andrew D, Friend, Joy, Singarayer, Paul, Valdes, Francois, Balloux, Ilán, Leboreiro, Jose Luis, Vera, Hector, Rangel-Villalobos, Davide, Pettener, Donata, Luiselli, Loren G, Davis, Evelyne, Heyer, Christoph P E, Zollikofer, Marcia S, Ponce de León, Colin I, Smith, Vaughan, Grimes, Kelly-Anne, Pike, Michael, Deal, Benjamin T, Fuller, Bernardo, Arriaza, Vivien, Standen, Maria F, Luz, Francois, Ricaut, Niede, Guidon, Ludmila, Osipova, Mikhail I, Voevoda, Olga L, Posukh, Oleg, Balanovsky, Maria, Lavryashina, Yuri, Bogunov, Elza, Khusnutdinova, Marina, Gubina, Elena, Balanovska, Sardana, Fedorova, Sergey, Litvinov, Boris, Malyarchuk, Miroslava, Derenko, M J, Mosher, David, Archer, Jerome, Cybulski, Barbara, Petzelt, Joycelynn, Mitchell, Rosita, Worl, Paul J, Norman, Peter, Parham, Brian M, Kemp, Toomas, Kivisild, Chris, Tyler-Smith, Manjinder S, Sandhu, Michael, Crawford, Richard, Villems, David Glenn, Smith, Michael R, Waters, Ted, Goebel, John R, Johnson, Ripan S, Malhi, Mattias, Jakobsson, David J, Meltzer, Andrea, Manica, Richard, Durbin, Carlos D, Bustamante, Yun S, Song, Rasmus, Nielsen, Eske, Willerslev, Raghavan M, Steinrücken M, Harris K, Schiffels S, Rasmussen S, DeGiorgio M, Albrechtsen A, Valdiosera C, Ávila-Arcos MC, Malaspinas AS, Eriksson A, Moltke I, Metspalu M, Homburger JR, Wall J, Cornejo OE, Moreno-Mayar JV, Korneliussen TS, Pierre T, Rasmussen M, Campos PF, Damgaard Pde B, Allentoft ME, Lindo J, Metspalu E, Rodríguez-Varela R, Mansilla J, Henrickson C, Seguin-Orlando A, Malmström H, Stafford T Jr, Shringarpure SS, Moreno-Estrada A, Karmin M, Tambets K, Bergström A, Xue Y, Warmuth V, Friend AD, Singarayer J, Valdes P, Balloux F, Leboreiro I, Vera JL, Rangel-Villalobos H, Pettener D, Luiselli D, Davis LG, Heyer E, Zollikofer CP, Ponce de León MS, Smith CI, Grimes V, Pike KA, Deal M, Fuller BT, Arriaza B, Standen V, Luz MF, Ricaut F, Guidon N, Osipova L, Voevoda MI, Posukh OL, Balanovsky O, Lavryashina M, Bogunov Y, Khusnutdinova E, Gubina M, Balanovska E, Fedorova S, Litvinov S, Malyarchuk B, Derenko M, Mosher MJ, Archer D, Cybulski J, Petzelt B, Mitchell J, Worl R, Norman PJ, Parham P, Kemp BM, Kivisild T, Tyler-Smith C, Sandhu MS, Crawford M, Villems R, Smith DG, Waters MR, Goebel T, Johnson JR, Malhi RS, Jakobsson M, Meltzer DJ, Manica A, Durbin R, Bustamante CD, Song YS, Nielsen R, and Willerslev E

Subjects

Gene Flow, Siberia, Models, Genetic, Athabascans and Amerindians, Human Migration, Genetic history of Native American, Indians, North American, Humans, Genomics, Americas, Population genetic, History, Ancient, Article

Abstract

How and when the Americas were populated remains contentious. Using ancient and modern genome-wide data, we find that the ancestors of all present-day Native Americans, including Athabascans and Amerindians, entered the Americas as a single migration wave from Siberia no earlier than 23 thousand years ago (KYA), and after no more than 8,000-year isolation period in Beringia. Following their arrival to the Americas, ancestral Native Americans diversified into two basal genetic branches around 13 KYA, one that is now dispersed across North and South America and the other is restricted to North America. Subsequent gene flow resulted in some Native Americans sharing ancestry with present-day East Asians (including Siberians) and, more distantly, Australo-Melanesians. Putative ‘Paleoamerican’ relict populations, including the historical Mexican Pericúes and South American Fuego-Patagonians, are not directly related to modern Australo-Melanesians as suggested by the Paleoamerican Model.

Published

2015

17. Pulling out the 1%:whole-genome capture for the targeted enrichment of ancient DNA sequencing libraries

Author

Nikola Theodossiev, Cristina Valdiosera, Simon Gravel, Diana Dimitrova, Yingrui Li, Krasimir Leshtakov, M. Thomas P. Gilbert, William J. Greenleaf, Martin Sikora, Andrés Moreno-Estrada, Meredith L. Carpenter, Morten E. Allentoft, Sonia Guillén, Hannes Schroeder, Eske Willerslev, Georgi Nekhrizov, Karla Sandoval, Jason D. Buenrostro, Morten Rasmussen, Jun Wang, Davide Pettener, Carlos Bustamante, Donata Luiselli, Carpenter ML, Buenrostro JD, Valdiosera C, Schroeder H, Allentoft ME, Sikora M, Rasmussen M, Gravel S, Guillén S, Nekhrizov G, Leshtakov K, Dimitrova D, Theodossiev N, Pettener D, Luiselli D, Sandoval K, Moreno-Estrada A, Li Y, Wang J, Gilbert MT, Willerslev E, Greenleaf WJ, and Bustamante CD.

Subjects

Male, 0106 biological sciences, Adolescent, Genomics, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, Genome, Bone and Bones, Article, Deep sequencing, 03 medical and health sciences, Principal Component Analysi, Neanderthal genome, MTDNA, Genetics, Humans, ANCIENT DNA, Genetics(clinical), Genomic library, Environmental DNA, Child, History, Ancient, Genetics (clinical), Gene Library, 030304 developmental biology, Principal Component Analysis, 0303 health sciences, Fossils, Shotgun sequencing, whole genome sequence, High-Throughput Nucleotide Sequencing, Nucleic Acid Hybridization, DNA, Mummies, Sequence Analysis, DNA, aDNA sequencing librarie, Ancient DNA, RNA, Human genome, Tooth, Hair

Abstract

Most ancient specimens contain very low levels of endogenous DNA, precluding the shotgun sequencing of many interesting samples because of cost. Ancient DNA (aDNA) libraries often contain

Published

2013

18. Five centuries of consanguinity, isolation, health, and conflict in Las Gobas: A Northern Medieval Iberian necropolis.

Author

Rodríguez-Varela R, Yaka R, Pochon Z, Sanchez-Pinto I, Solaun JL, Naidoo T, Guinet B, Pérez-Ramallo P, Lagerholm VK, de Anca Prado V, Valdiosera C, Krzewińska M, Herrasti L, Azkarate A, and Götherström A

Subjects

Humans, Spain, History, Medieval, Phylogeny, Archaeology, Female, Male, Animals, Consanguinity

Abstract

Between the 8th and 11th centuries CE, the Iberian Peninsula underwent profound upheaval due to the Umayyad invasion against the Visigoths, resulting in population shifts and lasting demographic impacts. Our understanding of this period is hindered by limited written sources and few archaeogenetic studies. We analyzed 33 individuals from Las Gobas, a necropolis in northern Spain, spanning the 7th to 11th centuries. By combining archaeological and osteological data with kinship, metagenomics, and ancestry analyses, we investigate conflicts, health, and demography of these individuals. We reveal intricate family relationships and genetic continuity within a consanguineous population while also identifying several zoonoses indicative of close interactions with animals. Notably, one individual was infected with a variola virus phylogenetically clustering with the northern European variola complex between ~885 and 1000 CE. Last, we did not detect a significant increase of North African or Middle East ancestries over time since the Islamic conquest of Iberia, possibly because this community remained relatively isolated.

Published

2024

19. Northwest African Neolithic initiated by migrants from Iberia and Levant.

Author

Simões LG, Günther T, Martínez-Sánchez RM, Vera-Rodríguez JC, Iriarte E, Rodríguez-Varela R, Bokbot Y, Valdiosera C, and Jakobsson M

Subjects

Humans, Africa, Northern, Europe ethnology, Farmers history, Genome, Human genetics, Genomics, History, Ancient, Africa, Western, Diffusion of Innovation, Agriculture history, Archaeology, Human Migration history, Transients and Migrants history

Abstract

In northwestern Africa, lifestyle transitioned from foraging to food production around 7,400 years ago but what sparked that change remains unclear. Archaeological data support conflicting views: (1) that migrant European Neolithic farmers brought the new way of life to North Africa 1-3 or (2) that local hunter-gatherers adopted technological innovations 4,5 . The latter view is also supported by archaeogenetic data 6 . Here we fill key chronological and archaeogenetic gaps for the Maghreb, from Epipalaeolithic to Middle Neolithic, by sequencing the genomes of nine individuals (to between 45.8- and 0.2-fold genome coverage). Notably, we trace 8,000 years of population continuity and isolation from the Upper Palaeolithic, via the Epipaleolithic, to some Maghrebi Neolithic farming groups. However, remains from the earliest Neolithic contexts showed mostly European Neolithic ancestry. We suggest that farming was introduced by European migrants and was then rapidly adopted by local groups. During the Middle Neolithic a new ancestry from the Levant appears in the Maghreb, coinciding with the arrival of pastoralism in the region, and all three ancestries blend together during the Late Neolithic. Our results show ancestry shifts in the Neolithization of northwestern Africa that probably mirrored a heterogeneous economic and cultural landscape, in a more multifaceted process than observed in other regions., (© 2023. The Author(s).)

Published

2023

20. Demographic history and genetic structure in pre-Hispanic Central Mexico.

Author

Villa-Islas V, Izarraras-Gomez A, Larena M, Campos EMP, Sandoval-Velasco M, Rodríguez-Rodríguez JE, Bravo-Lopez M, Moguel B, Fregel R, Garfias-Morales E, Medina Tretmanis J, Velázquez-Ramírez DA, Herrera-Muñóz A, Sandoval K, Nieves-Colón MA, Zepeda García Moreno G, Villanea FA, Medina EFV, Aguayo-Haro R, Valdiosera C, Ioannidis AG, Moreno-Estrada A, Jay F, Huerta-Sanchez E, Moreno-Mayar JV, Sánchez-Quinto F, and Ávila-Arcos MC

Subjects

Humans, History, Ancient, Mexico, Population Dynamics, Hispanic or Latino, Genetic Structures

Abstract

Aridoamerica and Mesoamerica are two distinct cultural areas in northern and central Mexico, respectively, that hosted numerous pre-Hispanic civilizations between 2500 BCE and 1521 CE. The division between these regions shifted southward because of severe droughts ~1100 years ago, which allegedly drove a population replacement in central Mexico by Aridoamerican peoples. In this study, we present shotgun genome-wide data from 12 individuals and 27 mitochondrial genomes from eight pre-Hispanic archaeological sites across Mexico, including two at the shifting border of Aridoamerica and Mesoamerica. We find population continuity that spans the climate change episode and a broad preservation of the genetic structure across present-day Mexico for the past 2300 years. Lastly, we identify a contribution to pre-Hispanic populations of northern and central Mexico from two ancient unsampled "ghost" populations.

Published

2023

21. Bioarchaeological evidence of one of the earliest Islamic burials in the Levant.

Author

Srigyan M, Bolívar H, Ureña I, Santana J, Petersen A, Iriarte E, Kırdök E, Bergfeldt N, Mora A, Jakobsson M, Abdo K, Braemer F, Smith C, Ibañez JJ, Götherström A, Günther T, and Valdiosera C

Subjects

Ethnicity, Genomics, Humans, White People, Archaeology, Burial history

Abstract

The Middle East plays a central role in human history harbouring a vast diversity of ethnic, cultural and religious groups. However, much remains to be understood about past and present genomic diversity in this region. Here we present a multidisciplinary bioarchaeological analysis of two individuals dated to the late 7th and early 8th centuries, the Umayyad Era, from Tell Qarassa, an open-air site in modern-day Syria. Radiocarbon dates and burial type are consistent with one of the earliest Islamic Arab burials in the Levant. Interestingly, we found genomic similarity to a genotyped group of modern-day Bedouins and Saudi rather than to most neighbouring Levantine groups. This study represents the genomic analysis of a secondary use site with characteristics consistent with an early Islamic burial in the Levant. We discuss our findings and possible historic scenarios in the light of forces such as genetic drift and their possible interaction with religious and cultural processes (including diet and subsistence practices)., (© 2022. The Author(s).)

Published

2022

22. Ancient pigs reveal a near-complete genomic turnover following their introduction to Europe.

Author

Frantz LAF, Haile J, Lin AT, Scheu A, Geörg C, Benecke N, Alexander M, Linderholm A, Mullin VE, Daly KG, Battista VM, Price M, Gron KJ, Alexandri P, Arbogast RM, Arbuckle B, Bӑlӑşescu A, Barnett R, Bartosiewicz L, Baryshnikov G, Bonsall C, Borić D, Boroneanţ A, Bulatović J, Çakirlar C, Carretero JM, Chapman J, Church M, Crooijmans R, De Cupere B, Detry C, Dimitrijevic V, Dumitraşcu V, du Plessis L, Edwards CJ, Erek CM, Erim-Özdoğan A, Ervynck A, Fulgione D, Gligor M, Götherström A, Gourichon L, Groenen MAM, Helmer D, Hongo H, Horwitz LK, Irving-Pease EK, Lebrasseur O, Lesur J, Malone C, Manaseryan N, Marciniak A, Martlew H, Mashkour M, Matthews R, Matuzeviciute GM, Maziar S, Meijaard E, McGovern T, Megens HJ, Miller R, Mohaseb AF, Orschiedt J, Orton D, Papathanasiou A, Pearson MP, Pinhasi R, Radmanović D, Ricaut FX, Richards M, Sabin R, Sarti L, Schier W, Sheikhi S, Stephan E, Stewart JR, Stoddart S, Tagliacozzo A, Tasić N, Trantalidou K, Tresset A, Valdiosera C, van den Hurk Y, Van Poucke S, Vigne JD, Yanevich A, Zeeb-Lanz A, Triantafyllidis A, Gilbert MTP, Schibler J, Rowley-Conwy P, Zeder M, Peters J, Cucchi T, Bradley DG, Dobney K, Burger J, Evin A, Girdland-Flink L, and Larson G

Subjects

Animals, Europe, History, Ancient, Middle East, Skin Pigmentation genetics, DNA, Ancient, DNA, Mitochondrial genetics, Domestication, Gene Flow, Phylogeny, Swine genetics

Abstract

Archaeological evidence indicates that pig domestication had begun by ∼10,500 y before the present (BP) in the Near East, and mitochondrial DNA (mtDNA) suggests that pigs arrived in Europe alongside farmers ∼8,500 y BP. A few thousand years after the introduction of Near Eastern pigs into Europe, however, their characteristic mtDNA signature disappeared and was replaced by haplotypes associated with European wild boars. This turnover could be accounted for by substantial gene flow from local European wild boars, although it is also possible that European wild boars were domesticated independently without any genetic contribution from the Near East. To test these hypotheses, we obtained mtDNA sequences from 2,099 modern and ancient pig samples and 63 nuclear ancient genomes from Near Eastern and European pigs. Our analyses revealed that European domestic pigs dating from 7,100 to 6,000 y BP possessed both Near Eastern and European nuclear ancestry, while later pigs possessed no more than 4% Near Eastern ancestry, indicating that gene flow from European wild boars resulted in a near-complete disappearance of Near East ancestry. In addition, we demonstrate that a variant at a locus encoding black coat color likely originated in the Near East and persisted in European pigs. Altogether, our results indicate that while pigs were not independently domesticated in Europe, the vast majority of human-mediated selection over the past 5,000 y focused on the genomic fraction derived from the European wild boars, and not on the fraction that was selected by early Neolithic farmers over the first 2,500 y of the domestication process., Competing Interests: The authors declare no conflict of interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

23. Genetic turnovers and northern survival during the last glacial maximum in European brown bears.

Author

Ersmark E, Baryshnikov G, Higham T, Argant A, Castaños P, Döppes D, Gasparik M, Germonpré M, Lidén K, Lipecki G, Marciszak A, Miller R, Moreno-García M, Pacher M, Robu M, Rodriguez-Varela R, Rojo Guerra M, Sabol M, Spassov N, Storå J, Valdiosera C, Villaluenga A, Stewart JR, and Dalén L

Abstract

The current phylogeographic pattern of European brown bears ( Ursus arctos ) has commonly been explained by postglacial recolonization out of geographically distinct refugia in southern Europe, a pattern well in accordance with the expansion/contraction model. Studies of ancient DNA from brown bear remains have questioned this pattern, but have failed to explain the glacial distribution of mitochondrial brown bear clades and their subsequent expansion across the European continent. We here present 136 new mitochondrial sequences generated from 346 remains from Europe, ranging in age between the Late Pleistocene and historical times. The genetic data show a high Late Pleistocene diversity across the continent and challenge the strict confinement of bears to traditional southern refugia during the last glacial maximum (LGM). The mitochondrial data further suggest a genetic turnover just before this time, as well as a steep demographic decline starting in the mid-Holocene. Levels of stable nitrogen isotopes from the remains confirm a previously proposed shift toward increasing herbivory around the LGM in Europe. Overall, these results suggest that in addition to climate, anthropogenic impact and inter-specific competition may have had more important effects on the brown bear's ecology, demography, and genetic structure than previously thought., Competing Interests: None declared.

Published

2019

24. Genomic Analyses of Pre-European Conquest Human Remains from the Canary Islands Reveal Close Affinity to Modern North Africans.

Author

Rodríguez-Varela R, Günther T, Krzewińska M, Storå J, Gillingwater TH, MacCallum M, Arsuaga JL, Dobney K, Valdiosera C, Jakobsson M, Götherström A, and Girdland-Flink L

Published

2018

25. Four millennia of Iberian biomolecular prehistory illustrate the impact of prehistoric migrations at the far end of Eurasia.

Author

Valdiosera C, Günther T, Vera-Rodríguez JC, Ureña I, Iriarte E, Rodríguez-Varela R, Simões LG, Martínez-Sánchez RM, Svensson EM, Malmström H, Rodríguez L, Bermúdez de Castro JM, Carbonell E, Alday A, Hernández Vera JA, Götherström A, Carretero JM, Arsuaga JL, Smith CI, and Jakobsson M

Subjects

Archaeology, DNA genetics, Europe, Genetic Variation, High-Throughput Nucleotide Sequencing, History, Ancient, Humans, DNA analysis, Farmers history, Genetics, Population, Genome, Human, Genomics methods, Human Migration history

Abstract

Population genomic studies of ancient human remains have shown how modern-day European population structure has been shaped by a number of prehistoric migrations. The Neolithization of Europe has been associated with large-scale migrations from Anatolia, which was followed by migrations of herders from the Pontic steppe at the onset of the Bronze Age. Southwestern Europe was one of the last parts of the continent reached by these migrations, and modern-day populations from this region show intriguing similarities to the initial Neolithic migrants. Partly due to climatic conditions that are unfavorable for DNA preservation, regional studies on the Mediterranean remain challenging. Here, we present genome-wide sequence data from 13 individuals combined with stable isotope analysis from the north and south of Iberia covering a four-millennial temporal transect (7,500-3,500 BP). Early Iberian farmers and Early Central European farmers exhibit significant genetic differences, suggesting two independent fronts of the Neolithic expansion. The first Neolithic migrants that arrived in Iberia had low levels of genetic diversity, potentially reflecting a small number of individuals; this diversity gradually increased over time from mixing with local hunter-gatherers and potential population expansion. The impact of post-Neolithic migrations on Iberia was much smaller than for the rest of the continent, showing little external influence from the Neolithic to the Bronze Age. Paleodietary reconstruction shows that these populations have a remarkable degree of dietary homogeneity across space and time, suggesting a strong reliance on terrestrial food resources despite changing culture and genetic make-up., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018

26. Population genomics of Mesolithic Scandinavia: Investigating early postglacial migration routes and high-latitude adaptation.

Author

Günther T, Malmström H, Svensson EM, Omrak A, Sánchez-Quinto F, Kılınç GM, Krzewińska M, Eriksson G, Fraser M, Edlund H, Munters AR, Coutinho A, Simões LG, Vicente M, Sjölander A, Jansen Sellevold B, Jørgensen R, Claes P, Shriver MD, Valdiosera C, Netea MG, Apel J, Lidén K, Skar B, Storå J, Götherström A, and Jakobsson M

Subjects

Europe, Female, Fossils, Genetic Variation, Genetics, Population methods, History, Ancient, Humans, Male, Membrane Proteins genetics, Membrane Proteins metabolism, Metagenomics methods, Pigmentation genetics, Scandinavian and Nordic Countries ethnology, Adaptation, Physiological physiology, Human Migration history, White People genetics

Abstract

Scandinavia was one of the last geographic areas in Europe to become habitable for humans after the Last Glacial Maximum (LGM). However, the routes and genetic composition of these postglacial migrants remain unclear. We sequenced the genomes, up to 57× coverage, of seven hunter-gatherers excavated across Scandinavia and dated from 9,500-6,000 years before present (BP). Surprisingly, among the Scandinavian Mesolithic individuals, the genetic data display an east-west genetic gradient that opposes the pattern seen in other parts of Mesolithic Europe. Our results suggest two different early postglacial migrations into Scandinavia: initially from the south, and later, from the northeast. The latter followed the ice-free Norwegian north Atlantic coast, along which novel and advanced pressure-blade stone-tool techniques may have spread. These two groups met and mixed in Scandinavia, creating a genetically diverse population, which shows patterns of genetic adaptation to high latitude environments. These potential adaptations include high frequencies of low pigmentation variants and a gene region associated with physical performance, which shows strong continuity into modern-day northern Europeans.

Published

2018

27. Genomic Analyses of Pre-European Conquest Human Remains from the Canary Islands Reveal Close Affinity to Modern North Africans.

Author

Rodríguez-Varela R, Günther T, Krzewińska M, Storå J, Gillingwater TH, MacCallum M, Arsuaga JL, Dobney K, Valdiosera C, Jakobsson M, Götherström A, and Girdland-Flink L

Subjects

Africa, Northern, Archaeology methods, Body Remains, Genetic Markers, Genetics, Population, Humans, Polymorphism, Single Nucleotide genetics, Spain, Tooth anatomy & histology, DNA, Ancient analysis, DNA, Mitochondrial genetics, Emigration and Immigration statistics & numerical data, Genome, Human genetics, Genome, Mitochondrial genetics, Racial Groups genetics

Abstract

The origins and genetic affinity of the aboriginal inhabitants of the Canary Islands, commonly known as Guanches, are poorly understood. Though radiocarbon dates on archaeological remains such as charcoal, seeds, and domestic animal bones suggest that people have inhabited the islands since the 5 th century BCE [1-3], it remains unclear how many times, and by whom, the islands were first settled [4, 5]. Previously published ancient DNA analyses of uniparental genetic markers have shown that the Guanches carried common North African Y chromosome markers (E-M81, E-M78, and J-M267) and mitochondrial lineages such as U6b, in addition to common Eurasian haplogroups [6-8]. These results are in agreement with some linguistic, archaeological, and anthropological data indicating an origin from a North African Berber-like population [1, 4, 9]. However, to date there are no published Guanche autosomal genomes to help elucidate and directly test this hypothesis. To resolve this, we generated the first genome-wide sequence data and mitochondrial genomes from eleven archaeological Guanche individuals originating from Gran Canaria and Tenerife. Five of the individuals (directly radiocarbon dated to a time transect spanning the 7 th -11 th centuries CE) yielded sufficient autosomal genome coverage (0.21× to 3.93×) for population genomic analysis. Our results show that the Guanches were genetically similar over time and that they display the greatest genetic affinity to extant Northwest Africans, strongly supporting the hypothesis of a Berber-like origin. We also estimate that the Guanches have contributed 16%-31% autosomal ancestry to modern Canary Islanders, here represented by two individuals from Gran Canaria., (Copyright © 2017 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2017

28. Ancient individuals from the North American Northwest Coast reveal 10,000 years of regional genetic continuity.

Author

Lindo J, Achilli A, Perego UA, Archer D, Valdiosera C, Petzelt B, Mitchell J, Worl R, Dixon EJ, Fifield TE, Rasmussen M, Willerslev E, Cybulski JS, Kemp BM, DeGiorgio M, and Malhi RS

Subjects

Archaeology, Emigration and Immigration, Female, Humans, Male, Phylogeny, DNA, Mitochondrial genetics, Evolution, Molecular, Genetic Variation, Genetics, Population, Genome, Mitochondrial, Genomics methods, Indians, North American genetics

Abstract

Recent genomic studies of both ancient and modern indigenous people of the Americas have shed light on the demographic processes involved during the first peopling. The Pacific Northwest Coast proves an intriguing focus for these studies because of its association with coastal migration models and genetic ancestral patterns that are difficult to reconcile with modern DNA alone. Here, we report the low-coverage genome sequence of an ancient individual known as "Shuká K áa" ("Man Ahead of Us") recovered from the On Your Knees Cave (OYKC) in southeastern Alaska (archaeological site 49-PET-408). The human remains date to ∼10,300 calendar (cal) y B.P. We also analyze low-coverage genomes of three more recent individuals from the nearby coast of British Columbia dating from ∼6,075 to 1,750 cal y B.P. From the resulting time series of genetic data, we show that the Pacific Northwest Coast exhibits genetic continuity for at least the past 10,300 cal y B.P. We also infer that population structure existed in the late Pleistocene of North America with Shuká K áa on a different ancestral line compared with other North American individuals from the late Pleistocene or early Holocene (i.e., Anzick-1 and Kennewick Man). Despite regional shifts in mtDNA haplogroups, we conclude from individuals sampled through time that people of the northern Northwest Coast belong to an early genetic lineage that may stem from a late Pleistocene coastal migration into the Americas., Competing Interests: The authors declare no conflict of interest.

Published

2017

29. Comparing ancient DNA survival and proteome content in 69 archaeological cattle tooth and bone samples from multiple European sites.

Author

Wadsworth C, Procopio N, Anderung C, Carretero JM, Iriarte E, Valdiosera C, Elburg R, Penkman K, and Buckley M

Subjects

Animals, Europe, Cattle genetics, DNA genetics, Fossils, Tooth

Abstract

Ancient DNA (aDNA) is the most informative biomolecule extracted from skeletal remains at archaeological sites, but its survival is unpredictable and its extraction and analysis is time consuming, expensive and often fails. Several proposed methods for better understanding aDNA survival are based upon the characterisation of some aspect of protein survival, but these are typically non-specific; proteomic analyses may offer an attractive method for understanding preservation processes. In this study, in-depth proteomic (LC-Orbitrap-MS/MS) analyses were carried out on 69 archaeological bovine bone and dentine samples from multiple European archaeological sites and compared with mitochondrial aDNA and amino acid racemisation (AAR) data. Comparisons of these data, including estimations of the relative abundances for seven selected non-collagenous proteins, indicate that the survival of aDNA in bone or dentine may correlate with the survival of some proteins, and that proteome complexity is a more useful predictor of aDNA survival than protein abundance or AAR. The lack of a strong correlation between the recovery of aDNA and the proteome abundance may indicate that the survival of aDNA is more closely linked to its ability to associate with bone hydroxyapatite crystals rather than to associate with proteins., Significance: Ancient biomolecule survival remains poorly understood, even with great advancements in 'omics' technologies, both in genomics and proteomics. This study investigates the survival of ancient DNA in relation to that of proteins, taking into account proteome complexity and the relative protein abundances to improve our understanding of survival mechanisms. The results show that although protein abundance is not necessarily directly related to aDNA survival, proteome complexity appears to be., (Copyright © 2017. Published by Elsevier B.V.)

Published

2017

30. Ancient mitochondrial DNA provides high-resolution time scale of the peopling of the Americas.

Author

Llamas B, Fehren-Schmitz L, Valverde G, Soubrier J, Mallick S, Rohland N, Nordenfelt S, Valdiosera C, Richards SM, Rohrlach A, Romero MI, Espinoza IF, Cagigao ET, Jiménez LW, Makowski K, Reyna IS, Lory JM, Torrez JA, Rivera MA, Burger RL, Ceruti MC, Reinhard J, Wells RS, Politis G, Santoro CM, Standen VG, Smith C, Reich D, Ho SY, Cooper A, and Haak W

Subjects

Americas, Archaeology, Bayes Theorem, Chile, DNA, Ancient, Emigration and Immigration, Genome, Mitochondrial genetics, Haplotypes genetics, Humans, Indians, North American genetics, South America, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population, Phylogeny

Abstract

The exact timing, route, and process of the initial peopling of the Americas remains uncertain despite much research. Archaeological evidence indicates the presence of humans as far as southern Chile by 14.6 thousand years ago (ka), shortly after the Pleistocene ice sheets blocking access from eastern Beringia began to retreat. Genetic estimates of the timing and route of entry have been constrained by the lack of suitable calibration points and low genetic diversity of Native Americans. We sequenced 92 whole mitochondrial genomes from pre-Columbian South American skeletons dating from 8.6 to 0.5 ka, allowing a detailed, temporally calibrated reconstruction of the peopling of the Americas in a Bayesian coalescent analysis. The data suggest that a small population entered the Americas via a coastal route around 16.0 ka, following previous isolation in eastern Beringia for ~2.4 to 9 thousand years after separation from eastern Siberian populations. Following a rapid movement throughout the Americas, limited gene flow in South America resulted in a marked phylogeographic structure of populations, which persisted through time. All of the ancient mitochondrial lineages detected in this study were absent from modern data sets, suggesting a high extinction rate. To investigate this further, we applied a novel principal components multiple logistic regression test to Bayesian serial coalescent simulations. The analysis supported a scenario in which European colonization caused a substantial loss of pre-Columbian lineages.

Published

2016

31. Genomic Evidence Establishes Anatolia as the Source of the European Neolithic Gene Pool.

Author

Omrak A, Günther T, Valdiosera C, Svensson EM, Malmström H, Kiesewetter H, Aylward W, Storå J, Jakobsson M, and Götherström A

Subjects

Genetics, Population methods, Genomics, Humans, Middle East, DNA, Mitochondrial genetics, Gene Pool, Genome, White People genetics

Abstract

Anatolia and the Near East have long been recognized as the epicenter of the Neolithic expansion through archaeological evidence. Recent archaeogenetic studies on Neolithic European human remains have shown that the Neolithic expansion in Europe was driven westward and northward by migration from a supposed Near Eastern origin [1-5]. However, this expansion and the establishment of numerous culture complexes in the Aegean and Balkans did not occur until 8,500 before present (BP), over 2,000 years after the initial settlements in the Neolithic core area [6-9]. We present ancient genome-wide sequence data from 6,700-year-old human remains excavated from a Neolithic context in Kumtepe, located in northwestern Anatolia near the well-known (and younger) site Troy [10]. Kumtepe is one of the settlements that emerged around 7,000 BP, after the initial expansion wave brought Neolithic practices to Europe. We show that this individual displays genetic similarities to the early European Neolithic gene pool and modern-day Sardinians, as well as a genetic affinity to modern-day populations from the Near East and the Caucasus. Furthermore, modern-day Anatolians carry signatures of several admixture events from different populations that have diluted this early Neolithic farmer component, explaining why modern-day Sardinian populations, instead of modern-day Anatolian populations, are genetically more similar to the people that drove the Neolithic expansion into Europe. Anatolia's central geographic location appears to have served as a connecting point, allowing a complex contact network with other areas of the Near East and Europe throughout, and after, the Neolithic., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

32. Ancient genomes link early farmers from Atapuerca in Spain to modern-day Basques.

Author

Günther T, Valdiosera C, Malmström H, Ureña I, Rodriguez-Varela R, Sverrisdóttir ÓO, Daskalaki EA, Skoglund P, Naidoo T, Svensson EM, Bermúdez de Castro JM, Carbonell E, Dunn M, Storå J, Iriarte E, Arsuaga JL, Carretero JM, Götherström A, and Jakobsson M

Subjects

Gene Pool, Geography, History, Ancient, Humans, Population Dynamics, Principal Component Analysis, Sequence Analysis, DNA, Spain, DNA genetics, Farmers history, Genome

Abstract

The consequences of the Neolithic transition in Europe--one of the most important cultural changes in human prehistory--is a subject of great interest. However, its effect on prehistoric and modern-day people in Iberia, the westernmost frontier of the European continent, remains unresolved. We present, to our knowledge, the first genome-wide sequence data from eight human remains, dated to between 5,500 and 3,500 years before present, excavated in the El Portalón cave at Sierra de Atapuerca, Spain. We show that these individuals emerged from the same ancestral gene pool as early farmers in other parts of Europe, suggesting that migration was the dominant mode of transferring farming practices throughout western Eurasia. In contrast to central and northern early European farmers, the Chalcolithic El Portalón individuals additionally mixed with local southwestern hunter-gatherers. The proportion of hunter-gatherer-related admixture into early farmers also increased over the course of two millennia. The Chalcolithic El Portalón individuals showed greatest genetic affinity to modern-day Basques, who have long been considered linguistic and genetic isolates linked to the Mesolithic whereas all other European early farmers show greater genetic similarity to modern-day Sardinians. These genetic links suggest that Basques and their language may be linked with the spread of agriculture during the Neolithic. Furthermore, all modern-day Iberian groups except the Basques display distinct admixture with Caucasus/Central Asian and North African groups, possibly related to historical migration events. The El Portalón genomes uncover important pieces of the demographic history of Iberia and Europe and reveal how prehistoric groups relate to modern-day people.

Published

2015

33. POPULATION GENETICS. Genomic evidence for the Pleistocene and recent population history of Native Americans.

Author

Raghavan M, Steinrücken M, Harris K, Schiffels S, Rasmussen S, DeGiorgio M, Albrechtsen A, Valdiosera C, Ávila-Arcos MC, Malaspinas AS, Eriksson A, Moltke I, Metspalu M, Homburger JR, Wall J, Cornejo OE, Moreno-Mayar JV, Korneliussen TS, Pierre T, Rasmussen M, Campos PF, de Barros Damgaard P, Allentoft ME, Lindo J, Metspalu E, Rodríguez-Varela R, Mansilla J, Henrickson C, Seguin-Orlando A, Malmström H, Stafford T Jr, Shringarpure SS, Moreno-Estrada A, Karmin M, Tambets K, Bergström A, Xue Y, Warmuth V, Friend AD, Singarayer J, Valdes P, Balloux F, Leboreiro I, Vera JL, Rangel-Villalobos H, Pettener D, Luiselli D, Davis LG, Heyer E, Zollikofer CPE, Ponce de León MS, Smith CI, Grimes V, Pike KA, Deal M, Fuller BT, Arriaza B, Standen V, Luz MF, Ricaut F, Guidon N, Osipova L, Voevoda MI, Posukh OL, Balanovsky O, Lavryashina M, Bogunov Y, Khusnutdinova E, Gubina M, Balanovska E, Fedorova S, Litvinov S, Malyarchuk B, Derenko M, Mosher MJ, Archer D, Cybulski J, Petzelt B, Mitchell J, Worl R, Norman PJ, Parham P, Kemp BM, Kivisild T, Tyler-Smith C, Sandhu MS, Crawford M, Villems R, Smith DG, Waters MR, Goebel T, Johnson JR, Malhi RS, Jakobsson M, Meltzer DJ, Manica A, Durbin R, Bustamante CD, Song YS, Nielsen R, and Willerslev E

Subjects

Americas, Gene Flow, Genomics, History, Ancient, Humans, Indians, North American genetics, Models, Genetic, Siberia, Human Migration history, Indians, North American history

Abstract

How and when the Americas were populated remains contentious. Using ancient and modern genome-wide data, we found that the ancestors of all present-day Native Americans, including Athabascans and Amerindians, entered the Americas as a single migration wave from Siberia no earlier than 23 thousand years ago (ka) and after no more than an 8000-year isolation period in Beringia. After their arrival to the Americas, ancestral Native Americans diversified into two basal genetic branches around 13 ka, one that is now dispersed across North and South America and the other restricted to North America. Subsequent gene flow resulted in some Native Americans sharing ancestry with present-day East Asians (including Siberians) and, more distantly, Australo-Melanesians. Putative "Paleoamerican" relict populations, including the historical Mexican Pericúes and South American Fuego-Patagonians, are not directly related to modern Australo-Melanesians as suggested by the Paleoamerican Model., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

34. The ancestry and affiliations of Kennewick Man.

Author

Rasmussen M, Sikora M, Albrechtsen A, Korneliussen TS, Moreno-Mayar JV, Poznik GD, Zollikofer CPE, de León MP, Allentoft ME, Moltke I, Jónsson H, Valdiosera C, Malhi RS, Orlando L, Bustamante CD, Stafford TW Jr, Meltzer DJ, Nielsen R, and Willerslev E

Subjects

Americas, Genome, Human genetics, Genomics, Humans, Male, Skull anatomy & histology, Washington, Indians, North American genetics, Phylogeny, Skeleton

Abstract

Kennewick Man, referred to as the Ancient One by Native Americans, is a male human skeleton discovered in Washington state (USA) in 1996 and initially radiocarbon dated to 8,340-9,200 calibrated years before present (BP). His population affinities have been the subject of scientific debate and legal controversy. Based on an initial study of cranial morphology it was asserted that Kennewick Man was neither Native American nor closely related to the claimant Plateau tribes of the Pacific Northwest, who claimed ancestral relationship and requested repatriation under the Native American Graves Protection and Repatriation Act (NAGPRA). The morphological analysis was important to judicial decisions that Kennewick Man was not Native American and that therefore NAGPRA did not apply. Instead of repatriation, additional studies of the remains were permitted. Subsequent craniometric analysis affirmed Kennewick Man to be more closely related to circumpacific groups such as the Ainu and Polynesians than he is to modern Native Americans. In order to resolve Kennewick Man's ancestry and affiliations, we have sequenced his genome to ∼1× coverage and compared it to worldwide genomic data including for the Ainu and Polynesians. We find that Kennewick Man is closer to modern Native Americans than to any other population worldwide. Among the Native American groups for whom genome-wide data are available for comparison, several seem to be descended from a population closely related to that of Kennewick Man, including the Confederated Tribes of the Colville Reservation (Colville), one of the five tribes claiming Kennewick Man. We revisit the cranial analyses and find that, as opposed to genome-wide comparisons, it is not possible on that basis to affiliate Kennewick Man to specific contemporary groups. We therefore conclude based on genetic comparisons that Kennewick Man shows continuity with Native North Americans over at least the last eight millennia.

Published

2015

35. Genomic diversity and admixture differs for Stone-Age Scandinavian foragers and farmers.

Author

Skoglund P, Malmström H, Omrak A, Raghavan M, Valdiosera C, Günther T, Hall P, Tambets K, Parik J, Sjögren KG, Apel J, Willerslev E, Storå J, Götherström A, and Jakobsson M

Subjects

DNA, Mitochondrial history, Genomics, History, Ancient, Humans, Scandinavian and Nordic Countries, White People history, Agriculture history, DNA, Mitochondrial genetics, Genetic Variation, Genome, Human, White People genetics

Abstract

Prehistoric population structure associated with the transition to an agricultural lifestyle in Europe remains a contentious idea. Population-genomic data from 11 Scandinavian Stone Age human remains suggest that hunter-gatherers had lower genetic diversity than that of farmers. Despite their close geographical proximity, the genetic differentiation between the two Stone Age groups was greater than that observed among extant European populations. Additionally, the Scandinavian Neolithic farmers exhibited a greater degree of hunter-gatherer-related admixture than that of the Tyrolean Iceman, who also originated from a farming context. In contrast, Scandinavian hunter-gatherers displayed no significant evidence of introgression from farmers. Our findings suggest that Stone Age foraging groups were historically in low numbers, likely owing to oscillating living conditions or restricted carrying capacity, and that they were partially incorporated into expanding farming groups., (Copyright © 2014, American Association for the Advancement of Science.)

Published

2014

36. Complete mitochondrial genome sequence of a Middle Pleistocene cave bear reconstructed from ultrashort DNA fragments.

Author

Dabney J, Knapp M, Glocke I, Gansauge MT, Weihmann A, Nickel B, Valdiosera C, García N, Pääbo S, Arsuaga JL, and Meyer M

Subjects

Animals, Base Sequence, Caves, DNA isolation & purification, Molecular Sequence Data, Phylogeny, Time Factors, DNA genetics, Genome, Mitochondrial genetics, Ursidae genetics

Abstract

Although an inverse relationship is expected in ancient DNA samples between the number of surviving DNA fragments and their length, ancient DNA sequencing libraries are strikingly deficient in molecules shorter than 40 bp. We find that a loss of short molecules can occur during DNA extraction and present an improved silica-based extraction protocol that enables their efficient retrieval. In combination with single-stranded DNA library preparation, this method enabled us to reconstruct the mitochondrial genome sequence from a Middle Pleistocene cave bear (Ursus deningeri) bone excavated at Sima de los Huesos in the Sierra de Atapuerca, Spain. Phylogenetic reconstructions indicate that the U. deningeri sequence forms an early diverging sister lineage to all Western European Late Pleistocene cave bears. Our results prove that authentic ancient DNA can be preserved for hundreds of thousand years outside of permafrost. Moreover, the techniques presented enable the retrieval of phylogenetically informative sequences from samples in which virtually all DNA is diminished to fragments shorter than 50 bp.

Published

2013

37. Ancient DNA reveals lack of postglacial habitat tracking in the arctic fox.

Author

Dalén L, Nyström V, Valdiosera C, Germonpré M, Sablin M, Turner E, Angerbjörn A, Arsuaga JL, and Götherström A

Subjects

Animals, Biological Evolution, Molecular Sequence Data, Scandinavian and Nordic Countries, DNA, Mitochondrial genetics, Ecosystem, Fossils, Foxes genetics, Natural History, Sequence Analysis, DNA

Abstract

How species respond to an increased availability of habitat, for example at the end of the last glaciation, has been well established. In contrast, little is known about the opposite process, when the amount of habitat decreases. The hypothesis of habitat tracking predicts that species should be able to track both increases and decreases in habitat availability. The alternative hypothesis is that populations outside refugia become extinct during periods of unsuitable climate. To test these hypotheses, we used ancient DNA techniques to examine genetic variation in the arctic fox (Alopex lagopus) through an expansion/contraction cycle. The results show that the arctic fox in midlatitude Europe became extinct at the end of the Pleistocene and did not track the habitat when it shifted to the north. Instead, a high genetic similarity between the extant populations in Scandinavia and Siberia suggests an eastern origin for the Scandinavian population at the end of the last glaciation. These results provide new insights into how species respond to climate change, since they suggest that populations are unable to track decreases in habitat avaliability. This implies that arctic species may be particularly vulnerable to increases in global temperatures.

Published

2007

38. Typing single polymorphic nucleotides in mitochondrial DNA as a way to access Middle Pleistocene DNA.

Author

Valdiosera C, García N, Dalén L, Smith C, Kahlke RD, Lidén K, Angerbjörn A, Arsuaga JL, and Götherström A

Subjects

Animals, Europe, Fossils, Genetic Markers, Phylogeny, Sequence Analysis, DNA, Cytochromes b genetics, DNA, Mitochondrial genetics, Nucleic Acid Amplification Techniques methods, Polymorphism, Single Nucleotide genetics, Ursidae genetics

Abstract

In this study, we have used a technique designed to target short fragments containing informative mitochondrial substitutions to extend the temporal limits of DNA recovery and study the molecular phylogeny of Ursus deningeri. We present a cladistic analysis using DNA recovered from 400 kyr old U. deningeri remains, which demonstrates U. deningeri's relation to Ursus spelaeus. This study extends the limits of recovery from skeletal remains by almost 300 kyr. Plant material from permafrost environments has yielded DNA of this age in earlier studies, and our data suggest that DNA in teeth from cave environments may be equally well preserved.

Published

2006