Your search keyword '"Mashkour, Marjan"' showing total 226 results

201. Pollen analysis of coprolites from a late Pleistocene–Holocene cave deposit (Wezmeh Cave, west Iran): insights into the late Pleistocene and late Holocene vegetation and flora of the central Zagros Mountains

Author

Djamali, Morteza, Biglari, Fereidoun, Abdi, Kamyar, Andrieu-Ponel, Valérie, de Beaulieu, Jacques-Louis, Mashkour, Marjan, and Ponel, Philippe

Subjects

*HOLOCENE palynology, *COPROLITES, *HOLOCENE paleoclimatology, *CAVES, *PALEOBOTANY

Abstract

Abstract: Coprolite pollen analysis is increasingly used by palynologists to reconstruct the palaeovegetation especially in the arid to semi-arid regions where lakes and peat bogs are scarce. This study is the first palynological analysis of coprolites in Iran to examine their potential in palaeoenvironmental reconstructions. Four pollen-rich coprolite samples were studied from the Wezmeh Cave in western Iran with a recently discovered late Quaternary (70 ka to sub-recent) faunal assemblage dominated by carnivore remains. Pollen analysis of coprolites shows that a mountain steppe dominated the glacial landscapes of the area. Only one sub-recent sample indicates the presence of dispersed tree stands. One sample was rich in Tulipa pollen suggesting that tulips were relatively abundant during the glacial periods. Cousinia (Asteraceae) pollen was found in all samples with considerable values in one sample indicating its importance in the glacial landscapes of the Zagros Mountains. This study revealed that coprolite pollen analysis can provide an invaluable source of information to understand the floristic composition of palaeolandscapes of the Irano-Turanian region. [Copyright &y& Elsevier]

Published

2011

202. The goat domestication process inferred from large-scale mitochondrial DNA analysis of wild and domestic individuals.

Author

Naderi, Saeid, Rezaei, Hamid-Reza, Pompanon, Francois, Blum, Michael G. B., Negrini, Riccardo, Naghash, Hamid-Reza, Baikız, Ozge, Mashkour, Marjan, Gaggiotti, Oscar E., Ajmone-Marsan, Paolo, Kence, Aykut, Vigne, Jean-Denis, and Taberlet, Pierre

Subjects

*NEOLITHIC Period, *MITOCHONDRIAL DNA, *DOMESTIC animals, *BIOLOGICAL evolution, *CAPRA aegagrus, *GENETICS

Abstract

The emergence of farming during the Neolithic transition, including the domestication of livestock, was a critical point in the evolution of human kind. The goat (Capra hircus) was one of the first domesticated ungulates. In this study, we compared the genetic diversity of domestic goats to that of the modern representatives of their wild ancestor, the bezoar, by analyzing 473 samples collected over the whole distribution range of the latter species. This partly confirms and significantly clarifies the goat domestication scenario already proposed by archaeological evidence. All of the mitochondrial DNA haplogroups found in current domestic goats have also been found in the bezoar. The geographic distribution of these haplogroups in the wild ancestor allowed the localization of the main domestication centers. We found no haplotype that could have been domesticated in the eastern half of the Iranian Plateau, nor further to the east. A signature of population expansion in bezoars of the C haplogroup suggests an early domestication center on the Central Iranian Plateau (Yazd and Kerman Provinces) and in the Southern Zagros (Fars Province), possibly corresponding to the management of wild flocks. However, the contribution of this center to the current domestic goat population is rather low (1.4%). We also found a second domestication center covering a large area in Eastern Anatolia, and possibly in Northern and Central Zagros. This last domestication center is the likely origin of almost all domestic goats today. This finding is consistent with archaeological data identifying Eastern Anatolia as an important domestication center. [ABSTRACT FROM AUTHOR]

Published

2008

203. Ancient cattle genomics, origins, and rapid turnover in the Fertile Crescent

Author

Andrew J. Hare, David Orton, Jörg Linstädter, Okan Ertugrul, Abdesalam Mikdad, Pierpaolo Maisano Delser, Johanna Lhuillier, Eberhard Sauer, Adamantios Sampson, Jelena Bulatović, Marjan Mashkour, Victoria E. Mullin, Marta Pereira Verdugo, Benjamin S. Arbuckle, Hossein Davoudi, Ron Kehati, Norbert Benecke, Mikhail V. Sablin, David E. MacHugh, Joachim Burger, Robin Bendrey, S. M. Farhad Vahidi, Kevin G. Daly, Matthew J. Collins, Matthew D. Teasdale, Saeed Ebrahimi, Liora Kolska Horwitz, Daniel G. Bradley, Roya Khazaeli, Fatemeh Azadeh Mohaseb, Chaido Koukouli-Chrysanthaki, George Kazantzis, Claude Rapin, Paula Wapnish Hesse, Amelie Scheu, Ivana Stojanović, Valeria Mattiangeli, Lionel Gourichon, Mutalib Khasanov, Deirdre Fulton, Ioannis Kontopoulos, Tarbiat Modares University [Tehran], ARCHEORIENT - Environnements et sociétés de l'Orient ancien (Archéorient), Université Lumière - Lyon 2 (UL2)-Centre National de la Recherche Scientifique (CNRS), University of Tehran, Zoological Institute, Russian Academy of Sciences [Moscow] (RAS), University of Reading (UOR), Centre d'Études Préhistoire, Antiquité, Moyen-Age (CEPAM), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), Department of Anthropology, Baylor University, Baylor University, Archéozoologie, archéobotanique : sociétés, pratiques et environnements (AASPE), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), HEC Paris - Recherche - Hors Laboratoire, Ecole des Hautes Etudes Commerciales (HEC Paris), Verdugo, Marta Pereira [0000-0003-1573-2493], Mullin, Victoria E [0000-0002-2604-2976], Scheu, Amelie [0000-0001-9455-0772], Daly, Kevin G [0000-0002-5579-6144], Maisano Delser, Pierpaolo [0000-0002-1844-1715], Hare, Andrew J [0000-0001-8595-6965], Burger, Joachim [0000-0001-9972-1868], Collins, Matthew J [0000-0003-4226-5501], Fulton, Deirdre [0000-0002-5922-5461], Mohaseb, Fatemeh A [0000-0003-3130-6603], Davoudi, Hossein [0000-0002-5236-1444], Ebrahimi, Saeed [0000-0003-4994-5892], MacHugh, David E [0000-0002-8112-4704], Ertuğrul, Okan [0000-0002-2949-1558], Kontopoulos, Ioannis [0000-0001-5591-8917], Sablin, Mikhail [0000-0002-2773-7454], Bendrey, Robin [0000-0001-5286-1601], Gourichon, Lionel [0000-0002-5160-5902], Arbuckle, Benjamin S [0000-0002-5445-5516], Mashkour, Marjan [0000-0003-3630-9459], Orton, David [0000-0003-4069-8004], Teasdale, Matthew D [0000-0002-7376-9975], Bradley, Daniel G [0000-0001-7335-7092], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, 010506 paleontology, Mitochondrial DNA, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, Human Migration, Introgression, Zoology, Genomics, 01 natural sciences, DNA, Mitochondrial, [SHS]Humanities and Social Sciences, Domestication, Evolution, Molecular, 03 medical and health sciences, Bronze Age, Animals, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], 0105 earth and related environmental sciences, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, [SDV.GEN]Life Sciences [q-bio]/Genetics, Multidisciplinary, Genome, biology, Human migration, business.industry, Aurochs, Zebu, biology.organism_classification, humanities, 030104 developmental biology, Fertility, Cattle, business

Abstract

Cattle were domesticated ∼10,000 years ago, but analysis of modern breeds has not elucidated their origins. Verdugo et al. performed genome-wide analysis of 67 ancient Near Eastern Bos taurus DNA samples. Several populations of ancient aurochs were progenitors of domestic cows. These genetic lineages mixed ∼4000 years ago in a region around the Indus Valley. Interestingly, mitochondrial analysis indicated that genetic material likely derived from arid-adapted Bos indicus (zebu) bulls was introduced by introgression.Science, this issue p. 173Genome-wide analysis of 67 ancient Near Eastern cattle, Bos taurus, remains reveals regional variation that has since been obscured by admixture in modern populations. Comparisons of genomes of early domestic cattle to their aurochs progenitors identify diverse origins with separate introgressions of wild stock. A later region-wide Bronze Age shift indicates rapid and widespread introgression of zebu, Bos indicus, from the Indus Valley. This process was likely stimulated at the onset of the current geological age, ~4.2 thousand years ago, by a widespread multicentury drought. In contrast to genome-wide admixture, mitochondrial DNA stasis supports that this introgression was male-driven, suggesting that selection of arid-adapted zebu bulls enhanced herd survival. This human-mediated migration of zebu-derived genetics has continued through millennia, altering tropical herding on each continent.

Published

2019

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

Author

Marjan Mashkour, Anastasia Papathanasiou, Joris Peters, John Chapman, Anne Tresset, Simon Stoddart, Antonio Tagliacozzo, Canan Çakirlar, Jörg Schibler, Daniel Helmer, Ceiridwen J. Edwards, Caroline Malone, Vesna Dimitrijević, Andrea Zeeb-Lanz, Christina Geörg, Alexandros Triantafyllidis, Panoraia Alexandri, Ophélie Lebrasseur, Thomas Cucchi, Victoria E. Mullin, Michael P. Richards, James Haile, Laurent A. F. Frantz, Cevdet Merih Erek, John R. Stewart, Joachim Burger, Mihai Gligor, Jörg Orschiedt, Gennady F. Baryshnikov, Lucia Sarti, Rebecca Miller, Youri van den Hurk, Evan K. Irving-Pease, Allowen Evin, Hitomi Hongo, Richard P. M. A. Crooijmans, Jelena Bulatović, Max Price, Keith Dobney, Adina Boroneanţ, Anton Ervynck, Mike Parker Pearson, Joséphine Lesur, Elisabeth Stephan, Holley Martlew, Sepideh Maziar, Kurt J. Gron, Bea De Cupere, Kevin G. Daly, Valentin Dumitraşcu, Anders Götherström, Arkadiusz Marciniak, Azadeh Fatemeh Mohaseb, Richard Sabin, David Orton, Greger Larson, Lionel Gourichon, Cleia Detry, Clive Bonsall, François-Xavier Ricaut, Louis du Plessis, Jean-Denis Vigne, José Miguel Carretero, Benjamin S. Arbuckle, Mike J. Church, Hendrik-Jan Megens, Giedre Motuzaite Matuzeviciute, Linus Girdland-Flink, Domenico Fulgione, Ross Barnett, Ron Pinhasi, Ninna Manaseryan, Liora Kolska Horwitz, Melinda A. Zeder, Peter Rowley-Conwy, Alexander Yanevich, Daniel G. Bradley, Amelie Scheu, László Bartosiewicz, Darko Radmanovic, Shiva Sheikhi, Michelle Alexander, Katerina Trantalidou, Cristina Valdiosera, Adrian Bӑlӑşescu, M. Thomas P. Gilbert, Vincent M. Battista, Anna Linderholm, Norbert Benecke, Aslı Erim-Özdoğan, Rose-Marie Arbogast, Thomas H. McGovern, Audrey T. Lin, Sophie Van Poucke, Roger Matthews, Martien A. M. Groenen, Erik Meijaard, Wolfram Schier, Nenad Tasić, Dusan Boric, Frantz, Laurent A. F., Haile, Jame, Lin, Audrey T., Scheu, Amelie, Geörg, Christina, Benecke, Norbert, Alexander, Michelle, Linderholm, Anna, Mullin, Victoria E., Daly, Kevin G., Battista, Vincent M., Price, Max, Gron, Kurt J., Alexandri, Panoraia, Arbogast, Rose-Marie, Arbuckle, Benjamin, Balaşescu, Adrian, Barnett, Ro, Bartosiewicz, László, Baryshnikov, Gennady, Bonsall, Clive, ̧, Dušan Boric Adina Boroneant, Bulatovic, Jelena, Çakirlar, Canan, Carretero, José-Miguel, Chapman, John, Church, Mike, Crooijmans, Richard, De Cupere, Bea, Detry, Cleia, Dimitrijevic, Vesna, Dumitras ̧cu, Valentin, du Plessis, Loui, Edwards, Ceiridwen J., Merih Erek, Cevdet, ̆an, AslıErim-Özdog, Ervynck, Anton, Fulgione, Domenico, Gligor, Mihai, Götherström, Ander, Gourichon, Lionel, Groenen, Martien A. M., Helmer, Daniel, Hongo, Hitomi, Horwitz, Liora K., Irving-Pease, Evan K., Lebrasseur, Ophélie, Lesur, Joséphine, Malone, Caroline, Manaseryan, Ninna, Marciniak, Arkadiusz, Martlew, Holley, Mashkour, Marjan, Matthews, Roger, Motuzaite Matuzeviciute, Giedre, Maziar, Sepideh, Meijaard, Erik, Mcgovern, Tom, Megens, Hendrik-Jan, Miller, Rebecca, Fatemeh Mohaseb, Azadeh, Orschiedt, Jörg, Orton, David, Papathanasiou, Anastasia, Parker Pearson, Mike, Pinhasi, Ron, Radmanovic, Darko, Ricaut, François-Xavier, Richards, Mike, Sabin, Richard, Sarti, Lucia, Schier, Wolfram, Sheikhi, Shiva, Stephan, Elisabeth, Stewart, John R., Stoddart, Simon, Tagliacozzo, Antonio, Tasic, Nenad, Trantalidou, Katerina, Tresset, Anne, Valdiosera, Cristina, van den Hurk, Youri, Van Poucke, Sophie, Vigne, Jean-Deni, Yanevich, Alexander, Zeeb-Lanz, Andrea, Triantafyllidis, Alexandro, Gilbert, M. Thomas P., Schibler, Jörg, Rowley-Conwy, Peter, Zeder, Melinda, Peters, Jori, Cucchi, Thoma, Bradley, Daniel G., Dobney, Keith, Burger, Joachim, Evin, Allowen, Girdland-Flink, Linu, Larson, Greger, Archaeology of Northwestern Europe, Groningen Institute of Archaeology, Piperno, Dolores R., Repositório da Universidade de Lisboa, Department of Natural Sciences, German Archaeological Institute (DAI), Texas A&M University [College Station], Transplant Research Program [Boston, MA, USA], Boston Children's Hospital, Archéologie et histoire ancienne : Méditerranée - Europe (ARCHIMEDE), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Ministère de la Culture et de la Communication (MCC)-Centre National de la Recherche Scientifique (CNRS), Department of Anthropology, Baylor University, Baylor University, University of York [York, UK], Stockholm University, Cardiff School of History, Ancient History, Archaeology and Religion, Cardiff University, Romanian Academy of Sciences, Animal Breeding and Genomics Centre, Wageningen University and Research [Wageningen] (WUR), UNIARQ, Universidade de Lisboa = University of Lisbon (ULISBOA), Department of Structural and Functional Biology, University of Naples Federico II = Università degli studi di Napoli Federico II, Stockholm Univ, Dept Biochem & Biophys, S-10691 Stockholm, Sweden, Gestion des ressources naturelles , environnements et sociétés (GReNES), Culture et Environnements, Préhistoire, Antiquité, Moyen-Age (CEPAM), Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA)-Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), ARCHEORIENT - Environnements et sociétés de l'Orient ancien (Archéorient), Université Lumière - Lyon 2 (UL2)-Centre National de la Recherche Scientifique (CNRS), University of Oxford, Archéozoologie, archéobotanique : sociétés, pratiques et environnements (AASPE), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), Goethe-Universität Frankfurt am Main, University of Liverpool, HEC Paris - Recherche - Hors Laboratoire, Ecole des Hautes Etudes Commerciales (HEC Paris), School of Archaeology, University College Dublin [Dublin] (UCD), Anthropologie Moléculaire et Imagerie de Synthèse (AMIS), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS), Department of Human Evolution [Leipzig], Max Planck Institute for Evolutionary Anthropology [Leipzig], Max-Planck-Gesellschaft-Max-Planck-Gesellschaft, Connaissance Organisation et Systèmes TECHniques (COSTECH), Université de Technologie de Compiègne (UTC), Department of Archaeology, University of Cambridge [UK] (CAM), Laboratorio di Paleontologia e Archeozoologia, Soprintendenza Speciale al Museo Nazionale Preistorico ed Etnografico 'L. Pigorini', Roma, Museo Nazionale Preistorico Etnografico 'L. Pigorini, Institute of archaeology (UCL), University College of London [London] (UCL), University of Copenhagen = Københavns Universitet (UCPH), University of Basel (Unibas), Institut für Paläoanatomie und Geschichte der Tiermedizin, Ludwig-Maximilians-Universität München (LMU), Department of Archaeology, University of Aberdeen, University of Aberdeen, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Ministère de la Culture et de la Communication (MCC)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Universidade de Lisboa (ULISBOA), Università degli studi di Napoli Federico II, Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS)-Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA), University of Oxford [Oxford], Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS), University of Copenhagen = Københavns Universitet (KU), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226, and Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE)

Subjects

0301 basic medicine, Swine, [SHS.ANTHRO-BIO]Humanities and Social Sciences/Biological anthropology, Skin Pigmentation, [SHS]Humanities and Social Sciences, Gene flow, Domestication, ddc:590, BREEDS, DOMESTIC PIGS, HISTORY, 0601 history and archaeology, Neolithic, History, Ancient, Phylogeny, Multidisciplinary, 060102 archaeology, INTROGRESSION, Europe, pigs, domestication, genomes, WILD, 06 humanities and the arts, Archaeological evidence, SPREAD, Coat, Mitochondrial DNA, Evolution, Zoology, Locus (genetics), Biology, Animal Breeding and Genomics, DNA, Mitochondrial, Middle East, 03 medical and health sciences, Animals, Fokkerij en Genomica, DNA, Ancient, General, ddc:930, Haplotype, DNA, 900 Geschichte und Geografie::930 Geschichte des Altertums (bis ca. 499), Archäologie::930 Geschichte des Altertums bis ca. 499, Archäologie, LONG, SIZE, 030104 developmental biology, domestication evolution gene flow Neolithic, WIAS

Abstract

International audience; 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 Euro-pean 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. domestication | evolution | gene flow | Neolithic

Published

2019

205. Ancient goat genomes reveal mosaic domestication in the Fertile Crescent

Author

Matthew J. Collins, Hossein Davoudi, Liora Kolska Horwitz, Boris Gasparian, Hossein Azizi Kharanaghi, Victoria E. Mullin, Daniel G. Bradley, Guy Bar-Oz, Marjan Mashkour, Marta Pereira Verdugo, Sepideh Maziar, Roghayeh Rahimi Sorkhani, Ali A. Vahdati, Delphine Decruyenaere, Azadeh Fatemeh Mohaseb, Andrew J. Hare, Özlem Çevik, David Orton, Jean-Denis Vigne, Norbert Benecke, Cevdet Merih Erek, Gary O. Rollefson, Matthew D. Teasdale, Eberhard Sauer, Valeria Mattiangeli, Canan Çakirlar, Andrea Manica, Joachim Burger, Ron Pinhasi, Homa Fathi, Tristan Cumer, Sanaz Beizaee Doost, Ron Kehati, Kevin G. Daly, Benjamin S. Arbuckle, Louise Martin, Pierpaolo Maisano Delser, François Pompanon, Roya Khazaeli, Amelie Scheu, Transplant Research Program [Boston, MA, USA], Boston Children's Hospital, Trinity College Dublin, Centre for Ultrahigh Bandwidth Devices for Optical Systems (CUDOS), The University of Sydney, Zinman Institute of Archaeology [Haifa], University of Haifa [Haifa], Laboratoire d'Ecologie Alpine (LECA ), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), University of Groningen [Groningen], Archéozoologie, archéobotanique : sociétés, pratiques et environnements (AASPE), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), Tarbiat Modares University [Tehran], Whitman College, Goethe-Universität Frankfurt am Main, National Academy of Sciences of the Republic of Armenia [Yerevan] (NAS RA), School of Archaeology, University College Dublin [Dublin] (UCD), University College of London [London] (UCL), HEC Paris - Recherche - Hors Laboratoire, Ecole des Hautes Etudes Commerciales (HEC Paris), Department of Anthropology, Baylor University, Baylor University, Daly, Kevin G [0000-0002-5579-6144], Maisano Delser, Pierpaolo [0000-0002-1844-1715], Mullin, Victoria E [0000-0002-2604-2976], Teasdale, Matthew D [0000-0002-7376-9975], Hare, Andrew J [0000-0001-8595-6965], Burger, Joachim [0000-0001-9972-1868], Verdugo, Marta Pereira [0000-0003-1573-2493], Collins, Matthew J [0000-0003-4226-5501], Pompanon, François [0000-0003-4600-0172], Mohaseb, Azadeh Fatemeh [0000-0003-3130-6603], Decruyenaere, Delphine [0000-0001-5496-7370], Davoudi, Hossein [0000-0002-5236-1444], Çevik, Özlem [0000-0001-5442-3744], Rollefson, Gary [0000-0002-1083-6675], Maziar, Sepideh [0000-0002-2253-7680], Pinhasi, Ron [0000-0003-3944-615X], Martin, Louise [0000-0002-2083-813X], Orton, David [0000-0003-4069-8004], Arbuckle, Benjamin S [0000-0002-5445-5516], Manica, Andrea [0000-0003-1895-450X], Mashkour, Marjan [0000-0003-3630-9459], Bradley, Daniel G [0000-0001-7335-7092], Apollo - University of Cambridge Repository, and Archaeology of Northwestern Europe

Subjects

0301 basic medicine, Follistatin, MESH: Domestication, AGRICULTURE, CATTLE, MESH: Follistatin, MESH: Africa, Genome, [SHS]Humanities and Social Sciences, Domestication, 0601 history and archaeology, MESH: Animals, MESH: Genetic Variation, MESH: Phylogeny, Phylogeny, ZAGROS, media_common, 2. Zero hunger, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, Multidisciplinary, Middle East, 060102 archaeology, Mosaicism, MESH: Asia, Goats, 06 humanities and the arts, Europe, Animals, Domestic, MESH: Mosaicism, Reproduction, TRAITS, Asia, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, media_common.quotation_subject, Biology, DNA, Mitochondrial, MESH: Goats, Mosaic, 03 medical and health sciences, Phylogenetics, Genetic variation, Animals, MESH: Genome, MESH: Animals, Domestic, DNA, Ancient, Dietary change, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], [SDV.GEN]Life Sciences [q-bio]/Genetics, NEAR-EAST, MESH: DNA, Mitochondrial, Genetic Variation, MESH: DNA, Ancient, GENE, MODEL, 030104 developmental biology, SHEEP, Evolutionary biology, ORIGINS, Africa, MESH: Europe

Abstract

How humans got their goatsLittle is known regarding the location and mode of the early domestication of animals such as goats for husbandry. To investigate the history of the goat, Dalyet al.sequenced mitochondrial and nuclear sequences from ancient specimens ranging from hundreds to thousands of years in age. Multiple wild populations contributed to the origin of modern goats during the Neolithic. Over time, one mitochondrial type spread and became dominant worldwide. However, at the whole-genome level, modern goat populations are a mix of goats from different sources and provide evidence for a multilocus process of domestication in the Near East. Furthermore, the patterns described support the idea of multiple dispersal routes out of the Fertile Crescent region by domesticated animals and their human counterparts.Science, this issue p.85

Published

2018

206. Pastoralism and animal management in Ulug Depe during the Bronze and Iron Ages

Author

Marjan Mashkour, Julie Daujat, Shiva Sheikhi Seno, Sonja Kroll, Fiorillo Denis, Sarieh Amiri, Margareta Tengberg, Johanna Lhuillier, Julio Bendezu Sarmiento, Archéozoologie, archéobotanique : sociétés, pratiques et environnements (AASPE), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), University of Tehran, Central Laboratory, Bioarchaeology Laboratory, ARCHEORIENT - Environnements et sociétés de l'Orient ancien (Archéorient), Université Lumière - Lyon 2 (UL2)-Centre National de la Recherche Scientifique (CNRS), Délégation Archéologique Francaise en Afghanistan, Eco-Anthropologie et Ethnobiologie (EAE), Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN)-Université Paris Diderot - Paris 7 (UPD7), Mashkour, Marjan, Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN), Éco-Anthropologie (EA), and Muséum national d'Histoire naturelle (MNHN)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SHS.ARCHEO] Humanities and Social Sciences/Archaeology and Prehistory, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], [SDV.BBM.BC] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], ComputingMilieux_MISCELLANEOUS, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biomolecules [q-bio.BM]

Abstract

International audience

Published

2018

207. The hydrogeochemistry of shallow groundwater from Lut Desert, Iran: The hottest place on Earth.

Author

Lyons, W. Berry, Welch, Susan A., Gardner, Christopher B., Sharifi, Arash, AghaKouchak, Amir, Mashkour, Marjan, Djamali, Morteza, Matinzadeh, Zeinab, Palacio, Sara, and Akhani, Hossein

Subjects

*WATER chemistry, *GROUNDWATER, *GYPSUM in soils, *SALINE waters, *GEOCHEMISTRY, *WATER

Abstract

This paper presents the first shallow groundwater geochemical data from the Lut Desert (Dasht-e-Lut), one of the hottest places on the planet. The waters are Na–Cl brines that have undergone extensive evaporation, but they are unlike seawater derived brines in that the K+ is low and the Ca2+ > Mg2+ and HCO 3 − > SO 4 2−. In addition to evapo-concentration, the most saline samples indicate that the dissolution of previously deposited salt also acts as a major control on the geochemistry of these waters. High concentrations of gypsum in surface soils along with the water geochemistry indicate the dissolution, precipitation, and reprecipitation of evaporite salts are very important to the overall chemistry of the near surface environment. As demonstrated by the high H 4 SiO 4 concentrations, the weathering of aluminosilicate minerals also contributes to the solutes present. Fixed nitrogen (NO 3 − + NO 2 −) concentrations suggest little to no denitrification is occurring in these waters. The processes controlling the geochemistry of the Lut waters are similar to those in other hyperarid regions of the Earth. • Surface water and shallow groundwater samples were collected from the Lut Desert, one of the hottest places on Earth. • Water composition shows evidence for extensive evapoconcentration and precipitation/dissolution of salts. • Weathering of silicates also contributes solutes to these brines. • Waters have high NO 3 − suggesting accumulation of NO 3 − from the atmosphere. [ABSTRACT FROM AUTHOR]

Published

2020

208. Mitochondrial DNA analysis shows a Near Eastern Neolithic origin for domestic cattle and no indication of domestication of European aurochs

Author

Barbara Voytek, Anne Tresset, Daniel Helmer, Tim H. Heupink, Holger Göldner, Barabara Herzig, Daniel G. Bradley, Sabine Schade-Lindig, Georg Roth, Ceiridwen J. Edwards, Sönke Hartz, Joachim Burger, Jean-Denis Vigne, Rose-Marie Arbogast, Ruth Bollongino, Marjan Mashkour, Betty Arndt, Mehmet Özdoğan, Andrew T. Chamberlain, Ulrich Schmölcke, Louis Chaix, Simon Y. W. Ho, Amelie Scheu, Erich Pucher, Eric Coqueugniot, Hans Peter Uerpmann, Norbert Benecke, Elisabeth Stephan, Greger Larson, Hans Jürgen Döhle, Beth Shapiro, Mark G. Thomas, Rick Schulting, László Bartosiewicz, Alice M. Choyke, Hitomi Hongo, István Vörös, Jillian F. Baird, Abigail R Freeman, Mihael Budja, Archéozoologie, archéobotanique : sociétés, pratiques et environnements (AASPE), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), and Mashkour, Marjan

Subjects

ved/biology.organism_classification_rank.species, 01 natural sciences, Haplogroup, Domestication, History, Ancient, General Environmental Science, 0303 health sciences, education.field_of_study, Ancient DNA, biology, General Medicine, Europe, Geography, Animals, Domestic, General Agricultural and Biological Sciences, Research Article, 010506 paleontology, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, Demographic history, Molecular Sequence Data, Population, [SDV.GEN.GA] Life Sciences [q-bio]/Genetics/Animal genetics, [SDV.BID]Life Sciences [q-bio]/Biodiversity, DNA, Mitochondrial, General Biochemistry, Genetics and Molecular Biology, Middle East, 03 medical and health sciences, Bronze Age, Animals, education, 030304 developmental biology, 0105 earth and related environmental sciences, [SHS.ARCHEO] Humanities and Social Sciences/Archaeology and Prehistory, General Immunology and Microbiology, ved/biology, Taurine cattle, Starburst network, Aurochs, biology.organism_classification, [SDE.ES]Environmental Sciences/Environmental and Society, Archaeology, [SDV.GEN.GA]Life Sciences [q-bio]/Genetics/Animal genetics, Haplotypes, Mitochondrial haplotypes, Evolutionary biology, Cattle, [SDE.ES] Environmental Sciences/Environmental and Society, [SDV.BID] Life Sciences [q-bio]/Biodiversity

Abstract

The extinct aurochs (Bos primigenius primigenius) was a large type of cattle that ranged over almost the whole Eurasian continent. The aurochs is the wild progenitor of modern cattle, but it is unclear whether European aurochs contributed to this process. To provide new insights into the demographic history of aurochs and domestic cattle, we have generated high-confidence mitochondrial DNA sequences from 59 archaeological skeletal finds, which were attributed to wild European cattle populations based on their chronological date and/or morphology. All pre-Neolithic aurochs belonged to the previously designated P haplogroup, indicating that this represents the Late Glacial Central European signature. We also report one new and highly divergent haplotype in a Neolithic aurochs sample from Germany, which points to greater variability during the Pleistocene. Furthermore, the Neolithic and Bronze Age samples that were classified with confidence as European aurochs using morphological criteria all carry P haplotype mitochondrial DNA, suggesting continuity of Late Glacial and Early Holocene aurochs populations in Europe. Bayesian analysis indicates that recent population growth gives a significantly better fit to our data than a constant-sized population, an observation consistent with a postglacial expansion scenario, possibly from a single European refugial population. Previous work has shown that most ancient and modern European domestic cattle carry haplotypes previously designated T. This, in combination with our new finding of a T haplotype in a very Early Neolithic site in Syria, lends persuasive support to a scenario whereby gracile Near Eastern domestic populations, carrying predominantly T haplotypes, replaced P haplotype-carrying robust autochthonous aurochs populations in Europe, from the Early Neolithic onward. During the period of coexistence, it appears that domestic cattle were kept separate from wild aurochs and introgression was extremely rare.

Published

2007

209. Dariali: The 'Caspian Gates' in the Caucasus from Antiquity to the Age of the Huns and the Middle Ages: The Joint Georgian-British Dariali Gorge Excavations and Surveys 2013-2016 [Hardback] E. W. Sauer, L. Chologauri, A. Gabunia, K. Hopper, D. Lawrence, Eve MacDonald, M. Mashkour, F. A. Mowat, D. Naskidashvili, K. Pitskhelauri, S. M.N. Priestman, L. Shumilovskikh, S.J. Simpson, A. Tiliakou et al

Author

Sauer, Eberhard W., University of Edinburgh, and Mashkour, Marjan

Subjects

[SDV.EE]Life Sciences [q-bio]/Ecology, environment, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, [SHS.ARCHEO] Humanities and Social Sciences/Archaeology and Prehistory, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, [SHS] Humanities and Social Sciences, ComputingMilieux_MISCELLANEOUS, [SHS]Humanities and Social Sciences

Abstract

International audience

210. Genome-wide population affinities and signatures of adaptation in hydruntines, sussemiones and Asian wild asses.

Author

Pan J, Liu X, Baca M, Calvière-Tonasso L, Schiavinato S, Chauvey L, Tressières G, Perdereau A, Aury JM, Oliveira PH, Wincker P, Abdykanova A, Arsuaga JL, Bayarsaikhan J, Belinskiy AB, Carbonell E, Davoudi H, Lira Garrido J, Gilbert AS, Hermes T, Warinner C, Kalmykov AA, Lordkipanidze D, Mackiewicz P, Mohaseb AF, Richter K, Sayfullaev N, Shapiro B, Shnaider S, Southon J, Stefaniak K, Summers GD, van Asperen EN, Vanishvili N, Hill EA, Kuznetsov P, Reinhold S, Hansen S, Mashkour M, Berthon R, Taylor WTT, Houle JL, Hekkala E, Popović D, and Orlando L

Subjects

Animals, Mongolia, Genome genetics, Phylogeny, Fossils, Horses genetics, Adaptation, Physiological genetics, Equidae genetics, Genetics, Population

Abstract

The extremely rich palaeontological record of the horse family, also known as equids, has provided many examples of macroevolutionary change over the last ~55 Mya. This family is also one of the most documented at the palaeogenomic level, with hundreds of ancient genomes sequenced. While these data have advanced understanding of the domestication history of horses and donkeys, the palaeogenomic record of other equids remains limited. In this study, we have generated genome-wide data for 25 ancient equid specimens spanning over 44 Ky and spread across Anatolia, the Caucasus, Central Asia and Mongolia. Our dataset includes the genomes from two extinct species, the European wild ass, Equus hydruntinus, and the sussemione Equus ovodovi. We document, for the first time, the presence of sussemiones in Mongolia and their survival around ~3.9 Kya, a finding that should be considered when discussing the timing of the first arrival of the domestic horse in the region. We also identify strong spatial differentiation within the historical ecological range of Asian wild asses, Equus hemionus, and incomplete reproductive isolation in several groups yet considered as different species. Finally, we find common selection signatures at ANTXR2 gene in European, Asian and African wild asses. This locus, which encodes a receptor for bacterial toxins, shows no selection signal in E. ovodovi, but a 5.4-kb deletion within intron 7. Whether such genetic modifications played any role in the sussemione extinction remains unknown., (© 2024 The Author(s). Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2024

211. Widespread horse-based mobility arose around 2200 BCE in Eurasia.

Author

Librado P, Tressières G, Chauvey L, Fages A, Khan N, Schiavinato S, Calvière-Tonasso L, Kusliy MA, Gaunitz C, Liu X, Wagner S, Der Sarkissian C, Seguin-Orlando A, Perdereau A, Aury JM, Southon J, Shapiro B, Bouchez O, Donnadieu C, Collin YRH, Gregersen KM, Jessen MD, Christensen K, Claudi-Hansen L, Pruvost M, Pucher E, Vulic H, Novak M, Rimpf A, Turk P, Reiter S, Brem G, Schwall C, Barrey É, Robert C, Degueurce C, Horwitz LK, Klassen L, Rasmussen U, Kveiborg J, Johannsen NN, Makowiecki D, Makarowicz P, Szeliga M, Ilchyshyn V, Rud V, Romaniszyn J, Mullin VE, Verdugo M, Bradley DG, Cardoso JL, Valente MJ, Telles Antunes M, Ameen C, Thomas R, Ludwig A, Marzullo M, Prato O, Bagnasco Gianni G, Tecchiati U, Granado J, Schlumbaum A, Deschler-Erb S, Mráz MS, Boulbes N, Gardeisen A, Mayer C, Döhle HJ, Vicze M, Kosintsev PA, Kyselý R, Peške L, O'Connor T, Ananyevskaya E, Shevnina I, Logvin A, Kovalev AA, Iderkhangai TO, Sablin MV, Dashkovskiy PK, Graphodatsky AS, Merts I, Merts V, Kasparov AK, Pitulko VV, Onar V, Öztan A, Arbuckle BS, McColl H, Renaud G, Khaskhanov R, Demidenko S, Kadieva A, Atabiev B, Sundqvist M, Lindgren G, López-Cachero FJ, Albizuri S, Trbojević Vukičević T, Rapan Papeša A, Burić M, Rajić Šikanjić P, Weinstock J, Asensio Vilaró D, Codina F, García Dalmau C, Morer de Llorens J, Pou J, de Prado G, Sanmartí J, Kallala N, Torres JR, Maraoui-Telmini B, Belarte Franco MC, Valenzuela-Lamas S, Zazzo A, Lepetz S, Duchesne S, Alexeev A, Bayarsaikhan J, Houle JL, Bayarkhuu N, Turbat T, Crubézy É, Shingiray I, Mashkour M, Berezina NY, Korobov DS, Belinskiy A, Kalmykov A, Demoule JP, Reinhold S, Hansen S, Wallner B, Roslyakova N, Kuznetsov PF, Tishkin AA, Wincker P, Kanne K, Outram A, and Orlando L

Subjects

Animals, Female, Male, Asia, Europe, Genome genetics, History, Ancient, Reproduction, Phylogeny, Animal Husbandry history, Domestication, Horses classification, Horses genetics, Transportation history, Transportation methods

Abstract

Horses revolutionized human history with fast mobility 1 . However, the timeline between their domestication and their widespread integration as a means of transport remains contentious 2-4 . Here we assemble a collection of 475 ancient horse genomes to assess the period when these animals were first reshaped by human agency in Eurasia. We find that reproductive control of the modern domestic lineage emerged around 2200 BCE, through close-kin mating and shortened generation times. Reproductive control emerged following a severe domestication bottleneck starting no earlier than approximately 2700 BCE, and coincided with a sudden expansion across Eurasia that ultimately resulted in the replacement of nearly every local horse lineage. This expansion marked the rise of widespread horse-based mobility in human history, which refutes the commonly held narrative of large horse herds accompanying the massive migration of steppe peoples across Europe around 3000 BCE and earlier 3,5 . Finally, we detect significantly shortened generation times at Botai around 3500 BCE, a settlement from central Asia associated with corrals and a subsistence economy centred on horses 6,7 . This supports local horse husbandry before the rise of modern domestic bloodlines., (© 2024. The Author(s).)

Published

2024

212. Ancient mitogenomes from Pre-Pottery Neolithic Central Anatolia and the effects of a Late Neolithic bottleneck in sheep ( Ovis aries ).

Author

Sandoval-Castellanos E, Hare AJ, Lin AT, Dimopoulos EA, Daly KG, Geiger S, Mullin VE, Wiechmann I, Mattiangeli V, Lühken G, Zinovieva NA, Zidarov P, Çakırlar C, Stoddart S, Orton D, Bulatović J, Mashkour M, Sauer EW, Horwitz LK, Horejs B, Atici L, Özkaya V, Mullville J, Parker Pearson M, Mainland I, Card N, Brown L, Sharples N, Griffiths D, Allen D, Arbuckle B, Abell JT, Duru G, Mentzer SM, Munro ND, Uzdurum M, Gülçur S, Buitenhuis H, Gladyr E, Stiner MC, Pöllath N, Özbaşaran M, Krebs S, Burger J, Frantz L, Medugorac I, Bradley DG, and Peters J

Subjects

Animals, Sheep genetics, Phylogeny, Sheep, Domestic genetics, Turkey, Africa, Genome, Mitochondrial

Abstract

Occupied between ~10,300 and 9300 years ago, the Pre-Pottery Neolithic site of Aşıklı Höyük in Central Anatolia went through early phases of sheep domestication. Analysis of 629 mitochondrial genomes from this and numerous sites in Anatolia, southwest Asia, Europe, and Africa produced a phylogenetic tree with excessive coalescences (nodes) around the Neolithic, a potential signature of a domestication bottleneck. This is consistent with archeological evidence of sheep management at Aşıklı Höyük which transitioned from residential stabling to open pasturing over a millennium of site occupation. However, unexpectedly, we detected high genetic diversity throughout Aşıklı Höyük's occupation rather than a bottleneck. Instead, we detected a tenfold demographic bottleneck later in the Neolithic, which caused the fixation of mitochondrial haplogroup B in southwestern Anatolia. The mitochondrial genetic makeup that emerged was carried from the core region of early Neolithic sheep management into Europe and dominates the matrilineal diversity of both its ancient and the billion-strong modern sheep populations.

Published

2024

213. Ancient chicken remains reveal the origins of virulence in Marek's disease virus.

Author

Fiddaman SR, Dimopoulos EA, Lebrasseur O, du Plessis L, Vrancken B, Charlton S, Haruda AF, Tabbada K, Flammer PG, Dascalu S, Marković N, Li H, Franklin G, Symmons R, Baron H, Daróczi-Szabó L, Shaymuratova DN, Askeyev IV, Putelat O, Sana M, Davoudi H, Fathi H, Mucheshi AS, Vahdati AA, Zhang L, Foster A, Sykes N, Baumberg GC, Bulatović J, Askeyev AO, Askeyev OV, Mashkour M, Pybus OG, Nair V, Larson G, Smith AL, and Frantz LAF

Subjects

Animals, Lymphoma virology, Virulence genetics, Phylogeny, Chickens virology, Herpesvirus 2, Gallid classification, Herpesvirus 2, Gallid genetics, Herpesvirus 2, Gallid pathogenicity, Marek Disease history, Marek Disease virology

Abstract

The pronounced growth in livestock populations since the 1950s has altered the epidemiological and evolutionary trajectory of their associated pathogens. For example, Marek's disease virus (MDV), which causes lymphoid tumors in chickens, has experienced a marked increase in virulence over the past century. Today, MDV infections kill >90% of unvaccinated birds, and controlling it costs more than US$1 billion annually. By sequencing MDV genomes derived from archeological chickens, we demonstrate that it has been circulating for at least 1000 years. We functionally tested the Meq oncogene, one of 49 viral genes positively selected in modern strains, demonstrating that ancient MDV was likely incapable of driving tumor formation. Our results demonstrate the power of ancient DNA approaches to trace the molecular basis of virulence in economically relevant pathogens.

Published

2023

214. Early dispersal of domestic horses into the Great Plains and northern Rockies.

Author

Taylor WTT, Librado P, American Horse CJ, Shield Chief Gover C, Arterberry J, Afraid of Bear-Cook AL, Left Heron H, Yellow Hair RM, Gonzalez M, Means B, High Crane S, Yellow Bull WW, Dull Knife B, Afraid of Bear A, Tecumseh Collin C, Ward C, Pasqual TA, Chauvey L, Tonasso-Calviere L, Schiavinato S, Seguin-Orlando A, Fages A, Khan N, Der Sarkissian C, Liu X, Wagner S, Leonard BG, Manzano BL, O'Malley N, Leonard JA, Bernáldez-Sánchez E, Barrey E, Charliquart L, Robbe E, Denoblet T, Gregersen K, Vershinina AO, Weinstock J, Rajić Šikanjić P, Mashkour M, Shingiray I, Aury JM, Perdereau A, Alquraishi S, Alfarhan AH, Al-Rasheid KAS, Trbojević Vukičević T, Buric M, Sauer E, Lucas M, Brenner-Coltrain J, Bozell JR, Thornhill CA, Monagle V, Perri A, Newton C, Hall WE, Conver JL, Le Roux P, Buckser SG, Gabe C, Belardi JB, Barrón-Ortiz CI, Hart IA, Ryder C, Sponheimer M, Shapiro B, Southon J, Hibbs J, Faulkner C, Outram A, Patterson Rosa L, Palermo K, Solé M, William A, McCrory W, Lindgren G, Brooks S, Eché C, Donnadieu C, Bouchez O, Wincker P, Hodgins G, Trabert S, Bethke B, Roberts P, Jones EL, Running Horse Collin Y, and Orlando L

Subjects

Animals, Humans, Archaeology, United States, Horses, Domestication, Animals, Domestic

Abstract

The horse is central to many Indigenous cultures across the American Southwest and the Great Plains. However, when and how horses were first integrated into Indigenous lifeways remain contentious, with extant models derived largely from colonial records. We conducted an interdisciplinary study of an assemblage of historic archaeological horse remains, integrating genomic, isotopic, radiocarbon, and paleopathological evidence. Archaeological and modern North American horses show strong Iberian genetic affinities, with later influx from British sources, but no Viking proximity. Horses rapidly spread from the south into the northern Rockies and central plains by the first half of the 17th century CE, likely through Indigenous exchange networks. They were deeply integrated into Indigenous societies before the arrival of 18th-century European observers, as reflected in herd management, ceremonial practices, and culture.

Published

2023

215. The genomic history and global expansion of domestic donkeys.

Author

Todd ET, Tonasso-Calvière L, Chauvey L, Schiavinato S, Fages A, Seguin-Orlando A, Clavel P, Khan N, Pérez Pardal L, Patterson Rosa L, Librado P, Ringbauer H, Verdugo M, Southon J, Aury JM, Perdereau A, Vila E, Marzullo M, Prato O, Tecchiati U, Bagnasco Gianni G, Tagliacozzo A, Tinè V, Alhaique F, Cardoso JL, Valente MJ, Telles Antunes M, Frantz L, Shapiro B, Bradley DG, Boulbes N, Gardeisen A, Horwitz LK, Öztan A, Arbuckle BS, Onar V, Clavel B, Lepetz S, Vahdati AA, Davoudi H, Mohaseb A, Mashkour M, Bouchez O, Donnadieu C, Wincker P, Brooks SA, Beja-Pereira A, Wu DD, and Orlando L

Subjects

Africa, Animals, Asia, Genomics, Humans, Phylogeny, Domestication, Equidae classification, Equidae genetics, Genome

Abstract

Donkeys transformed human history as essential beasts of burden for long-distance movement, especially across semi-arid and upland environments. They remain insufficiently studied despite globally expanding and providing key support to low- to middle-income communities. To elucidate their domestication history, we constructed a comprehensive genome panel of 207 modern and 31 ancient donkeys, as well as 15 wild equids. We found a strong phylogeographic structure in modern donkeys that supports a single domestication in Africa ~5000 BCE, followed by further expansions in this continent and Eurasia and ultimately returning to Africa. We uncover a previously unknown genetic lineage in the Levant ~200 BCE, which contributed increasing ancestry toward Asia. Donkey management involved inbreeding and the production of giant bloodlines at a time when mules were essential to the Roman economy and military.

Published

2022

216. Genetic analysis of a bronze age individual from Ulug-depe (Turkmenistan).

Author

Guarino-Vignon P, Marchi N, Chimènes A, Monnereau A, Kroll S, Mashkour M, Lhuillier J, Bendezu-Sarmiento J, Heyer E, and Bon C

Abstract

The Oxus Civilisation (or Bactrio-Margian Archaeological Complex, BMAC) was the main archaeological culture of the Bronze Age in southern Central Asia. Paleogenetic analyses were previously conducted mainly on samples from the eastern part of BMAC. The population associated with BMAC descends from local Chalcolithic populations, with some outliers of steppe or South-Asian descent. Here, we present new genome-wide data for one individual from Ulug-depe (Turkmenistan), one of the main BMAC sites, located at the southwestern edge of the BMAC. We demonstrate that this individual genetically belongs to the BMAC cluster. Using this genome, we confirm that modern Indo-Iranian-speaking populations from Central Asia derive their ancestry from BMAC populations, with additional gene flow from the western and the Altai steppes in higher proportions among the Tajiks than the Yagnobi ethnic group., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Guarino-Vignon, Marchi, Chimènes, Monnereau, Kroll, Mashkour, Lhuillier, Bendezu-Sarmiento, Heyer and Bon.)

Published

2022

217. The origins and spread of domestic horses from the Western Eurasian steppes.

Author

Librado P, Khan N, Fages A, Kusliy MA, Suchan T, Tonasso-Calvière L, Schiavinato S, Alioglu D, Fromentier A, Perdereau A, Aury JM, Gaunitz C, Chauvey L, Seguin-Orlando A, Der Sarkissian C, Southon J, Shapiro B, Tishkin AA, Kovalev AA, Alquraishi S, Alfarhan AH, Al-Rasheid KAS, Seregély T, Klassen L, Iversen R, Bignon-Lau O, Bodu P, Olive M, Castel JC, Boudadi-Maligne M, Alvarez N, Germonpré M, Moskal-Del Hoyo M, Wilczyński J, Pospuła S, Lasota-Kuś A, Tunia K, Nowak M, Rannamäe E, Saarma U, Boeskorov G, Lōugas L, Kyselý R, Peške L, Bălășescu A, Dumitrașcu V, Dobrescu R, Gerber D, Kiss V, Szécsényi-Nagy A, Mende BG, Gallina Z, Somogyi K, Kulcsár G, Gál E, Bendrey R, Allentoft ME, Sirbu G, Dergachev V, Shephard H, Tomadini N, Grouard S, Kasparov A, Basilyan AE, Anisimov MA, Nikolskiy PA, Pavlova EY, Pitulko V, Brem G, Wallner B, Schwall C, Keller M, Kitagawa K, Bessudnov AN, Bessudnov A, Taylor W, Magail J, Gantulga JO, Bayarsaikhan J, Erdenebaatar D, Tabaldiev K, Mijiddorj E, Boldgiv B, Tsagaan T, Pruvost M, Olsen S, Makarewicz CA, Valenzuela Lamas S, Albizuri Canadell S, Nieto Espinet A, Iborra MP, Lira Garrido J, Rodríguez González E, Celestino S, Olària C, Arsuaga JL, Kotova N, Pryor A, Crabtree P, Zhumatayev R, Toleubaev A, Morgunova NL, Kuznetsova T, Lordkipanize D, Marzullo M, Prato O, Bagnasco Gianni G, Tecchiati U, Clavel B, Lepetz S, Davoudi H, Mashkour M, Berezina NY, Stockhammer PW, Krause J, Haak W, Morales-Muñiz A, Benecke N, Hofreiter M, Ludwig A, Graphodatsky AS, Peters J, Kiryushin KY, Iderkhangai TO, Bokovenko NA, Vasiliev SK, Seregin NN, Chugunov KV, Plasteeva NA, Baryshnikov GF, Petrova E, Sablin M, Ananyevskaya E, Logvin A, Shevnina I, Logvin V, Kalieva S, Loman V, Kukushkin I, Merz I, Merz V, Sakenov S, Varfolomeyev V, Usmanova E, Zaibert V, Arbuckle B, Belinskiy AB, Kalmykov A, Reinhold S, Hansen S, Yudin AI, Vybornov AA, Epimakhov A, Berezina NS, Roslyakova N, Kosintsev PA, Kuznetsov PF, Anthony D, Kroonen GJ, Kristiansen K, Wincker P, Outram A, and Orlando L

Subjects

Animals, Archaeology, Asia, DNA, Ancient, Europe, Genome, Grassland, Phylogeny, Domestication, Genetics, Population, Horses genetics

Abstract

Domestication of horses fundamentally transformed long-range mobility and warfare 1 . However, modern domesticated breeds do not descend from the earliest domestic horse lineage associated with archaeological evidence of bridling, milking and corralling 2-4 at Botai, Central Asia around 3500 BC 3 . Other longstanding candidate regions for horse domestication, such as Iberia 5 and Anatolia 6 , have also recently been challenged. Thus, the genetic, geographic and temporal origins of modern domestic horses have remained unknown. Here we pinpoint the Western Eurasian steppes, especially the lower Volga-Don region, as the homeland of modern domestic horses. Furthermore, we map the population changes accompanying domestication from 273 ancient horse genomes. This reveals that modern domestic horses ultimately replaced almost all other local populations as they expanded rapidly across Eurasia from about 2000 BC, synchronously with equestrian material culture, including Sintashta spoke-wheeled chariots. We find that equestrianism involved strong selection for critical locomotor and behavioural adaptations at the GSDMC and ZFPM1 genes. Our results reject the commonly held association 7 between horseback riding and the massive expansion of Yamnaya steppe pastoralists into Europe around 3000 BC 8,9 driving the spread of Indo-European languages 10 . This contrasts with the scenario in Asia where Indo-Iranian languages, chariots and horses spread together, following the early second millennium BC Sintashta culture 11,12 ., (© 2021. The Author(s).)

Published

2021

218. Exceptional ancient DNA preservation and fibre remains of a Sasanian saltmine sheep mummy in Chehrābād, Iran.

Author

Rossi C, Ruß-Popa G, Mattiangeli V, McDaid F, Hare AJ, Davoudi H, Laleh H, Lorzadeh Z, Khazaeli R, Fathi H, Teasdale MD, A'ali A, Stöllner T, Mashkour M, and Daly KG

Subjects

Animals, DNA, Ancient, Genome, Iran, Phenotype, Sheep genetics, Mummies

Abstract

Mummified remains have long attracted interest as a potential source of ancient DNA. However, mummification is a rare process that requires an anhydrous environment to rapidly dehydrate and preserve tissue before complete decomposition occurs. We present the whole-genome sequences (3.94 X) of an approximately 1600-year-old naturally mummified sheep recovered from Chehrābād, a salt mine in northwestern Iran. Comparative analyses of published ancient sequences revealed the remarkable DNA integrity of this mummy. Hallmarks of postmortem damage, fragmentation and hydrolytic deamination are substantially reduced, likely owing to the high salinity of this taphonomic environment. Metagenomic analyses reflect the profound influence of high-salt content on decomposition; its microbial profile is predominated by halophilic archaea and bacteria, possibly contributing to the remarkable preservation of the sample. Applying population genomic analyses, we find clustering of this sheep with Southwest Asian modern breeds, suggesting ancestry continuity. Genotyping of a locus influencing the woolly phenotype showed the presence of an ancestral 'hairy' allele, consistent with hair fibre imaging. This, along with derived alleles associated with the fat-tail phenotype, provides genetic evidence that Sasanian-period Iranians maintained specialized sheep flocks for different uses, with the 'hairy', 'fat-tailed'-genotyped sheep likely kept by the rural community of Chehrābād's miners.

Published

2021

219. A Review of C 4 Plants in Southwest Asia: An Ecological, Geographical and Taxonomical Analysis of a Region With High Diversity of C 4 Eudicots.

Author

Rudov A, Mashkour M, Djamali M, and Akhani H

Abstract

Southwest Asia is climatically and topographically a highly diverse region in the xeric belt of the Old World. Its diversity of arid habitats and climatic conditions acted as an important area for the evolution and diversification of up to 20 (of 38 known) independent Eudicot C 4 origins. Some of these lineages present unique evolutionary strategies like single-cell functioning C 4 and C 3 -C 4 switching mechanisms. The high diversity of C 4 taxa in Southwest (SW) Asia is also related to the presence of seven phytogeographic zones including the Irano-Turanian region as a center of diversification of many Caryophyllales lineages and the Somali-Masai region (Southern Oman and Yemen) as a center of diversification for C 4 Monocots. Nevertheless, the C 4 flora of SW Asia has not received detailed attention. This paper presents a comprehensive review of all known C 4 species in the area based on a literature survey, own floristic observations, as well as taxonomic, phylogenetic and herbarium data, and δ 13 C-isotope ratio analysis. The resulting checklist includes a total number of 923 (861 native, of which 141 endemic, and 62 introduced) C 4 species, composed of 350 Eudicots and 509 Monocots, most of which are therophytic and hemicryptophytic xerophytes with pluriregional and Irano-Turanian distribution. Two hundred thirty-nine new δ 13 C-isotope ratios of C 4 and C 3 plants, as well as some taxonomic changes are presented. An analysis of the distribution of the three main C 4 plant families (Chenopodiaceae, Poaceae, and Cyperaceae) in the region in relation to climatic variables indicates that the increase of C 4 species follows more or less a latitudinal gradient similar to global patterns, while separate taxonomic groups seem to depend on specific factors as continentality (Chenopodiaceae), average annual temperature (Cyperaceae), and the presence of summer precipitation (Poaceae). An increase of C 4 Eudicots in W-E direction even in similar longitudinal belts is explained by a combination of edaphic and climatic conditions. The provided data should encourage a deeper interest in the evolution of C 4 lineages in SW Asia and their adaptation to ecological and climatical conditions and awaken interest in the importance of local C 4 crops, the conservation of threatened C 4 taxa, and awareness of human impacts on the rapid environmental changes in the region., (Copyright © 2020 Rudov, Mashkour, Djamali and Akhani.)

Published

2020

220. 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

221. Tracking Five Millennia of Horse Management with Extensive Ancient Genome Time Series.

Author

Fages A, Hanghøj K, Khan N, Gaunitz C, Seguin-Orlando A, Leonardi M, McCrory Constantz C, Gamba C, Al-Rasheid KAS, Albizuri S, Alfarhan AH, Allentoft M, Alquraishi S, Anthony D, Baimukhanov N, Barrett JH, Bayarsaikhan J, Benecke N, Bernáldez-Sánchez E, Berrocal-Rangel L, Biglari F, Boessenkool S, Boldgiv B, Brem G, Brown D, Burger J, Crubézy E, Daugnora L, Davoudi H, de Barros Damgaard P, de Los Ángeles de Chorro Y de Villa-Ceballos M, Deschler-Erb S, Detry C, Dill N, do Mar Oom M, Dohr A, Ellingvåg S, Erdenebaatar D, Fathi H, Felkel S, Fernández-Rodríguez C, García-Viñas E, Germonpré M, Granado JD, Hallsson JH, Hemmer H, Hofreiter M, Kasparov A, Khasanov M, Khazaeli R, Kosintsev P, Kristiansen K, Kubatbek T, Kuderna L, Kuznetsov P, Laleh H, Leonard JA, Lhuillier J, Liesau von Lettow-Vorbeck C, Logvin A, Lõugas L, Ludwig A, Luis C, Arruda AM, Marques-Bonet T, Matoso Silva R, Merz V, Mijiddorj E, Miller BK, Monchalov O, Mohaseb FA, Morales A, Nieto-Espinet A, Nistelberger H, Onar V, Pálsdóttir AH, Pitulko V, Pitskhelauri K, Pruvost M, Rajic Sikanjic P, Rapan Papeša A, Roslyakova N, Sardari A, Sauer E, Schafberg R, Scheu A, Schibler J, Schlumbaum A, Serrand N, Serres-Armero A, Shapiro B, Sheikhi Seno S, Shevnina I, Shidrang S, Southon J, Star B, Sykes N, Taheri K, Taylor W, Teegen WR, Trbojević Vukičević T, Trixl S, Tumen D, Undrakhbold S, Usmanova E, Vahdati A, Valenzuela-Lamas S, Viegas C, Wallner B, Weinstock J, Zaibert V, Clavel B, Lepetz S, Mashkour M, Helgason A, Stefánsson K, Barrey E, Willerslev E, Outram AK, Librado P, and Orlando L

Subjects

Animals, Asia, Biological Evolution, Breeding history, DNA, Ancient analysis, Domestication, Equidae genetics, Europe, Female, Genetic Variation genetics, Genome genetics, History, Ancient, Male, Phylogeny, Horses genetics

Abstract

Horse domestication revolutionized warfare and accelerated travel, trade, and the geographic expansion of languages. Here, we present the largest DNA time series for a non-human organism to date, including genome-scale data from 149 ancient animals and 129 ancient genomes (≥1-fold coverage), 87 of which are new. This extensive dataset allows us to assess the modern legacy of past equestrian civilizations. We find that two extinct horse lineages existed during early domestication, one at the far western (Iberia) and the other at the far eastern range (Siberia) of Eurasia. None of these contributed significantly to modern diversity. We show that the influence of Persian-related horse lineages increased following the Islamic conquests in Europe and Asia. Multiple alleles associated with elite-racing, including at the MSTN "speed gene," only rose in popularity within the last millennium. Finally, the development of modern breeding impacted genetic diversity more dramatically than the previous millennia of human management., (Copyright © 2019 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2019

222. Ancient goat genomes reveal mosaic domestication in the Fertile Crescent.

Author

Daly KG, Maisano Delser P, Mullin VE, Scheu A, Mattiangeli V, Teasdale MD, Hare AJ, Burger J, Verdugo MP, Collins MJ, Kehati R, Erek CM, Bar-Oz G, Pompanon F, Cumer T, Çakırlar C, Mohaseb AF, Decruyenaere D, Davoudi H, Çevik Ö, Rollefson G, Vigne JD, Khazaeli R, Fathi H, Doost SB, Rahimi Sorkhani R, Vahdati AA, Sauer EW, Azizi Kharanaghi H, Maziar S, Gasparian B, Pinhasi R, Martin L, Orton D, Arbuckle BS, Benecke N, Manica A, Horwitz LK, Mashkour M, and Bradley DG

Subjects

Africa, Animals, Animals, Domestic classification, Animals, Domestic genetics, Asia, DNA, Ancient, DNA, Mitochondrial genetics, Europe, Follistatin genetics, Genetic Variation, Genome, Goats classification, Phylogeny, Domestication, Goats genetics, Mosaicism

Abstract

Current genetic data are equivocal as to whether goat domestication occurred multiple times or was a singular process. We generated genomic data from 83 ancient goats (51 with genome-wide coverage) from Paleolithic to Medieval contexts throughout the Near East. Our findings demonstrate that multiple divergent ancient wild goat sources were domesticated in a dispersed process that resulted in genetically and geographically distinct Neolithic goat populations, echoing contemporaneous human divergence across the region. These early goat populations contributed differently to modern goats in Asia, Africa, and Europe. We also detect early selection for pigmentation, stature, reproduction, milking, and response to dietary change, providing 8000-year-old evidence for human agency in molding genome variation within a partner species., (Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2018

223. Ancient genomes revisit the ancestry of domestic and Przewalski's horses.

Author

Gaunitz C, Fages A, Hanghøj K, Albrechtsen A, Khan N, Schubert M, Seguin-Orlando A, Owens IJ, Felkel S, Bignon-Lau O, de Barros Damgaard P, Mittnik A, Mohaseb AF, Davoudi H, Alquraishi S, Alfarhan AH, Al-Rasheid KAS, Crubézy E, Benecke N, Olsen S, Brown D, Anthony D, Massy K, Pitulko V, Kasparov A, Brem G, Hofreiter M, Mukhtarova G, Baimukhanov N, Lõugas L, Onar V, Stockhammer PW, Krause J, Boldgiv B, Undrakhbold S, Erdenebaatar D, Lepetz S, Mashkour M, Ludwig A, Wallner B, Merz V, Merz I, Zaibert V, Willerslev E, Librado P, Outram AK, and Orlando L

Subjects

Animals, DNA, Ancient, Genome, Horses anatomy & histology, Phenotype, Phylogeny, Horses classification, Horses genetics

Abstract

The Eneolithic Botai culture of the Central Asian steppes provides the earliest archaeological evidence for horse husbandry, ~5500 years ago, but the exact nature of early horse domestication remains controversial. We generated 42 ancient-horse genomes, including 20 from Botai. Compared to 46 published ancient- and modern-horse genomes, our data indicate that Przewalski's horses are the feral descendants of horses herded at Botai and not truly wild horses. All domestic horses dated from ~4000 years ago to present only show ~2.7% of Botai-related ancestry. This indicates that a massive genomic turnover underpins the expansion of the horse stock that gave rise to modern domesticates, which coincides with large-scale human population expansions during the Early Bronze Age., (Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2018

224. Early Neolithic genomes from the eastern Fertile Crescent.

Author

Broushaki F, Thomas MG, Link V, López S, van Dorp L, Kirsanow K, Hofmanová Z, Diekmann Y, Cassidy LM, Díez-Del-Molino D, Kousathanas A, Sell C, Robson HK, Martiniano R, Blöcher J, Scheu A, Kreutzer S, Bollongino R, Bobo D, Davudi H, Munoz O, Currat M, Abdi K, Biglari F, Craig OE, Bradley DG, Shennan S, Veeramah K, Mashkour M, Wegmann D, Hellenthal G, and Burger J

Subjects

Afghanistan ethnology, Ethnicity genetics, Genetic Variation, History, Ancient, Human Migration, Humans, Iran ethnology, Pakistan ethnology, White People genetics, Agriculture history, Genome, Human

Abstract

We sequenced Early Neolithic genomes from the Zagros region of Iran (eastern Fertile Crescent), where some of the earliest evidence for farming is found, and identify a previously uncharacterized population that is neither ancestral to the first European farmers nor has contributed substantially to the ancestry of modern Europeans. These people are estimated to have separated from Early Neolithic farmers in Anatolia some 46,000 to 77,000 years ago and show affinities to modern-day Pakistani and Afghan populations, but particularly to Iranian Zoroastrians. We conclude that multiple, genetically differentiated hunter-gatherer populations adopted farming in southwestern Asia, that components of pre-Neolithic population structure were preserved as farming spread into neighboring regions, and that the Zagros region was the cradle of eastward expansion., (Copyright © 2016, American Association for the Advancement of Science.)

Published

2016

225. Revising the recent evolutionary history of equids using ancient DNA.

Author

Orlando L, Metcalf JL, Alberdi MT, Telles-Antunes M, Bonjean D, Otte M, Martin F, Eisenmann V, Mashkour M, Morello F, Prado JL, Salas-Gismondi R, Shockey BJ, Wrinn PJ, Vasil'ev SK, Ovodov ND, Cherry MI, Hopwood B, Male D, Austin JJ, Hänni C, and Cooper A

Subjects

Animals, Fossils, Horses classification, Molecular Sequence Data, Biological Evolution, DNA genetics, Horses genetics

Abstract

The rich fossil record of the family Equidae (Mammalia: Perissodactyla) over the past 55 MY has made it an icon for the patterns and processes of macroevolution. Despite this, many aspects of equid phylogenetic relationships and taxonomy remain unresolved. Recent genetic analyses of extinct equids have revealed unexpected evolutionary patterns and a need for major revisions at the generic, subgeneric, and species levels. To investigate this issue we examine 35 ancient equid specimens from four geographic regions (South America, Europe, Southwest Asia, and South Africa), of which 22 delivered 87-688 bp of reproducible aDNA mitochondrial sequence. Phylogenetic analyses support a major revision of the recent evolutionary history of equids and reveal two new species, a South American hippidion and a descendant of a basal lineage potentially related to Middle Pleistocene equids. Sequences from specimens assigned to the giant extinct Cape zebra, Equus capensis, formed a separate clade within the modern plain zebra species, a phenotypicically plastic group that also included the extinct quagga. In addition, we revise the currently recognized extinction times for two hemione-related equid groups. However, it is apparent that the current dataset cannot solve all of the taxonomic and phylogenetic questions relevant to the evolution of Equus. In light of these findings, we propose a rapid DNA barcoding approach to evaluate the taxonomic status of the many Late Pleistocene fossil Equidae species that have been described from purely morphological analyses.

Published

2009

226. Mitochondrial DNA analysis shows a Near Eastern Neolithic origin for domestic cattle and no indication of domestication of European aurochs.

Author

Edwards CJ, Bollongino R, Scheu A, Chamberlain A, Tresset A, Vigne JD, Baird JF, Larson G, Ho SY, Heupink TH, Shapiro B, Freeman AR, Thomas MG, Arbogast RM, Arndt B, Bartosiewicz L, Benecke N, Budja M, Chaix L, Choyke AM, Coqueugniot E, Döhle HJ, Göldner H, Hartz S, Helmer D, Herzig B, Hongo H, Mashkour M, Ozdogan M, Pucher E, Roth G, Schade-Lindig S, Schmölcke U, Schulting RJ, Stephan E, Uerpmann HP, Vörös I, Voytek B, Bradley DG, and Burger J

Subjects

Animals, Animals, Domestic, Europe, Haplotypes, History, Ancient, Middle East, Molecular Sequence Data, Cattle genetics, DNA, Mitochondrial genetics

Abstract

The extinct aurochs (Bos primigenius primigenius) was a large type of cattle that ranged over almost the whole Eurasian continent. The aurochs is the wild progenitor of modern cattle, but it is unclear whether European aurochs contributed to this process. To provide new insights into the demographic history of aurochs and domestic cattle, we have generated high-confidence mitochondrial DNA sequences from 59 archaeological skeletal finds, which were attributed to wild European cattle populations based on their chronological date and/or morphology. All pre-Neolithic aurochs belonged to the previously designated P haplogroup, indicating that this represents the Late Glacial Central European signature. We also report one new and highly divergent haplotype in a Neolithic aurochs sample from Germany, which points to greater variability during the Pleistocene. Furthermore, the Neolithic and Bronze Age samples that were classified with confidence as European aurochs using morphological criteria all carry P haplotype mitochondrial DNA, suggesting continuity of Late Glacial and Early Holocene aurochs populations in Europe. Bayesian analysis indicates that recent population growth gives a significantly better fit to our data than a constant-sized population, an observation consistent with a postglacial expansion scenario, possibly from a single European refugial population. Previous work has shown that most ancient and modern European domestic cattle carry haplotypes previously designated T. This, in combination with our new finding of a T haplotype in a very Early Neolithic site in Syria, lends persuasive support to a scenario whereby gracile Near Eastern domestic populations, carrying predominantly T haplotypes, replaced P haplotype-carrying robust autochthonous aurochs populations in Europe, from the Early Neolithic onward. During the period of coexistence, it appears that domestic cattle were kept separate from wild aurochs and introgression was extremely rare.

Published

2007