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1,068 results on '"Dalén, Love"'

151. Historical population declines prompted significant genomic erosion in the northern and southern white rhinoceros (Ceratotherium simum)

Author: Sánchez-Barreiro, Fatima, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Westbury, Michael V., de Manuel, Marc, Margaryan, Ashot, Ciucani, Marta M., Vieira, Filipe G., Patramanis, Yannis, Kalthoff, Daniela C., Timmons, Zena, Sicheritz-Pontén, Thomas, Dalén, Love, Ryder, Oliver A., Zhang, Guojie, Marques-Bonet, Tomas, Moodley, Yoshan, Gilbert, M. Thomas P., Sánchez-Barreiro, Fatima, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Westbury, Michael V., de Manuel, Marc, Margaryan, Ashot, Ciucani, Marta M., Vieira, Filipe G., Patramanis, Yannis, Kalthoff, Daniela C., Timmons, Zena, Sicheritz-Pontén, Thomas, Dalén, Love, Ryder, Oliver A., Zhang, Guojie, Marques-Bonet, Tomas, Moodley, Yoshan, and Gilbert, M. Thomas P.
Abstract: Large vertebrates are extremely sensitive to anthropogenic pressure, and their populations are declining fast. The white rhinoceros (Ceratotherium simum) is a paradigmatic case: this African megaherbivore has suffered a remarkable decline in the last 150 years due to human activities. Its subspecies, the northern (NWR) and the southern white rhinoceros (SWR), however, underwent opposite fates: the NWR vanished quickly, while the SWR recovered after the severe decline. Such demographic events are predicted to have an erosive effect at the genomic level, linked to the extirpation of diversity, and increased genetic drift and inbreeding. However, there is little empirical data available to directly reconstruct the subtleties of such processes in light of distinct demographic histories. Therefore, we generated a whole-genome, temporal data set consisting of 52 resequenced white rhinoceros genomes, representing both subspecies at two time windows: before and during/after the bottleneck. Our data reveal previously unknown population structure within both subspecies, as well as quantifiable genomic erosion. Genome-wide heterozygosity decreased significantly by 10% in the NWR and 36% in the SWR, and inbreeding coefficients rose significantly by 11% and 39%, respectively. Despite the remarkable loss of genomic diversity and recent inbreeding it suffered, the only surviving subspecies, the SWR, does not show a significant accumulation of genetic load compared to its historical counterpart. Our data provide empirical support for predictions about the genomic consequences of shrinking populations, and our findings have the potential to inform the conservation efforts of the remaining white rhinoceroses.
Published: 2021

152. Combining Bayesian age models and genetics to investigate population dynamics and extinction of the last mammoths in northern Siberia

Author: Dehasque, Marianne, Pečnerová, Patrícia, Muller, Héloïse, Tikhonov, Alexei, Nikolskiy, Pavel, Tsigankova, Valeriya I., Danilov, Gleb K., Díez-del-Molino, David, Vartanyan, Sergey, Dalén, Love, Lister, Adrian M., Dehasque, Marianne, Pečnerová, Patrícia, Muller, Héloïse, Tikhonov, Alexei, Nikolskiy, Pavel, Tsigankova, Valeriya I., Danilov, Gleb K., Díez-del-Molino, David, Vartanyan, Sergey, Dalén, Love, and Lister, Adrian M.
Abstract: To understand the causes and implications of an extinction event, detailed information is necessary. However, this can be challenging when working with poorly resolved paleontological data sets. One approach to increase the data resolution is by combining different methods. In this study, we used both radiocarbon and genetic data to reconstruct the population history and extinction dynamics of the woolly mammoth in northern Siberia. We generated 88 new radiocarbon dates and combined these with previously published dates from 626 specimens to construct Bayesian age models. These models show that mammoths disappeared on the eastern Siberian mainland before the onset of the Younger Dryas (12.9–11.7 ky cal BP). Mammoths did however persist in the northernmost parts of central and western Siberia until the early Holocene. Further genetic results of 131 high quality mitogenomes, including 22 new mitogenomes generated in this study, support the hypothesis that mammoths from, or closely related to, a central and/or west- Siberian population recolonized Wrangel Island over the now submerged northern Siberian plains. As mammoths became trapped on the island due to rising sea levels, they lived another ca. 6000 years on Wrangel Island before eventually going extinct ca. 4000 years ago.
Published: 2021

153. Historical population declines prompted significant genomic erosion in the northern and southern white rhinoceros (Ceratotherium simum)

Author: European Research Council, EMBO, Science for Life Laboratory, Knut and Alice Wallenberg Foundation, Sánchez-Barreiro, Fátima, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Westbury, Michael V., Manuel, Marc de, Margaryan, Ashot, Ciucani, Marta M., Vieira, Filipe Garrett, Patramanis, Yannis, Kalthoff, Daniela C., Timmons, Zena, Sicheritz-Ponten, Thomas, Dalén, Love, Ryder, Oliver A., Zhang, Guojie, Marqués-Bonet, Tomàs, Moodley, Yoshan, Gilbert, M. Thomas P., European Research Council, EMBO, Science for Life Laboratory, Knut and Alice Wallenberg Foundation, Sánchez-Barreiro, Fátima, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Westbury, Michael V., Manuel, Marc de, Margaryan, Ashot, Ciucani, Marta M., Vieira, Filipe Garrett, Patramanis, Yannis, Kalthoff, Daniela C., Timmons, Zena, Sicheritz-Ponten, Thomas, Dalén, Love, Ryder, Oliver A., Zhang, Guojie, Marqués-Bonet, Tomàs, Moodley, Yoshan, and Gilbert, M. Thomas P.
Abstract: Large vertebrates are extremely sensitive to anthropogenic pressure, and their populations are declining fast. The white rhinoceros (Ceratotherium simum) is a paradigmatic case: this African megaherbivore has suffered a remarkable decline in the last 150 years due to human activities. Its subspecies, the northern (NWR) and the southern white rhinoceros (SWR), however, underwent opposite fates: the NWR vanished quickly, while the SWR recovered after the severe decline. Such demographic events are predicted to have an erosive effect at the genomic level, linked to the extirpation of diversity, and increased genetic drift and inbreeding. However, there is little empirical data available to directly reconstruct the subtleties of such processes in light of distinct demographic histories. Therefore, we generated a whole-genome, temporal data set consisting of 52 resequenced white rhinoceros genomes, representing both subspecies at two time windows: before and during/after the bottleneck. Our data reveal previously unknown population structure within both subspecies, as well as quantifiable genomic erosion. Genome-wide heterozygosity decreased significantly by 10% in the NWR and 36% in the SWR, and inbreeding coefficients rose significantly by 11% and 39%, respectively. Despite the remarkable loss of genomic diversity and recent inbreeding it suffered, the only surviving subspecies, the SWR, does not show a significant accumulation of genetic load compared to its historical counterpart. Our data provide empirical support for predictions about the genomic consequences of shrinking populations, and our findings have the potential to inform the conservation efforts of the remaining white rhinoceroses.
Published: 2021

154. Ancient and modern genomes unravel the evolutionary history of the rhinoceros family

Author: Science for Life Laboratory, Garvan Institute of Medical Research, Knut and Alice Wallenberg Foundation, Swedish Research Council, European Research Council, Independent Research Fund Denmark, Australian Research Council, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Howard Hughes Medical Institute, Generalitat de Catalunya, Liu, Shanlin, Westbury, Michael V., Dussex, Nicolas, Mitchell, Kieren J., Sinding, Mikkel-Holger S., Heintzman, Peter D., Duchêne, David A., Kapp, Joshua D., von Seth, Johanna, Heiniger, Holly, Sánchez-Barreiro, Fátima, Margaryan, Ashot, André-Olsen, Remi, Cahsan, Binia de, Meng, Guanliang, Yang, Chentao, Chen, Lei, van der Valk, Tom, Moodley, Yoshan, Rookmaaker, Kees, Bruford, Michael W., Ryder, Oliver A., Steiner, Cynthia C., Bruins-van Sonsbeek, Linda G. R., Vartanyan, Sergey, Guo, Chunxue, Cooper, Alan, Kosintsev, Pavel, Kirillova, Irina, Lister, Adrian M., Marqués-Bonet, Tomàs, Gopalakrishnan, Shyam, Dunn, Robert R., Lorenzen, Eline D., Shapiro, Beth, Zhang, Guojie, Antoine, Pierre-Olivier, Dalén, Love, Gilbert, M. Thomas P., Science for Life Laboratory, Garvan Institute of Medical Research, Knut and Alice Wallenberg Foundation, Swedish Research Council, European Research Council, Independent Research Fund Denmark, Australian Research Council, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Howard Hughes Medical Institute, Generalitat de Catalunya, Liu, Shanlin, Westbury, Michael V., Dussex, Nicolas, Mitchell, Kieren J., Sinding, Mikkel-Holger S., Heintzman, Peter D., Duchêne, David A., Kapp, Joshua D., von Seth, Johanna, Heiniger, Holly, Sánchez-Barreiro, Fátima, Margaryan, Ashot, André-Olsen, Remi, Cahsan, Binia de, Meng, Guanliang, Yang, Chentao, Chen, Lei, van der Valk, Tom, Moodley, Yoshan, Rookmaaker, Kees, Bruford, Michael W., Ryder, Oliver A., Steiner, Cynthia C., Bruins-van Sonsbeek, Linda G. R., Vartanyan, Sergey, Guo, Chunxue, Cooper, Alan, Kosintsev, Pavel, Kirillova, Irina, Lister, Adrian M., Marqués-Bonet, Tomàs, Gopalakrishnan, Shyam, Dunn, Robert R., Lorenzen, Eline D., Shapiro, Beth, Zhang, Guojie, Antoine, Pierre-Olivier, Dalén, Love, and Gilbert, M. Thomas P.
Abstract: Only five species of the once-diverse Rhinocerotidae remain, making the reconstruction of their evolutionary history a challenge to biologists since Darwin. We sequenced genomes from five rhinoceros species (three extinct and two living), which we compared to existing data from the remaining three living species and a range of outgroups. We identify an early divergence between extant African and Eurasian lineages, resolving a key debate regarding the phylogeny of extant rhinoceroses. This early Miocene (∼16 million years ago [mya]) split post-dates the land bridge formation between the Afro-Arabian and Eurasian landmasses. Our analyses also show that while rhinoceros genomes in general exhibit low levels of genome-wide diversity, heterozygosity is lowest and inbreeding is highest in the modern species. These results suggest that while low genetic diversity is a long-term feature of the family, it has been particularly exacerbated recently, likely reflecting recent anthropogenic-driven population declines.
Published: 2021

155. Evolutionary History, Genomic Adaptation to Toxic Diet, and Extinction of the Carolina Parakeet

Author: Gelabert, Pere, Sandoval-Velasco, Marcela, Serres, Aitor, de Manuel, Marc, Renom, Pere, Margaryan, Ashot, Stiller, Josefin, de-Dios, Toni, Fang, Qi, Feng, Shaohong, Mañosa, Santi, Pacheco, George, Ferrando-Bernal, Manuel, Shi, Guolin, Hao, Fei, Chen, Xianqing, Petersen, Bent, Olsen, Remi-André, Navarro, Arcadi, Deng, Yuan, Dalén, Love, Marquès-Bonet, Tomàs, Zhang, Guojie, Antunes, Agostinho, Gilbert, M. Thomas P., and Lalueza-Fox, Carles
Published: 2020
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156. Museomics Dissects the Genetic Basis for Adaptive Seasonal Coloration in the Least Weasel

Author: Miranda, Inês, primary, Giska, Iwona, additional, Farelo, Liliana, additional, Pimenta, João, additional, Zimova, Marketa, additional, Bryk, Jarosław, additional, Dalén, Love, additional, Mills, L Scott, additional, Zub, Karol, additional, and Melo-Ferreira, José, additional
Published: 2021
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157. Ancient horse genomes reveal the timing and extent of dispersals across the Bering Land Bridge

Author: Vershinina, Alisa O., primary, Heintzman, Peter D., additional, Froese, Duane G., additional, Zazula, Grant, additional, Cassatt‐Johnstone, Molly, additional, Dalén, Love, additional, Der Sarkissian, Clio, additional, Dunn, Shelby G., additional, Ermini, Luca, additional, Gamba, Cristina, additional, Groves, Pamela, additional, Kapp, Joshua D., additional, Mann, Daniel H., additional, Seguin‐Orlando, Andaine, additional, Southon, John, additional, Stiller, Mathias, additional, Wooller, Matthew J., additional, Baryshnikov, Gennady, additional, Gimranov, Dmitry, additional, Scott, Eric, additional, Hall, Elizabeth, additional, Hewitson, Susan, additional, Kirillova, Irina, additional, Kosintsev, Pavel, additional, Shidlovsky, Fedor, additional, Tong, Hao‐Wen, additional, Tiunov, Mikhail P., additional, Vartanyan, Sergey, additional, Orlando, Ludovic, additional, Corbett‐Detig, Russell, additional, MacPhee, Ross D., additional, and Shapiro, Beth, additional
Published: 2021
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158. Genomic and fitness consequences of inbreeding in an endangered carnivore

Author: Hasselgren, Malin, primary, Dussex, Nicolas, additional, Seth, Johanna, additional, Angerbjörn, Anders, additional, Olsen, Remi‐André, additional, Dalén, Love, additional, and Norén, Karin, additional
Published: 2021
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159. Circumpolar phylogeography and demographic history of beluga whales reflect past climatic fluctuations

Author: Skovrind, Mikkel, primary, Louis, Marie, additional, Westbury, Michael V., additional, Garilao, Cristina, additional, Kaschner, Kristin, additional, Castruita, José Alfredo Samaniego, additional, Gopalakrishnan, Shyam, additional, Knudsen, Steen Wilhelm, additional, Haile, James S., additional, Dalén, Love, additional, Meshchersky, Ilya G., additional, Shpak, Olga V., additional, Glazov, Dmitry M., additional, Rozhnov, Viatcheslav V., additional, Litovka, Dennis I., additional, Krasnova, Vera V., additional, Chernetsky, Anton D., additional, Bel‘kovich, Vsevolod M., additional, Lydersen, Christian, additional, Kovacs, Kit M., additional, Heide‐Jørgensen, Mads Peter, additional, Postma, Lianne, additional, Ferguson, Steven H., additional, and Lorenzen, Eline D., additional
Published: 2021
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160. The evolution and changing ecology of the African hominid oral microbiome

Author: Fellows Yates, James A., primary, Velsko, Irina M., additional, Aron, Franziska, additional, Posth, Cosimo, additional, Hofman, Courtney A., additional, Austin, Rita M., additional, Parker, Cody E., additional, Mann, Allison E., additional, Nägele, Kathrin, additional, Arthur, Kathryn Weedman, additional, Arthur, John W., additional, Bauer, Catherine C., additional, Crevecoeur, Isabelle, additional, Cupillard, Christophe, additional, Curtis, Matthew C., additional, Dalén, Love, additional, Díaz-Zorita Bonilla, Marta, additional, Díez Fernández-Lomana, J. Carlos, additional, Drucker, Dorothée G., additional, Escribano Escrivá, Elena, additional, Francken, Michael, additional, Gibbon, Victoria E., additional, González Morales, Manuel R., additional, Grande Mateu, Ana, additional, Harvati, Katerina, additional, Henry, Amanda G., additional, Humphrey, Louise, additional, Menéndez, Mario, additional, Mihailović, Dušan, additional, Peresani, Marco, additional, Rodríguez Moroder, Sofía, additional, Roksandic, Mirjana, additional, Rougier, Hélène, additional, Sázelová, Sandra, additional, Stock, Jay T., additional, Straus, Lawrence Guy, additional, Svoboda, Jiří, additional, Teßmann, Barbara, additional, Walker, Michael J., additional, Power, Robert C., additional, Lewis, Cecil M., additional, Sankaranarayanan, Krithivasan, additional, Guschanski, Katerina, additional, Wrangham, Richard W., additional, Dewhirst, Floyd E., additional, Salazar-García, Domingo C., additional, Krause, Johannes, additional, Herbig, Alexander, additional, and Warinner, Christina, additional
Published: 2021
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161. Combining Bayesian age models and genetics to investigate population dynamics and extinction of the last mammoths in northern Siberia

Author: Dehasque, Marianne, primary, Pečnerová, Patrícia, additional, Muller, Héloïse, additional, Tikhonov, Alexei, additional, Nikolskiy, Pavel, additional, Tsigankova, Valeriya I., additional, Danilov, Gleb K., additional, Díez-del-Molino, David, additional, Vartanyan, Sergey, additional, Dalén, Love, additional, and Lister, Adrian M., additional
Published: 2021
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162. African and Asian leopards are highly differentiated at the genomic level

Author: Paijmans, Johanna L.A., primary, Barlow, Axel, additional, Becker, Matthew S., additional, Cahill, James A., additional, Fickel, Joerns, additional, Förster, Daniel W.G., additional, Gries, Katrin, additional, Hartmann, Stefanie, additional, Havmøller, Rasmus Worsøe, additional, Henneberger, Kirstin, additional, Kern, Christian, additional, Kitchener, Andrew C., additional, Lorenzen, Eline D., additional, Mayer, Frieder, additional, OBrien, Stephen J., additional, von Seth, Johanna, additional, Sinding, Mikkel-Holder S., additional, Spong, Göran, additional, Uphyrkina, Olga, additional, Wachter, Bettina, additional, Westbury, Michael V., additional, Dalén, Love, additional, Bhak, Jong, additional, Manica, Andrea, additional, and Hofreiter, Michael, additional
Published: 2021
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163. A polar bear paleogenome reveals extensive ancient gene flow from polar bears into brown bears.

Author: Wang, Ming-Shan, Murray, Gemma G. R., Mann, Daniel, Groves, Pamela, Vershinina, Alisa O., Supple, Megan A., Kapp, Joshua D., Corbett-Detig, Russell, Crump, Sarah E., Stirling, Ian, Laidre, Kristin L., Kunz, Michael, Dalén, Love, Green, Richard E., and Shapiro, Beth
Published: 2022
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164. Author Correction: Dense sampling of bird diversity increases power of comparative genomics

Author: Feng, Shaohong, primary, Stiller, Josefin, additional, Deng, Yuan, additional, Armstrong, Joel, additional, Fang, Qi, additional, Reeve, Andrew Hart, additional, Xie, Duo, additional, Chen, Guangji, additional, Guo, Chunxue, additional, Faircloth, Brant C., additional, Petersen, Bent, additional, Wang, Zongji, additional, Zhou, Qi, additional, Diekhans, Mark, additional, Chen, Wanjun, additional, Andreu-Sánchez, Sergio, additional, Margaryan, Ashot, additional, Howard, Jason Travis, additional, Parent, Carole, additional, Pacheco, George, additional, Sinding, Mikkel-Holger S., additional, Puetz, Lara, additional, Cavill, Emily, additional, Ribeiro, Ângela M., additional, Eckhart, Leopold, additional, Fjeldså, Jon, additional, Hosner, Peter A., additional, Brumfield, Robb T., additional, Christidis, Les, additional, Bertelsen, Mads F., additional, Sicheritz-Ponten, Thomas, additional, Tietze, Dieter Thomas, additional, Robertson, Bruce C., additional, Song, Gang, additional, Borgia, Gerald, additional, Claramunt, Santiago, additional, Lovette, Irby J., additional, Cowen, Saul J., additional, Njoroge, Peter, additional, Dumbacher, John Philip, additional, Ryder, Oliver A., additional, Fuchs, Jérôme, additional, Bunce, Michael, additional, Burt, David W., additional, Cracraft, Joel, additional, Meng, Guanliang, additional, Hackett, Shannon J., additional, Ryan, Peter G., additional, Jønsson, Knud Andreas, additional, Jamieson, Ian G., additional, da Fonseca, Rute R., additional, Braun, Edward L., additional, Houde, Peter, additional, Mirarab, Siavash, additional, Suh, Alexander, additional, Hansson, Bengt, additional, Ponnikas, Suvi, additional, Sigeman, Hanna, additional, Stervander, Martin, additional, Frandsen, Paul B., additional, van der Zwan, Henriette, additional, van der Sluis, Rencia, additional, Visser, Carina, additional, Balakrishnan, Christopher N., additional, Clark, Andrew G., additional, Fitzpatrick, John W., additional, Bowman, Reed, additional, Chen, Nancy, additional, Cloutier, Alison, additional, Sackton, Timothy B., additional, Edwards, Scott V., additional, Foote, Dustin J., additional, Shakya, Subir B., additional, Sheldon, Frederick H., additional, Vignal, Alain, additional, Soares, André E. R., additional, Shapiro, Beth, additional, González-Solís, Jacob, additional, Ferrer-Obiol, Joan, additional, Rozas, Julio, additional, Riutort, Marta, additional, Tigano, Anna, additional, Friesen, Vicki, additional, Dalén, Love, additional, Urrutia, Araxi O., additional, Székely, Tamás, additional, Liu, Yang, additional, Campana, Michael G., additional, Corvelo, André, additional, Fleischer, Robert C., additional, Rutherford, Kim M., additional, Gemmell, Neil J., additional, Dussex, Nicolas, additional, Mouritsen, Henrik, additional, Thiele, Nadine, additional, Delmore, Kira, additional, Liedvogel, Miriam, additional, Franke, Andre, additional, Hoeppner, Marc P., additional, Krone, Oliver, additional, Fudickar, Adam M., additional, Milá, Borja, additional, Ketterson, Ellen D., additional, Fidler, Andrew Eric, additional, Friis, Guillermo, additional, Parody-Merino, Ángela M., additional, Battley, Phil F., additional, Cox, Murray P., additional, Lima, Nicholas Costa Barroso, additional, Prosdocimi, Francisco, additional, Parchman, Thomas Lee, additional, Schlinger, Barney A., additional, Loiselle, Bette A., additional, Blake, John G., additional, Lim, Haw Chuan, additional, Day, Lainy B., additional, Fuxjager, Matthew J., additional, Baldwin, Maude W., additional, Braun, Michael J., additional, Wirthlin, Morgan, additional, Dikow, Rebecca B., additional, Ryder, T. Brandt, additional, Camenisch, Glauco, additional, Keller, Lukas F., additional, DaCosta, Jeffrey M., additional, Hauber, Mark E., additional, Louder, Matthew I. M., additional, Witt, Christopher C., additional, McGuire, Jimmy A., additional, Mudge, Joann, additional, Megna, Libby C., additional, Carling, Matthew D., additional, Wang, Biao, additional, Taylor, Scott A., additional, Del-Rio, Glaucia, additional, Aleixo, Alexandre, additional, Vasconcelos, Ana Tereza Ribeiro, additional, Mello, Claudio V., additional, Weir, Jason T., additional, Haussler, David, additional, Li, Qiye, additional, Yang, Huanming, additional, Wang, Jian, additional, Lei, Fumin, additional, Rahbek, Carsten, additional, Gilbert, M. Thomas P., additional, Graves, Gary R., additional, Jarvis, Erich D., additional, Paten, Benedict, additional, and Zhang, Guojie, additional
Published: 2021
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165. Middle Pleistocene genome calibrates a revised evolutionary history of extinct cave bears

Author: Barlow, Axel, primary, Paijmans, Johanna L.A., additional, Alberti, Federica, additional, Gasparyan, Boris, additional, Bar-Oz, Guy, additional, Pinhasi, Ron, additional, Foronova, Irina, additional, Puzachenko, Andrey Y., additional, Pacher, Martina, additional, Dalén, Love, additional, Baryshnikov, Gennady, additional, and Hofreiter, Michael, additional
Published: 2021
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166. No particular genomic features underpin the dramatic economic consequences of 17th century plague epidemics in Italy

Author: Seguin-Orlando, Andaine, primary, Costedoat, Caroline, additional, Der Sarkissian, Clio, additional, Tzortzis, Stéfan, additional, Kamel, Célia, additional, Telmon, Norbert, additional, Dalén, Love, additional, Thèves, Catherine, additional, Signoli, Michel, additional, and Orlando, Ludovic, additional
Published: 2021
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167. Is the glacial refugium concept relevant for northern species? A comment on Pruett and Winker 2005

Author: Stewart, John R. and Dalén, Love
Published: 2008
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168. Dense sampling of bird diversity increases power of comparative genomics

Author: Feng, Shaohong, Stiller, Josefin, Deng, Yuan, Armstrong, Joel, Fang, Qi, Reeve, Andrew Hart, Xie, Duo, Chen, Guangji, Guo, Chunxue, Faircloth, Brant C, Petersen, Bent, Wang, Zongji, Zhou, Qi, Diekhans, Mark, Chen, Wanjun, Andreu-Sánchez, Sergio, Margaryan, Ashot, Howard, Jason Travis, Parent, Carole, Pacheco, George, Sinding, Mikkel-Holger S, Puetz, Lara, Cavill, Emily, Ribeiro, Ângela M, Eckhart, Leopold, Fjeldså, Jon, Hosner, Peter A, Brumfield, Robb T, Christidis, Les, Bertelsen, Mads F, Sicheritz-Ponten, Thomas, Tietze, Dieter Thomas, Robertson, Bruce C, Song, Gang, Borgia, Gerald, Claramunt, Santiago, Lovette, Irby J, Cowen, Saul J, Njoroge, Peter, Dumbacher, John Philip, Ryder, Oliver A, Fuchs, Jérôme, Bunce, Michael, Burt, David W, Cracraft, Joel, Meng, Guanliang, Hackett, Shannon J, Ryan, Peter G, Jønsson, Knud Andreas, Jamieson, Ian G, da Fonseca, Rute R, Braun, Edward L, Houde, Peter, Mirarab, Siavash, Suh, Alexander, Hansson, Bengt, Ponnikas, Suvi, Sigeman, Hanna, Stervander, Martin, Frandsen, Paul B, van der Zwan, Henriette, van der Sluis, Rencia, Visser, Carina, Balakrishnan, Christopher N, Clark, Andrew G, Fitzpatrick, John W, Bowman, Reed, Chen, Nancy, Cloutier, Alison, Sackton, Timothy B, Edwards, Scott V, Foote, Dustin J, Shakya, Subir B, Sheldon, Frederick H, Vignal, Alain, Soares, André ER, Shapiro, Beth, González-Solís, Jacob, Ferrer-Obiol, Joan, Rozas, Julio, Riutort, Marta, Tigano, Anna, Friesen, Vicki, Dalén, Love, Urrutia, Araxi O, Székely, Tamás, Liu, Yang, Campana, Michael G, Corvelo, André, Fleischer, Robert C, Rutherford, Kim M, Gemmell, Neil J, Dussex, Nicolas, Mouritsen, Henrik, Thiele, Nadine, Delmore, Kira, Liedvogel, Miriam, Franke, Andre, Hoeppner, Marc P, and Krone, Oliver
Subjects: Conservation of Natural Resources, Genome, Life on Land, General Science & Technology, Human Genome, Datasets as Topic, Genomics, Synteny, Birds, Genetic, Genetics, Animals, Humans, Finches, Generic health relevance, Chickens, Selection, Phylogeny, Biotechnology
Abstract: Whole-genome sequencing projects are increasingly populating the tree of life and characterizing biodiversity1-4. Sparse taxon sampling has previously been proposed to confound phylogenetic inference5, and captures only a fraction of the genomic diversity. Here we report a substantial step towards the dense representation of avian phylogenetic and molecular diversity, by analysing 363genomes from 92.4% of bird families-including 267newly sequenced genomes produced for phaseII of the Bird 10,000Genomes (B10K) Project. We use this comparative genome dataset in combination with a pipeline that leverages a reference-free whole-genome alignment to identify orthologous regions in greater numbers than has previously been possible and to recognize genomic novelties in particular bird lineages. The densely sampled alignment provides a single-base-pair map of selection, has more than doubled the fraction of bases that are confidently predicted to be under conservation and reveals extensive patterns of weak selection in predominantly non-coding DNA. Our results demonstrate that increasing the diversity of genomes used in comparative studies can reveal more shared and lineage-specific variation, and improve the investigation of genomic characteristics. We anticipate that this genomic resource will offer new perspectives on evolutionary processes in cross-species comparative analyses and assist in efforts to conserve species.
Published: 2020

169. Human population dynamics and

Author: Kılınç, Gülşah Merve, Kashuba, Natalija, Koptekin, Dilek, Bergfeldt, Nora, Dönertaş, Handan Melike, Rodríguez-Varela, Ricardo, Shergin, Dmitrij, Ivanov, Grigorij, Kichigin, Dmitrii, Pestereva, Kjunnej, Volkov, Denis, Mandryka, Pavel, Kharinskii, Artur, Tishkin, Alexey, Ineshin, Evgenij, Kovychev, Evgeniy, Stepanov, Aleksandr, Dalén, Love, Günther, Torsten, Kırdök, Emrah, Jakobsson, Mattias, Somel, Mehmet, Krzewińska, Maja, Storå, Jan, and Götherström, Anders
Subjects: Archaeology, Anthropology, SciAdv r-articles, Arkeologi, Research Articles, Research Article
Abstract: Ancient genomes reveal a complex demographic picture since the post-LGM in northeast Asia and report the presence of Y. pestis., We present genome-wide data from 40 individuals dating to c.16,900 to 550 years ago in northeast Asia. We describe hitherto unknown gene flow and admixture events in the region, revealing a complex population history. While populations east of Lake Baikal remained relatively stable from the Mesolithic to the Bronze Age, those from Yakutia and west of Lake Baikal witnessed major population transformations, from the Late Upper Paleolithic to the Neolithic, and during the Bronze Age, respectively. We further locate the Asian ancestors of Paleo-Inuits, using direct genetic evidence. Last, we report the most northeastern ancient occurrence of the plague-related bacterium, Yersinia pestis. Our findings indicate the highly connected and dynamic nature of northeast Asia populations throughout the Holocene.
Published: 2020

170. Pre-contact Inuit dog genomes show a wealth of dog diversity in the North American Arctic

Author: Feuerborn, Tatiana R., Gopalakrishnan, Shyam, Díaz-Maroto, Paloma F., Appelt, Martin, Grønnow, Bjarne, Schmidt, Anne Lisbeth, Rankin, Lisa, Gilbert, Tom, Dalén, Love, Meldgaard, Morten, Sinding, Mikkel-Holger S., and Hansen, Anders J.
Published: 2020

171. Genomic insight into the population history of Siberian dogs

Author: Feuerborn, Tatiana R., Carmagnini, Alberto, Gopalakrishnan, Shyam, Losey, Robert, Appelt, Martin, Grønnow, Bjarne, Schmidt, Anne Lisbeth, Gilbert, Tom, Meldgaard, Morten, Larson, Greger, Dalén, Love, Hansen, Anders J., Sindning, Mikkel-Holger S., and Frantz, Laurent A.
Published: 2020

172. A NEW WOOLLY MAMMOTH (MAMMUTHUS PRIMIGENIUS BLUMENBACH, 1799) FROM KOTELNY ISLAND, NOVOSIBIRSK ARCHIPELAGO, RUSSIA

Author: Potapova, Olga, Innokentiy S Pavlov, Plotnikov Valerii Valerievich, E. N. Mashchenko, Dehasque, Marianne, Shapiro, Beth, Dalén, Love, Suzuki, Naoki, Hoffecker, John F, and Protopopov, Albert
Published: 2020
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173. Additional file 2 of Moose genomes reveal past glacial demography and the origin of modern lineages

Author: Dussex, Nicolas, Alberti, Federica, Heino, Matti T., Remi-Andre Olsen, Valk, Tom Van Der, Ryman, Nils, Laikre, Linda, Ahlgren, Hans, Askeyev, Igor V., Askeyev, Oleg V., Shaymuratova, Dilyara N., Askeyev, Arthur O., Döppes, Doris, Friedrich, Ronny, Lindauer, Susanne, Rosendahl, Wilfried, Aspi, Jouni, Hofreiter, Michael, Lidén, Kerstin, Dalén, Love, and Díez-Del-Molino, David
Abstract: Additional file 2: Figure S1. Identification of scaffolds linked to chromosome X using sequencing coverage and scaffold length. Green dots correspond to scaffolds assigned as linked to chromosome X. The red lines indicate the median coverage for all scaffolds. The blue lines represent half the median coverage which corresponds to the coverage of scaffolds linked to chromosome X. Figure S2. Past demography for moose (Alces alces) using PSMC. Thin lines represent 100 bootstrap runs. The x-axis corresponds to time before present in years on a log scale, assuming an estimated substitution rate of 0.7 × 10− 8 substitutions/site/generation [30] and a generation time of 7 years [31]. The y-axis corresponds to the effective population size Ne. Figure S3. Past demography for moose (Alces alces) using a Bayesian Skyline Plot (BSP). Demographic reconstruction was inferred in BEAST using 14 European 16,693 bp mitogenomes. Timing of events was estimated assuming a mean rate of 9 × 10− 9 substitutions/site/year based on Zurano et al. [93] and a standard deviation of 0.01. The x axis is in calendar years before present and y axis represents changes in effective population size (shown as the product of Nef and generation time T). The black line corresponds to the median estimate and the blue lines show the 95% highest posterior density intervals. Figure S4. Distribution of runs of homozygosity (ROH) in moose (Alces alces). ROH ≥500 kb are shown.
Published: 2020
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174. Interspecific Gene Flow and the Evolution of Specialization in Black and White Rhinoceros

Author: Moodley, Yoshan, Westbury, Michael V, Russo, Isa-Rita M, Gopalakrishnan, Shyam, Rakotoarivelo, Andrinajoro, Olsen, Remi-Andre, Prost, Stefan, Tunstall, Tate, Ryder, Oliver A, Dalén, Love, Bruford, Michael W, Moodley, Yoshan, Westbury, Michael V, Russo, Isa-Rita M, Gopalakrishnan, Shyam, Rakotoarivelo, Andrinajoro, Olsen, Remi-Andre, Prost, Stefan, Tunstall, Tate, Ryder, Oliver A, Dalén, Love, and Bruford, Michael W
Abstract: Africa’s black (Diceros bicornis) and white (Ceratotherium simum) rhinoceros are closely related sister-taxa that evolved highly divergent obligate browsing and grazing feeding strategies. Although their precursor species Diceros praecox and Ceratotherium mauritanicum appear in the fossil record ∼5.2 Ma, by 4 Ma both were still mixed feeders, and were even spatiotemporally sympatric at several Pliocene sites in what is today Africa’s Rift Valley. Here, we ask whether or not D. praecox and C. mauritanicum were reproductively isolated when they came into Pliocene secondary contact. We sequenced and de novo assembled the first annotated black rhinoceros reference genome and compared it with available genomes of other black and white rhinoceros. We show that ancestral gene flow between D. praecox and C. mauritanicum ceased sometime between 3.3 and 4.1 Ma, despite conventional methods for the detection of gene flow from whole genome data returning false positive signatures of recent interspecific migration due to incomplete lineage sorting. We propose that ongoing Pliocene genetic exchange, for up to 2 My after initial divergence, could have potentially hindered the development of obligate feeding strategies until both species were fully reproductively isolated, but that the more severe and shifting paleoclimate of the early Pleistocene was likely the ultimate driver of ecological specialization in African rhinoceros.
Published: 2020
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175. Archives of human-dog relationships : Genetic and stable isotope analysis of Arctic fur clothing

Author: Harris, Alison J. T., Feuerborn, Tatiana Richtman, Sinding, Mikkel-Holger S., Nottingham, James, Knudsen, Robert, Rey-Iglesia, Alba, Schmidt, Anne Lisbeth, Appelt, Martin, Grønnow, Bjarne, Alexander, Michelle, Eriksson, Gunilla, Dalén, Love, Hansen, Anders J., Lidén, Kerstin, Harris, Alison J. T., Feuerborn, Tatiana Richtman, Sinding, Mikkel-Holger S., Nottingham, James, Knudsen, Robert, Rey-Iglesia, Alba, Schmidt, Anne Lisbeth, Appelt, Martin, Grønnow, Bjarne, Alexander, Michelle, Eriksson, Gunilla, Dalén, Love, Hansen, Anders J., and Lidén, Kerstin
Abstract: Among Indigenous populations of the Arctic, domestic dogs (Canislupus familiaris) were social actors aiding in traction and subsistence activities. Less commonly, dogs fulfilled a fur-bearing role in both the North American and Siberian Arctic. Examples of garments featuring dog skins were collected during the 19th-20th centuries and are now curated by the National Museum of Denmark. We sequenced the mitochondrial genomes of macroscopically identified dog skin garments. We conducted stable carbon and nitrogen isotope ratio analysis of the dog furs and of fur samples from contemporaneous pelts of Arctic (C. lupus arctos) and grey (C. lupus) wolves. Despite the presence of biocides used to protect the fur clothing during storage, we extracted well-preserved DNA using a minimally-invasive sampling protocol. Unexpectedly, the mtDNA genomes of one-third of the samples were consistent with wild taxa, rather than domestic dogs. The strong marine component in the diets of North American dogs distinguished them from Greenland and Canadian wolves, but Siberian dogs consumed diets that were isotopically similar to wild species. We found that dog provisioning practices were variable across the Siberian and North American Arctic, but in all cases, involved considerable human labor., ArchSci2020
Published: 2020
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176. Pre-extinction Demographic Stability and Genomic Signatures of Adaptation in the Woolly Rhinoceros

Author: Lord, Edana, Dussex, Nicolas, Kierczak, Marcin, Díez-del-Molino, David, Ryder, Oliver A., Stanton, David W. G., Gilbert, M. Thomas P., Sánchez-Barreiro, Fátima, Zhang, Guojie, Sinding, Mikkel-Holger S., Lorenzen, Eline D., Willerslev, Eske, Protopopov, Albert, Shidlovskiy, Fedor, Fedorov, Sergey, Bocherens, Hervé, Nathan, Senthilvel K. S. S., Goossens, Benoit, van der Plicht, Johannes, Chan, Yvonne L., Prost, Stefan, Potapova, Olga, Kirillova, Irina, Lister, Adrian M., Heintzman, Peter D., Kapp, Joshua D., Shapiro, Beth, Vartanyan, Sergey, Götherström, Anders, Dalén, Love, Lord, Edana, Dussex, Nicolas, Kierczak, Marcin, Díez-del-Molino, David, Ryder, Oliver A., Stanton, David W. G., Gilbert, M. Thomas P., Sánchez-Barreiro, Fátima, Zhang, Guojie, Sinding, Mikkel-Holger S., Lorenzen, Eline D., Willerslev, Eske, Protopopov, Albert, Shidlovskiy, Fedor, Fedorov, Sergey, Bocherens, Hervé, Nathan, Senthilvel K. S. S., Goossens, Benoit, van der Plicht, Johannes, Chan, Yvonne L., Prost, Stefan, Potapova, Olga, Kirillova, Irina, Lister, Adrian M., Heintzman, Peter D., Kapp, Joshua D., Shapiro, Beth, Vartanyan, Sergey, Götherström, Anders, and Dalén, Love
Abstract: Ancient DNA has significantly improved our understanding of the evolution and population history of extinct megafauna. However, few studies have used complete ancient genomes to examine species responses to climate change prior to extinction. The woolly rhinoceros (Coelodonta antiquitatis) was a cold-adapted megaherbivore widely distributed across northern Eurasia during the Late Pleistocene and became extinct approximately 14 thousand years before present (ka BP). While humans and climate change have been proposed as potential causes of extinction [1-3], knowledge is limited on how the woolly rhinoceros was impacted by human arrival and climatic fluctuations [2]. Here, we use one complete nuclear genome and 14 mitogenomes to investigate the demographic history of woolly rhinoceros leading up to its extinction. Unlike other northern megafauna, the effective population size of woolly rhinoceros likely increased at 29.7 ka BP and subsequently remained stable until close to the species' extinction. Analysis of the nuclear genome from a similar to 18.5-ka-old specimen did not indicate any increased inbreeding or reduced genetic diversity, suggesting that the population size remained steady for more than 13 ka following the arrival of humans [4]. The population contraction leading to extinction of the woolly rhinoceros may have thus been sudden and mostly driven by rapid warming in the Bolling-Allerod interstadial. Furthermore, we identify woolly rhinoceros-specific adaptations to arctic climate, similar to those of the woolly mammoth. This study highlights how species respond differently to climatic fluctuations and further illustrates the potential of palaeogenomics to study the evolutionary history of extinct species.
Published: 2020
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177. Origins and genetic legacy of prehistoric dogs

Author: Bergström, Anders, Frantz, Laurent, Schmidt, Ryan, Ersmark, Erik, Lebrasseur, Ophelie, Girdland-Flink, Linus, Lin, Audrey T., Storå, Jan, Sjögren, Karl-Göran, Anthony, David, Antipina, Ekaterina, Amiri, Sarieh, Bar-Oz, Guy, Bazaliiskii, Vladimir I., Bulatovic, Jelena, Brown, Dorcas, Carmagnini, Alberto, Davy, Tom, Fedorov, Sergey, Fiore, Ivana, Fulton, Deirdre, Germonpré, Mietje, Haile, James, Irving-Pease, Evan K., Jamieson, Alexandra, Janssens, Luc, Kirillova, Irina, Horwitz, Liora Kolska, Kuzmanovic-Cvetkovic, Julka, Kuzmin, Yaroslav, Losey, Robert J., Ložnjak Dizdar, Daria, Mashkour, Marjan, Novak, Mario, Onar, Vedat, Orton, David, Pasaric, Maja, Radivojevic, Miljana, Rajkovic, Dragana, Roberts, Benjamin, Ryan, Hannah, Sablin, Mikhail, Shidlovskiy, Fedor, Stojanovic, Ivana, Tagliacozzo, Antonio, Trantalidou, Katerina, Ullén, Inga, Villaluenga, Aritza, Wapnish, Paula, Dobney, Keith, Götherström, Anders, Linderholm, Anna, Dalén, Love, Pinhasi, Ron, Larson, Greger, Skoglund, Pontus, Bergström, Anders, Frantz, Laurent, Schmidt, Ryan, Ersmark, Erik, Lebrasseur, Ophelie, Girdland-Flink, Linus, Lin, Audrey T., Storå, Jan, Sjögren, Karl-Göran, Anthony, David, Antipina, Ekaterina, Amiri, Sarieh, Bar-Oz, Guy, Bazaliiskii, Vladimir I., Bulatovic, Jelena, Brown, Dorcas, Carmagnini, Alberto, Davy, Tom, Fedorov, Sergey, Fiore, Ivana, Fulton, Deirdre, Germonpré, Mietje, Haile, James, Irving-Pease, Evan K., Jamieson, Alexandra, Janssens, Luc, Kirillova, Irina, Horwitz, Liora Kolska, Kuzmanovic-Cvetkovic, Julka, Kuzmin, Yaroslav, Losey, Robert J., Ložnjak Dizdar, Daria, Mashkour, Marjan, Novak, Mario, Onar, Vedat, Orton, David, Pasaric, Maja, Radivojevic, Miljana, Rajkovic, Dragana, Roberts, Benjamin, Ryan, Hannah, Sablin, Mikhail, Shidlovskiy, Fedor, Stojanovic, Ivana, Tagliacozzo, Antonio, Trantalidou, Katerina, Ullén, Inga, Villaluenga, Aritza, Wapnish, Paula, Dobney, Keith, Götherström, Anders, Linderholm, Anna, Dalén, Love, Pinhasi, Ron, Larson, Greger, and Skoglund, Pontus
Abstract: Dogs were the first domestic animal, but little is known about their population history and to what extent it was linked to humans. We sequenced 27 ancient dog genomes and found that all dogs share a common ancestry distinct from present-day wolves, with limited gene flow from wolves since domestication but substantial dog-to-wolf gene flow. By 11,000 years ago, at least five major ancestry lineages had diversified, demonstrating a deep genetic history of dogs during the Paleolithic. Coanalysis with human genomes reveals aspects of dog population history that mirror humans, including Levant-related ancestry in Africa and early agricultural Europe. Other aspects differ, including the impacts of steppe pastoralist expansions in West and East Eurasia and a near-complete turnover of Neolithic European dog ancestry.
Published: 2020
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178. Arctic-adapted dogs emerged at the Pleistocene-Holocene transition

Author: Sinding, Mikkel-Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Pitulko, Vladimir, Kuderna, Lukas, Feuerborn, Tatiana, Frantz, Laurent, Garrett Vieira, Filipe, Niemann, Jonas, Samaniego Castruita, José Alfredo, Carøe, Christian, Andersen-Ranberg, Emilie Ulrikka, Jordan, Peter, Pavlova, Elena, Nikolskiy, Pavel, Kasparov, Aleksei, Ivanova, Varvara, Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Ponten, Thomas, Bachmann, Lutz, Wiig, Øystein, Marques-Bonet, Tomas, Hansen, Anders Johannes, Gilbert, M. Thomas P., Sinding, Mikkel-Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Pitulko, Vladimir, Kuderna, Lukas, Feuerborn, Tatiana, Frantz, Laurent, Garrett Vieira, Filipe, Niemann, Jonas, Samaniego Castruita, José Alfredo, Carøe, Christian, Andersen-Ranberg, Emilie Ulrikka, Jordan, Peter, Pavlova, Elena, Nikolskiy, Pavel, Kasparov, Aleksei, Ivanova, Varvara, Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Ponten, Thomas, Bachmann, Lutz, Wiig, Øystein, Marques-Bonet, Tomas, Hansen, Anders Johannes, and Gilbert, M. Thomas P.
Abstract: Altres ajuts: Formació de Personal Investigador fellowship from Generalitat de Catalunya (FI_B01111), Obra Social "La Caixa", Natural Environmental Research Council (Grants NE/K005243/1 and NE/K003259/1), Francis Crick Institute (FC001595), Although sled dogs are one of the most specialized groups of dogs, their origin and evolution has received much less attention than many other dog groups. We applied a genomic approach to investigate their spatiotemporal emergence by sequencing the genomes of 10 modern Greenland sled dogs, an ~9500-year-old Siberian dog associated with archaeological evidence for sled technology, and an ~33,000-year-old Siberian wolf. We found noteworthy genetic similarity between the ancient dog and modern sled dogs. We detected gene flow from Pleistocene Siberian wolves, but not modern American wolves, to present-day sled dogs. The results indicate that the major ancestry of modern sled dogs traces back to Siberia, where sled dog-specific haplotypes of genes that potentially relate to Arctic adaptation were established by 9500 years ago.
Published: 2020

179. Genomic Adaptations and Evolutionary History of the Extinct Scimitar-Toothed Cat, Homotherium latidens

Author: Barnett, Ross, Westbury, Michael V., Sandoval-Velasco, Marcela, Vieira, Filipe Garrett, Jeon, Sungwon, Zazula, Grant, Martin, Michael D., Ho, Simon Y.W., Mather, Niklas, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Zepeda-Mendoza, M. Lisandra, Antunes, Agostinho, Baez, Aldo Carmona, De Cahsan, Binia, Larson, Greger, O’Brien, Stephen J., Eizirik, Eduardo, Johnson, Warren E., Koepfli, Klaus-Peter, Wilting, Andreas, Fickel, Jörns, Dalén, Love, Lorenzen, Eline D., Marques-Bonet, Tomas, Hansen, Anders J., Zhang, Guojie, Bhak, Jong, Yamaguchi, Nobuyuki, Gilbert, M. Thomas P., Barnett, Ross, Westbury, Michael V., Sandoval-Velasco, Marcela, Vieira, Filipe Garrett, Jeon, Sungwon, Zazula, Grant, Martin, Michael D., Ho, Simon Y.W., Mather, Niklas, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Zepeda-Mendoza, M. Lisandra, Antunes, Agostinho, Baez, Aldo Carmona, De Cahsan, Binia, Larson, Greger, O’Brien, Stephen J., Eizirik, Eduardo, Johnson, Warren E., Koepfli, Klaus-Peter, Wilting, Andreas, Fickel, Jörns, Dalén, Love, Lorenzen, Eline D., Marques-Bonet, Tomas, Hansen, Anders J., Zhang, Guojie, Bhak, Jong, Yamaguchi, Nobuyuki, and Gilbert, M. Thomas P.
Abstract: Homotherium was a genus of large-bodied scimitar-toothed cats, morphologically distinct from any extant felid species, that went extinct at the end of the Pleistocene [1–4]. They possessed large, saber-form serrated canine teeth, powerful forelimbs, a sloping back, and an enlarged optic bulb, all of which were key characteristics for predation on Pleistocene megafauna [5]. Previous mitochondrial DNA phylogenies suggested that it was a highly divergent sister lineage to all extant cat species [6–8]. However, mitochondrial phylogenies can be misled by hybridization [9], incomplete lineage sorting (ILS), or sex-biased dispersal patterns [10], which might be especially relevant for Homotherium since widespread mito-nuclear discrepancies have been uncovered in modern cats [10]. To examine the evolutionary history of Homotherium, we generated a7x nuclear genome and a38x exome from H. latidens using shotgun and target-capture sequencing approaches. Phylogenetic analyses reveal Homotherium as highly divergent (22.5 Ma) from living cat species, with no detectable signs of gene flow. Comparative genomic analyses found signatures of positive selection in several genes, including those involved in vision, cognitive function, and energy consumption, putatively consistent with diurnal activity, well-developed social behavior, and cursorial hunting [5]. Finally, we uncover relatively high levels of genetic diversity, suggesting that Homotherium may have been more abundant than the limited fossil record suggests [3, 4, 11–14]. Our findings complement and extend previous inferences from both the fossil record and initial molecular studies, enhancing our understanding of the evolution and ecology of this remarkable lineage.
Published: 2020

180. Archives of human-dog relationships:Genetic and stable isotope analysis of Arctic fur clothing

Author: Harris, Alison J.T., Feuerborn, Tatiana R., Sinding, Mikkel Holger S., Nottingham, James, Knudsen, Robert, Rey-Iglesia, Alba, Schmidt, Anne Lisbeth, Appelt, Martin, Grønnow, Bjarne, Alexander, Michelle, Eriksson, Gunilla, Dalén, Love, Hansen, Anders J., Lidén, Kerstin, Harris, Alison J.T., Feuerborn, Tatiana R., Sinding, Mikkel Holger S., Nottingham, James, Knudsen, Robert, Rey-Iglesia, Alba, Schmidt, Anne Lisbeth, Appelt, Martin, Grønnow, Bjarne, Alexander, Michelle, Eriksson, Gunilla, Dalén, Love, Hansen, Anders J., and Lidén, Kerstin
Abstract: Among Indigenous populations of the Arctic, domestic dogs (Canislupus familiaris) were social actors aiding in traction and subsistence activities. Less commonly, dogs fulfilled a fur-bearing role in both the North American and Siberian Arctic. Examples of garments featuring dog skins were collected during the 19th-20th centuries and are now curated by the National Museum of Denmark. We sequenced the mitochondrial genomes of macroscopically identified dog skin garments. We conducted stable carbon and nitrogen isotope ratio analysis of the dog furs and of fur samples from contemporaneous pelts of Arctic (C. lupus arctos) and grey (C. lupus) wolves. Despite the presence of biocides used to protect the fur clothing during storage, we extracted well-preserved DNA using a minimally-invasive sampling protocol. Unexpectedly, the mtDNA genomes of one-third of the samples were consistent with wild taxa, rather than domestic dogs. The strong marine component in the diets of North American dogs distinguished them from Greenland and Canadian wolves, but Siberian dogs consumed diets that were isotopically similar to wild species. We found that dog provisioning practices were variable across the Siberian and North American Arctic, but in all cases, involved considerable human labor.
Published: 2020

181. Arctic-adapted dogs emerged at the Pleistocene-Holocene transition

Author: Sinding, Mikkel Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Pitulko, Vladimir V., Kuderna, Lukas, Feuerborn, Tatiana R., Frantz, Laurent A.F., Vieira, Filipe G., Niemann, Jonas, Samaniego Castruita, Jose A., Carøe, Christian, Andersen-Ranberg, Emilie U., Jordan, Peter D., Pavlova, Elena Y., Nikolskiy, Pavel A., Kasparov, Aleksei K., Ivanova, Varvara V., Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Pontén, Thomas, Bachmann, Lutz, Wiig, Øystein, Marques-Bonet, Tomas, Hansen, Anders J., Gilbert, M. Thomas P., Sinding, Mikkel Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, de Manuel, Marc, Pitulko, Vladimir V., Kuderna, Lukas, Feuerborn, Tatiana R., Frantz, Laurent A.F., Vieira, Filipe G., Niemann, Jonas, Samaniego Castruita, Jose A., Carøe, Christian, Andersen-Ranberg, Emilie U., Jordan, Peter D., Pavlova, Elena Y., Nikolskiy, Pavel A., Kasparov, Aleksei K., Ivanova, Varvara V., Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Pontén, Thomas, Bachmann, Lutz, Wiig, Øystein, Marques-Bonet, Tomas, Hansen, Anders J., and Gilbert, M. Thomas P.
Abstract: Although sled dogs are one of the most specialized groups of dogs, their origin and evolution has received much less attention than many other dog groups. We applied a genomic approach to investigate their spatiotemporal emergence by sequencing the genomes of 10 modern Greenland sled dogs, an ~9500-year-old Siberian dog associated with archaeological evidence for sled technology, and an ~33,000-year-old Siberian wolf. We found noteworthy genetic similarity between the ancient dog and modern sled dogs. We detected gene flow from Pleistocene Siberian wolves, but not modern American wolves, to present-day sled dogs. The results indicate that the major ancestry of modern sled dogs traces back to Siberia, where sled dog-specific haplotypes of genes that potentially relate to Arctic adaptation were established by 9500 years ago.
Published: 2020

182. Unveiling the ecological applications of Ancient DNA from mollusk shells

Author: Sarkissian, Clio Der, Möller, P., Hofman, Courtney, Ilsøe, Peter, Rick, Torben, Schiøtte, Tom, Sørensen, Martin Vinther, Dalén, Love, Orlando, Ludovic Antoine Alexandre, Sarkissian, Clio Der, Möller, P., Hofman, Courtney, Ilsøe, Peter, Rick, Torben, Schiøtte, Tom, Sørensen, Martin Vinther, Dalén, Love, and Orlando, Ludovic Antoine Alexandre
Published: 2020

183. Genomic Adaptations and Evolutionary History of the Extinct Scimitar-Toothed Cat, Homotherium latidens

Author: European Commission, European Research Council, National Research Council of Canada, Walter Reed Army Institute of Research, Barnett, Ross, Westbury, Michael V., Sandoval-Velasco, Marcela, Vieira, Filipe Garrett, Jeon, Sungwon, Zazula, Grant, Martin, Michael D., Ho, Simon Y.W., Mather, Niklas, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Manuel, Marc de, Zepeda-Mendoza, M. Lisandra, Antunes, Agostinho, Carmona Báez, Aldo, Cahsan, Binia de, Larson, Greger, O’Brien, Stephen J., Eizirik, Eduardo, Johnson, Warren E., Koepfli, Klaus-Peter, Wilting, Andreas, Fickel, Jörns, Dalén, Love, Lorenzen, Eline D., Marqués-Bonet, Tomàs, Hansen, Anders J., Zhang, Guojie, Bhak, Jong, Yamaguchi, Nobuyuki, Gilbert, M. Thomas P., European Commission, European Research Council, National Research Council of Canada, Walter Reed Army Institute of Research, Barnett, Ross, Westbury, Michael V., Sandoval-Velasco, Marcela, Vieira, Filipe Garrett, Jeon, Sungwon, Zazula, Grant, Martin, Michael D., Ho, Simon Y.W., Mather, Niklas, Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Manuel, Marc de, Zepeda-Mendoza, M. Lisandra, Antunes, Agostinho, Carmona Báez, Aldo, Cahsan, Binia de, Larson, Greger, O’Brien, Stephen J., Eizirik, Eduardo, Johnson, Warren E., Koepfli, Klaus-Peter, Wilting, Andreas, Fickel, Jörns, Dalén, Love, Lorenzen, Eline D., Marqués-Bonet, Tomàs, Hansen, Anders J., Zhang, Guojie, Bhak, Jong, Yamaguchi, Nobuyuki, and Gilbert, M. Thomas P.
Abstract: Homotherium was a genus of large-bodied scimitar-toothed cats, morphologically distinct from any extant felid species, that went extinct at the end of the Pleistocene [1–4]. They possessed large, saber-form serrated canine teeth, powerful forelimbs, a sloping back, and an enlarged optic bulb, all of which were key characteristics for predation on Pleistocene megafauna [5]. Previous mitochondrial DNA phylogenies suggested that it was a highly divergent sister lineage to all extant cat species [6–8]. However, mitochondrial phylogenies can be misled by hybridization [9], incomplete lineage sorting (ILS), or sex-biased dispersal patterns [10], which might be especially relevant for Homotherium since widespread mito-nuclear discrepancies have been uncovered in modern cats [10]. To examine the evolutionary history of Homotherium, we generated a 7x nuclear genome and a 38x exome from H. latidens using shotgun and target-capture sequencing approaches. Phylogenetic analyses reveal Homotherium as highly divergent (22.5 Ma) from living cat species, with no detectable signs of gene flow. Comparative genomic analyses found signatures of positive selection in several genes, including those involved in vision, cognitive function, and energy consumption, putatively consistent with diurnal activity, well-developed social behavior, and cursorial hunting [5]. Finally, we uncover relatively high levels of genetic diversity, suggesting that Homotherium may have been more abundant than the limited fossil record suggests [3, 4, 11–14]. Our findings complement and extend previous inferences from both the fossil record and initial molecular studies, enhancing our understanding of the evolution and ecology of this remarkable lineage.
Published: 2020

184. Evolutionary History, Genomic Adaptation to Toxic Diet, and Extinction of the Carolina Parakeet

Author: European Research Council, European Commission, Fundación la Caixa, Generalitat de Catalunya, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Howard Hughes Medical Institute, Fundação para a Ciência e a Tecnologia (Portugal), Gelabert, Pere, Sandoval-Velasco, Marcela, Serres-Armero, Aitor, Manuel, Marc de, Renom, P., Margaryan, Ashot, Stiller, Josefin, De-Dios, Toni, Fang, Qi, Feng, Shaohong, Mañosa, Santi, Pacheco, George, Ferrando-Bernal, Manuel, Shi, Goulin, Hao, Fei, Chen, Xianqing, Petersen, Bent, Olsen, Remi‐André, Navarro, Arcadi, Deng, Yuan, Dalén, Love, Marqués-Bonet, Tomàs, Zhang, Guojie, Antunes, Agostinho, Gilbert, M. Thomas P., Lalueza-Fox, Carles, European Research Council, European Commission, Fundación la Caixa, Generalitat de Catalunya, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Howard Hughes Medical Institute, Fundação para a Ciência e a Tecnologia (Portugal), Gelabert, Pere, Sandoval-Velasco, Marcela, Serres-Armero, Aitor, Manuel, Marc de, Renom, P., Margaryan, Ashot, Stiller, Josefin, De-Dios, Toni, Fang, Qi, Feng, Shaohong, Mañosa, Santi, Pacheco, George, Ferrando-Bernal, Manuel, Shi, Goulin, Hao, Fei, Chen, Xianqing, Petersen, Bent, Olsen, Remi‐André, Navarro, Arcadi, Deng, Yuan, Dalén, Love, Marqués-Bonet, Tomàs, Zhang, Guojie, Antunes, Agostinho, Gilbert, M. Thomas P., and Lalueza-Fox, Carles
Abstract: As the only endemic neotropical parrot to have recently lived in the northern hemisphere, the Carolina parakeet (Conuropsis carolinensis) was an iconic North American bird. The last surviving specimen died in the Cincinnati Zoo in 1918 [1]. The cause of its extinction remains contentious: besides excessive mortality associated to habitat destruction and active hunting, their survival could have been negatively affected by its range having become increasingly patchy [2] or by the exposure to poultry pathogens [3, 4]. In addition, the Carolina parakeet showed a predilection for cockleburs, an herbaceous plant that contains a powerful toxin, carboxyatractyloside, or CAT [5], which did not seem to affect them but made the birds notoriously toxic to most predators [3]. To explore the demographic history of this bird, we generated the complete genomic sequence of a preserved specimen held in a private collection in Espinelves (Girona, Spain), as well as of a close extant relative, Aratinga solstitialis. We identified two non-synonymous genetic changes in two highly conserved proteins known to interact with CAT that could underlie a specific dietary adaptation to this toxin. Our genomic analyses did not reveal evidence of a dramatic past demographic decline in the Carolina parakeet; also, its genome did not exhibit the long runs of homozygosity that are signals of recent inbreeding and are typically found in endangered species. As such, our results suggest its extinction was an abrupt process and thus likely solely attributable to human causes. Gelabert et al. report the whole genome of the extinct Carolina parakeet and provide evidence of its phylogeny, adaptation to a toxic cocklebur diet, and demographic history. The lack of signs of recent inbreeding typically found in endangered species suggests its abrupt extinction was human mediated.
Published: 2020

185. Arctic-adapted dogs emerged at the Pleistocene-Holocene transition

Author: Velux Foundation, European Commission, Independent Research Fund Denmark, Carlsberg Foundation, Generalitat de Catalunya, European Research Council, Natural Environment Research Council (UK), Russian Science Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Fundación la Caixa, Howard Hughes Medical Institute, Sinding, Mikkel-Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Manuel, Marc de, Pitulko, Vladimir, Kuderna, Lukas F. K., Feuerborn, Tatiana R., Frantz, Laurent A. F., Vieira, Filipe Garrett, Niemann, Jonas, Samaniego Castruita, José Alfredo, Carøe, Christian, Andersen-Ranberg, Emilie U., Jordan, Peter D., Pavlova, Elena Y., Nikolskiy, Pavel A., Kasparov, Aleksei, Ivanova, Varvara V., Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Ponten, Thomas, Bachmann, Lutz, Wiig, Øystein, Marqués-Bonet, Tomàs, Hansen, Anders J., Gilbert, M. Thomas P., Velux Foundation, European Commission, Independent Research Fund Denmark, Carlsberg Foundation, Generalitat de Catalunya, European Research Council, Natural Environment Research Council (UK), Russian Science Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Fundación la Caixa, Howard Hughes Medical Institute, Sinding, Mikkel-Holger S., Gopalakrishnan, Shyam, Ramos-Madrigal, Jazmín, Manuel, Marc de, Pitulko, Vladimir, Kuderna, Lukas F. K., Feuerborn, Tatiana R., Frantz, Laurent A. F., Vieira, Filipe Garrett, Niemann, Jonas, Samaniego Castruita, José Alfredo, Carøe, Christian, Andersen-Ranberg, Emilie U., Jordan, Peter D., Pavlova, Elena Y., Nikolskiy, Pavel A., Kasparov, Aleksei, Ivanova, Varvara V., Willerslev, Eske, Skoglund, Pontus, Fredholm, Merete, Wennerberg, Sanne Eline, Heide-Jørgensen, Mads Peter, Dietz, Rune, Sonne, Christian, Meldgaard, Morten, Dalén, Love, Larson, Greger, Petersen, Bent, Sicheritz-Ponten, Thomas, Bachmann, Lutz, Wiig, Øystein, Marqués-Bonet, Tomàs, Hansen, Anders J., and Gilbert, M. Thomas P.
Abstract: Although sled dogs are one of the most specialized groups of dogs, their origin and evolution has received much less attention than many other dog groups. We applied a genomic approach to investigate their spatiotemporal emergence by sequencing the genomes of 10 modern Greenland sled dogs, an ~9500-year-old Siberian dog associated with archaeological evidence for sled technology, and an ~33,000-year-old Siberian wolf. We found noteworthy genetic similarity between the ancient dog and modern sled dogs. We detected gene flow from Pleistocene Siberian wolves, but not modern American wolves, to present-day sled dogs. The results indicate that the major ancestry of modern sled dogs traces back to Siberia, where sled dog-specific haplotypes of genes that potentially relate to Arctic adaptation were established by 9500 years ago.
Published: 2020

186. Inference of natural selection from ancient DNA

Author: Dehasque, Marianne, Ávila‐Arcos, María C., Díez‐del‐Molino, David, Fumagalli, Matteo, Guschanski, Katerina, Lorenzen, Eline D., Malaspinas, Anna‐Sapfo, Marques‐Bonet, Tomas, Martin, Michael D., Murray, Gemma G. R., Papadopulos, Alexander S. T., Therkildsen, Nina Overgaard, Wegmann, Daniel, Dalén, Love, Foote, Andrew D., Dehasque, Marianne, Ávila‐Arcos, María C., Díez‐del‐Molino, David, Fumagalli, Matteo, Guschanski, Katerina, Lorenzen, Eline D., Malaspinas, Anna‐Sapfo, Marques‐Bonet, Tomas, Martin, Michael D., Murray, Gemma G. R., Papadopulos, Alexander S. T., Therkildsen, Nina Overgaard, Wegmann, Daniel, Dalén, Love, and Foote, Andrew D.
Abstract: Evolutionary processes, including selection, can be indirectly inferred based on patterns of genomic variation among contemporary populations or species. However, this often requires unrealistic assumptions of ancestral demography and selective regimes. Sequencing ancient DNA from temporally spaced samples can inform about past selection processes, as time series data allow direct quantification of population parameters collected before, during, and after genetic changes driven by selection. In this Comment and Opinion, we advocate for the inclusion of temporal sampling and the generation of paleogenomic datasets in evolutionary biology, and highlight some of the recent advances that have yet to be broadly applied by evolutionary biologists. In doing so, we consider the expected signatures of balancing, purifying, and positive selection in time series data, and detail how this can advance our understanding of the chronology and tempo of genomic change driven by selection. However, we also recognize the limitations of such data, which can suffer from postmortem damage, fragmentation, low coverage, and typically low sample size. We therefore highlight the many assumptions and considerations associated with analyzing paleogenomic data and the assumptions associated with analytical methods.
Published: 2020

187. Detection of farm fox and hybrid genotypes among wild arctic foxes in Scandinavia

Author: Norén, Karin, Dalén, Love, Kvaløy, Kirsti, and Angerbjörn, Anders
Published: 2005
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188. Hétérogénéité des ascendances mésolithiques et steppiques dans des génomes d’individus du Néolithique et du Campaniforme du territoire français

Author: Seguin-Orlando, Andaine, primary, Donat, Richard, additional, Der Sarkissian, Clio, additional, Southon, John, additional, Thèves, Catherine, additional, Manen, Claire, additional, Tchérémissinoff, Yaramila, additional, Crubézy, Eric, additional, Shapiro, Beth, additional, Deleuze, Jean-François, additional, Dalén, Love, additional, Guilaine, Jean, additional, and Orlando, Ludovic, additional
Published: 2021
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189. Heterogeneous Hunter-Gatherer and Steppe-Related Ancestries in Late Neolithic and Bell Beaker Genomes from Present-Day France

Author: Seguin-Orlando, Andaine, primary, Donat, Richard, additional, Der Sarkissian, Clio, additional, Southon, John, additional, Thèves, Catherine, additional, Manen, Claire, additional, Tchérémissinoff, Yaramila, additional, Crubézy, Eric, additional, Shapiro, Beth, additional, Deleuze, Jean-François, additional, Dalén, Love, additional, Guilaine, Jean, additional, and Orlando, Ludovic, additional
Published: 2021
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190. Genomic analyses of the extinct Sardinian dhole (Cynotherium sardous) reveal its evolutionary history

Author: Ciucani, Marta Maria, primary, Jensen, Julie Kragmose, additional, Sinding, Mikkel-Holger S., additional, Smith, Oliver, additional, Lucenti, Saverio Bartolini, additional, Rosengren, Erika, additional, Rook, Lorenzo, additional, Tuveri, Caterinella, additional, Area, Marisa, additional, Cappellini, Enrico, additional, Galaverni, Marco, additional, Randi, Ettore, additional, Guojie, Chunxue, additional, Zhang, Guojie, additional, Sicheritz-Pontén, Thomas, additional, Dalén, Love, additional, Gilbert, M. Thomas P., additional, and Gopalakrishnan, Shyam, additional
Published: 2021
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191. Ecological Specialization and Evolutionary Reticulation in Extant Hyaenidae

Author: Westbury, Michael V, primary, Le Duc, Diana, additional, Duchêne, David A, additional, Krishnan, Arunkumar, additional, Prost, Stefan, additional, Rutschmann, Sereina, additional, Grau, Jose H, additional, Dalén, Love, additional, Weyrich, Alexandra, additional, Norén, Karin, additional, Werdelin, Lars, additional, Dalerum, Fredrik, additional, Schöneberg, Torsten, additional, and Hofreiter, Michael, additional
Published: 2021
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192. Million-year-old DNA sheds light on the genomic history of mammoths

Author: van der Valk, Tom, primary, Pečnerová, Patrícia, additional, Díez-del-Molino, David, additional, Bergström, Anders, additional, Oppenheimer, Jonas, additional, Hartmann, Stefanie, additional, Xenikoudakis, Georgios, additional, Thomas, Jessica A., additional, Dehasque, Marianne, additional, Sağlıcan, Ekin, additional, Fidan, Fatma Rabia, additional, Barnes, Ian, additional, Liu, Shanlin, additional, Somel, Mehmet, additional, Heintzman, Peter D., additional, Nikolskiy, Pavel, additional, Shapiro, Beth, additional, Skoglund, Pontus, additional, Hofreiter, Michael, additional, Lister, Adrian M., additional, Götherström, Anders, additional, and Dalén, Love, additional
Published: 2021
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193. Human population dynamics and Yersinia pestis in ancient northeast Asia

Author: Kılınç, Gülşah Merve, primary, Kashuba, Natalija, additional, Koptekin, Dilek, additional, Bergfeldt, Nora, additional, Dönertaş, Handan Melike, additional, Rodríguez-Varela, Ricardo, additional, Shergin, Dmitrij, additional, Ivanov, Grigorij, additional, Kichigin, Dmitrii, additional, Pestereva, Kjunnej, additional, Volkov, Denis, additional, Mandryka, Pavel, additional, Kharinskii, Artur, additional, Tishkin, Alexey, additional, Ineshin, Evgenij, additional, Kovychev, Evgeniy, additional, Stepanov, Aleksandr, additional, Dalén, Love, additional, Günther, Torsten, additional, Kırdök, Emrah, additional, Jakobsson, Mattias, additional, Somel, Mehmet, additional, Krzewińska, Maja, additional, Storå, Jan, additional, and Götherström, Anders, additional
Published: 2021
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194. Restoration of transborder connectivity for Fennoscandian brown bears (Ursus arctos)

Author: Kopatz, Alexander, primary, Kleven, Oddmund, additional, Kojola, Ilpo, additional, Aspi, Jouni, additional, Norman, Anita J., additional, Spong, Göran, additional, Gyllenstrand, Niclas, additional, Dalén, Love, additional, Fløystad, Ida, additional, Hagen, Snorre B., additional, Kindberg, Jonas, additional, and Flagstad, Øystein, additional
Published: 2021
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195. GenErode: a bioinformatics pipeline to investigate genome erosion in endangered and extinct species.

Author: Kutschera, Verena E., Kierczak, Marcin, van der Valk, Tom, von Seth, Johanna, Dussex, Nicolas, Lord, Edana, Dehasque, Marianne, Stanton, David W. G., Khoonsari, Payam Emami, Nystedt, Björn, Dalén, Love, and Díez-del-Molino, David
Subjects: ENDANGERED species, EROSION, GENOMES, ELECTRONIC data processing, GENETIC variation, INBREEDING, AGROBIODIVERSITY
Abstract: Background: Many wild species have suffered drastic population size declines over the past centuries, which have led to 'genomic erosion' processes characterized by reduced genetic diversity, increased inbreeding, and accumulation of harmful mutations. Yet, genomic erosion estimates of modern-day populations often lack concordance with dwindling population sizes and conservation status of threatened species. One way to directly quantify the genomic consequences of population declines is to compare genome-wide data from pre-decline museum samples and modern samples. However, doing so requires computational data processing and analysis tools specifically adapted to comparative analyses of degraded, ancient or historical, DNA data with modern DNA data as well as personnel trained to perform such analyses. Results: Here, we present a highly flexible, scalable, and modular pipeline to compare patterns of genomic erosion using samples from disparate time periods. The GenErode pipeline uses state-of-the-art bioinformatics tools to simultaneously process whole-genome re-sequencing data from ancient/historical and modern samples, and to produce comparable estimates of several genomic erosion indices. No programming knowledge is required to run the pipeline and all bioinformatic steps are well-documented, making the pipeline accessible to users with different backgrounds. GenErode is written in Snakemake and Python3 and uses Conda and Singularity containers to achieve reproducibility on high-performance compute clusters. The source code is freely available on GitHub (https://github.com/NBISweden/GenErode). Conclusions: GenErode is a user-friendly and reproducible pipeline that enables the standardization of genomic erosion indices from temporally sampled whole genome re-sequencing data. [ABSTRACT FROM AUTHOR]
Published: 2022
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196. Partial Genetic Turnover in Neandertals: Continuity in the East and Population Replacement in the West

Author: Dalén, Love, Orlando, Ludovic, Shapiro, Beth, Brandström-Durling, Mikael, Quam, Rolf, Gilbert, M. Thomas P., Díez Fernández-Lomana, J. Carlos, Willerslev, Eske, Arsuaga, Juan Luis, and Götherström, Anders
Published: 2012
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197. Ancient microRNA profiles of 14,300-yr-old canid samples confirm taxonomic origin and provide glimpses into tissue-specific gene regulation from the Pleistocene

Author: Fromm, Bastian, primary, Tarbier, Marcel, additional, Smith, Oliver, additional, Mármol-Sánchez, Emilio, additional, Dalén, Love, additional, Gilbert, M. Tom P., additional, and Friedländer, Marc R., additional
Published: 2020
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198. Genomic Adaptations and Evolutionary History of the Extinct Scimitar-Toothed Cat, Homotherium latidens

Author: Barnett, Ross, primary, Westbury, Michael V., additional, Sandoval-Velasco, Marcela, additional, Vieira, Filipe Garrett, additional, Jeon, Sungwon, additional, Zazula, Grant, additional, Martin, Michael D., additional, Ho, Simon Y.W., additional, Mather, Niklas, additional, Gopalakrishnan, Shyam, additional, Ramos-Madrigal, Jazmín, additional, de Manuel, Marc, additional, Zepeda-Mendoza, M. Lisandra, additional, Antunes, Agostinho, additional, Baez, Aldo Carmona, additional, De Cahsan, Binia, additional, Larson, Greger, additional, O’Brien, Stephen J., additional, Eizirik, Eduardo, additional, Johnson, Warren E., additional, Koepfli, Klaus-Peter, additional, Wilting, Andreas, additional, Fickel, Jörns, additional, Dalén, Love, additional, Lorenzen, Eline D., additional, Marques-Bonet, Tomas, additional, Hansen, Anders J., additional, Zhang, Guojie, additional, Bhak, Jong, additional, Yamaguchi, Nobuyuki, additional, and Gilbert, M. Thomas P., additional
Published: 2020
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199. Dense sampling of bird diversity increases power of comparative genomics

Author: Feng, Shaohong, primary, Stiller, Josefin, additional, Deng, Yuan, additional, Armstrong, Joel, additional, Fang, Qi, additional, Reeve, Andrew Hart, additional, Xie, Duo, additional, Chen, Guangji, additional, Guo, Chunxue, additional, Faircloth, Brant C., additional, Petersen, Bent, additional, Wang, Zongji, additional, Zhou, Qi, additional, Diekhans, Mark, additional, Chen, Wanjun, additional, Andreu-Sánchez, Sergio, additional, Margaryan, Ashot, additional, Howard, Jason Travis, additional, Parent, Carole, additional, Pacheco, George, additional, Sinding, Mikkel-Holger S., additional, Puetz, Lara, additional, Cavill, Emily, additional, Ribeiro, Ângela M., additional, Eckhart, Leopold, additional, Fjeldså, Jon, additional, Hosner, Peter A., additional, Brumfield, Robb T., additional, Christidis, Les, additional, Bertelsen, Mads F., additional, Sicheritz-Ponten, Thomas, additional, Tietze, Dieter Thomas, additional, Robertson, Bruce C., additional, Song, Gang, additional, Borgia, Gerald, additional, Claramunt, Santiago, additional, Lovette, Irby J., additional, Cowen, Saul J., additional, Njoroge, Peter, additional, Dumbacher, John Philip, additional, Ryder, Oliver A., additional, Fuchs, Jérôme, additional, Bunce, Michael, additional, Burt, David W., additional, Cracraft, Joel, additional, Meng, Guanliang, additional, Hackett, Shannon J., additional, Ryan, Peter G., additional, Jønsson, Knud Andreas, additional, Jamieson, Ian G., additional, da Fonseca, Rute R., additional, Braun, Edward L., additional, Houde, Peter, additional, Mirarab, Siavash, additional, Suh, Alexander, additional, Hansson, Bengt, additional, Ponnikas, Suvi, additional, Sigeman, Hanna, additional, Stervander, Martin, additional, Frandsen, Paul B., additional, van der Zwan, Henriette, additional, van der Sluis, Rencia, additional, Visser, Carina, additional, Balakrishnan, Christopher N., additional, Clark, Andrew G., additional, Fitzpatrick, John W., additional, Bowman, Reed, additional, Chen, Nancy, additional, Cloutier, Alison, additional, Sackton, Timothy B., additional, Edwards, Scott V., additional, Foote, Dustin J., additional, Shakya, Subir B., additional, Sheldon, Frederick H., additional, Vignal, Alain, additional, Soares, André E. R., additional, Shapiro, Beth, additional, González-Solís, Jacob, additional, Ferrer-Obiol, Joan, additional, Rozas, Julio, additional, Riutort, Marta, additional, Tigano, Anna, additional, Friesen, Vicki, additional, Dalén, Love, additional, Urrutia, Araxi O., additional, Székely, Tamás, additional, Liu, Yang, additional, Campana, Michael G., additional, Corvelo, André, additional, Fleischer, Robert C., additional, Rutherford, Kim M., additional, Gemmell, Neil J., additional, Dussex, Nicolas, additional, Mouritsen, Henrik, additional, Thiele, Nadine, additional, Delmore, Kira, additional, Liedvogel, Miriam, additional, Franke, Andre, additional, Hoeppner, Marc P., additional, Krone, Oliver, additional, Fudickar, Adam M., additional, Milá, Borja, additional, Ketterson, Ellen D., additional, Fidler, Andrew Eric, additional, Friis, Guillermo, additional, Parody-Merino, Ángela M., additional, Battley, Phil F., additional, Cox, Murray P., additional, Lima, Nicholas Costa Barroso, additional, Prosdocimi, Francisco, additional, Parchman, Thomas Lee, additional, Schlinger, Barney A., additional, Loiselle, Bette A., additional, Blake, John G., additional, Lim, Haw Chuan, additional, Day, Lainy B., additional, Fuxjager, Matthew J., additional, Baldwin, Maude W., additional, Braun, Michael J., additional, Wirthlin, Morgan, additional, Dikow, Rebecca B., additional, Ryder, T. Brandt, additional, Camenisch, Glauco, additional, Keller, Lukas F., additional, DaCosta, Jeffrey M., additional, Hauber, Mark E., additional, Louder, Matthew I. M., additional, Witt, Christopher C., additional, McGuire, Jimmy A., additional, Mudge, Joann, additional, Megna, Libby C., additional, Carling, Matthew D., additional, Wang, Biao, additional, Taylor, Scott A., additional, Del-Rio, Glaucia, additional, Aleixo, Alexandre, additional, Vasconcelos, Ana Tereza Ribeiro, additional, Mello, Claudio V., additional, Weir, Jason T., additional, Haussler, David, additional, Li, Qiye, additional, Yang, Huanming, additional, Wang, Jian, additional, Lei, Fumin, additional, Rahbek, Carsten, additional, Gilbert, M. Thomas P., additional, Graves, Gary R., additional, Jarvis, Erich D., additional, Paten, Benedict, additional, and Zhang, Guojie, additional
Published: 2020
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200. Origins and genetic legacy of prehistoric dogs

Author: Bergström, Anders, primary, Frantz, Laurent, additional, Schmidt, Ryan, additional, Ersmark, Erik, additional, Lebrasseur, Ophelie, additional, Girdland-Flink, Linus, additional, Lin, Audrey T., additional, Storå, Jan, additional, Sjögren, Karl-Göran, additional, Anthony, David, additional, Antipina, Ekaterina, additional, Amiri, Sarieh, additional, Bar-Oz, Guy, additional, Bazaliiskii, Vladimir I., additional, Bulatović, Jelena, additional, Brown, Dorcas, additional, Carmagnini, Alberto, additional, Davy, Tom, additional, Fedorov, Sergey, additional, Fiore, Ivana, additional, Fulton, Deirdre, additional, Germonpré, Mietje, additional, Haile, James, additional, Irving-Pease, Evan K., additional, Jamieson, Alexandra, additional, Janssens, Luc, additional, Kirillova, Irina, additional, Horwitz, Liora Kolska, additional, Kuzmanovic-Cvetković, Julka, additional, Kuzmin, Yaroslav, additional, Losey, Robert J., additional, Dizdar, Daria Ložnjak, additional, Mashkour, Marjan, additional, Novak, Mario, additional, Onar, Vedat, additional, Orton, David, additional, Pasarić, Maja, additional, Radivojević, Miljana, additional, Rajković, Dragana, additional, Roberts, Benjamin, additional, Ryan, Hannah, additional, Sablin, Mikhail, additional, Shidlovskiy, Fedor, additional, Stojanović, Ivana, additional, Tagliacozzo, Antonio, additional, Trantalidou, Katerina, additional, Ullén, Inga, additional, Villaluenga, Aritza, additional, Wapnish, Paula, additional, Dobney, Keith, additional, Götherström, Anders, additional, Linderholm, Anna, additional, Dalén, Love, additional, Pinhasi, Ron, additional, Larson, Greger, additional, and Skoglund, Pontus, additional
Published: 2020
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