Your search keyword '"Ha?uszko, A."' showing total 7 results

1. Stone Age Yersinia pestis genomes shed light on the early evolution, diversity, and ecology of plague

Author

Max Planck Society, Max Planck - Harvard Research Center for the Archaeoscience of the Ancient Mediterranean, European Research Council, Heidelberg Academy of Sciences and Humanities, Academy of Sciences of the Czech Republic, Ministerio de Ciencia e Innovación (España), German Research Foundation, Diputación Foral de Álava, Eusko Jaurlaritza, Ministry of Education and Science (Kazakhstan), Andrades Valtueña, Aida, Neumann, Gunnar U., Spyrou, María A., Musralina, Lyazzat, Aron, Franziska, Beisenov, Arman Z., Belinskiy, Andrej B., Bos, Kirsten, Buzhilova, Alexandra, Conrad, Matthias, Djansugurova, Leyla B., Dobeš, Miroslav, Ernée, Michal, Fernández-Eraso, Javier, Frohlich, Bruno, Furmanek, Mirosław, Hałuszko, Agata, Hansen, Svend, Harney, Éadaoin, Hiss, Alina N., Hübner, Alexander, Key, Félix M., Khussainova, Elmira, Kitov, Egor, Kitova, Alexandra O., Knipper, Corina, Kühnert, Denise, Lalueza-Fox, Carles, Littleton, Judith, Massy, Ken, Mittnik, Alissa, Mujika-Alustiza, José Antonio, Olalde, Iñigo, Papac, Luka, Penske, Sandra, Peška, Jaroslav, Pinhasi, Ron, Reich, David, Reinhold, Sabine, Stahl, Raphaela, Stäuble, Harald, Tukhbatova, Rezeda I., Vasilyev, Sergey, Veselovskaya, Elizaveta, Warinner, Christina, Stockhammer, Philipp W., Haak, Wolfgang, Krause, Johannes, Herbig, Alexander, Max Planck Society, Max Planck - Harvard Research Center for the Archaeoscience of the Ancient Mediterranean, European Research Council, Heidelberg Academy of Sciences and Humanities, Academy of Sciences of the Czech Republic, Ministerio de Ciencia e Innovación (España), German Research Foundation, Diputación Foral de Álava, Eusko Jaurlaritza, Ministry of Education and Science (Kazakhstan), Andrades Valtueña, Aida, Neumann, Gunnar U., Spyrou, María A., Musralina, Lyazzat, Aron, Franziska, Beisenov, Arman Z., Belinskiy, Andrej B., Bos, Kirsten, Buzhilova, Alexandra, Conrad, Matthias, Djansugurova, Leyla B., Dobeš, Miroslav, Ernée, Michal, Fernández-Eraso, Javier, Frohlich, Bruno, Furmanek, Mirosław, Hałuszko, Agata, Hansen, Svend, Harney, Éadaoin, Hiss, Alina N., Hübner, Alexander, Key, Félix M., Khussainova, Elmira, Kitov, Egor, Kitova, Alexandra O., Knipper, Corina, Kühnert, Denise, Lalueza-Fox, Carles, Littleton, Judith, Massy, Ken, Mittnik, Alissa, Mujika-Alustiza, José Antonio, Olalde, Iñigo, Papac, Luka, Penske, Sandra, Peška, Jaroslav, Pinhasi, Ron, Reich, David, Reinhold, Sabine, Stahl, Raphaela, Stäuble, Harald, Tukhbatova, Rezeda I., Vasilyev, Sergey, Veselovskaya, Elizaveta, Warinner, Christina, Stockhammer, Philipp W., Haak, Wolfgang, Krause, Johannes, and Herbig, Alexander

Abstract

[Significance] The bacterium Yersinia pestis has caused numerous historically documented outbreaks of plague and research using ancient DNA could demonstrate that it already affected human populations during the Neolithic. However, the pathogen’s genetic diversity, geographic spread, and transmission dynamics during this early period of Y. pestis evolution are largely unexplored. Here, we describe a set of ancient plague genomes up to 5,000 y old from across Eurasia. Our data demonstrate that two genetically distinct forms of Y. pestis evolved in parallel and were both distributed across vast geographic distances, potentially occupying different ecological niches. Interpreted within the archeological context, our results suggest that the spread of plague during this period was linked to increased human mobility and intensification of animal husbandry., The bacterial pathogen Yersinia pestis gave rise to devastating outbreaks throughout human history, and ancient DNA evidence has shown it afflicted human populations as far back as the Neolithic. Y. pestis genomes recovered from the Eurasian Late Neolithic/Early Bronze Age (LNBA) period have uncovered key evolutionary steps that led to its emergence from a Yersinia pseudotuberculosis-like progenitor; however, the number of reconstructed LNBA genomes are too few to explore its diversity during this critical period of development. Here, we present 17 Y. pestis genomes dating to 5,000 to 2,500 y BP from a wide geographic expanse across Eurasia. This increased dataset enabled us to explore correlations between temporal, geographical, and genetic distance. Our results suggest a nonflea-adapted and potentially extinct single lineage that persisted over millennia without significant parallel diversification, accompanied by rapid dispersal across continents throughout this period, a trend not observed in other pathogens for which ancient genomes are available. A stepwise pattern of gene loss provides further clues on its early evolution and potential adaptation. We also discover the presence of the flea-adapted form of Y. pestis in Bronze Age Iberia, previously only identified in in the Caucasus and the Volga regions, suggesting a much wider geographic spread of this form of Y. pestis. Together, these data reveal the dynamic nature of plague’s formative years in terms of its early evolution and ecology.

Published

2022

2. Using Y-chromosome capture enrichment to resolve haplogroup H2 shows new evidence for a two-path Neolithic expansion to Western Europe

Author

Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, Haak, Wolfgang, Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, and Haak, Wolfgang

Abstract

Uniparentally-inherited markers on mitochondrial DNA (mtDNA) and the non-recombining regions of the Y chromosome (NRY), have been used for the past 30years to investigate the history of humans from a maternal and paternal perspective. Researchers have preferred mtDNA due to its abundance in the cells, and comparatively high substitution rate. Conversely, the NRY is less susceptible to back mutations and saturation, and is potentially more informative than mtDNA owing to its longer sequence length. However, due to comparatively poor NRY coverage via shotgun sequencing, and the relatively low and biased representation of Y-chromosome variants on capture assays such as the 1240k, ancient DNA studies often fail to utilize the unique perspective that the NRY can yield. Here we introduce a new DNA enrichment assay, coined YMCA (Y-mappable capture assay), that targets the "mappable" regions of the NRY. We show that compared to low-coverage shotgun sequencing and 1240k capture, YMCA significantly improves the mean coverage and number of sites covered on the NRY, increasing the number of Y-haplogroup informative SNPs, and allowing for the identification of previously undiscovered variants. To illustrate the power of YMCA, we show that the analysis of ancient Y-chromosome lineages can help to resolve Y-chromosomal haplogroups. As a case study, we focus on H2, a haplogroup associated with a critical event in European human history: the Neolithic transition. By disentangling the evolutionary history of this haplogroup, we further elucidate the two separate paths by which early farmers expanded from Anatolia and the Near East to western Europe.

Published

2021

3. Using Y-chromosome capture enrichment to resolve haplogroup H2 shows new evidence for a two-path Neolithic expansion to Western Europe

Author

Max Planck Society, Agence Nationale de la Recherche (France), German Research Foundation, European Research Council, Academy of Sciences of the Czech Republic, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maïté, Villalba-Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie-France, Dobeš, Miroslav, Erdal, Yilmaz S., Ernée, Michal, Frangipane, Marcella, Furmanek, Mirosław, Friederich, Susanne, Ghesquière, Emmanuel, Hałuszko, Agata, Hansen, Svend, Küßner, Mario, Mannino, Marcello A., Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, Haak, Wolfgang, Max Planck Society, Agence Nationale de la Recherche (France), German Research Foundation, European Research Council, Academy of Sciences of the Czech Republic, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maïté, Villalba-Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie-France, Dobeš, Miroslav, Erdal, Yilmaz S., Ernée, Michal, Frangipane, Marcella, Furmanek, Mirosław, Friederich, Susanne, Ghesquière, Emmanuel, Hałuszko, Agata, Hansen, Svend, Küßner, Mario, Mannino, Marcello A., Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, and Haak, Wolfgang

Abstract

Uniparentally-inherited markers on mitochondrial DNA (mtDNA) and the non-recombining regions of the Y chromosome (NRY), have been used for the past 30 years to investigate the history of humans from a maternal and paternal perspective. Researchers have preferred mtDNA due to its abundance in the cells, and comparatively high substitution rate. Conversely, the NRY is less susceptible to back mutations and saturation, and is potentially more informative than mtDNA owing to its longer sequence length. However, due to comparatively poor NRY coverage via shotgun sequencing, and the relatively low and biased representation of Y-chromosome variants on capture assays such as the 1240 k, ancient DNA studies often fail to utilize the unique perspective that the NRY can yield. Here we introduce a new DNA enrichment assay, coined YMCA (Y-mappable capture assay), that targets the "mappable" regions of the NRY. We show that compared to low-coverage shotgun sequencing and 1240 k capture, YMCA significantly improves the mean coverage and number of sites covered on the NRY, increasing the number of Y-haplogroup informative SNPs, and allowing for the identification of previously undiscovered variants. To illustrate the power of YMCA, we show that the analysis of ancient Y-chromosome lineages can help to resolve Y-chromosomal haplogroups. As a case study, we focus on H2, a haplogroup associated with a critical event in European human history: the Neolithic transition. By disentangling the evolutionary history of this haplogroup, we further elucidate the two separate paths by which early farmers expanded from Anatolia and the Near East to western Europe.

Published

2021

4. Using Y-chromosome capture enrichment to resolve haplogroup H2 shows new evidence for a two-path Neolithic expansion to Western Europe

Author

Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, Haak, Wolfgang, Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, and Haak, Wolfgang

Abstract

Uniparentally-inherited markers on mitochondrial DNA (mtDNA) and the non-recombining regions of the Y chromosome (NRY), have been used for the past 30years to investigate the history of humans from a maternal and paternal perspective. Researchers have preferred mtDNA due to its abundance in the cells, and comparatively high substitution rate. Conversely, the NRY is less susceptible to back mutations and saturation, and is potentially more informative than mtDNA owing to its longer sequence length. However, due to comparatively poor NRY coverage via shotgun sequencing, and the relatively low and biased representation of Y-chromosome variants on capture assays such as the 1240k, ancient DNA studies often fail to utilize the unique perspective that the NRY can yield. Here we introduce a new DNA enrichment assay, coined YMCA (Y-mappable capture assay), that targets the "mappable" regions of the NRY. We show that compared to low-coverage shotgun sequencing and 1240k capture, YMCA significantly improves the mean coverage and number of sites covered on the NRY, increasing the number of Y-haplogroup informative SNPs, and allowing for the identification of previously undiscovered variants. To illustrate the power of YMCA, we show that the analysis of ancient Y-chromosome lineages can help to resolve Y-chromosomal haplogroups. As a case study, we focus on H2, a haplogroup associated with a critical event in European human history: the Neolithic transition. By disentangling the evolutionary history of this haplogroup, we further elucidate the two separate paths by which early farmers expanded from Anatolia and the Near East to western Europe.

Published

2021

5. Using Y-chromosome capture enrichment to resolve haplogroup H2 shows new evidence for a two-path Neolithic expansion to Western Europe

Author

Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, Haak, Wolfgang, Geografía, prehistoria y arqueología, Geografia,historiaurrea eta arkeologia, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maite, Villalba Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, Van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie France, Dobes, Miroslav, Erdal, Yilmaz S., Ernee, Michal, Frangipane, Marcella, Furmanek, Miroslaw, Friederich, Susanne, Ghesquiere, Emmanuel, Haluszko, Agata, Hansen, Svend, Mario Küßner, Mannino, Marcello, Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, and Haak, Wolfgang

Abstract

Uniparentally-inherited markers on mitochondrial DNA (mtDNA) and the non-recombining regions of the Y chromosome (NRY), have been used for the past 30years to investigate the history of humans from a maternal and paternal perspective. Researchers have preferred mtDNA due to its abundance in the cells, and comparatively high substitution rate. Conversely, the NRY is less susceptible to back mutations and saturation, and is potentially more informative than mtDNA owing to its longer sequence length. However, due to comparatively poor NRY coverage via shotgun sequencing, and the relatively low and biased representation of Y-chromosome variants on capture assays such as the 1240k, ancient DNA studies often fail to utilize the unique perspective that the NRY can yield. Here we introduce a new DNA enrichment assay, coined YMCA (Y-mappable capture assay), that targets the "mappable" regions of the NRY. We show that compared to low-coverage shotgun sequencing and 1240k capture, YMCA significantly improves the mean coverage and number of sites covered on the NRY, increasing the number of Y-haplogroup informative SNPs, and allowing for the identification of previously undiscovered variants. To illustrate the power of YMCA, we show that the analysis of ancient Y-chromosome lineages can help to resolve Y-chromosomal haplogroups. As a case study, we focus on H2, a haplogroup associated with a critical event in European human history: the Neolithic transition. By disentangling the evolutionary history of this haplogroup, we further elucidate the two separate paths by which early farmers expanded from Anatolia and the Near East to western Europe.

Published

2021

6. Using Y-chromosome capture enrichment to resolve haplogroup H2 shows new evidence for a two-path Neolithic expansion to Western Europe

Author

Max Planck Society, Agence Nationale de la Recherche (France), German Research Foundation, European Research Council, Academy of Sciences of the Czech Republic, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maïté, Villalba-Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie-France, Dobeš, Miroslav, Erdal, Yilmaz S., Ernée, Michal, Frangipane, Marcella, Furmanek, Mirosław, Friederich, Susanne, Ghesquière, Emmanuel, Hałuszko, Agata, Hansen, Svend, Küßner, Mario, Mannino, Marcello A., Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, Haak, Wolfgang, Max Planck Society, Agence Nationale de la Recherche (France), German Research Foundation, European Research Council, Academy of Sciences of the Czech Republic, Rohrlach, Adam B., Papac, Luka, Childebayeva, Ainash, Rivollat, Maïté, Villalba-Mouco, Vanessa, Neumann, Gunnar U., Penske, Sandra, Skourtanioti, Eirini, van de Loosdrecht, Marieke, Akar, Murat, Boyadzhiev, Kamen, Boyadzhiev, Yavor, Deguilloux, Marie-France, Dobeš, Miroslav, Erdal, Yilmaz S., Ernée, Michal, Frangipane, Marcella, Furmanek, Mirosław, Friederich, Susanne, Ghesquière, Emmanuel, Hałuszko, Agata, Hansen, Svend, Küßner, Mario, Mannino, Marcello A., Özbal, Rana, Reinhold, Sabine, Rottier, Stéphane, Salazar García, Domingo Carlos, Soler Díaz, Jorge, Stockhammer, Philipp W., Roca de Togores Muñoz, Consuelo, Yener, K. Aslihan, Posth, Cosimo, Krause, Johannes, Herbig, Alexander, and Haak, Wolfgang

Abstract

Uniparentally-inherited markers on mitochondrial DNA (mtDNA) and the non-recombining regions of the Y chromosome (NRY), have been used for the past 30 years to investigate the history of humans from a maternal and paternal perspective. Researchers have preferred mtDNA due to its abundance in the cells, and comparatively high substitution rate. Conversely, the NRY is less susceptible to back mutations and saturation, and is potentially more informative than mtDNA owing to its longer sequence length. However, due to comparatively poor NRY coverage via shotgun sequencing, and the relatively low and biased representation of Y-chromosome variants on capture assays such as the 1240 k, ancient DNA studies often fail to utilize the unique perspective that the NRY can yield. Here we introduce a new DNA enrichment assay, coined YMCA (Y-mappable capture assay), that targets the "mappable" regions of the NRY. We show that compared to low-coverage shotgun sequencing and 1240 k capture, YMCA significantly improves the mean coverage and number of sites covered on the NRY, increasing the number of Y-haplogroup informative SNPs, and allowing for the identification of previously undiscovered variants. To illustrate the power of YMCA, we show that the analysis of ancient Y-chromosome lineages can help to resolve Y-chromosomal haplogroups. As a case study, we focus on H2, a haplogroup associated with a critical event in European human history: the Neolithic transition. By disentangling the evolutionary history of this haplogroup, we further elucidate the two separate paths by which early farmers expanded from Anatolia and the Near East to western Europe.

Published

2021

7. The Beaker phenomenon and the genomic transformation of northwest Europe

Author

Olalde, Iñigo, Brace, Selina, Allentoft, Morten E., Armit, Ian, Kristiansen, Kristian, Booth, Thomas, Rohland, Nadin, Mallick, Swapan, Szécsényi-nagy, Anna, Mittnik, Alissa, Altena, Eveline, Lipson, Mark, Lazaridis, Iosif, Harper, Thomas K., Patterson, Nick, Broomandkhoshbacht, Nasreen, Diekmann, Yoan, Faltyskova, Zuzana, Fernandes, Daniel, Ferry, Matthew, Harney, Eadaoin, De Knijff, Peter, Michel, Megan, Oppenheimer, Jonas, Stewardson, Kristin, Barclay, Alistair, Alt, Kurt Werner, Liesau, Corina, Ríos, Patricia, Blasco, Concepción, Miguel, Jorge Vega, García, Roberto Menduiña, Fernández, Azucena Avilés, Bánffy, Eszter, Bernabò-brea, Maria, Billoin, David, Bonsall, Clive, Bonsall, Laura, Allen, Tim, Büster, Lindsey, Carver, Sophie, Navarro, Laura Castells, Craig, Oliver E., Cook, Gordon T., Cunliffe, Barry, Denaire, Anthony, Dinwiddy, Kirsten Egging, Dodwell, Natasha, Ernée, Michal, Evans, Christopher, Kuchařík, Milan, Farré, Joan Francès, Fowler, Chris, Gazenbeek, Michiel, Pena, Rafael Garrido, Haber-uriarte, María, Haduch, Elżbieta, Hey, Gill, Jowett, Nick, Knowles, Timothy, Massy, Ken, Pfrengle, Saskia, Lefranc, Philippe, Lemercier, Olivier, Lefebvre, Arnaud, Martínez, César Heras, Olmo, Virginia Galera, Ramírez, Ana Bastida, Maurandi, Joaquín Lomba, Majó, Tona, Mckinley, Jacqueline I., Mcsweeney, Kathleen, Mende, Balázs Gusztáv, Mod, Alessandra, Kulcsár, Gabriella, Kiss, Viktória, Czene, András, Patay, Róbert, Endrődi, Anna, Köhler, Kitti, Hajdu, Tamás, Szeniczey, Tamás, Dani, János, Bernert, Zsolt, Hoole, Maya, Cheronet, Olivia, Keating, Denise, Velemínský, Petr, Dobeš, Miroslav, Candilio, Francesca, Brown, Fraser, Fernández, Raúl Flores, Herrero-corral, Ana-mercedes, Tusa, Sebastiano, Carnieri, Emiliano, Lentini, Luigi, Valenti, Antonella, Zanini, Alessandro, Waddington, Clive, Delibes, Germán, Guerra-doce, Elisa, Neil, Benjamin, Brittain, Marcus, Luke, Mike, Mortimer, Richard, Desideri, Jocelyne, Besse, Marie, Brücken, Günter, Furmanek, Mirosław, Hałuszko, Agata, Mackiewicz, Maksym, Rapiński, Artur, Leach, Stephany, Soriano, Ignacio, Lillios, Katina T., Cardoso, João Luís, Pearson, Michael Parker, Włodarczak, Piotr, Price, T. Douglas, Prieto, Pilar, Rey, Pierre-jérôme, Risch, Roberto, Rojo Guerra, Manuel A., Schmitt, Aurore, Serralongue, Joël, Silva, Ana Maria, Smrčka, Václav, Vergnaud, Luc, Zilhão, João, Caramelli, David, Higham, Thomas, Thomas, Mark G., Kennett, Douglas J., Fokkens, Harry, Heyd, Volker, Sheridan, Alison, Sjögren, Karl-göran, Stockhammer, Philipp W., Krause, Johannes, Pinhasi, Ron, Haak, Wolfgang, Barnes, Ian, Lalueza-fox, Carles, Reich, David, Olalde, Iñigo, Brace, Selina, Allentoft, Morten E., Armit, Ian, Kristiansen, Kristian, Booth, Thomas, Rohland, Nadin, Mallick, Swapan, Szécsényi-nagy, Anna, Mittnik, Alissa, Altena, Eveline, Lipson, Mark, Lazaridis, Iosif, Harper, Thomas K., Patterson, Nick, Broomandkhoshbacht, Nasreen, Diekmann, Yoan, Faltyskova, Zuzana, Fernandes, Daniel, Ferry, Matthew, Harney, Eadaoin, De Knijff, Peter, Michel, Megan, Oppenheimer, Jonas, Stewardson, Kristin, Barclay, Alistair, Alt, Kurt Werner, Liesau, Corina, Ríos, Patricia, Blasco, Concepción, Miguel, Jorge Vega, García, Roberto Menduiña, Fernández, Azucena Avilés, Bánffy, Eszter, Bernabò-brea, Maria, Billoin, David, Bonsall, Clive, Bonsall, Laura, Allen, Tim, Büster, Lindsey, Carver, Sophie, Navarro, Laura Castells, Craig, Oliver E., Cook, Gordon T., Cunliffe, Barry, Denaire, Anthony, Dinwiddy, Kirsten Egging, Dodwell, Natasha, Ernée, Michal, Evans, Christopher, Kuchařík, Milan, Farré, Joan Francès, Fowler, Chris, Gazenbeek, Michiel, Pena, Rafael Garrido, Haber-uriarte, María, Haduch, Elżbieta, Hey, Gill, Jowett, Nick, Knowles, Timothy, Massy, Ken, Pfrengle, Saskia, Lefranc, Philippe, Lemercier, Olivier, Lefebvre, Arnaud, Martínez, César Heras, Olmo, Virginia Galera, Ramírez, Ana Bastida, Maurandi, Joaquín Lomba, Majó, Tona, Mckinley, Jacqueline I., Mcsweeney, Kathleen, Mende, Balázs Gusztáv, Mod, Alessandra, Kulcsár, Gabriella, Kiss, Viktória, Czene, András, Patay, Róbert, Endrődi, Anna, Köhler, Kitti, Hajdu, Tamás, Szeniczey, Tamás, Dani, János, Bernert, Zsolt, Hoole, Maya, Cheronet, Olivia, Keating, Denise, Velemínský, Petr, Dobeš, Miroslav, Candilio, Francesca, Brown, Fraser, Fernández, Raúl Flores, Herrero-corral, Ana-mercedes, Tusa, Sebastiano, Carnieri, Emiliano, Lentini, Luigi, Valenti, Antonella, Zanini, Alessandro, Waddington, Clive, Delibes, Germán, Guerra-doce, Elisa, Neil, Benjamin, Brittain, Marcus, Luke, Mike, Mortimer, Richard, Desideri, Jocelyne, Besse, Marie, Brücken, Günter, Furmanek, Mirosław, Hałuszko, Agata, Mackiewicz, Maksym, Rapiński, Artur, Leach, Stephany, Soriano, Ignacio, Lillios, Katina T., Cardoso, João Luís, Pearson, Michael Parker, Włodarczak, Piotr, Price, T. Douglas, Prieto, Pilar, Rey, Pierre-jérôme, Risch, Roberto, Rojo Guerra, Manuel A., Schmitt, Aurore, Serralongue, Joël, Silva, Ana Maria, Smrčka, Václav, Vergnaud, Luc, Zilhão, João, Caramelli, David, Higham, Thomas, Thomas, Mark G., Kennett, Douglas J., Fokkens, Harry, Heyd, Volker, Sheridan, Alison, Sjögren, Karl-göran, Stockhammer, Philipp W., Krause, Johannes, Pinhasi, Ron, Haak, Wolfgang, Barnes, Ian, Lalueza-fox, Carles, and Reich, David

Published

2018