The genomic natural history of the aurochs

Conor Rossi; Mikkel Holger S. Sinding; Victoria E. Mullin; Amelie Scheu; Jolijn A.M. Erven; Marta Pereira Verdugo; Kevin G. Daly; Marta Maria Ciucani; Valeria Mattiangeli; Matthew D. Teasdale; Deborah Diquelou; Aurélie Manin; Pernille Bangsgaard; Matthew Collins; Tom C. Lord; Viktor Zeibert; Roberto Zorzin; Michael Vinter; Zena Timmons; Andrew C. Kitchener; Martin Street; Ashleigh F. Haruda; Kristina Tabbada; Greger Larson; Laurent A.F. Frantz; Birgit Gehlen; Francesca Alhaique; Antonio Tagliacozzo; Mariagabriella Fornasiero; Luca Pandolfi; Nadezhda Karastoyanova; Lasse Sørensen; Kirill Kiryushin; Jonas Ekström; Maria Mostadius; Aurora Grandal-d’Anglade; Amalia Vidal-Gorosquieta; Norbert Benecke; Claus Kropp; Sergei P. Grushin; M. Thomas P. Gilbert; Ilja Merts; Viktor Merts; Alan K. Outram; Erika Rosengren; Pavel Kosintsev; Mikhail Sablin; Alexey A. Tishkin; Cheryl A. Makarewicz; Joachim Burger; Daniel G. Bradley

doi:10.1038/s41586-024-08112-6

The genomic natural history of the aurochs

Conor Rossi, Mikkel Holger S. Sinding, Victoria E. Mullin, Amelie Scheu, Jolijn A.M. Erven, Marta Pereira Verdugo, Kevin G. Daly, Marta Maria Ciucani, Valeria Mattiangeli, Matthew D. Teasdale, Deborah Diquelou, Aurélie Manin, Pernille Bangsgaard, Matthew Collins, Tom C. Lord, Viktor Zeibert, Roberto Zorzin, Michael Vinter, Zena Timmons, Andrew C. KitchenerMartin Street, Ashleigh F. Haruda, Kristina Tabbada, Greger Larson, Laurent A.F. Frantz, Birgit Gehlen, Francesca Alhaique, Antonio Tagliacozzo, Mariagabriella Fornasiero, Luca Pandolfi, Nadezhda Karastoyanova, Lasse Sørensen, Kirill Kiryushin, Jonas Ekström, Maria Mostadius, Aurora Grandal-d’Anglade, Amalia Vidal-Gorosquieta, Norbert Benecke, Claus Kropp, Sergei P. Grushin, M. Thomas P. Gilbert, Ilja Merts, Viktor Merts, Alan K. Outram, Erika Rosengren, Pavel Kosintsev, Mikhail Sablin, Alexey A. Tishkin, Cheryl A. Makarewicz, Joachim Burger, Daniel G. Bradley^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

2 Citations (Scopus)

Abstract

Now extinct, the aurochs (Bos primigenius) was a keystone species in prehistoric Eurasian and North African ecosystems, and the progenitor of cattle (Bos taurus), domesticates that have provided people with food and labour for millennia¹. Here we analysed 38 ancient genomes and found 4 distinct population ancestries in the aurochs—European, Southwest Asian, North Asian and South Asian—each of which has dynamic trajectories that have responded to changes in climate and human influence. Similarly to Homo heidelbergensis, aurochsen first entered Europe around 650 thousand years ago², but early populations left only trace ancestry, with both North Asian and European B. primigenius genomes coalescing during the most recent glaciation. North Asian and European populations then appear separated until mixing after the climate amelioration of the early Holocene. European aurochsen endured the more severe bottleneck during the Last Glacial Maximum, retreating to southern refugia before recolonizing from Iberia. Domestication involved the capture of a small number of individuals from the Southwest Asian aurochs population, followed by early and pervasive male-mediated admixture involving each ancestral strain of aurochs after domestic stocks dispersed beyond their cradle of origin.

Original language	English
Journal	Nature
Volume	635
Issue number	8037
Pages (from-to)	136-141
Number of pages	6
ISSN	0028-0836
DOIs	https://doi.org/10.1038/s41586-024-08112-6
Publication status	Published - 2024

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Limited 2024.

Access to Document

10.1038/s41586-024-08112-6

Cite this

Rossi, C., Sinding, M. H. S., Mullin, V. E., Scheu, A., Erven, J. A. M., Verdugo, M. P., Daly, K. G., Ciucani, M. M., Mattiangeli, V., Teasdale, M. D., Diquelou, D., Manin, A., Bangsgaard, P., Collins, M., Lord, T. C., Zeibert, V., Zorzin, R., Vinter, M., Timmons, Z., ... Bradley, D. G. (2024). The genomic natural history of the aurochs. Nature, 635(8037), 136-141. https://doi.org/10.1038/s41586-024-08112-6

Rossi, C, Sinding, MHS, Mullin, VE, Scheu, A, Erven, JAM, Verdugo, MP, Daly, KG, Ciucani, MM, Mattiangeli, V, Teasdale, MD, Diquelou, D, Manin, A, Bangsgaard, P , Collins, M, Lord, TC, Zeibert, V, Zorzin, R, Vinter, M, Timmons, Z, Kitchener, AC, Street, M, Haruda, AF, Tabbada, K, Larson, G, Frantz, LAF, Gehlen, B, Alhaique, F, Tagliacozzo, A, Fornasiero, M, Pandolfi, L, Karastoyanova, N, Sørensen, L, Kiryushin, K, Ekström, J, Mostadius, M, Grandal-d’Anglade, A, Vidal-Gorosquieta, A, Benecke, N, Kropp, C, Grushin, SP, Gilbert, MTP, Merts, I, Merts, V, Outram, AK, Rosengren, E, Kosintsev, P, Sablin, M, Tishkin, AA, Makarewicz, CA, Burger, J & Bradley, DG 2024, 'The genomic natural history of the aurochs', Nature, vol. 635, no. 8037, pp. 136-141. https://doi.org/10.1038/s41586-024-08112-6

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abstract = "Now extinct, the aurochs (Bos primigenius) was a keystone species in prehistoric Eurasian and North African ecosystems, and the progenitor of cattle (Bos taurus), domesticates that have provided people with food and labour for millennia1. Here we analysed 38 ancient genomes and found 4 distinct population ancestries in the aurochs—European, Southwest Asian, North Asian and South Asian—each of which has dynamic trajectories that have responded to changes in climate and human influence. Similarly to Homo heidelbergensis, aurochsen first entered Europe around 650 thousand years ago2, but early populations left only trace ancestry, with both North Asian and European B. primigenius genomes coalescing during the most recent glaciation. North Asian and European populations then appear separated until mixing after the climate amelioration of the early Holocene. European aurochsen endured the more severe bottleneck during the Last Glacial Maximum, retreating to southern refugia before recolonizing from Iberia. Domestication involved the capture of a small number of individuals from the Southwest Asian aurochs population, followed by early and pervasive male-mediated admixture involving each ancestral strain of aurochs after domestic stocks dispersed beyond their cradle of origin.",

author = "Conor Rossi and Sinding, {Mikkel Holger S.} and Mullin, {Victoria E.} and Amelie Scheu and Erven, {Jolijn A.M.} and Verdugo, {Marta Pereira} and Daly, {Kevin G.} and Ciucani, {Marta Maria} and Valeria Mattiangeli and Teasdale, {Matthew D.} and Deborah Diquelou and Aur{\'e}lie Manin and Pernille Bangsgaard and Matthew Collins and Lord, {Tom C.} and Viktor Zeibert and Roberto Zorzin and Michael Vinter and Zena Timmons and Kitchener, {Andrew C.} and Martin Street and Haruda, {Ashleigh F.} and Kristina Tabbada and Greger Larson and Frantz, {Laurent A.F.} and Birgit Gehlen and Francesca Alhaique and Antonio Tagliacozzo and Mariagabriella Fornasiero and Luca Pandolfi and Nadezhda Karastoyanova and Lasse S{\o}rensen and Kirill Kiryushin and Jonas Ekstr{\"o}m and Maria Mostadius and Aurora Grandal-d{\textquoteright}Anglade and Amalia Vidal-Gorosquieta and Norbert Benecke and Claus Kropp and Grushin, {Sergei P.} and Gilbert, {M. Thomas P.} and Ilja Merts and Viktor Merts and Outram, {Alan K.} and Erika Rosengren and Pavel Kosintsev and Mikhail Sablin and Tishkin, {Alexey A.} and Makarewicz, {Cheryl A.} and Joachim Burger and Bradley, {Daniel G.}",

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AU - Rossi, Conor

AU - Sinding, Mikkel Holger S.

AU - Mullin, Victoria E.

AU - Scheu, Amelie

AU - Erven, Jolijn A.M.

AU - Verdugo, Marta Pereira

AU - Daly, Kevin G.

AU - Ciucani, Marta Maria

AU - Mattiangeli, Valeria

AU - Teasdale, Matthew D.

AU - Diquelou, Deborah

AU - Manin, Aurélie

AU - Bangsgaard, Pernille

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AU - Lord, Tom C.

AU - Zeibert, Viktor

AU - Zorzin, Roberto

AU - Vinter, Michael

AU - Timmons, Zena

AU - Kitchener, Andrew C.

AU - Street, Martin

AU - Haruda, Ashleigh F.

AU - Tabbada, Kristina

AU - Larson, Greger

AU - Frantz, Laurent A.F.

AU - Gehlen, Birgit

AU - Alhaique, Francesca

AU - Tagliacozzo, Antonio

AU - Fornasiero, Mariagabriella

AU - Pandolfi, Luca

AU - Karastoyanova, Nadezhda

AU - Sørensen, Lasse

AU - Kiryushin, Kirill

AU - Ekström, Jonas

AU - Mostadius, Maria

AU - Grandal-d’Anglade, Aurora

AU - Vidal-Gorosquieta, Amalia

AU - Benecke, Norbert

AU - Kropp, Claus

AU - Grushin, Sergei P.

AU - Gilbert, M. Thomas P.

AU - Merts, Ilja

AU - Merts, Viktor

AU - Outram, Alan K.

AU - Rosengren, Erika

AU - Kosintsev, Pavel

AU - Sablin, Mikhail

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AU - Burger, Joachim

AU - Bradley, Daniel G.

PY - 2024

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N2 - Now extinct, the aurochs (Bos primigenius) was a keystone species in prehistoric Eurasian and North African ecosystems, and the progenitor of cattle (Bos taurus), domesticates that have provided people with food and labour for millennia1. Here we analysed 38 ancient genomes and found 4 distinct population ancestries in the aurochs—European, Southwest Asian, North Asian and South Asian—each of which has dynamic trajectories that have responded to changes in climate and human influence. Similarly to Homo heidelbergensis, aurochsen first entered Europe around 650 thousand years ago2, but early populations left only trace ancestry, with both North Asian and European B. primigenius genomes coalescing during the most recent glaciation. North Asian and European populations then appear separated until mixing after the climate amelioration of the early Holocene. European aurochsen endured the more severe bottleneck during the Last Glacial Maximum, retreating to southern refugia before recolonizing from Iberia. Domestication involved the capture of a small number of individuals from the Southwest Asian aurochs population, followed by early and pervasive male-mediated admixture involving each ancestral strain of aurochs after domestic stocks dispersed beyond their cradle of origin.

AB - Now extinct, the aurochs (Bos primigenius) was a keystone species in prehistoric Eurasian and North African ecosystems, and the progenitor of cattle (Bos taurus), domesticates that have provided people with food and labour for millennia1. Here we analysed 38 ancient genomes and found 4 distinct population ancestries in the aurochs—European, Southwest Asian, North Asian and South Asian—each of which has dynamic trajectories that have responded to changes in climate and human influence. Similarly to Homo heidelbergensis, aurochsen first entered Europe around 650 thousand years ago2, but early populations left only trace ancestry, with both North Asian and European B. primigenius genomes coalescing during the most recent glaciation. North Asian and European populations then appear separated until mixing after the climate amelioration of the early Holocene. European aurochsen endured the more severe bottleneck during the Last Glacial Maximum, retreating to southern refugia before recolonizing from Iberia. Domestication involved the capture of a small number of individuals from the Southwest Asian aurochs population, followed by early and pervasive male-mediated admixture involving each ancestral strain of aurochs after domestic stocks dispersed beyond their cradle of origin.

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