A Million Years of Mammoth Mitogenome Evolution

J. Camilo Chacón-Duque; Jessica A. Thomas Thorpe; Wenxi Li; Marianne Dehasque; Patricia Pečnerová; Axel Barlow; David Díez-del-Molino; Kirstin Henneberger; Chenyu Jin; Kelsey N. Moreland; Johanna L. A. Paijmans; Tom van der Valk; Michael V. Westbury; Flore Wijnands; Ian Barnes; Mietje Germonpré; Elizabeth Hall; Susan Hewitson; Dick Mol; Pavel Nikolskiy; Mikhail Sablin; Sergey Vartanyan; Grant D. Zazula; Anders Götherström; Adrian M. Lister; Michael Hofreiter; Peter D. Heintzman; Love Dalén

doi:10.1093/molbev/msaf065

A Million Years of Mammoth Mitogenome Evolution

J. Camilo Chacón-Duque^*, Jessica A. Thomas Thorpe, Wenxi Li, Marianne Dehasque, Patricia Pečnerová, Axel Barlow, David Díez-del-Molino, Kirstin Henneberger, Chenyu Jin, Kelsey N. Moreland, Johanna L. A. Paijmans, Tom van der Valk, Michael V. Westbury, Flore Wijnands, Ian Barnes, Mietje Germonpré, Elizabeth Hall, Susan Hewitson, Dick Mol, Pavel NikolskiyMikhail Sablin, Sergey Vartanyan, Grant D. Zazula, Anders Götherström, Adrian M. Lister, Michael Hofreiter, Peter D. Heintzman, Love Dalén^*

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

The genomic study of specimens dating to the Early and Middle Pleistocene (EP and MP), a period spanning from 2.6 million years ago (Ma) to 126 thousand years ago (ka), has the potential to elucidate the evolutionary processes that shaped present-day biodiversity. Obtaining genomic data from this period is challenging, but mitochondrial DNA, given its higher abundance compared to nuclear DNA, could play an important role to understand evolutionary processes at this time scale. In this study, we report 34 new mitogenomes, including two EP and nine MP mammoth (Mammuthus spp.) specimens from Siberia and North America and analyze them jointly with >200 publicly available mitogenomes to reconstruct a transect of mammoth mitogenome diversity throughout the last million years. We find that our EP mitogenomes fall outside the diversity of all Late Pleistocene (LP) mammoths, while those derived from MP mammoths are basal to LP mammoth Clades 2 and 3, supporting an ancient Siberian origin of these lineages. In contrast, the geographical origin of Clade 1 remains unresolved. With these new deep-Time mitogenomes, we observe diversification events across all clades that appear consistent with previously hypothesized MP and LP demographic changes. Furthermore, we improve upon an existing methodology for molecular clock dating of specimens >50 ka, demonstrating that specimens need to be individually dated to avoid biases in their age estimates. Both the molecular and analytical improvements presented here highlight the importance of deep-Time genomic data to discover long-lost genetic diversity, enabling better assessments of evolutionary histories.

Originalsprog	Engelsk
Artikelnummer	msaf065
Tidsskrift	Molecular Biology and Evolution
Vol/bind	42
Udgave nummer	4
Antal sider	9
ISSN	0737-4038
DOI	https://doi.org/10.1093/molbev/msaf065
Status	Udgivet - 2025

Bibliografisk note

Publisher Copyright:
© 2025 The Author(s). Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.

Adgang til dokumentet

10.1093/molbev/msaf065Licens: CC BY

FulltextForlagets udgivne version, 703 KBLicens: CC BY

Citationsformater

Camilo Chacón-Duque, J., Thorpe, J. A. T., Li, W., Dehasque, M., Pečnerová, P., Barlow, A., Díez-del-Molino, D., Henneberger, K., Jin, C., Moreland, K. N., Paijmans, J. L. A., van der Valk, T., Westbury, M. V., Wijnands, F., Barnes, I., Germonpré, M., Hall, E., Hewitson, S., Mol, D., ... Dalén, L. (2025). A Million Years of Mammoth Mitogenome Evolution. Molecular Biology and Evolution, 42(4), Artikel msaf065. https://doi.org/10.1093/molbev/msaf065

Camilo Chacón-Duque, J, Thorpe, JAT, Li, W, Dehasque, M, Pečnerová, P, Barlow, A, Díez-del-Molino, D, Henneberger, K, Jin, C, Moreland, KN, Paijmans, JLA, van der Valk, T, Westbury, MV, Wijnands, F, Barnes, I, Germonpré, M, Hall, E, Hewitson, S, Mol, D, Nikolskiy, P, Sablin, M, Vartanyan, S, Zazula, GD, Götherström, A, Lister, AM, Hofreiter, M, Heintzman, PD & Dalén, L 2025, 'A Million Years of Mammoth Mitogenome Evolution', Molecular Biology and Evolution, bind 42, nr. 4, msaf065. https://doi.org/10.1093/molbev/msaf065

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abstract = "The genomic study of specimens dating to the Early and Middle Pleistocene (EP and MP), a period spanning from 2.6 million years ago (Ma) to 126 thousand years ago (ka), has the potential to elucidate the evolutionary processes that shaped present-day biodiversity. Obtaining genomic data from this period is challenging, but mitochondrial DNA, given its higher abundance compared to nuclear DNA, could play an important role to understand evolutionary processes at this time scale. In this study, we report 34 new mitogenomes, including two EP and nine MP mammoth (Mammuthus spp.) specimens from Siberia and North America and analyze them jointly with >200 publicly available mitogenomes to reconstruct a transect of mammoth mitogenome diversity throughout the last million years. We find that our EP mitogenomes fall outside the diversity of all Late Pleistocene (LP) mammoths, while those derived from MP mammoths are basal to LP mammoth Clades 2 and 3, supporting an ancient Siberian origin of these lineages. In contrast, the geographical origin of Clade 1 remains unresolved. With these new deep-Time mitogenomes, we observe diversification events across all clades that appear consistent with previously hypothesized MP and LP demographic changes. Furthermore, we improve upon an existing methodology for molecular clock dating of specimens >50 ka, demonstrating that specimens need to be individually dated to avoid biases in their age estimates. Both the molecular and analytical improvements presented here highlight the importance of deep-Time genomic data to discover long-lost genetic diversity, enabling better assessments of evolutionary histories.",

keywords = "deep-Time DNA, mammoths, mitogenomes, molecular clock dating, palaeogenomics, phylogenetics",

author = "{Camilo Chac{\'o}n-Duque}, J. and Thorpe, {Jessica A. Thomas} and Wenxi Li and Marianne Dehasque and Patricia Pe{\v c}nerov{\'a} and Axel Barlow and David D{\'i}ez-del-Molino and Kirstin Henneberger and Chenyu Jin and Moreland, {Kelsey N.} and Paijmans, {Johanna L. A.} and {van der Valk}, Tom and Westbury, {Michael V.} and Flore Wijnands and Ian Barnes and Mietje Germonpr{\'e} and Elizabeth Hall and Susan Hewitson and Dick Mol and Pavel Nikolskiy and Mikhail Sablin and Sergey Vartanyan and Zazula, {Grant D.} and Anders G{\"o}therstr{\"o}m and Lister, {Adrian M.} and Michael Hofreiter and Heintzman, {Peter D.} and Love Dal{\'e}n",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.",

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journal = "Molecular Biology and Evolution",

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AU - Camilo Chacón-Duque, J.

AU - Thorpe, Jessica A. Thomas

AU - Li, Wenxi

AU - Dehasque, Marianne

AU - Pečnerová, Patricia

AU - Barlow, Axel

AU - Díez-del-Molino, David

AU - Henneberger, Kirstin

AU - Jin, Chenyu

AU - Moreland, Kelsey N.

AU - Paijmans, Johanna L. A.

AU - van der Valk, Tom

AU - Westbury, Michael V.

AU - Wijnands, Flore

AU - Barnes, Ian

AU - Germonpré, Mietje

AU - Hall, Elizabeth

AU - Hewitson, Susan

AU - Mol, Dick

AU - Nikolskiy, Pavel

AU - Sablin, Mikhail

AU - Vartanyan, Sergey

AU - Zazula, Grant D.

AU - Götherström, Anders

AU - Lister, Adrian M.

AU - Hofreiter, Michael

AU - Heintzman, Peter D.

AU - Dalén, Love

PY - 2025

Y1 - 2025

N2 - The genomic study of specimens dating to the Early and Middle Pleistocene (EP and MP), a period spanning from 2.6 million years ago (Ma) to 126 thousand years ago (ka), has the potential to elucidate the evolutionary processes that shaped present-day biodiversity. Obtaining genomic data from this period is challenging, but mitochondrial DNA, given its higher abundance compared to nuclear DNA, could play an important role to understand evolutionary processes at this time scale. In this study, we report 34 new mitogenomes, including two EP and nine MP mammoth (Mammuthus spp.) specimens from Siberia and North America and analyze them jointly with >200 publicly available mitogenomes to reconstruct a transect of mammoth mitogenome diversity throughout the last million years. We find that our EP mitogenomes fall outside the diversity of all Late Pleistocene (LP) mammoths, while those derived from MP mammoths are basal to LP mammoth Clades 2 and 3, supporting an ancient Siberian origin of these lineages. In contrast, the geographical origin of Clade 1 remains unresolved. With these new deep-Time mitogenomes, we observe diversification events across all clades that appear consistent with previously hypothesized MP and LP demographic changes. Furthermore, we improve upon an existing methodology for molecular clock dating of specimens >50 ka, demonstrating that specimens need to be individually dated to avoid biases in their age estimates. Both the molecular and analytical improvements presented here highlight the importance of deep-Time genomic data to discover long-lost genetic diversity, enabling better assessments of evolutionary histories.

AB - The genomic study of specimens dating to the Early and Middle Pleistocene (EP and MP), a period spanning from 2.6 million years ago (Ma) to 126 thousand years ago (ka), has the potential to elucidate the evolutionary processes that shaped present-day biodiversity. Obtaining genomic data from this period is challenging, but mitochondrial DNA, given its higher abundance compared to nuclear DNA, could play an important role to understand evolutionary processes at this time scale. In this study, we report 34 new mitogenomes, including two EP and nine MP mammoth (Mammuthus spp.) specimens from Siberia and North America and analyze them jointly with >200 publicly available mitogenomes to reconstruct a transect of mammoth mitogenome diversity throughout the last million years. We find that our EP mitogenomes fall outside the diversity of all Late Pleistocene (LP) mammoths, while those derived from MP mammoths are basal to LP mammoth Clades 2 and 3, supporting an ancient Siberian origin of these lineages. In contrast, the geographical origin of Clade 1 remains unresolved. With these new deep-Time mitogenomes, we observe diversification events across all clades that appear consistent with previously hypothesized MP and LP demographic changes. Furthermore, we improve upon an existing methodology for molecular clock dating of specimens >50 ka, demonstrating that specimens need to be individually dated to avoid biases in their age estimates. Both the molecular and analytical improvements presented here highlight the importance of deep-Time genomic data to discover long-lost genetic diversity, enabling better assessments of evolutionary histories.

KW - deep-Time DNA

KW - mammoths

KW - mitogenomes

KW - molecular clock dating

KW - palaeogenomics

KW - phylogenetics

U2 - 10.1093/molbev/msaf065

DO - 10.1093/molbev/msaf065

M3 - Journal article

C2 - 40202893

AN - SCOPUS:105002791877

SN - 0737-4038

VL - 42

JO - Molecular Biology and Evolution

JF - Molecular Biology and Evolution

IS - 4

M1 - msaf065

ER -