African and Asian leopards are highly differentiated at the genomic level

Johanna L.A. Paijmans; Axel Barlow; Matthew S. Becker; James A. Cahill; Joerns Fickel; Daniel W.G. Förster; Katrin Gries; Stefanie Hartmann; Rasmus Worsøe Havmøller; Kirstin Henneberger; Christian Kern; Andrew C. Kitchener; Eline D. Lorenzen; Frieder Mayer; Stephen James O'Brien; Johanna von Seth; Mikkel-Holder S. Sinding; Göran Spong; Olga Uphyrkina; Bettina Wachter; Michael V. Westbury; Love Dalén; Jong Bhak; Andrea Manica; Michael Hofreiter

doi:10.1016/j.cub.2021.03.084

African and Asian leopards are highly differentiated at the genomic level

Johanna L.A. Paijmans
, Axel Barlow
, Matthew S. Becker
, James A. Cahill
, Joerns Fickel
, Daniel W.G. Förster
, Katrin Gries
, Stefanie Hartmann
, Rasmus Worsøe Havmøller
, Kirstin Henneberger
, Christian Kern
, Andrew C. Kitchener
, Eline D. Lorenzen
, Frieder Mayer
, Stephen James O'Brien
, Johanna von Seth
, Mikkel-Holder S. Sinding
, Göran Spong
, Olga Uphyrkina
, Bettina Wachter

Michael V. Westbury, Love Dalén, Jong Bhak, Andrea Manica, Michael Hofreiter

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

Leopards are the only big cats still widely distributed across the continents of Africa and Asia. They occur in a wide range of habitats and are often found in close proximity to humans. But despite their ubiquity, leopard phylogeography and population history have not yet been studied with genomic tools. Here, we present population-genomic data from 26 modern and historical samples encompassing the vast geographical distribution of this species. We find that Asian leopards are broadly monophyletic with respect to African leopards across almost their entire nuclear genomes . This profound genetic pattern persists despite the animals’ high potential mobility, and despite evidence of transfer of African alleles into Middle Eastern and Central Asian leopard populations within the last 100,000 years. Our results further suggest that Asian leopards originated from a single out-of-Africa dispersal event 500–600 thousand years ago and are characterized by higher population structuring, stronger isolation by distance , and lower heterozygosity than African leopards. Taxonomic categories do not take into account the variability in depth of divergence among subspecies . The deep divergence between the African subspecies and Asian populations contrasts with the much shallower divergence among putative Asian subspecies. Reconciling genomic variation and taxonomy is likely to be a growing challenge in the genomics era.

Original language	American English
Pages (from-to)	1872-1882.e5
Journal	Current Biology
Volume	31
Issue number	9
DOIs	https://doi.org/10.1016/j.cub.2021.03.084
State	Published - May 10 2021

Bibliographical note

Publisher Copyright:
© 2021 Elsevier Inc.

Funding

This work was supported by the European Research Council (starting grant GeneFlow #310763 to M.H.). We also acknowledge sequencing support from the Swedish National Genomics Infrastructure (NGI) at the Science for Life Laboratory, which is supported by the Swedish Research Council and the Knut and Alice Wallenberg Foundation, and Uppsala Multidisciplinary Center for Advanced Computational Science (UPPMAX) for access to computational infrastructure. L.D. and J.v.S. were funded by Formas (2015-676). We further acknowledge Clinomics (Republic of Korea) for sequencing funds. We further would like to thank Andreas Wilting for sample contacts and manuscript feedback, André Stadler for sample contribution, Pepijn Kamminga and the Naturalis Biodiversity Center for sample contribution, and Sonja Heinrich for field dissection. Conceptualization, M.H. A.M. and J.B.; methodology, J.L.A.P.; software, J.L.A.P. and S.H.; formal analysis, J.L.A.P.; investigation, J.L.A.P. R.W.H. K.H. J.v.S. M.-H.S.S. G.S. and L.D.; resources, M.S.B. J.F. D.W.G.F. K.G. R.W.H. C.K. A.C.K. E.L. F.M. G.S. B.W. and LD; discussion, J.F. D.W.G.F. R.W.H. A.C.K. E.L. M.V.W. S.J.O. O.U. J.B. and A.M.; writing – original draft, J.L.A.P. and A.B.; writing – review and editing, all authors have read, edited, and approved the manuscript; visualization, J.L.A.P.; supervision, M.H.; project administration, J.L.A.P.; funding acquisition, M.H. J.F. L.D. and J.B. The authors declare no competing interests. This work was supported by the European Research Council (starting grant GeneFlow #310763 to M.H.). We also acknowledge sequencing support from the Swedish National Genomics Infrastructure (NGI) at the Science for Life Laboratory, which is supported by the Swedish Research Council and the Knut and Alice Wallenberg Foundation , and Uppsala Multidisciplinary Center for Advanced Computational Science (UPPMAX) for access to computational infrastructure. L.D. and J.v.S. were funded by Formas ( 2015-676 ). We further acknowledge Clinomics (Republic of Korea) for sequencing funds. We further would like to thank Andreas Wilting for sample contacts and manuscript feedback, André Stadler for sample contribution, Pepijn Kamminga and the Naturalis Biodiversity Center for sample contribution, and Sonja Heinrich for field dissection.

Funders	Funder number
European Research Council	310763
Svenska Forskningsrådet Formas	2015-676
Knut och Alice Wallenbergs Stiftelse
Vetenskapsrådet
Naturalis Biodiversity Center
European Commission
Seventh Framework Programme	310763

ASJC Scopus Subject Areas

General Biochemistry,Genetics and Molecular Biology
General Agricultural and Biological Sciences

Keywords

Genomes
Historical Samples
Leopards
Out-Of-Africa
Panthera pardus
Population Genomics
historical samples
genomes
out-of-Africa
population genomics
leopards

Disciplines

Biology
Genetics and Genomics
Genomics
Life Sciences

Access to Document

10.1016/j.cub.2021.03.084License: Unspecified

Cite this

Paijmans, J. L. A., Barlow, A., Becker, M. S., Cahill, J. A., Fickel, J., Förster, D. W. G., Gries, K., Hartmann, S., Havmøller, R. W., Henneberger, K., Kern, C., Kitchener, A. C., Lorenzen, E. D., Mayer, F., O'Brien, S. J., von Seth, J., Sinding, M.-H. S., Spong, G., Uphyrkina, O., ... Hofreiter, M. (2021). African and Asian leopards are highly differentiated at the genomic level. Current Biology, 31(9), 1872-1882.e5. https://doi.org/10.1016/j.cub.2021.03.084

Paijmans, JLA, Barlow, A, Becker, MS, Cahill, JA, Fickel, J, Förster, DWG, Gries, K, Hartmann, S, Havmøller, RW, Henneberger, K, Kern, C, Kitchener, AC, Lorenzen, ED, Mayer, F, O'Brien, SJ, von Seth, J, Sinding, M-HS, Spong, G, Uphyrkina, O, Wachter, B, Westbury, MV, Dalén, L, Bhak, J, Manica, A & Hofreiter, M 2021, 'African and Asian leopards are highly differentiated at the genomic level', Current Biology, vol. 31, no. 9, pp. 1872-1882.e5. https://doi.org/10.1016/j.cub.2021.03.084

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abstract = " Leopards are the only big cats still widely distributed across the continents of Africa and Asia. They occur in a wide range of habitats and are often found in close proximity to humans. But despite their ubiquity, leopard phylogeography and population history have not yet been studied with genomic tools. Here, we present population-genomic data from 26 modern and historical samples encompassing the vast geographical distribution of this species. We find that Asian leopards are broadly monophyletic with respect to African leopards across almost their entire nuclear genomes . This profound genetic pattern persists despite the animals{\textquoteright} high potential mobility, and despite evidence of transfer of African alleles into Middle Eastern and Central Asian leopard populations within the last 100,000 years. Our results further suggest that Asian leopards originated from a single out-of-Africa dispersal event 500–600 thousand years ago and are characterized by higher population structuring, stronger isolation by distance , and lower heterozygosity than African leopards. Taxonomic categories do not take into account the variability in depth of divergence among subspecies . The deep divergence between the African subspecies and Asian populations contrasts with the much shallower divergence among putative Asian subspecies. Reconciling genomic variation and taxonomy is likely to be a growing challenge in the genomics era.",

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doi = "10.1016/j.cub.2021.03.084",

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AU - Paijmans, Johanna L.A.

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AU - Cahill, James A.

AU - Fickel, Joerns

AU - Förster, Daniel W.G.

AU - Gries, Katrin

AU - Hartmann, Stefanie

AU - Havmøller, Rasmus Worsøe

AU - Henneberger, Kirstin

AU - Kern, Christian

AU - Kitchener, Andrew C.

AU - Lorenzen, Eline D.

AU - Mayer, Frieder

AU - O'Brien, Stephen James

AU - von Seth, Johanna

AU - Sinding, Mikkel-Holder S.

AU - Spong, Göran

AU - Uphyrkina, Olga

AU - Wachter, Bettina

AU - Westbury, Michael V.

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AU - Bhak, Jong

AU - Manica, Andrea

AU - Hofreiter, Michael

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N2 - Leopards are the only big cats still widely distributed across the continents of Africa and Asia. They occur in a wide range of habitats and are often found in close proximity to humans. But despite their ubiquity, leopard phylogeography and population history have not yet been studied with genomic tools. Here, we present population-genomic data from 26 modern and historical samples encompassing the vast geographical distribution of this species. We find that Asian leopards are broadly monophyletic with respect to African leopards across almost their entire nuclear genomes . This profound genetic pattern persists despite the animals’ high potential mobility, and despite evidence of transfer of African alleles into Middle Eastern and Central Asian leopard populations within the last 100,000 years. Our results further suggest that Asian leopards originated from a single out-of-Africa dispersal event 500–600 thousand years ago and are characterized by higher population structuring, stronger isolation by distance , and lower heterozygosity than African leopards. Taxonomic categories do not take into account the variability in depth of divergence among subspecies . The deep divergence between the African subspecies and Asian populations contrasts with the much shallower divergence among putative Asian subspecies. Reconciling genomic variation and taxonomy is likely to be a growing challenge in the genomics era.

AB - Leopards are the only big cats still widely distributed across the continents of Africa and Asia. They occur in a wide range of habitats and are often found in close proximity to humans. But despite their ubiquity, leopard phylogeography and population history have not yet been studied with genomic tools. Here, we present population-genomic data from 26 modern and historical samples encompassing the vast geographical distribution of this species. We find that Asian leopards are broadly monophyletic with respect to African leopards across almost their entire nuclear genomes . This profound genetic pattern persists despite the animals’ high potential mobility, and despite evidence of transfer of African alleles into Middle Eastern and Central Asian leopard populations within the last 100,000 years. Our results further suggest that Asian leopards originated from a single out-of-Africa dispersal event 500–600 thousand years ago and are characterized by higher population structuring, stronger isolation by distance , and lower heterozygosity than African leopards. Taxonomic categories do not take into account the variability in depth of divergence among subspecies . The deep divergence between the African subspecies and Asian populations contrasts with the much shallower divergence among putative Asian subspecies. Reconciling genomic variation and taxonomy is likely to be a growing challenge in the genomics era.

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SN - 0960-9822

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SP - 1872-1882.e5

JO - Current Biology

JF - Current Biology

IS - 9

ER -

African and Asian leopards are highly differentiated at the genomic level

Abstract

Bibliographical note

Funding

ASJC Scopus Subject Areas

Keywords

Disciplines

Access to Document

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