Genomic insights into the mystery of mouse mummies on the summits of Atacama volcanoes

Jay F. Storz; Schuyler Liphardt; Marcial Quiroga-Carmona; Naim M. Bautista; Juan C. Opazo; Timothy B. Wheeler; Guillermo D'Elía; Jeffrey M. Good

doi:10.1016/j.cub.2023.08.081

Genomic insights into the mystery of mouse mummies on the summits of Atacama volcanoes

Jay F. Storz, Schuyler Liphardt, Marcial Quiroga-Carmona, Naim M. Bautista, Juan C. Opazo, Timothy B. Wheeler, Guillermo D'Elía, Jeffrey M. Good

Division of Biological and Biomedical Sciences

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

6 Scopus citations

Abstract

Our understanding of the limits of animal life is continually revised by scientific exploration of extreme environments. Here we report the discovery of mummified cadavers of leaf-eared mice, Phyllotis vaccarum, from the summits of three different Andean volcanoes at elevations 6,029–6,233 m above sea level in the Puna de Atacama in Chile and Argentina. Such extreme elevations were previously assumed to be completely uninhabitable by mammals. In combination with a live-captured specimen of the same species from the nearby summit of Volcán Llullaillaco (6,739 m)¹, the summit mummies represent the highest altitude physical records of mammals in the world. We also report a chromosome-level genome assembly for P. vaccarum that, in combination with a whole-genome re-sequencing analysis and radiocarbon dating analysis, provides insights into the provenance and antiquity of the summit mice. Radiocarbon data indicate that the most ancient of the mummies are, at most, a few centuries old. Genomic polymorphism data revealed a high degree of continuity between the summit mice and conspecifics from lower elevations in the surrounding Altiplano. Genomic data also revealed equal numbers of males and females among the summit mice and evidence of close kinship between some individuals from the same summits. These findings bolster evidence for resident populations of Phyllotis at elevations >6,000 m and challenge assumptions about the environmental limits of vertebrate life and the physiological tolerances of small mammals.

Original language	English
Pages (from-to)	R1040-R1042
Journal	Current Biology
Volume	33
Issue number	20
DOIs	https://doi.org/10.1016/j.cub.2023.08.081
State	Published - Oct 23 2023

Funding

This work was funded by grants from the National Institutes of Health (R01 HL159061 to J.F.S. and J.M.G.), National Science Foundation (IOS-2114465 to J.F.S.; OIA-1736249 to J.F.S. and J.M.G.), National Geographic Society (NGS-68495R-20 to J.F.S.) and the Fondo Nacional de Desarrollo Científico y Tecnológico (Fondecyt 1221115 to G.D.). All collections were made in accordance with permission to J.F.S. from the following Chilean agencies: Servicio Agrícola y Ganadero (SAG, Resolución exenta #s 6633/2020, 5799/2021, and 3204/2022), Corporación Nacional Forestal (CONAF, Autorización #s 171219 and 1501221), and Dirección Nacional de Fronteras y Límites del Estado (DIFROL, Autorización de Expedicion Cientifica #68, 02/22, and 07/22). We thank Mario Pérez-Mamani, Juan Carlos Briceño, and Alex Damian González Sandoval for assistance and companionship in the field, Brandi Coyner (Sam Noble Museum of Natural History, University of Oklahoma) for frozen tissue loans, members of the Good lab and the UNVEIL network for helpful discussions, and the University of Montana Genomics Core for access to instrumentation. Computational resources were provided by the Griz Shared Computing Cluster, University of Montana. J.F.S. S.L. M.Q.-C. G.D. and J.M.G. designed the research; J.F.S. M.Q.-C. N.M.B. and G.D. performed the field work; S.L. and T.B.W. performed the laboratory work; S.L. J.C.O. G.D. and J.M.G. analyzed data; J.F.S. S.L. M.Q.-C. N.M.B. G.D. and J.M.G. prepared figures and wrote the manuscript. The authors declare no competing interests. This work was funded by grants from the National Institutes of Health (R01 HL159061 to J.F.S. and J.M.G.), National Science Foundation (IOS-2114465 to J.F.S.; OIA-1736249 to J.F.S. and J.M.G.), National Geographic Society (NGS-68495R-20 to J.F.S.) and the Fondo Nacional de Desarrollo Científico y Tecnológico (Fondecyt 1221115 to G.D.). All collections were made in accordance with permission to J.F.S. from the following Chilean agencies: Servicio Agrícola y Ganadero (SAG, Resolución exenta #s 6633/2020, 5799/2021, and 3204/2022), Corporación Nacional Forestal (CONAF, Autorización #s 171219 and 1501221), and Dirección Nacional de Fronteras y Límites del Estado (DIFROL, Autorización de Expedicion Cientifica #68, 02/22, and 07/22). We thank Mario Pérez-Mamani, Juan Carlos Briceño, and Alex Damian González Sandoval for assistance and companionship in the field, Brandi Coyner (Sam Noble Museum of Natural History, University of Oklahoma) for frozen tissue loans, members of the Good lab and the UNVEIL network for helpful discussions, and the University of Montana Genomics Core for access to instrumentation. Computational resources were provided by the Griz Shared Computing Cluster, University of Montana.

Funders	Funder number
1501221, 171219, 02/22, 07/22
5799/2021, 6633/2020, 3204/2022
IOS-2114465, OIA-1736249
R01 HL159061
National Geographic Society	NGS-68495R-20
Oklahoma State University
1221115

Keywords

Male
Female
Animals
Mice
Mummies
Chile
Genomics
Argentina
Sigmodontinae
Brassicaceae

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10.1016/j.cub.2023.08.081

Cite this

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title = "Genomic insights into the mystery of mouse mummies on the summits of Atacama volcanoes",

abstract = "Our understanding of the limits of animal life is continually revised by scientific exploration of extreme environments. Here we report the discovery of mummified cadavers of leaf-eared mice, Phyllotis vaccarum, from the summits of three different Andean volcanoes at elevations 6,029–6,233 m above sea level in the Puna de Atacama in Chile and Argentina. Such extreme elevations were previously assumed to be completely uninhabitable by mammals. In combination with a live-captured specimen of the same species from the nearby summit of Volc{\'a}n Llullaillaco (6,739 m)1, the summit mummies represent the highest altitude physical records of mammals in the world. We also report a chromosome-level genome assembly for P. vaccarum that, in combination with a whole-genome re-sequencing analysis and radiocarbon dating analysis, provides insights into the provenance and antiquity of the summit mice. Radiocarbon data indicate that the most ancient of the mummies are, at most, a few centuries old. Genomic polymorphism data revealed a high degree of continuity between the summit mice and conspecifics from lower elevations in the surrounding Altiplano. Genomic data also revealed equal numbers of males and females among the summit mice and evidence of close kinship between some individuals from the same summits. These findings bolster evidence for resident populations of Phyllotis at elevations >6,000 m and challenge assumptions about the environmental limits of vertebrate life and the physiological tolerances of small mammals.",

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author = "Storz, \{Jay F.\} and Schuyler Liphardt and Marcial Quiroga-Carmona and Bautista, \{Naim M.\} and Opazo, \{Juan C.\} and Wheeler, \{Timothy B.\} and Guillermo D'El{\'i}a and Good, \{Jeffrey M.\}",

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AU - Storz, Jay F.

AU - Liphardt, Schuyler

AU - Quiroga-Carmona, Marcial

AU - Bautista, Naim M.

AU - Opazo, Juan C.

AU - Wheeler, Timothy B.

AU - D'Elía, Guillermo

AU - Good, Jeffrey M.

PY - 2023/10/23

Y1 - 2023/10/23

N2 - Our understanding of the limits of animal life is continually revised by scientific exploration of extreme environments. Here we report the discovery of mummified cadavers of leaf-eared mice, Phyllotis vaccarum, from the summits of three different Andean volcanoes at elevations 6,029–6,233 m above sea level in the Puna de Atacama in Chile and Argentina. Such extreme elevations were previously assumed to be completely uninhabitable by mammals. In combination with a live-captured specimen of the same species from the nearby summit of Volcán Llullaillaco (6,739 m)1, the summit mummies represent the highest altitude physical records of mammals in the world. We also report a chromosome-level genome assembly for P. vaccarum that, in combination with a whole-genome re-sequencing analysis and radiocarbon dating analysis, provides insights into the provenance and antiquity of the summit mice. Radiocarbon data indicate that the most ancient of the mummies are, at most, a few centuries old. Genomic polymorphism data revealed a high degree of continuity between the summit mice and conspecifics from lower elevations in the surrounding Altiplano. Genomic data also revealed equal numbers of males and females among the summit mice and evidence of close kinship between some individuals from the same summits. These findings bolster evidence for resident populations of Phyllotis at elevations >6,000 m and challenge assumptions about the environmental limits of vertebrate life and the physiological tolerances of small mammals.

AB - Our understanding of the limits of animal life is continually revised by scientific exploration of extreme environments. Here we report the discovery of mummified cadavers of leaf-eared mice, Phyllotis vaccarum, from the summits of three different Andean volcanoes at elevations 6,029–6,233 m above sea level in the Puna de Atacama in Chile and Argentina. Such extreme elevations were previously assumed to be completely uninhabitable by mammals. In combination with a live-captured specimen of the same species from the nearby summit of Volcán Llullaillaco (6,739 m)1, the summit mummies represent the highest altitude physical records of mammals in the world. We also report a chromosome-level genome assembly for P. vaccarum that, in combination with a whole-genome re-sequencing analysis and radiocarbon dating analysis, provides insights into the provenance and antiquity of the summit mice. Radiocarbon data indicate that the most ancient of the mummies are, at most, a few centuries old. Genomic polymorphism data revealed a high degree of continuity between the summit mice and conspecifics from lower elevations in the surrounding Altiplano. Genomic data also revealed equal numbers of males and females among the summit mice and evidence of close kinship between some individuals from the same summits. These findings bolster evidence for resident populations of Phyllotis at elevations >6,000 m and challenge assumptions about the environmental limits of vertebrate life and the physiological tolerances of small mammals.

KW - Male

KW - Female

KW - Animals

KW - Mice

KW - Mummies

KW - Chile

KW - Genomics

KW - Argentina

KW - Sigmodontinae

KW - Brassicaceae

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JO - Current Biology

JF - Current Biology

IS - 20

ER -

Genomic insights into the mystery of mouse mummies on the summits of Atacama volcanoes

Abstract

Funding

Keywords

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