Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs

Logan Kistler; Aakrosh Ratan; Laurie R. Godfrey; Brooke E. Crowley; Cris E. Hughes; Runhua Lei; Yinqiu Cui; Mindy L. Wood; Kathleen M. Muldoon; Haingoson Andriamialison; John J. McGraw; Lynn P. Tomsho; Stephan C. Schuster; Webb Miller; Edward E. Louis; Anne D. Yoder; Ripan S. Malhi; George H. Perry

doi:10.1016/j.jhevol.2014.06.016

Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs

Logan Kistler, Aakrosh Ratan, Laurie R. Godfrey, Brooke E. Crowley, Cris E. Hughes, Runhua Lei, Yinqiu Cui, Mindy L. Wood, Kathleen M. Muldoon, Haingoson Andriamialison, John J. McGraw, Lynn P. Tomsho, Stephan C. Schuster, Webb Miller, Edward E. Louis, Anne D. Yoder, Ripan S. Malhi, George H. Perry

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

Abstract

Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct 'subfossil' lemur species, all of which were substantially larger (body mass ~11-160kg) than any living population of the ~100 extant lemur species (largest body mass ~6.8kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities.

Original language	English (US)
Pages (from-to)	45-54
Number of pages	10
Journal	Journal of Human Evolution
Volume	79
DOIs	https://doi.org/10.1016/j.jhevol.2014.06.016
State	Published - Feb 1 2015

Keywords

Conservation genomics
Extinction genomics
Human-environment interactions
Malagasy biodiversity
Paleogenomics

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Anthropology

Online availability

10.1016/j.jhevol.2014.06.016

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Kistler, L., Ratan, A., Godfrey, L. R., Crowley, B. E., Hughes, C. E., Lei, R., Cui, Y., Wood, M. L., Muldoon, K. M., Andriamialison, H., McGraw, J. J., Tomsho, L. P., Schuster, S. C., Miller, W., Louis, E. E., Yoder, A. D., Malhi, R. S., & Perry, G. H. (2015). Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs. Journal of Human Evolution, 79, 45-54. https://doi.org/10.1016/j.jhevol.2014.06.016

Kistler, L, Ratan, A, Godfrey, LR, Crowley, BE, Hughes, CE, Lei, R, Cui, Y, Wood, ML, Muldoon, KM, Andriamialison, H, McGraw, JJ, Tomsho, LP, Schuster, SC, Miller, W, Louis, EE, Yoder, AD, Malhi, RS & Perry, GH 2015, 'Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs', Journal of Human Evolution, vol. 79, pp. 45-54. https://doi.org/10.1016/j.jhevol.2014.06.016

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title = "Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs",

abstract = "Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct 'subfossil' lemur species, all of which were substantially larger (body mass ~11-160kg) than any living population of the ~100 extant lemur species (largest body mass ~6.8kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities.",

keywords = "Conservation genomics, Extinction genomics, Human-environment interactions, Malagasy biodiversity, Paleogenomics",

author = "Logan Kistler and Aakrosh Ratan and Godfrey, {Laurie R.} and Crowley, {Brooke E.} and Hughes, {Cris E.} and Runhua Lei and Yinqiu Cui and Wood, {Mindy L.} and Muldoon, {Kathleen M.} and Haingoson Andriamialison and McGraw, {John J.} and Tomsho, {Lynn P.} and Schuster, {Stephan C.} and Webb Miller and Louis, {Edward E.} and Yoder, {Anne D.} and Malhi, {Ripan S.} and Perry, {George H.}",

note = "Funding Information: Subfossil lemurs were sampled under collaborative agreements between L.R.G., David Burney, William Jungers and the Department of Paleontology and Biological Anthropology at the University of Antananarivo. Other subfossil lemur samples were kindly provided by Gregg Gunnell (Duke Lemur Center, Division of Fossil Primates). This is Duke Lemur Center publication #1269. We thank the Madagascar Biodiversity Partnership for assistance in extant lemur sample collection and field logistics in Madagascar, and the Madagascar National Parks, formerly the Association Nationale pour la Gestion des Aires Prot{\'e}g{\'e}es, and the Minist{\`e}re des Eaux et For{\^e}ts of Madagascar for sampling permission. The subfossil lemur sampling was supported by a Guggenheim Fellowship to L.R.G. and the National Science Foundation (BCS-0129185 to David Burney, William Jungers, and L.R.G.; BCS-0237388 to L.R.G.). Funding for ancient DNA laboratory work and sequencing analyses and for the extant lemur sequencing was provided by the National Science Foundation ( BCS-1317163 ), Pennsylvania State University College of the Liberal Arts and the Huck Institutes of the Life Sciences (all to G.H.P.). Funding for extant lemur sample collection was provided by Conservation International , the Primate Action Fund , the Margot Marsh Biodiversity Foundation , and the National Geographic Society , along with logistical support from the Ahmanson Foundation and the Theodore F. and Claire M. Hubbard Family Foundation (all to E.E.L.). We thank Craig Praul and Candace Price from the Pennsylvania State Huck Institutes DNA Core Laboratory for assistance with sequence data collection, and Luca Pozzi for providing an extant lemur Mirza coquereli complete mtDNA sequence for our analysis prior to its publication. We thank Stephen D. Nash (Conservation International, IUCN/SSC Primate Specialist Group) for providing the illustrations used in Fig. 2 . Emily Davenport, Gregg Gunnell, Jason Hodgson, and Mark Shriver provided helpful comments on an earlier version of the manuscript. Publisher Copyright: {\textcopyright} 2014 Elsevier Ltd.",

year = "2015",

month = feb,

day = "1",

doi = "10.1016/j.jhevol.2014.06.016",

language = "English (US)",

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pages = "45--54",

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T1 - Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs

AU - Kistler, Logan

AU - Ratan, Aakrosh

AU - Godfrey, Laurie R.

AU - Crowley, Brooke E.

AU - Hughes, Cris E.

AU - Lei, Runhua

AU - Cui, Yinqiu

AU - Wood, Mindy L.

AU - Muldoon, Kathleen M.

AU - Andriamialison, Haingoson

AU - McGraw, John J.

AU - Tomsho, Lynn P.

AU - Schuster, Stephan C.

AU - Miller, Webb

AU - Louis, Edward E.

AU - Yoder, Anne D.

AU - Malhi, Ripan S.

AU - Perry, George H.

N1 - Funding Information: Subfossil lemurs were sampled under collaborative agreements between L.R.G., David Burney, William Jungers and the Department of Paleontology and Biological Anthropology at the University of Antananarivo. Other subfossil lemur samples were kindly provided by Gregg Gunnell (Duke Lemur Center, Division of Fossil Primates). This is Duke Lemur Center publication #1269. We thank the Madagascar Biodiversity Partnership for assistance in extant lemur sample collection and field logistics in Madagascar, and the Madagascar National Parks, formerly the Association Nationale pour la Gestion des Aires Protégées, and the Ministère des Eaux et Forêts of Madagascar for sampling permission. The subfossil lemur sampling was supported by a Guggenheim Fellowship to L.R.G. and the National Science Foundation (BCS-0129185 to David Burney, William Jungers, and L.R.G.; BCS-0237388 to L.R.G.). Funding for ancient DNA laboratory work and sequencing analyses and for the extant lemur sequencing was provided by the National Science Foundation ( BCS-1317163 ), Pennsylvania State University College of the Liberal Arts and the Huck Institutes of the Life Sciences (all to G.H.P.). Funding for extant lemur sample collection was provided by Conservation International , the Primate Action Fund , the Margot Marsh Biodiversity Foundation , and the National Geographic Society , along with logistical support from the Ahmanson Foundation and the Theodore F. and Claire M. Hubbard Family Foundation (all to E.E.L.). We thank Craig Praul and Candace Price from the Pennsylvania State Huck Institutes DNA Core Laboratory for assistance with sequence data collection, and Luca Pozzi for providing an extant lemur Mirza coquereli complete mtDNA sequence for our analysis prior to its publication. We thank Stephen D. Nash (Conservation International, IUCN/SSC Primate Specialist Group) for providing the illustrations used in Fig. 2 . Emily Davenport, Gregg Gunnell, Jason Hodgson, and Mark Shriver provided helpful comments on an earlier version of the manuscript. Publisher Copyright: © 2014 Elsevier Ltd.

PY - 2015/2/1

Y1 - 2015/2/1

N2 - Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct 'subfossil' lemur species, all of which were substantially larger (body mass ~11-160kg) than any living population of the ~100 extant lemur species (largest body mass ~6.8kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities.

AB - Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct 'subfossil' lemur species, all of which were substantially larger (body mass ~11-160kg) than any living population of the ~100 extant lemur species (largest body mass ~6.8kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities.

KW - Conservation genomics

KW - Extinction genomics

KW - Human-environment interactions

KW - Malagasy biodiversity

KW - Paleogenomics

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Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs

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