Population continuity or replacement? A novel computer simulation approach and its application to the numic expansion (Western Great Basin, USA)

In a previous study, Kaestle and Smith [Am J Phys Anthropol 115 (2001) 1–12] supported a recent (A.D. 1000) Numic expansion into the Great Basin region based on a molecular and statistical analysis of mitochondrial DNA (mtDNA) of ancient and modern native inhabitants of the region. Their statistical...

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Bibliographic Details
Published in:	American journal of physical anthropology Vol. 135; no. 4; pp. 438 - 447
Main Authors:	Cabana, Graciela S., Hunley, Keith, Kaestle, Frederika A.
Format:	Journal Article
Language:	English
Published:	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-04-2008 Wiley-Liss
Subjects:	ancient DNA Computer Simulation Demography DNA Evolution, Molecular Excavation and methods Gene Flow - genetics Genetic Variation Genetics, Population Haplotypes - genetics History, Medieval Human genetics Human paleontology Humans Indians, North American - genetics Indians, North American - history Interpretation, statistical and computer analysis Laboratory methods Landscape Mankind origin and evolution Methodology Methodology and general studies Models, Genetic mtDNA Northern Paiute Northwestern United States Physical and chemical analysis Physical anthropology Population Population Dynamics Prehistory and protohistory Simulation Southwestern United States Statistical analysis Stillwater Marsh U.S.A North America United States of America America Northwestern United States Southwestern United States Study Demography Methodology mtDNA Sample Genetic Mitochondrial DNA ancient DNA Statistics Stillwater Marsh Simulation Analysis Population Variation Expansion Northern Paiute
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Summary:	In a previous study, Kaestle and Smith [Am J Phys Anthropol 115 (2001) 1–12] supported a recent (A.D. 1000) Numic expansion into the Great Basin region based on a molecular and statistical analysis of mitochondrial DNA (mtDNA) of ancient and modern native inhabitants of the region. Their statistical methodology could not rule out the possibility that observed differences in haplogroup frequencies are instead the result of long‐term microevolutionary change within a single population. To distinguish more effectively between a Numic expansion versus population continuity, we employed a novel computer simulation approach that incorporates microevolutionary factors likely to affect human population genetic variation. We test whether the observed differences in haplogroup frequencies between ancient and modern Great Basin groups could have been produced solely via in situ microevolutionary change. Our results indicate that for reasonable demographic conditions, the observed genetic differences between the observed samples are consistent with population continuity if gene flow among prehistoric Great Basin local groups was less than 1% of local group size per generation. Our analysis also supports a recent population expansion if gene flow between neighboring groups exceeded 8% of local group size per generation. The simulations demonstrate that relatively low gene flow levels and random genetic drift can produce the observed degree of genetic differences between population samples. Although this study focuses on the Numic expansion, this simulation approach can be applied to any geographic region for which genetic data have been collected to address similar questions of population relationships over time. Am J Phys Anthropol, 2008. © 2007 Wiley‐Liss, Inc.
Bibliography:	Department of Anthropology Bloch Grant Wenner-Gren Foundation - No. 6563 Sigma Xi Grants-in-Aid award ark:/67375/WNG-X0TR735H-7 istex:55034BA0CD869C5706ADD06D008FFF4D7CEA7741 University of Michigan's Rackham Graduate School Discretionary Grant NSF - No. F002375; No. GER9255683; No. SBR9630926 ArticleID:AJPA20764 ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 ObjectType-Article-1 ObjectType-Feature-2
ISSN:	0002-9483 1096-8644
DOI:	10.1002/ajpa.20764