Book contents
- Frontmatter
- Contents
- Contributors
- Preface
- 1 Perspectives on human migration: introduction
- Section 1 Theory
- Section 2 Geography and migration
- 8 Population structure and migration in Africa: correlations between archaeological, linguistic, and genetic data
- 9 Human migrations in North Africa
- 10 Identity, voice, community: new African immigrants to Kansas
- 11 The African colonial migration into Mexico: history and biological consequences
- 12 Demic expansion or cultural diffusion: migration and Basque origins
- 13 Consequences of migration among the Roma: immunoglobulin markers as a tool in investigating population relationships
- 14 Migration, assimilation, and admixture: genes of a Scot?
- 15 Mennonite migrations: genetic and demographic consequences
- 16 Human migratory history: through the looking-glass of genetic geography of Mycobacterium tuberculosis
- 17 Peopling the Tibetan plateau: migrants, genes, and genetic adaptations
- 18 Migration, globalization, instability, and Chinese in Peru
- 19 The great blue highway: human migration in the Pacific
- 20 Migration of pre-Hispanic and contemporary human Mexican populations
- 21 A review of the Tupi expansion in the Amazon
- 22 Molecular consequences of migration and urbanization in Peruvian Amazonia
- 23 Migration in Afro-Brazilian rural communities: crossing historical, demographic, and genetic data
- 24 Indentured migration, gene flow, and the formation of the Indo-Costa Rican population
- 25 Causes and consequences of migration to the Caribbean Islands and Central America: an evolutionary success story
- Section 3 Overview
- Index
- References
12 - Demic expansion or cultural diffusion: migration and Basque origins
Published online by Cambridge University Press: 05 December 2012
Book contents
- Frontmatter
- Contents
- Contributors
- Preface
- 1 Perspectives on human migration: introduction
- Section 1 Theory
- Section 2 Geography and migration
- 8 Population structure and migration in Africa: correlations between archaeological, linguistic, and genetic data
- 9 Human migrations in North Africa
- 10 Identity, voice, community: new African immigrants to Kansas
- 11 The African colonial migration into Mexico: history and biological consequences
- 12 Demic expansion or cultural diffusion: migration and Basque origins
- 13 Consequences of migration among the Roma: immunoglobulin markers as a tool in investigating population relationships
- 14 Migration, assimilation, and admixture: genes of a Scot?
- 15 Mennonite migrations: genetic and demographic consequences
- 16 Human migratory history: through the looking-glass of genetic geography of Mycobacterium tuberculosis
- 17 Peopling the Tibetan plateau: migrants, genes, and genetic adaptations
- 18 Migration, globalization, instability, and Chinese in Peru
- 19 The great blue highway: human migration in the Pacific
- 20 Migration of pre-Hispanic and contemporary human Mexican populations
- 21 A review of the Tupi expansion in the Amazon
- 22 Molecular consequences of migration and urbanization in Peruvian Amazonia
- 23 Migration in Afro-Brazilian rural communities: crossing historical, demographic, and genetic data
- 24 Indentured migration, gene flow, and the formation of the Indo-Costa Rican population
- 25 Causes and consequences of migration to the Caribbean Islands and Central America: an evolutionary success story
- Section 3 Overview
- Index
- References
Summary
Introduction
This chapter examines the possible ramifications of migration (Paleolithic versus Neolithic) on the mitochondrial gene pool of Europe. In the anthropological literature, there has been much debate on the relative contributions of Paleolithic and Neolithic populations to modern Europeans; a debate which continues to center around two competing models (Balaresque et al., 2010; Battaglia et al., 2009; Sjodin and Francois, 2011). The Neolithic demic diffusion model (DDM) holds that the majority of genetic variation found in modern Europeans is the result of bands of migrating farmers spreading their technology (and genes) into Europe with the advent of agriculture (Ammerman and Cavalli-Sforza, 1984). Alternatively, the cultural diffusion model (CDM) asserts that agricultural knowledge spread into Europe 10 000 years ago but people did not, so the transfer of technology occurred without migration and the gene pool of modern Europeans is primarly of non-Neolithic origin (Novelletto, 2007).
Genetic evidence has been used to support both models. A southeast to northwest cline in the distribution of classical markers across Europe has been interpreted as a genetic signature of the DDM model (Cavalli-Sforza et al., 1994). Similar clines have been noted for other molecular systems and interpreted as evidence of “directional population expansion” (Casalotti et al., 1999; Chikhi et al., 1998:9055). Advocates of the cultural diffusion model maintain that the Paleolithic expansion into Europe occurred from the same region as the Neolithic expansion, so that the cline in genetic variation might reflect a Paleolithic signal (Barbujani et al., 1998). Y-chromosome analyses reveal that haplotype R1*M173 appears to indicate an expansion event after the Last Glacial Maximum (Wells et al., 2001), and a “high degree of non-Neolithic ancestry” in populations of Iberia (Flores et al., 2004). Examination of Y-chromosome diversity in southeastern Europe suggests that the spread of agriculture overlaps with the expansion of indigenous European haplogroup I*M423 (Battaglia et al., 2009).
- Type
- Chapter
- Information
- Causes and Consequences of Human MigrationAn Evolutionary Perspective, pp. 224 - 249Publisher: Cambridge University PressPrint publication year: 2012
References
2004 The molecular dissection of mtDNA haplogroup H confirms that the Franco-Cantabrian glacial refuge was a major source for the European gene poolAmerican Journal of Human Genetics 75 910CrossRefGoogle ScholarPubMed
1991 Are the Basques a single and a unique population?American Journal of Human Genetics 49 450Google Scholar
2006 Insights into the “isolation” of the Basques: mtDNA lineages from the historical site of Aldaieta (6th–7th centuries AD)American Journal of Physical Anthropology 130 394CrossRefGoogle Scholar
2005 Temporal mitochondrial DNA variation in the Basque Country: influence of post-neolithic eventsAnnals of Human Genetics 69 665CrossRefGoogle ScholarPubMed
1984 The Neolithic Transition and the Genetics of Populations in EuropePrinceton, NJPrinceton University PressCrossRefGoogle Scholar
1981 Sequence and organization of the human mitochondrial genomeNature 290 457CrossRefGoogle ScholarPubMed
2005 The population history of the Croatian linguistic minority of Molise (southern Italy): a maternal viewEuropean Journal of Human Genetics 13 902CrossRefGoogle ScholarPubMed
2010 A predominantly neolithic origin for European paternal lineagesPLoS Biology 8CrossRefGoogle ScholarPubMed
1998 Evidence for Paleolithic and Neolithic gene flow in EuropeAmerican Journal of Human Genetics 62 488CrossRefGoogle Scholar
2009 Y-chromosomal evidence of the cultural diffusion of agriculture in Southeast EuropeEuropean Journal of Human Genetics 17 820CrossRefGoogle ScholarPubMed
2004 MtDNA evidence for a genetic bottleneck in the early history of the Ashkenazi Jewish populationEuropean Journal of Human Genetics 12 355CrossRefGoogle ScholarPubMed
2006 The matrilineal ancestry of Ashkenazi Jewry: portrait of a recent founder eventAmerican Journal of Human Genetics 78 487CrossRefGoogle ScholarPubMed
1995 Human mitochondrial DNA variation and the origin of BasquesAnnals of Human Genetics 59 63CrossRefGoogle ScholarPubMed
1937 New data on blood groups and other inherited factors in Europe and EgyptAmerican Journal of Physical Anthropology 23 49CrossRefGoogle Scholar
1999 Y-chromosome polymorphisms and the origins of the European gene poolProceedings of the Royal Society B: Biological Sciences 266 1959CrossRefGoogle Scholar
2003 Returning to the Neolithic transition in EuropeThe Widening Harvest: The Neolithic Transition in EuropeBoston, MAArchaeological Institute of AmericaGoogle Scholar
1993 Human genomic diversity in Europe: a summary of recent research and prospects for the futureEuropean Journal of Human Genetics 1 3CrossRefGoogle ScholarPubMed
1949 The ABO, MN and Rh blood groups of the Basque peopleAmerican Journal of Physical Anthropology 7 529CrossRefGoogle ScholarPubMed
1998 Clines of nuclear DNA markers suggest a largely Neolithic ancestry of the European gene poolProceedings of the National Academy of Sciences of the United States of America 95 9053CrossRefGoogle ScholarPubMed
1996 Genetic diversity in the Iberian Peninsula determined from mitochondrial sequence analysisAnnals of Human Genetics 60 331CrossRefGoogle ScholarPubMed
2004 mtDNA polymorphisms in five French groups: importance of regional samplingEuropean Journal of Human Genetics 12 293CrossRefGoogle ScholarPubMed
2002 A simulated annealing approach to define the genetic structure of populationsMolecular Ecology 11 2571CrossRefGoogle ScholarPubMed
2004 Patterns of DNA sequence diversity and genetic structure after a range expansion: lessons from the infinite-island modelMolecular Ecology 13 853CrossRefGoogle ScholarPubMed
2005 Arlequin ver. 3.0: an integrated software package for population genetics data analysisEvolutionary Bioinformatics Online 1 47Google Scholar
2004 Reduced genetic structure of the Iberian peninsula revealed by Y-chromosome analysis: implications for population demographyEuropean Journal of Human Genetics 12 855CrossRefGoogle ScholarPubMed
1996 Sequence diversity of the control region of mitochondrial DNA in Tuscany and its implications for the peopling of EuropeAmerican Journal of Physical Anthropology 100 4433.0.CO;2-S>CrossRefGoogle ScholarPubMed
1997 Statistical tests of neutrality of mutations against population growth, hitchhiking and background selectionGenetics 147 915Google ScholarPubMed
2003 Mitochondrial DNA affinities at the Atlantic fringe of EuropeAmerican Journal of Physical Anthropology 120 391CrossRefGoogle ScholarPubMed
2006 The mitochondrial lineage U8a reveals a Paleolithic settlement in the Basque countryBMC Genomics 7 124CrossRefGoogle ScholarPubMed
2008 Mitochondrial DNA variation in Jordanians and their genetic relationship to other Middle East populationsAnnals of Human Biology 35 212CrossRefGoogle ScholarPubMed
1997 Radiocarbon evidence for the lateglacial human recolonisation of Northern EuropeProceedings of the Prehistoric Society 63 25CrossRefGoogle Scholar
1990 Gene genealogies and the coalescent processOxford Surveys in Evolutionary Biology 7 1Google Scholar
1999 An mtDNA analysis in ancient Basque populations: implications for haplogroup V as a marker for a major Paleolithic expansion from southwestern EuropeAmerican Journal of Human Genetics 65 199CrossRefGoogle Scholar
2001 DNA analysis and the evolutionary history of the Basque population: a reviewJournal of Anthropological Research 57 325CrossRefGoogle Scholar
1997 On physical anthropological aspects of the Mesolithic-Neolithic transition in the Iberian PeninsulaCurrent Anthropology 38 839CrossRefGoogle Scholar
1980 A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequencesJournal of Molecular Evolution 16 111CrossRefGoogle ScholarPubMed
1964 Nonmetric multidimensional scaling: a numerical methodPsychometrika 29 28CrossRefGoogle Scholar
2000 Expected regional patterns of Mesolithic-Neolithic human population admixture in Europe based on archaeological evidenceArchaeogenetics: DNA and the Population Prehistory of EuropeCambridge, UKMcDonald Institute for Archaeological ResearchGoogle Scholar
2000 The peopling of Europe from the maternal and paternal perspectivesAmerican Journal of Human Genetics 67 1376CrossRefGoogle ScholarPubMed
2004 Disuniting uniformity: a pied cladistic canvas of mtDNA haplogroup H in EurasiaMolecular Biology and Evolution 21 2012CrossRefGoogle Scholar
2002 Mitochondrial DNA variability in Poles and RussiansAnnals of Human Genetics 66 261CrossRefGoogle ScholarPubMed
2003 Mitochondrial DNA variability in Bosnians and SloveniansAnnals of Human Genetics 67 412CrossRefGoogle ScholarPubMed
2006 Mitochondrial DNA variability in the Czech population, with application to the ethnic history of SlavsHuman Biology 78 681CrossRefGoogle ScholarPubMed
1996 Genetic polymorphisms of the Basques from Gipuzkoa: genetic heterogeneity of the Basque populationAnnals of Human Biology 23 285CrossRefGoogle ScholarPubMed
2004 The Longue Duree of genetic ancestry: multiple genetic marker systems and Celtic origins on the Atlantic facade of EuropeAmerican Journal of Human Genetics 75 693CrossRefGoogle ScholarPubMed
2007 Y chromosome variation in Europe: continental and local processes in the formation of the extant gene poolAnnals of Human Biology 34 139CrossRefGoogle ScholarPubMed
2005 High-resolution mtDNA evidence for the late-glacial resettlement of Europe from an Iberian refugiumGenome Research 15 19CrossRefGoogle ScholarPubMed
2011 Mutation rate switch inside Eurasian mitochondrial haplogroups: impact of selection and consequences for dating settlement in EuropePLoS ONE 6CrossRefGoogle Scholar
2000 Spatial and temporal patterns in the Mesolithic-Neolithic archaeological record of EuropeArchaeogenetics: DNA and the Population Prehistory of EuropeCambridge, UKMcDonald Institute for Archaeological ResearchGoogle Scholar
1996 Paleolithic and neolithic lineages in the European mitochondrial gene poolAmerican Journal of Human Genetics 59 185Google ScholarPubMed
2002 In search of geographical patterns in European mitochondrial DNAAmerican Journal of Human Genetics 71 1168CrossRefGoogle ScholarPubMed
1995 Genetic evidence for a Pleistocene population explosionEvolution 49 608CrossRefGoogle ScholarPubMed
1992 Population growth makes waves in the distribution of pairwise genetic differencesMolecular Biology and Evolution 9 552Google ScholarPubMed
2007 Mitochondrial DNA geneflow indicates preferred usage of the Levant Corridor over the Horn of Africa passagewayJournal of Human Genetics 52 436CrossRefGoogle ScholarPubMed
1998 mtDNA analysis of the Galician population: a genetic edge of European variationEuropean Journal of Human Genetics 6 365CrossRefGoogle ScholarPubMed
2007 Palaeogenetic evidence supports a dual model of Neolithic spreading into EuropeProceedings of the Royal Society B: Biological Sciences 274 2161CrossRefGoogle ScholarPubMed
2004 Determination of human Caucasian mitochondrial DNA haplogroups by means of a hierarchical approachHuman Biology 76 431CrossRefGoogle ScholarPubMed
1999 Estimation of past demographic parameters from the distribution of pairwise differences when the mutation rates vary among sites: application to human mitochondrial DNAGenetics 152 1079Google ScholarPubMed
1994 Mismatch distributions of mtDNA reveal recent human population expansionsHuman Biology 66 761Google ScholarPubMed
2011 Wave-of-advance models of the diffusion of the Y chromosome haplogroup R1b1b2 in EuropePLoS ONE 6 e21592CrossRefGoogle Scholar
1991 Human geography of the Late Upper Paleolithic in Western Europe: present state of the questionJournal of Anthropological Research 47 259CrossRefGoogle Scholar
1991 Southwestern Europe at the Last Glacial MaximumCurrent Anthropology 32 189CrossRefGoogle Scholar
1999 The molecular genetics of European ancestryPhilosophical Transactions of the Royal Society of London B: Biological Sciences 354 131CrossRefGoogle ScholarPubMed
2003 European ancestry: the mitochondrial landscapeThe Widening Harvest: The Neolithic Transition in EuropeBoston, MAArchaeological Institute of AmericaGoogle Scholar
1989 Statistical method for testing the neutral mutation hypothesis by DNA polymorphismGenetics 123 585Google ScholarPubMed
1998 mtDNA analysis reveals a major late Paleolithic population expansion from southwestern to northeastern EuropeAmerican Journal of Human Genetics 62 1137CrossRefGoogle Scholar
2001 A signal, from human mtDNA, of postglacial recolonization in EuropeAmerican Journal of Human Genetics 69 844CrossRefGoogle Scholar
2001 The Eurasian heartland: a continental perspective on Y-chromosome diversityProceedings of the National Academy of Sciences of the United States of America 98 10 244CrossRefGoogle ScholarPubMed
2011 Autosomal short tandem repeat genetic variation of the Basques in SpainCroatian Medical Journal 52 372CrossRefGoogle ScholarPubMed
2011 Paternal genetic history of the Basque population of SpainHuman Biology 83CrossRefGoogle Scholar
1998 On logical and empirical aspects of the Mesolithic-Neolithic transition in the Iberian PeninsulaCurrent Anthropology 39 690CrossRefGoogle Scholar
2000 From the Mesolithic to the Neolithic in the Iberian PeninsulaEurope’s First FarmersCambridge, UKCambridge University PressGoogle Scholar
2003 The Neolithic transition in Portugal and the role of demic diffusion in the spread of agriculture across West Mediterranean EuropeThe Widening Harvest: The Neolithic Transition in EuropeBoston, MAArchaeological Institute of AmericaGoogle Scholar