The spatiotemporal spread of human migrations during the European Holocene

The European continent was subject to two major migrations of peoples during the Holocene: the northwestward movement of Anatolian farmer populations during the Neolithic and the westward movement of Yamnaya steppe peoples during the Bronze Age. These movements changed the genetic composition of the...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 117; no. 16; pp. 8989 - 9000
Main Authors Racimo, Fernando, Woodbridge, Jessie, Fyfe, Ralph M., Sikora, Martin, Sjögren, Karl-Göran, Kristiansen, Kristian, Vander Linden, Marc
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 21.04.2020
Subjects
admixture
ancient DNA
Archaeological sites
Biological Sciences
Bronze Age
climate
Climate change
Composition
Deoxyribonucleic acid
DNA
early
Farmers
Flora
Gene mapping
genetic-structure
Genomes
Geostatistics
Grasslands
Historia och arkeologi
Historic sites
History and Archaeology
Holocene
hunter-gatherers
land cover
Migration
migrations
Neolithic
origin
Pasture
Physical Sciences
population
Population studies
Populations
potential role
Science & Technology - Other Topics
Steppes
Stone Age
Vegetation
Wave fronts
ancient DNA
migrations
Neolithic
land cover
Bronze Age
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Summary:The European continent was subject to two major migrations of peoples during the Holocene: the northwestward movement of Anatolian farmer populations during the Neolithic and the westward movement of Yamnaya steppe peoples during the Bronze Age. These movements changed the genetic composition of the continent’s inhabitants. The Holocene was also characterized by major changes in vegetation composition, which altered the environment occupied by the original hunter-gatherer populations. We aim to test to what extent vegetation change through time is associated with changes in population composition as a consequence of these migrations, or with changes in climate. Using ancient DNA in combination with geostatistical techniques, we produce detailed maps of ancient population movements, which allow us to visualize how these migrations unfolded through time and space. We find that the spread of Neolithic farmer ancestry had a two-pronged wavefront, in agreement with similar findings on the cultural spread of farming from radiocarbon-dated archaeological sites. This movement, however, did not have a strong association with changes in the vegetational landscape. In contrast, the Yamnaya migration speed was at least twice as fast and coincided with a reduction in the amount of broad-leaf forest and an increase in the amount of pasture and natural grasslands in the continent. We demonstrate the utility of integrating ancient genomes with archaeometric datasets in a spatiotemporal statistical framework, which we foresee will enable future studies of ancient populations’ movements, and their putative effects on local fauna and flora.
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Author contributions: F.R., R.M.F., and M.V.L. designed research; F.R. and J.W. performed research; F.R., J.W., R.M.F., M.S., and K.-G.S. contributed new reagents/analytic tools; F.R. and M.V.L. analyzed data; and F.R., J.W., R.M.F., K.-G.S., K.K., and M.V.L. wrote the paper.
Edited by Torsten Günther, Uppsala University, Uppsala, Sweden, and accepted by Editorial Board Member Richard G. Klein February 24, 2020 (received for review November 15, 2019)
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1920051117