Celtic languages and lactose intolerance: Impacts of a third British migration

Embargoed until: Publicly released: 2021-12-23 03:00

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A third, previously unknown mass migration into Britain about 1000 years BC could explain the spread of Celtic languages and even lactose intolerance, according to international experts. The researchers generated gene data from nearly 800 ancient humans from the time period to try and estimate their ancestry. They say this third migration of Europeans, possibly from France, moved into Britain from 1000 BC to 875 BC and went on to contribute about half the ancestry of English and Welsh people in the Stone Age. This influx of people, the researchers say, could explain how Celtic languages spread through Britain. They add the new influx of people also increased the frequency of a gene associated with lactose intolerance, suggesting cow dairy products were being used differently in Britain and mainland Europe before that time.

News release

From: Springer Nature

Genetics: Mass migration into Britain during the Bronze Age (N&V)

A previously unrecognized, large-scale migration from continental Europe into Great Britain during the Middle to Late Bronze Age may have facilitated the spread of early Celtic languages. This finding, reported in Nature, helps to explain the genetic makeup of people living in Britain today. The study also highlights differences in the frequency of an allele associated with lactose tolerance, suggesting that there could have been differences in the Bronze Age usage of dairy products between Britain and Central Europe.

Studies of ancient DNA have revealed that Britain has experienced at least two large-scale population turnovers in the past 10,000 years. The first Neolithic farmers, who lived around 3950–2450 BC, are thought to have been descended from early European farmers and hunter-gatherers (accounting for around 80% and 20% ancestry, respectively). The second migration, around 2450 BC, was associated with the arrival of continental Europeans, who brought Steppe ancestry derived from pastoralists living on the Pontic-Caspian steppe (a region spanning Europe and Asia between the Black Sea and Caspian Sea). This wave resulted in an approximately 90% replacement of the population’s ancestry, after which the proportions of Steppe ancestry in England and Scotland were indistinguishable. However, the present-day proportion of Steppe ancestry is significantly lower in England. Subsequent events must have happened to account for this change, but they have remained a mystery until now.

David Reich and colleagues generated genome-wide data for 793 ancient individuals from this time period, the largest ancient DNA study reported to date. They reveal a third, previously unknown migration into Britain that peaked between 1000 and 875 BC. The migrants, who are thought to have come from France, went on to contribute about half the ancestry of Iron Age people in England and Wales. Language typically spreads through the movement of people, so the results also support the idea that Celtic languages came to Britain from France in the Late Bronze age. The large pool of genome data also highlighted changes in the frequency of a gene variant associated with lactase persistence into adulthood. The study of this allele indicates that the ability to digest cow’s milk increased about a millennium earlier in Britain than in Central Europe. This finding raises the possibility that dairy products played a different cultural role in Britain during this period, compared with Central Europe.

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conference: Nature

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Organisation/s: Harvard University, USA

Funder: This work was funded in part by the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. 834087; the COMMIOS Project to I.A.). M.N. was supported by the Croatian Science Fund grant (HRZZ IP-2016-06- 1450). P.V., M.Dobe., and Z.V. were supported by the Ministry of Culture of the Czech Republic (DKRVO 2019-2023/7.I.c, 00023272). M.E. was supported by Czech Academy of Sciences award Praemium Academiae. M.Dob. and A.Da. were supported by the grant RVO 67985912 of the Institute of Archaeology of the Czech Academy of Sciences. M.G.B.F. was funded by The Leverhulme Trust via a Doctoral Scholarship scheme awarded to M.Pal. and M.B.R. Support to M.Leg. came from the South, West & Wales Doctoral Training Partnership. M.G.’s osteological analyses were funded by Culture Vannin. A.S-N. was supported by the János Bolyai Research Scholarship of the Hungarian Academy of Sciences. T.H., T.S.Z. and K.K.’s work was supported by a grant from the Hungarian Research, Development and Innovation Office (project number: FK128013). We acknowledge support for radiocarbon dating and stable isotope analyses as well as access to skeletal material from Manx National Heritage and A. Fox. Dating analysis was funded by Leverhulme Trust grant RPG-388. M.G.T. and I.B. were supported by a Wellcome Trust Investigator Award (project 100713/Z/12/Z). I.O. was supported by a Ramón y Cajal grant from Ministerio de Ciencia e Innovación, Spanish Government (RYC2019-027909-I). The research directed at Harvard was funded by NIH grant GM100233; by John Templeton Foundation grant 61220; by a gift from Jean-François Clin; and by the Allen Discovery Center program, a Paul G. Allen Frontiers Group advised program of the Paul G. Allen Family Foundation. D.R. is also an Investigator of the Howard Hughes Medical Institute.

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