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Martiniano et al. 2018, p. 6. "Six of the seven individuals sampled here are clearly indigenous Britons in their genomic signal. When considered together, they are similar to the earlier Iron-Age sample, whilst the modern group with which they show closest affinity are Welsh. These six are also fixed for the Y-chromosome haplotype R1b-L51, which shows a cline in modern Britain, again with maximal frequencies among western populations. Interestingly, these people do not differ significantly from modern inhabitants of the same region (Yorkshire and Humberside) suggesting major genetic change in Eastern Britain within the last millennium and a half. That this could have been, in part, due to population influx associated with the Anglo-Saxon migrations is suggested by the different genetic signal of the later Anglo-Saxon genome." Martiniano, Rui; et al. (19 January 2016). "Genomic signals of migration and continuity in Britain before the Anglo-Saxons". Nature Communications. 7 (10326). Nature Research: 10326. Bibcode:2016NatCo...710326M. doi:10.1038/ncomms10326. PMC4735653. PMID26783717.
Martiniano et al. 2018, p. 6. "Six of the seven individuals sampled here are clearly indigenous Britons in their genomic signal. When considered together, they are similar to the earlier Iron-Age sample, whilst the modern group with which they show closest affinity are Welsh. These six are also fixed for the Y-chromosome haplotype R1b-L51, which shows a cline in modern Britain, again with maximal frequencies among western populations. Interestingly, these people do not differ significantly from modern inhabitants of the same region (Yorkshire and Humberside) suggesting major genetic change in Eastern Britain within the last millennium and a half. That this could have been, in part, due to population influx associated with the Anglo-Saxon migrations is suggested by the different genetic signal of the later Anglo-Saxon genome." Martiniano, Rui; et al. (19 January 2016). "Genomic signals of migration and continuity in Britain before the Anglo-Saxons". Nature Communications. 7 (10326). Nature Research: 10326. Bibcode:2016NatCo...710326M. doi:10.1038/ncomms10326. PMC4735653. PMID26783717.
Martiniano et al. 2018, p. 6. "Six of the seven individuals sampled here are clearly indigenous Britons in their genomic signal. When considered together, they are similar to the earlier Iron-Age sample, whilst the modern group with which they show closest affinity are Welsh. These six are also fixed for the Y-chromosome haplotype R1b-L51, which shows a cline in modern Britain, again with maximal frequencies among western populations. Interestingly, these people do not differ significantly from modern inhabitants of the same region (Yorkshire and Humberside) suggesting major genetic change in Eastern Britain within the last millennium and a half. That this could have been, in part, due to population influx associated with the Anglo-Saxon migrations is suggested by the different genetic signal of the later Anglo-Saxon genome." Martiniano, Rui; et al. (19 January 2016). "Genomic signals of migration and continuity in Britain before the Anglo-Saxons". Nature Communications. 7 (10326). Nature Research: 10326. Bibcode:2016NatCo...710326M. doi:10.1038/ncomms10326. PMC4735653. PMID26783717.
Martiniano et al. 2018, p. 6. "Six of the seven individuals sampled here are clearly indigenous Britons in their genomic signal. When considered together, they are similar to the earlier Iron-Age sample, whilst the modern group with which they show closest affinity are Welsh. These six are also fixed for the Y-chromosome haplotype R1b-L51, which shows a cline in modern Britain, again with maximal frequencies among western populations. Interestingly, these people do not differ significantly from modern inhabitants of the same region (Yorkshire and Humberside) suggesting major genetic change in Eastern Britain within the last millennium and a half. That this could have been, in part, due to population influx associated with the Anglo-Saxon migrations is suggested by the different genetic signal of the later Anglo-Saxon genome." Martiniano, Rui; et al. (19 January 2016). "Genomic signals of migration and continuity in Britain before the Anglo-Saxons". Nature Communications. 7 (10326). Nature Research: 10326. Bibcode:2016NatCo...710326M. doi:10.1038/ncomms10326. PMC4735653. PMID26783717.
