Spotlight on Ancient Iberia
Largest-ever ancient DNA study of region spans 8,000 years
Largest-ever ancient DNA study of region spans 8,000 years
The largest study to date of ancient DNA from the Iberian Peninsula (modern-day Portugal and Spain) offers new insights into the populations that lived in this region over the last 8,000 years. The most startling discovery suggests that local Y chromosomes were almost completely replaced during the Bronze Age.
Starting in 2500 B.C. and continuing for about 500 years, the analyses indicate, tumultuous social events played out that reshaped Iberians' paternal ancestry continuing to today.
“This is one of the strongest pieces of evidence in ancient-DNA research of sex bias in the prehistoric period,” said Iñigo Olalde, a postdoctoral fellow in the lab of David Reich at Harvard Medical School and first author of the study.
The work, published online in Science March 15 by a 111-person international team led by researchers at HMS and the Institute of Evolutionary Biology in Barcelona, Spain, also details genetic variation among ancient hunter-gatherers, documents intermingling of ancient Iberians with people from North Africa and the Mediterranean, and provides an additional explanation for why present-day Basques, who have such a distinctive language and culture, are also ancestrally different from other Iberians.
Some of the findings support or clarify what is known about the history and prehistory of Iberia, while others challenge them.
“It's amazing how the technology of ancient DNA, when combined with information from archaeology, anthropology, linguistics and the study of historical records, can bring the past to life,” said Reich, professor of genetics in the HMS Blavatnik Institute, an investigator of the Howard Hughes Medical Institute and co-senior author of the study.
The team analyzed genomes from 403 ancient Iberians who lived between about 6000 B.C. and 1600 A.D., 975 ancient people from outside Iberia and about 2,900 present-day people.
271 of the ancient Iberian genomes had not been published before. Nearly two-thirds came from skeletons no older than 2000 B.C., boosting by 25 times the number of publicly available genomes from this relatively recent period.
As far back as 2500 B.C., the researchers found, Iberians began living alongside people who moved in from central Europe and carried recent genetic ancestry from the Russian steppe. Within a few hundred years, analyses showed, the two groups had extensively interbred.
For example, at a Bronze Age site known as the Castillejo de Bonete in Spain where a woman and man were found buried side by side, analyses revealed that the woman's ancestry was entirely local, while the man had very recent ancestors from central Europe.
To the researchers’ surprise, men and women from the two groups contributed strikingly unequal proportions of DNA to subsequent generations.
Before the central Europeans moved in, Iberians had no detectable recent ancestry from outside the Iberian Peninsula. After 2000 B.C., 40 percent of Iberians' overall ancestors and 100 percent of their patrilineal ancestors—that is, their father and their father’s father and so forth—could be traced to the incoming groups from central Europe.
“The results were astonishing,” said Carles Lalueza-Fox, principal investigator of the Paleogenomics Lab at the Institute of Evolutionary Biology and co-senior author of the study. “The data suggest there was a major genetic change that is not obvious from the archaeological record."
What could have instigated such a dramatic turnover is not yet clear.
“It would be a mistake to jump to the conclusion that Iberian men were killed or forcibly displaced," said Olalde, "as the archaeological record gives no clear evidence of a burst of violence in this period."
One alternative possibility is that local Iberian women preferred the central European newcomers in a context of “strong social stratification,” said Lalueza-Fox.
Genetic data alone will not reveal the whole story, the researchers emphasize.
“Other fields such as archaeology and anthropology need to be brought to bear to gain insight into what shaped these genetic patterns," said Reich.
“Our study offers a change in perspective and invites people to look at the archaeological record again with different eyes,” said Lalueza-Fox.
Analyzing additional samples from this time period—the researchers had about 60—could provide greater detail about the genetic turnover or reveal that Y chromosomes shifted less in some populations or regions of Iberia than others.
As the centuries passed, paternal ancestry continued to evolve, the team found. Still, most present-day Iberian men can trace their paternal ancestry to these Bronze Age newcomers.
A slice through time
Other findings included:
These and other insights were made possible by an exceptionally robust collection of samples over a long period of time from a relatively small region, said Reich.
“Beyond the insights this study provides about the history of Iberia itself, it highlights the potential of future studies that focus on ancestry changes over time using large sample sizes in relatively small regions of the world,” he said.
Much of the new study addressed the historical era, meaning the period in which written records exist. Most other ancient-DNA research has focused on prehistoric periods.
“When I was a child, I used to read old history books on Iberia that were at home,” said Lalueza-Fox. “They essentially started with the Iron Age Iberians (Íberos), then the Punics, the Greeks, the Roman conquest, the Barbarian invasions, the Muslim invasion, the reconquest and so on. I always wondered who these people really were, what mark they left in modern people and what all these movements meant in terms of numbers.
“Now, for the first time, we are able to study the remains of such people genetically and to integrate the genetics not only with archaeology and anthropology but also with historical accounts,” he said.
Ancient-DNA studies often “end in midair,” stopping many millennia ago, said Reich. The new study represents an effort to bridge the gap so that genetics can “eventually connect the distant past all the way through to people living today,” said Lalueza-Fox.
The Institute for Evolutionary Biology is a joint institute of the Spanish National Research Council (CSIC) and Pompeu Fabra University in Barcelona.
Major funders of this research included Obra Social La Caixa, FEDER-MINECO (BFU2015-64699-1118P), the National Institutes of Health (grant GM100233), the Paul G. Allen Family Foundation and the Howard Hughes Medical Institute.
“There is a city north of Barcelona called Empúries that was founded by Greeks in the sixth century B.C. Incidentally, Gnaeus Cornelius Scipio landed there in 218 B.C. to start the Roman conquest of Iberia. I always wondered if they were actually Greeks or just acculturated, local people.
We have now found local Iberians in Empúries but also others who were genetically Greek. So there were people who were likely born in Greece or maybe Phocaea in Asia Minor and ended up being buried on the other side of the Mediterranean.
Also, in a Visigothic necropolis close to Empúries but in the seventh century A.D., we have found local people dressed and buried maybe as Visigoths, but also two people, a mother and son, who clearly had very recent ancestry from central and far eastern Europe and bear an Asiatic mitochondrial DNA not present nowadays in Europe. This is a testament to the extraordinary long-distance migrations that were occurring in this period, bringing people to the remote and warm far west of Europe.
These examples demonstrate the power of large-scale paleogenomic analyses not only to evaluate the scope and magnitude of historical migrations but also to expose remarkable journeys made by people who shaped history but whose names we will never know.”
Aerial view of the ancient village of Ullastret in Catalonia, Spain, where some of the samples analyzed in the study were found. Image: Aerimatge/Archivo Museu d’Arqueologia de Catalunya.