Genetic history: Searching for the African roots of Noir Marron communities

Biology

New genetic data bear witness to transatlantic ties severed by slavery and triangular trade. Scientists1  from the Anthropologie Moléculaire et Imagerie de Synthèse (CNRS/Université Toulouse III - Paul Sabatier/Paris Descartes University) and Ecological Anthropology and Ethnobiology (CNRS/MNHN) research units have shown that members of Maroon communities in South America - formed over four centuries ago by Africans who escaped slavery - have remarkably preserved their African genetic heritage (98%). In contrast, the same cannot be said for African-descendants from Brazil and Colombia. The researchers' findings are published in the American Journal of Human Genetics (November 2, 2017).

  • 1Other French research teams that participated in this study: - Virologie laboratory (CNRS/Institut Pasteur) - Anthropologie bio-culturelle, droit, éthique et santé laboratory (CNRS/Université Aix Marseille/EFS Alpes Méditerranée) - Mère et enfant face aux infections tropicales laboratory (IRD/Université Paris Descartes)

Between 1526 and 1875, approximately seven million Africans were uprooted from their homelands and reduced to slavery in South America. Though historical archives shed some light on the origins of the African-descendant communities existing today, it is still difficult to determine their ancestral roots. Researchers have therefore conducted genomic studies to reconstruct the past of African-descendant populations living in Colombia, Brazil, French Guiana, and Suriname. They analyzed over 4.3 million genetic markers in 230 people from South America and West Africa.

The Noir Marron communities are direct descendant of enslaved Africans who escaped captivity and established independent settlements that are still present in certain regions of French Guiana and Suriname. By comparing the Noir Marron genomes to that of Africans living today in various regions of Sub-Saharan Africa, the researchers found 98% of African ancestral origin in these communities. The Noir Marron have thus maintained their African heritage since their communities formed about four centuries ago. On the other hand, genomes of African-descendants from Colombia and Brazil reveal much greater admixture (about 25% of non-African ancestral origin). Furthermore, these groups have a predominant European paternal admixture, and their genetic diversity reflects the arrival of European colonists in some regions of South America.

Through their work, the researchers were also able to identify strong genetic ties between African-descendants from South America and populations from specific African regions. They found that the Noir Marron and African Colombians have genetic affinities close to African populations of Ghana, Benin, and western Nigeria. In contrast, the African-Brazilian genomes seem closest to the genetic diversity observed in populations from Angola, and these results are supported by historical sources.
In addition to expanding underrepresented data sets for African populations, these new findings trace the recent genetic history of African-descendant populations and shed new light on a dark chapter in human history: the transatlantic slave trade. The researchers hope to pursue their work by studying other populations throughout the Americas and Africa, and thereby better understand the history of enslaved Africans in greater detail.

This study received funding from the European Union, through the Marie Skłodowska-Curie Actions research program. 

Genetic history : Searching for the African roots of Noir Marron communities
© Cesar Fortes-Lima

Elmina Castle (Ghana), slaves gathering place before the big departure (UNESCO World Heritage 1979).

 

Bibliography

Genome-wide Ancestry and Demographic History of African-Descendant Maroon Communities from French Guiana and Suriname. Fortes-Lima et al. 2017, The American Journal of Human Genetics 101(5). DOI: 10.1016/j.ajhg.2017.09.021

Contact

Cesar Fortes-Lima
CNRS researcher
Jean-Michel Dugoujon
CNRS researcher
Anaïs Culot
CNRS press office