Solving a Mass Murder Conundrum
An international team, lead by researchers from the universities of Copenhagen and Aarhus, has shed light on a mysterious 5000-year-old mass grave in Poland. Despite being killed brutally, the victims were buried carefully, flanked by gifts, in a mass grave. Ancient DNA has revealed the mass murder to be that of a large family. The new research results shed light on a particularly violent era in European prehistory of which little is known. The study has just been published in the prestigious American journal, Proceedings of the National Academy of Sciences (PNAS).
Eight years ago, a mass grave was unearthed in the southern Polish village of Koszyce. The circumstances surrounding the 5000-year-old gravesite have been a mystery ever since. The skeletons of 15 women, children and young men were found - each slain by powerful blows to the head. Yet, their bodies were neatly positioned alongside one another and with an abundance of gifts for their final voyage.
An international team, composed of researchers from the universities of Copenhagen and Aarhus and the Archaeological Museum in Poznan, Poland, used DNA profiles to demonstrate that the mass murder was that of a large, three generational family. Using genomic analyses, radiocarbon dating, isotopic analyses and archaeological data, the researchers gained detailed insight into a this Stone Age society and a grizzly occurrence some 5000 years ago.
"By analyzing ancient DNA from the skeletons, we were able to map each of the family relationships. We can see that mothers are laid next to their children and brothers side-by-side. Those who buried the dead knew them well. We also see that most of the fathers from this extended family are absent from the grave. Our suggestion is that they weren't at the settlement when the massacre occurred and that they returned later, and subsequently buried their families in a respectful way,” says evolutionary biologist Morten Allentoft of the University of Copenhagen.
A period of transition
“We do not know who was responsible for this massacre,” according to University of Copenhagen archaeo-geneticist Hannes Schroeder. “But it is thought-provoking that it occurred 5,000 years ago, as the late Neolithic Period was transitioning into the Bronze Age. During this period, European cultures were being heavily transformed by Yamnaya cultures migrating from the east. It is easy to imagine that these changes somehow precipitated violent territorial clashes.
In relation to archaeological findings, archaeologist Niels N. Johannsen of Aarhus University adds:
"We know from other gravesite discoveries that violent conflicts played out among different cultural groups at this time. However, they have never been as clearly documented as here. All the violence and tragedy aside, our study clearly demonstrates that family unity and care meant a lot for these people, some 5,000 years ago, both in life and in death."
The three Danish researchers underscore the importance of close collaboration among experts in ancient DNA (aDNA), archaeology, anthropology, and isotopic analyses in clarifying this 5000-year-old murder mystery. Marzena Szmyt, Director of the Archaeological Museum in Poznan, was equally enthusiastic about the interdisciplinary results from the international group of experts.
The new results, funded in part by the Villum Foundation and Aarhus University Research Foundation, have allowed genetic testing to “extend our insight into a particularly tumultuous period of European prehistory, significantly,” according to Szmyt.
This article has been republished from materials provided by the University of Copenhagen.. Note: material may have been edited for length and content. For further information, please contact the cited source.
Unraveling ancestry, kinship, and violence in a Late Neolithic mass grave. Hannes Schroeder, Ashot Margaryan, Marzena Szmyt, Bertrand Theulot, Piotr Włodarczak, Simon Rasmussen, Shyam Gopalakrishnan, Anita Szczepanek, Tomasz Konopka, Theis Z. T. Jensen, Barbara Witkowska, Stanisław Wilk, Marcin M. Przybyła, Łukasz Pospieszny, Karl-Göran Sjögren, Zdzislaw Belka, Jesper Olsen, Kristian Kristiansen, Eske Willerslev, Karin M. Frei, Martin Sikora, Niels N. Johannsen, and Morten E. Allentoft. PNAS first published May 6, 2019 https://doi.org/10.1073/pnas.1820210116.
Some MRSA infections could be tackled using widely-available antibiotics, suggests new research. A team of scientists used genome sequencing technology to identify which genes make MRSA susceptible to a previously defined combination of drugs. They identified a number of mutations centered around a protein known as a penicillin-binding protein 2a or PBP2a.