In Western Eurasia, Neanderthals were replaced by members of our human lineage, Anatomical Modern Humans (AMH), ~45,000 to 40,000 years before Present (BP). The capacity to retrieve genetic data from archaeological bones has brought to light several events of admixture between AMHs and Neandertals, suggesting that this transition was more than a simple encounter/replacement process. Yet, our ability to further reconstruct this shift is hampered by issues of contested stratigraphic integrity and limited by the paucity of human fossils, with current datapoints being few and far apart. Importantly, this transition lasted a couple of thousands of years, at most. While this might be ample of time for several generations of humans to move and meet, the thickness of archaeological sediments and assemblages of such diasporas or encounters is limited.
The MATRIX project investigates the interactions between Neanderthals and AMHs by looking at the microstratigraphic sedimentary record, extracting the wealth of information stored beyond the macroscopically visible record. The project focuses on analyzing the micro and molecular record preserved in archaeological sediments to systematically assesses the microstratigraphy of archaeological deposits between ~50 to 40 ka BP using undisturbed micromorphology samples. These intact highly contextualized samples are then directly targeted for biomolecule studies on ancient DNA (aDNA) and proteins, while retaining a micro-scale stratigraphic control. MATRIX aims to 1) find the identity of past hominins in well-preserved micro-contexts, 2) reconstruct both their behaviors (diet, use of fire) and environments they lived in, and 3) contribute to rewriting what happened at the time of Neandertal disappearance by integrating high-resolution molecular and microscopic records.
The project strives to achieve an integration of biological, behavioral, and environmental information of archaeological deposits at a mm- and sub-mm stratigraphic scale to improve our understanding of the migrations of AMH into Eurasia.