antoine balzeau

We are looking for a researcher for an 18-month contract, as part of the project entitled "PaleoBRAIN: Resurrecting the brain of Homo erectus and Neandertals" funded by the ANR (ANR-20-CE27-0009). He/she will work in particular on the characterization of the form, the diversity and the evolution of the brain between neurosciences, neuroimaging and paleoanthropology. Missions: The main mission of the researcher will be to exploit a unique database in neuroimaging and paleoanthropology including complementary MRI data from the brains and skulls of volunteers and microtomographic data from human fossils. The objective is to characterize the link between the brain and the endocast (intracranial surface) in living humans to better understand the cerebral anatomy of fossils. Activities: Propose and develop, in collaboration with specialists in the different fields involved in the project, protocols for analyzing the link between brain and endocranium on the same series of volunteers (thanks to a set of MRI data obtained with complementary sequences). It will then be a question of applying this knowledge of the relation between the details of the cerebral surface and the internal surface of the skull to the study of fossil specimens. Finally, the researcher will contribute to the dissemination of data and communication around the project. The duration of this project is estimated at 18 months. The realization of the project is based on the finalization and the observation of the realization of the following points: validation of the protocol, acquisition of data on 60 individuals, realization of an "atlas" of the brain and the endocranium and a mapping of the link between the two models, but also the variability of the sulci (position, expression and variations on the two models), application to the fossil record to reconstruct a mean virtual brain of Homo erectus and H. neanderthalensis.

A mind set in stone: fossil traces of human brain evolution

Brains do not fossilise, but as they grow and expand during fetal and infant development, they leave an imprint in the bony braincase. Such imprints of fossilised braincases provide direct evidence of brain evolution, but the underlying biological changes have remained elusive. Combining data from fossil skulls, ancient genomes, brain imaging and gene expression helps shed light on the evolutionary changes shaping the human brain. I will highlight two examples separated by more than 3 million years: the evolution of brain growth in Lucy and her kind, and differences between modern humans and Neanderthals.

Neural stem cells, human-specific genes, and neocortex expansion in development and human evolution

CNStalk: Brain-behavior evolution in domesticated dogs and foxes

A sense of time in human evolution

What psychological mechanisms do primates use to engage in self-control, and what is the ultimate function of these skills? I will argue that a suite of decision-making capacities, including choices about the timing of benefits, evolved in the context of foraging behaviors and vary with ecological complexity across species. Then, I will examine how these foraging capacities can be generalized to solve novel problems posing temporal costs that are important for humans, such as cooking food, and can therefore underpin evolutionary transitions in behavior. Finally, I will present work testing the hypothesis that a limited future time horizon constrains the expression of other complex abilities in nonhumans, explaining the emergence of human-unique forms of social cognition and behavior.