The effects of paleoenvironmental changes on the evolution of African vertebrate communities during the Plio-Pleistocene is one of the most interesting topics in Natural Sciences, since these changes have certainly influenced some crucial phases of human evolution as well. The study of the marine sedimentary record shows that the African paleoclimate faced at least three phases of increasing variability and aridity at ca. 2.8, 1.7, and 1 Ma. Among these phases, the last one is of particular interest as it falls within the so-called Early-Middle Pleistocene Transition (EMPT; ca. 1.4-0.4 Ma). The shift from 41-ka obliquity-forced climate cycles to 100-ka cycles led to a non-linear forced climate system and in particular to an increase in duration and severity of the cold stages, with very strong effects on landscapes and biota. While increasing evidence of these modifications is available in the Northern Hemisphere, the record from intertropical Africa is still relatively scanty, especially from terrestrial geological contexts.
This project aims at identifying the influence of the EMPT on the East African paleoecosystems through the multidisciplinary study of stratigraphic successions in Tanzania. In particular, the research will focus on the world-famous site of Olduvai Gorge, one of the most important paleontological and archeological sites in the continent. The rich record of fossils and stone tools found in the Olduvai succession allows to reconstruct almost uninterruptedly the evolution of East African ecosystems in the last 2 Ma, as well as some crucial phases of human evolution. Although Olduvai has been known by the scientific community for more than a century, the vast majority of works have been concentrated on the lower part of its stratigraphic succession. On the contrary, this project will focus for the first time on the middle-upper part of the succession, to reconstruct the paleoenvironmental contexts and changes during the EMPT and specifically in the interval around 1 Ma.
To reach this goal, selected outcrops/areas of the Gorge will be analyzed through a multidisciplinary approach integrating data from paleontology and paleoanthropology, archeology, taphonomy, sedimentology and stratigraphy, paleopedology, and geochemistry.
UniPG Unit
UniFI Unit
UniPI Unit
Department of Physics and Geology
University of Perugia
Via A. Pascoli – 06123 Perugia, Italy