Department of Anthropology and Geography
Permanent URI for this community
These digital collections contain publications, theses, and dissertations from the Department of Anthropology and Geography. Due to departmental name changes, materials from the following historical department are also included here: Anthropology.
Browse
Browsing Department of Anthropology and Geography by Subject "3D scanning"
Now showing 1 - 1 of 1
Results Per Page
Sort Options
Item Open Access New insights into Pleistocene hominin butchery and tool choice from a 0.9 Ma fossil assemblage from the HEB site, Olduvai Gorge, Tanzania(Colorado State University. Libraries, 2021) Mwakyoma, Ipyana F., author; Pante, Michael C., advisor; Glantz, Michelle M., committee member; McKay, John, committee memberCut marks on animal bones have the potential to inform on hominin diet and tool use. Although these important traces of behavior appear as early as 3.4 Million years ago, they normally are rare in fossil assemblages in part due to the exceptional preservation of bone surfaces required to study them. Olduvai Gorge is unique in having many fossil assemblages with well-preserved cortical surfaces that allow identification and study of bone surface modifications. Most of these assemblages are from Beds I and II as fossil preservation is generally poor in the younger Beds. The present study analyzes the well-preserved fossil assemblage recovered from renewed excavations of the HEB site by the Olduvai Gorge Coring Project (OGCP). The HEB site is stratigraphically positioned in lower Bed IV, just above Tuff IVA, dating to ~0.9 Ma and was first excavated by Mary Leakey's team in 1962. These fossils exhibit a large number of cut marks and are in direct association with Acheulean tools; making this site important for inferring the feeding and tool use behavior of Homo erectus. Optical profilometry protocols developed by Pante et al (2017) were used to obtain 3D quantifiable micromorphological measurements of 256 experimentally created cutmarks, and 20 archaeological cutmarks from HEB site Olduvai Gorge. Focusing on the micromorphological measurements, this study used quadratic discriminant analyses models to classify the archaeological cutmarks from HEB site based on technology and raw materials types of the stone tools used to create those marks. The discriminant models on raw material types only, tool types only and both raw material and tool types had 64.8%, 77.3% and 68.4% classification accuracies respectively. Results from the models indicate that cut marks at HEB were made by using both flakes and biface tools, made from lava and quartzite raw materials. These results are consistent with Leakey (1994) excavations, which showed a significant prevalence of flakes and bifaces made from volcanic lava and quartzite raw materials. When interpreted in conjunction with butchery experiments, this study can help us understand hominin tool use and choices at HEB site, Olduvai Gorge - around 0.9 million years ago.