Ochre use at Olieboomspoort, South Africa: insights into specular hematite use and collection during the Middle Stone Age
Metadata
Show full item recordEditorial
Springer Nature
Materia
Waterberg Sourcing Middle Pleistocene MIS 5 MIS 6 Ochre cleaning
Date
2023-10-31Referencia bibliográfica
Culey, J., Hodgskiss, T., Wurz, S. et al. Ochre use at Olieboomspoort, South Africa: insights into specular hematite use and collection during the Middle Stone Age. Archaeol Anthropol Sci 15, 173 (2023). [https://doi.org/10.1007/s12520-023-01871-9]
Sponsorship
South African Heritage Resources Agency; University of the Witwatersrand, Johannesburg; Genus RYC2020-029506-I; National Research Foundation NRF; Fundação para a Ciência e a Tecnologia FCT; European Social Fund Plus ESF; Universidad de Granada UGR; Agencia Estatal de Investigación 2021.00782 AEIAbstract
Recent excavations at Olieboomspoort (OBP) in the Waterberg Mountains of South Africa confirmed previous research at
the site that highlighted an abundance of ochre in the Middle Stone Age (MSA) deposits. Here, we report on the results of an
analysis of the ochre from the MSA deposits excavated in 2018–2019. Fossilised equid teeth from these deposits were recently
dated to approximately 150 ka, an early date for such a sizeable ochre assemblage in southern Africa. Calcium carbonate
concretions were removed from ochre pieces using hydrochloric acid. Macro- and microscopic analyses were undertaken to
identify raw material types and to investigate utilisation strategies. There are 438 pieces in the assemblage and only 14 of
them show definite use-traces. The predominant raw material is a micaceous, hard specular hematite, which is rare at MSA
sites elsewhere in southern Africa. A preliminary investigation into the geological nature of the ochreous materials in the
archaeological sample and those available in the area was performed using semi-quantitative portable X-ray fluorescence
(pXRF), XRF, and inductively coupled plasma mass spectrometry (ICP-MS). Together with site formation processes, we
suggest possible, primarily local sources of the ochre found in the deposits. The data do not support previous suggestions
that OBP was used as an ochre caching site that may have formed part of an exchange network during the MSA. Instead,
the local abundance of nodules of specular hematite within the Waterberg sandstone, the limited number of used pieces in
the assemblage, and the stratigraphic context indicate a more natural, less anthropogenic explanation for the abundance of
ochre at the site.