Silcrete

Bifacial silcrete point from Blombos Cave, South Africa, Middle Stone Age
(71,000 BCE) (scale bar = 5cm)

Silcrete is an indurated soil duricrust formed when surface sand and gravel are cemented by dissolved silica. The formation of silcrete is similar to that of calcrete, formed by calcium carbonate and ferricrete, formed by iron oxide. It is a hard and resistant material, and though different in origin and nature, appears similar to quartzite. It is common in the arid regions of Australia and Africa often forming the resistant cap rock on features such as the breakaways of the Stuart Range of South Australia. Silcrete can be found at a lesser extent throughout the world especially England and France.[1]

In Australia, silcrete was widely used by Aboriginal people for stone tool manufacture, and as such, it was a tradeable commodity, and silcrete tools can be found in areas that have no silcrete groundmass at all, similar to the European use of flint.

Tools made out of silcrete which has not been heat treated are difficult to make with flintknapping techniques. It is widely believed by stone tool experts that the technology to treat silcrete by burying under a hot fire was known 25,000 years ago in Europe. Heating changes the stone structure making it more easily flaked.[2] This process may have been the first use of so-called pyrotechnology by early mankind. [3][4]

In South Africa at Pinnacle Point researchers have determined that two types of silcrete tools were developed between 60,000 and 80,000 years ago and used the heat treatment technique. There is evidence to suggest the technique may have been known as early as 164,000 years ago.[2][5]

The peoples of the African Middle Stone Age (MSA) showed a preference for silcrete tools, sourcing the material from up to 200 km to use in place of more accessible quartz and quartzite. MSA quarries have recently been found in Botswana south of the Okavango Delta. Evidence was found that raw silcrete blanks and blocks were transported prior to heat treating during the MSA. The geochemical signatures of the fragments can be used to identify where many of the individual pieces were quarried.[6]

References

  1. Ullyott, J., Nash, D., Whiteman, C.,Mortimore, R. (2004) Distribution, Peterology, and Mode of Development of Silcretes (Sarsens and Puddingstones) on the Eastern South Downs, UK. Earth Surfaces Processes and Landforms,29, 1509-1539. doi:10.1002/esp.1136.
  2. 1 2 Brown, Kyle S.; Marean, Curtis W.; Herries, Andy I.R.; Jacobs, Zenobia; Tribolo, Chantal; Braun, David; Roberts, David L.; Meyer, Michael C.; Bernatchez, J., (August 14, 2009), "Fire as an Engineering Tool of Early Modern Humans", Science, 325: 859–862, doi:10.1126/science.1175028 Cite uses deprecated parameter |coauthors= (help)
  3. Borrell, Brendan (13 August 2009), "Cooked Results: Modern Toolmaker Uses Fire to Solve 72,000-Year-Old Mystery", Scientific American, retrieved 4 April 2013
  4. "Early modern humans use fire to engineer tools from stone", Phys Org, Arizona State University, 13 August 2009, retrieved 4 April 2013
  5. Jones, Cheryl (30 October 2008), "Technological innovation may have driven first human migration", Nature, doi:10.1038/news.2008.1196, retrieved 4 April 2013
  6. Nash, D., Coulson, S., Staurset, S., Ullyott, J.S., Babutsi, M., Hopkinson, L., Smith, M. (2013). Provenancing of silcrete raw materials indicates long-distance transport to Tsodilo Hills, Botswana, during the Middle Stone Age. Journal of Human Evolution 64 (2013). 280–288 doi: 10.1016/j.jhevol.2013.01.010
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