Experimental archaeology

Experimental tree felling with reconstructed adzes of the Linear Pottery culture for the analysis of stress marks on the adze blades and ghost lines on the tree stump and the timber in comparison with marks on archaeological finds
Creating a wall of mud in the Viking style.

Experimental archaeology (also called experiment archaeology and experiential archaeology) is a field of study which attempts to generate and test archaeological hypotheses, usually by replicating or approximating the feasibility of ancient cultures performing various tasks or feats. It employs a number of methods, techniques, analyses, and approaches, based upon archaeological source material such as ancient structures or artifacts.[1]

It is distinct from uses of primitive technology without any concern for archaeological or historical study. Living history and historical reenactment, which are generally undertaken as a hobby, are the non archaeological person's version of this academic discipline.

One of the main forms of experimental archaeology is the creation of copies of historical structures using only historically accurate technologies. This is sometimes known as reconstruction archaeology or reconstructional archaeology; however, reconstruction implies an exact replica of the past, when it is in fact just a construction of one person's idea of the past; the more archaeologically correct term is a working construction of the past. In recent years, experimental archaeology has been featured in several television productions, such as BBC's "Building the Impossible"[2] and the PBS's Secrets of Lost Empires.[3] Most notable were the attempts to create several of Leonardo da Vinci's designs from his sketchbooks, such as his 15th century armed fighting vehicle.

Examples

A good example is Butser Ancient Farm in the English county of Hampshire which is a working replica of an Iron Age farmstead where long-term experiments in prehistoric agriculture, animal husbandry, and manufacturing are held to test ideas posited by archaeologists. In Denmark, the Lejre Experimental Centre carries out even more ambitious work on such diverse topics as artificial Bronze Age and Iron Age burials, prehistoric science and stone tool manufacture in the absence of flint.

Other examples include:

  • The Kon-Tiki expedition (1947), a balsa raft built by Thor Heyerdahl, sailed from Peru to Polynesia to demonstrate the possibility of cultural exchange between South America and the Polynesian islands.
  • Attempts to transport large stones like those used in Stonehenge over short distances using only technology that would have been available at the time. The original stones were probably moved from Pembrokeshire to the site on Salisbury Plain.
  • Since the 1970s the re-construction of timber framed buildings has informed understanding of early Anglo Saxon buildings at West Stow, Suffolk, England. This extensive program of research through experiment and experience continues today.
  • The reconstruction of part of Hadrian's Wall at Vindolanda, carried out in limited time by local volunteers.
  • Greek triremes have been reconstructed by skilled sailors from plans and archaeological remains and have been successfully tried at sea.
  • Attempts to manufacture steel that matches all the characteristics of Damascus steel, whose original manufacturing techniques have been lost for centuries, including computational fluid dynamics reconstructions by the University of Exeter of the Sri Lanka furnaces at Samanalawewa, thought to be the most likely sources for Damascus steel.
  • Experiments using reproduction bâtons de commandement as spear throwers.
  • Guédelon Castle, a medieval construction project located in Treigny, France.
  • Ozark Medieval Fortress, a sister project to Guédelon
  • The Pamunkey Project – Dr. Errett Callahan led a series of extended Late Woodland living experiences in Tidewater Virginia.
  • Marcus Junkelmann constructed Roman devices and gear for various museums. He also tested and analyzed them in various reenactments, among them a group of legionaries in full authentic gear crossing the Alps from Augsburg to Verona.
  • Ma'agen Michael II , A replica of a 2400 year old merchantman; built by Haifa University and the Israel Antiquities Authority
  • Reconstruction of Galileo's Experiment: the inclined plane.[4]
  • Reconstruction of Lomonosov's discovery of Venus's atmosphere.[5]
  • Construction of a monastic community according to the ninth-century Plan of Saint Gall at Campus Galli.
  • Janet Stephens utilizing her own skill as a hairdresser to reconstruct Roman-era hairstyles, rebutting previously held theories about single-prong pins being used to hold them in place.
  • Ben Marwick trampled experimentally-produced flaked stone artefacts into sediments excavated from Malakunanja II to show that it was unlikely that they had moved extensively through the deposit during the Pleistocene.[6]
  • Killian Driscoll undertook a series of experiments to examine the prehistoric use of vein quartz.[7] This involved experimental knapping to understand the fracture mechanics of the material;[8] the experimental burning of quartz;[9] and an experiment designed to investigate the ease of identification of stone tools made from quartz;[10] this series was added to by an experiment that examined the effects of trampling on quartz tools compared to flint.[11]

Variations

Experimental medieval forge

Other types of experimental archaeology may involve burying modern replica artifacts and ecofacts for varying lengths of time to analyse the post-depositional effects on them. Other archaeologists have built modern earthworks and measured the effects of silting in the ditches and weathering and subsidence on the banks to understand better how ancient monuments would have looked. One example is Overton Down in England.

The work of flintknappers is also a kind of experimental archaeology as much has been learnt about the many different types of flint tools through the hands-on approach of actually making them. Experimental archaeologists have equipped modern professional butchers, archers and lumberjacks with replica flint tools to judge how effective they would have been for certain tasks. Use wear traces on the modern flint tools are compared to similar traces on archaeological artifacts, making probability hypotheses on the possible kind of use feasible. Hand axes have been shown to be particularly effective at cutting animal meat from the bone and jointing it.

Another field of experimental archaeology is illustrated by the studies of the stone flaking abilities of non-human primates. It has been demonstrated that bonobos are able to produce modified cores and flaked stones which are morphologically similar to early lithic industries in East Africa.[12]

The subject has proven popular enough to spawn several re-creation-type television shows:

See also

Notes

  1. Experimental archaeology is "Within the context of a controllable imitative experiment to replicate past phenomena in order to generate and test hypotheses to provide or enhance analogies for archaeological interpretation" (Mathieu, 12)
  2. "Building the Impossible" via www.imdb.com.
  3. "NOVA Online – Secrets of Lost Empires". www.pbs.org.
  4. http://www.u-picardie.fr/~dellis/Documents/PhysicsEducation/Reconstruction%20of%20Galileo%20Galilei.pdf
  5. Koukarine, Alexandre; Nesterenko, Igor; Petrunin, Yuri; Shiltsev, Vladimir (1 November 2013). "Experimental Reconstruction of Lomonosov's Discovery of Venus's Atmosphere with Antique Refractors During the 2012 Transit of Venus". Solar System Research. 47 (6): 487–490. arXiv:1208.5286. Bibcode:2013SoSyR..47..487K. doi:10.1134/S0038094613060038.
  6. Marwick, Ben; Hayes, Elspeth; Clarkson, Chris; Fullagar, Richard (March 2017). "Movement of lithics by trampling: An experiment in the Madjedbebe sediments, northern Australia". Journal of Archaeological Science. 79: 73–85. doi:10.1016/j.jas.2017.01.008.
  7. Driscoll, Killian (2010). Understanding quartz technology in early prehistoric Ireland.
  8. Driscoll, Killian (2011). "Vein quartz in lithic traditions: an analysis based on experimental archaeology". Journal of Archaeological Science. 38. doi:10.1016/j.jas.2010.10.027.
  9. Driscoll, Killian; Menuge, Julian (2011). "Recognising burnt vein quartz artefacts in archaeological assemblages". Journal of Archaeological Science. 38. doi:10.1016/j.jas.2011.03.028.
  10. Driscoll, Killian (2011). "Identifying and classifying vein quartz artefacts: an experiment conducted at the World Archaeological Congress, 2008". Archaeometry. 53. doi:10.1111/j.1475-4754.2011.00600.x.
  11. Driscoll, K; Alcaina, J; Égüez, N; Mangado, X; Fullola, J-M.; Tejero, J-M. (2016). "Trampled under foot: A quartz and chert human trampling experiment at the Cova del Parco rock shelter, Spain". Quaternary International. 424. Bibcode:2016QuInt.424..130D. doi:10.1016/j.quaint.2015.04.054.
  12. Schick, Kathy; Toth, Nicholas; Garufi, Gary; Savage-Rumbaugh, E. Sue; Rumbaugh, Duane; Seveik, Rose (1999). "Continuing Insestigations into the Stone Tool-making and Tool-using Capabilities of a Bonobo (Pan panisus)". Journal of Archaeological Science. 26 (7): 821–832. doi:10.1006/jasc.1998.0350.
  13. http://www.incubatortv.com/i-caveman/
  14. https://www.amazon.com/I-Caveman-The-Great-Hunt/dp/B005RUXET2
  15. "Archived copy". Archived from the original on 2010-07-23. Retrieved 2009-07-15.

References

  • Ascher, Robert (1961): Experimental archeology. in: American Anthropologist (Menasha) 63, 4: pp 793–816.
  • Ascher, Robert (1970): Cues 1: design and construction of an experimental archaeological structure. in: American Antiquity (Washington) 35, 2: pp 215–216.
  • Coles, John Morton (1979), Experimental archaeology, London a.o.: Academic Press, ISBN 0-12-179750-3 / ISBN 0-12-179752-X, 274 pp. Republished 2010, ISBN 978-1-932846-26-3.
  • Driscoll, Killian (2010). Understanding quartz technology in early prehistoric Ireland.
  • Driscoll, Killian (2011). "Identifying and classifying vein quartz artefacts: an experiment conducted at the World Archaeological Congress, 2008". Archaeometry. 53.
  • Driscoll, Killian (2011). "Vein quartz in lithic traditions: an analysis based on experimental archaeology". Journal of Archaeological Science. 38.
  • Driscoll, K; Alcaina, J; Égüez, N; Mangado, X; Fullola, J-M.; Tejero, J-M. (2016). "Trampled under foot: A quartz and chert human trampling experiment at the Cova del Parco rock shelter, Spain". Quaternary International. 424.
  • Driscoll, Killian; Menuge, Julian (2011). "Recognising burnt vein quartz artefacts in archaeological assemblages". Journal of Archaeological Science. 38.
  • Ingersoll, Daniel W., Yellen, John E., Macdonald, William (editors), (1977), Experimental archaeology, New York, ISBN 0-231-03658-2, 432 pp.
  • Mathieu, James R. (editor), (2002), Experimental archaeology, replicating past objects, behaviors and processes, BAR International Series 1035, Oxford, ISBN 1-84171-415-1.
  • Reynolds, Peter J. (n.y.): The Nature of Experiment in Archaeology.
  • Stone, Peter; Planel, Phillipe, (1999), The Constructed past. Experimental archaeology, education and the public, Routledge: One World Archaeology Series, ISBN 0-415-11768-2, 296 pp.
  • Tringham, Ruth (1978), Experimentation, ethnoarchaeology, and the leapfrogs in archaeological methodology. in: Gould, Richard A. (editor): Explorations in ethnoarchaeology. Albuquerque, pp 169–199.
  • Verhoeven, J.D., Pendray, A.H., Dauksch, W.E., (1998), The Key Role of Impurities in Ancient Damascus Steel Blades, in: JOM, 50 (9) (1998), pp. 58–64.
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