Luminescence and electron paramagnetic resonance properties of prehistoric ceramics from al-khiday excavation site, Sudan

Part of : Mediterranean archaeology & archaeometry : international journal ; Vol.13, No.3, 2013, pages 81-92

Issue:
Pages:
81-92
Author:
Abstract:
Direct dating of prehistoric pottery from desert environment is complex, due to the lack of the attributes required for the archaeological chronological methods. Pottery samples from Sudan were therefore studied by means of Thermoluminescence (TL) and Optically Stimulated Luminescence (OSL) to establish the best measurement protocol for dating such ceramics. These techniques exploit the time-dependent accumulation of charge carriers in defects present in mineral components of ceramics, like quartz and feldspars. To evaluate the amount of such charges, which is a measure of the energy released in matter by natural ionizing radiation, two different protocols were firstly tested: the Multiple Aliquot Additive Dose protocol (MAAD) for TL and the Single Aliquot Regenerative dose protocol (SAR) for TL and OSL. Both methods allowed the discrimination of Neolithic from Mesolithic pottery, even if the data were generally affected by high uncertainties, and the presence of a few aberrant results was observed. Moreover, a further independent technique for measuring the population of defects was attempted: the Electron Paramagnetic Resonance (EPR), in both Continuous Wave (CW-EPR) and Pulsed methods (EDEPR). This application was problematic in naturally irradiated samples, due to the low EPR sensitivity and the high Fe (III) background spectrum observed under Continuous Wave measurements. Preliminary encouraging results were instead obtained with the Pulsed technique, which was only tested before on few artificial irradiated samples.
Subject:
Subject (LC):
Keywords:
desert prehistoric pottery, luminescence dating, pulsed EPR
References (1):
  1. Aitken, M.J. (1985) Thermoluminescence Dating. Academic Press, London.Aitken, M.J. (1998) An introduction to Optical Dating. Oxford Science Publications.Arkell, A. J. (1947) Early Khartoum. Antiquity, vol. 21, 172-181.Armitage, S.J., Duller, G.A.T., Wintle, A.G. (2000) Quartz from Southern Africa: sensitivity changesas a result of thermal pre-treatment. Radiation Measurements, vol. 32, 571–577.Barnett, V., Lewis, T. (1994) Outliers in Statistical Data. 3rd edition. Chichester: J.Wiley and Sons.Bartoll, J., Ikeya, M. (1996) ESR Dating of Pottery: a trial. Applied Radiation and Isotopes, vol. 48, 981-984.Benea, V., Vanderberghe, D., Timar, A., Van den Haute, P., Cosma, C., Gligor, M., Florescu, C.(2007) Luminescence dating of Neolithic ceramics from Lumea Nouă, Romania. Geochronometria,vol. 28, 9-16.Hong, D.G., Yi, S.B., Galloway, R.B., Tsuboi, T. (2001) Optical dating of archaeological samples usinga single aliquot of quartz stimulated by blue light. Journal of Radioanalytical and NuclearChemistry, vol. 247, 179-184.Huntley, D.J., Lamothe, M. (2001) Ubiquity of anomalous fading in K-feldspars, and the measurementand correction for it in optical dating. Canadian Journal of Earth Sciences, vol. 38, 1093–1106.Ikeya, M. (1993) New Applications of Electron Spin Resonance - Dating, Dosimetry and Microscopy.World Scientific, Singapore.Jonas, M. (1997) Concepts and methods in ESR dating. Radiation Measurements, vol. 27, 943-973.Lamothe, M. (2004) Optical dating of pottery, burnt stones, and sediments from selected Quebecarchaeological site. Canadian Journal of Earth Science, vol. 41, 659-667.Liritzis I., Singhi, A.K., Feathers, J.K., Wagner, G.A., Kadereit, A., Zacharias, N., Li S.H. (2013) Luminescencedating in Archaeology, Anthropology and Geoarchaeology. An Overview. Springer Briefsin SpringerBriefs in Earth System Sciences.Liritzis, I., Galloway, R.B., Hong, D., Kyparissi-Apostolika, N. (2002) OSL dating of three prehistoricceramics from Theopetra cave, Greece. A case study. Mediterranean Archaeology & Archaeometry,vol. 12 (2), 35-43.Murray, A.S., Roberts, R.G. (1998) Measurement of the equivalent dose in quartz using a regenerative-dose single-aliquot protocol. Radiation Measurements, vol. 29, 503–515.Murray, A.S., Wintle, A.G. (2000) Luminescence dating of quartz using an improved single-aliquotregenerative-dose protocol. Radiation Measurements, vol. 32, 57–73.Prescott, J.R. and Hutton, J.T. (1988) Cosmic ray and gamma ray dosimetry for TL and ESR. NuclearTracks and Radiation Measurements, vol. 14, 223-227.Rink, W.J. (1997) Electron Spin Resonance (ESR) dating and ESR applications in Quaternary scienceand archaeometry. Radiation Measurements, vol. 27, 975-1025.Roberts, H.M., Wintle, A.G. (2001) Equivalent dose determinations for polymineralic fine-grainsusing the SAR protocol: application to a Holocene sequence of the Chinese Loess Plateau.Quaternary Science Reviews, vol. 20, 859–863.Roque, C., Guibert, P., Duttine, M., Vartanian, E., Chapoulie, R., Bechtel, F. (2004) Dependence ofluminescence characteristics of irradiated quartz with thermal treatment and consequencesfor TL-dating: Application to Dating of Solutrean heated quartz pebbles from LaugerieHaute (Dordogne, France). Geochronometria, vol. 23, 1-8.Roque, C., Guibert, P., Vartanian, E., Vieillevigne, E., Bechtel F. (2004) Changes in luminescenceproperties induced by thermal treatments; a case study at Sipan and Trujillo Moche sites(Peru). Radiation Measurements, vol. 38, 119-126.Salvatori, S., Usai, D., Zerboni, A. (2011) Mesolithic Site Formation and Palaeoenvironment alongthe White Nile (Central Sudan). African Archaeological Review, vol. 28, 177-211.Salvatori, S. (2012) Disclosing Archaeological Complexity of the Khartoum Mesolithic: New Data atthe Site and Regional Level. African Archaeological Review, vol. 29, 399–472.Schweiger, A., Jeshke G. (2001) Principles of Pulse Electron Paramagnetic Resonance. Oxford UniversityPress, New York.Takano, M., Yawata, T., Hahimoto, T. (2003) Luminescence dosimetry of archaeological and ceramicssamples using a single-aliquot regenerative dose method. Journal of Radioanalytical andNuclear Chemistry, vol. 255, 365-368.Usai, D., Salvatori, S., Iacumin, P., Di Matteo, A., Jakob, T., Zerboni, A. (2010) Excavating a uniquepre-Mesolithic cemetery in central Sudan. Antiquity, vol. 84, issue 323 Project Gallery(http://www.antiquity.ac.uk/projgall/usai323/, accessed 05-02-2014)Zerboni, A. (2011) Micromorphology reveals in situ Mesolithic living floors and archaeological featuresin multiphase sites in Central Sudan. Geoarchaeology: an international journal, vol.26(3), 365-391.Zimmermann, D.W. (1971) Thermoluminescence dating using fine grains from pottery. Archaeometry,vol. 13, 29-52.Zoleo, A., Bortolussi, C., Brustolon, M. (2011) Echo detected EPR as a tool for detecting radiationinduceddefects signals in pottery. Radiation Measurements, vol. 46, 676-679.