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Luminescence dating of sediments using individual mineral grains

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Konferencja
The Dating of Quaternary Marine and Land sediments (21-25.06.1999 ; Poznań, Poland)
Języki publikacji
EN
Abstrakty
EN
Luminescence is widely used to produce absolute ages for the time of deposition of a variety of types of sediments. The method relies upon the assumption that all grains are exposed to sufficient daylight prior to deposition for their luminescence signal to be reduced to a negligible level. Recent research has focused on the analysis of the luminescence signal from single mineral grains to produce an age. At this scale it is possible to identify different populations of "mineral grains within a sample - some of which were bleached at deposition and some which were not. The methods involved in such analyses are discussed, and examples are given of depositional environments where this type of analysis is essential.
Czasopismo
Rocznik
Tom
Strony
87--106
Opis fizyczny
Bibliogr. 33 poz.
Twórcy
  • Institute of Geography and Earth Sciences, University of Wales, Aberystwyth, UK
  • Nordic Laboratory for Luminescence Dating, Department of Earth Sciences, University of Aarhus, Ris0 National Laboratory, DK-4000 Roskilde, Denmark
Bibliografia
  • Aitken M. J., 1998: An introduction to optical dating. Oxford University Press.
  • Bailiff I. K., Clark R. J. & Barnett S. M., 1996: A high resolution scanning system for measuring spatially resolved optically stimulated luminescence. Abstract: 8th International Conference on Luminescence and Electron Spin Resonance Dating, Canberra, Australia.
  • Duller G. A. T., 1991: Equivalent dose determination using single aliquots. Nuclear Tracks and Radiation Measurements, 18: 371-378.
  • Duller G. A. T., 1994a: Luminescence dating using single aliquots: new procedures. Quaternary Geochronology (QSR), 13(2): 149-156.
  • Duller G. A. T., 1994b: Luminescence dating of poorly bleached sediments from Scotland. Quaternary Geochronology (QSR), 13: 521-524.
  • Duller G. A. T., 1996: Recent developments in luminescence dating of Quaternary sediments. Progress in Physical Geography, 20: 127-145.
  • Duller G. A. T., Botter-Jensen L. & Murray A. S. (in press). Optical dating of single sand-sized grains of quartz: sources of variability. Radiation Measurements.
  • Duller G. A. T., Wintle A. G. & Hall A. M., 1995: Luminescence dating and its application to key pre-Late Devensian sites in Scotland. Quaternary Science Reviews, 14: 495-519.
  • Duller G. A. T., Botter-Jensen L., Kohsiek P. & Murray A. S., 1999a: A high- sensitivity optically stimulated luminescence scanning system for measurement of single sand-sized grains. Radiation Protection Dosimetry, 84: 325-330.
  • Duller G. A. T., B0tter-Jensen L., Murray A. S. & Truscott A. J., 1999b: Single grain laser luminescence (SGLL) measurements using a novel automated reader. Nuclear Instruments and Methods: B 155: 506-514.
  • Duller G. A. T., B0tter-Jensen L. & Markey B. G., 1997: A luminescence imaging system based on a charge coupled device (CCD) camera. Radiation Measurements, 27: 91-99.
  • Fullager R. L. K., Price D. M. & Head L. M., 1996: Early human occupation of northern Australia: archaeology and thermoluminescence dating of Jinmium rock- shelter, Northern Territory. Antiquity, 90.
  • Galbraith R. F., 1990: The radial plot: graphical assessment of spread in ages. Nuclear Tracks and Radiation Measurements, 17: 207-214.
  • Huntley D. J. & Berger G. W., 1995: Scatter in luminescence data for optical dating - some models. Ancient TL, 13: 5-9.
  • Lamothe M., Balescu S. & Auclair M., 1994: Natural IRSL intensities and apparent luminescence ages of single feldspar grains extracted from partially bleached sediments. Radiation Measurements, 23: 555-561.
  • Lepper K., Agersnap Larsen N. & McKeever S. W. S. (in press), Application of equivalent dose distribution analysis to Holocene eolian and fluvial quartz sands from Central Oklahoma. Quaternary Geochronolgy (QSR).
  • Li S.-H., 1994: Optical dating: insufficiently bleached sediments. Radiation Measurements, 23: 563-567.
  • McFee C. J., 1998a: The measurement of single grain IRSL EDs using an imaging photon detector. Quaternary Geochronology (QSR), 17: 1001-1008.
  • McFee C. J., 1998b: Some methodological techniques for luminescence imaging using an IPD. Ancient TL, 16: 11-18.
  • McFee C. J. & Tite M. S., 1998: Luminescence dating of sediments - the detection of high equivalent dose grains using an imaging photon detector. Archaeometry, 40, 153-168.
  • Murray A. S., 1996: Developments in optically stimulated luminescence and photo- transferred thermoluminescence dating of young sediments: application to a 2000 year sequence of flood deposits. Geochemica et Cosmochimicha Acta, 60: 565-576.
  • Murray A. S., Olley J. M. & Caitcheon G. G., 1995: Measurement of equivalent doses in quartz from contemporary water-lain sediments using optically stimulated luminescence. Quaternary Geochronology (QSR), 14: 365-371.
  • Murray A. S. & Roberts R. G., 1997: Determining the burial time of single grains of quartz using optically stimulated luminescence. Earth and Planetary Science Letters, 152: 163-180.
  • Murray A. S., Roberts R. G. & Wintle A. G., 1997: Equivalent dose measurement using a single aliquot of quartz. Radiation Measurements, 27: 171-184.
  • Murray A. S. & Wintle A. G. (2000) Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements, 32: 57-73.
  • Olley J. M„ Caitcheon G. G. & Murray A. S., 1998: The distribution of apparent dose as determined by optically stimulated luminescence in small aliquots of fluvial quartz: Implications for dating young sediments. Quaternary Geochronology (QSR), 17: 1033-1040.
  • Olley J. M., Caitcheon G. G. & Roberts R. G., 1999: The origin of dose distributions in fluvial sediments, and the prospect of dating single grains from fluvial deposits using optically stimulated luminescence. Radiation Measurements, 30: 207-217.
  • Roberts R. G., Bird M., Olley J., Galbraith R., Lawson E., Laslett G., Yoshida H., Jones R„ Fullager R„ Jacobsen G. & Hua Q., 1998: Optical and radiocarbon dating at Jinmium rock shelter in northern Australia. Nature, 393: 358-362.
  • Roberts R. G., Jones R., Spooner N. A., Head M. J., Murray A. S.& Smith M. A., 1994: The human colonisation of Australia: Optical dates of 53,000 and 60,000 years bracket human arrival at Deaf Adder gorge, Northern Territory. Quaternary Geochronology (QSR), 13: 575-583.
  • Spooner N. A., 1994: The anomalous fading of infrared-stimulated luminescence from feldspars. Radiation Measurements, 23: 625-632.
  • Stokes S. 1994: The timing of OSL sensitivity changes in a natural quartz. Radiation Measurements, 23: 601-605.
  • Wintle A. G., 1993: Luminescence dating of aeolian sands - an overview. [In:] The dynamics and environmental context of aeolian sedimentary systems. (K. Pye, Ed.), pp. 49-58. Geological Society Special Publication, London.
  • Wintle A. G., Li S.-H. & Botha G. A., 1993: Luminescence dating of colluvial deposits from Natal, South Africa. South African Journal of Science, 89: 77-82.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-feb8eec4-74ca-448c-8f51-183eb65c4a47
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