References Cited

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Aitken, M. J. (1985). Thermoluminescence Dating. New York: Academic Press.

Aitken, M. J. (1998). An Introduction to Optical Dating: The dating of Quaternary Sediments by the use of Photon-stimulated luminescence. New York: Oxford University Press.

Ahr, S. W., Nordt, L. C., & Forman, S. L. (2013). Soil genesis, optical dating, and geoarchaeological evaluation of two upland Alfisol pedons within the Tertiary Gulf Coastal Plain. Geoderma, 192, 211-226.

Argyilan, E. P., Forman, S. L., Johnston, J. W., & Wilcox, D. A. (2005). Optically stimulated luminescence dating of late holocene raised strandplain sequences adjacent to Lakes Michigan and Superior, upper peninsula, Michigan, USA. Quaternary Research, 63(2), 122-135.

Arnold, L. J., & Roberts, R. G. (2009). Stochastic modeling of multi-grain equivalent dose (D-e) distributions: Implications for OSL dating of sediment mixtures. Quaternary Geochronology, 4(3), 204-230.

Banerjee, D., Singhvi, A. K., Pande, K., Gogte, V. D., & Chandra, B. P. (1999). Towards a direct dating of fault gouges using luminescence dating techniques - Methodological aspects. Current Science, 77(2), 256-268.

Brown, N. D., & Forman, S. L. (2012). Evaluating a SAR TT-OSL protocol for dating fine-grained quartz within Late Pleistocene loess deposits in the Missouri and Mississippi river valleys, United States. Quaternary Geochronology, 12, 87-97.

Chen, Y., Li, S.-H., Sun, J., & Fu, B. (2013). OSL dating of offset streams across the Altyn Tagh Fault: Channel deflection, loess deposition and implication for the slip rate. Tectonophysics, 594, 182-194.

Cortes, A., , J., Gonzalez L, G., Binnie, S. A., Robinson, R., Freeman, S. P. H. T., & Vargas E, G. (2012). Paleoseismology of the Mejillones Fault, northern Chile: Insights from cosmogenic Be-10 and optically stimulated luminescence determinations. Tectonics, 31, TC2017

Duller, G. (2008). Single-grain optical dating of Quaternary sediments: why aliquot size matters in luminescence dating. Boreas, 37(4), 589-612.

Duller, G. (2012). Improving the accuracy and precision of equivalent doses determined using the optically stimulated luminescence signal from single grains of quartz. Radiation Measurements, 47, 770-777.

Duller, G. and Wintle, A.G. A review of the thermally transferred optically stimulated signal from quartz for dating sediments. Quaternary Geochronology, 7, 6-20.

Fain, J., Soumana, S., Montret, M., Miallier, D., Pilleyre, T., & Sanzelle, S. (1999). Luminescence and ESR dating-Beta-dose attenuation for various grain shapes calculated by a Monte-Carlo method. Quaternary Science Reviews 18, 231-234.

Forman, S. L., Machette, M. N., Jackson, M. E., & Matt, P. (1989). Evaluation of thermoluminescence dating of paleoearthquakes on the American Fork segment, Wasatch fault zone, Utah. Jour. Geophys. Res., 94, 1622-1630.

Galbraith, R. F., & Green, P. F. (1990). Estimating the Component Ages in a Finite Mixture. Nuclear Tracks and Radiation Measurements, 17(3), 197-206.

Galbraith, R. F., & Roberts, R. G. (2012). Statistical aspects of equivalent dose and error calculation and display in OSL dating: An overview and some recommendations. Quaternary Geochronology, 11, 1-27.

Huntley, D. W., Godfrey-Smith, D. I., & Thewalt, M. L. W. (1985). Optical dating of sediments. Nature, 313, 105-107.

Hutt, G., Jaek, I., & Tchonka, J. (1988). Optical Dating: K-feldspars optical response stimulation spectra. Quaternary Science Reviews, 7, 381-385.

Mejdahl, V. (1986). Thermoluminescene dating of sediments. Radiation Protection Dosimetry, 17, 219-227.

Mellett, C. L. (2013). Luminescence Dating. In L. E. Clarke (Ed.), Geomorphical Techniques (Online Edition) (pp. 1-11). London, UK: British Society for Geomorphology.
https://www.geomorphology.org.uk/assets/publications/subsections/pdfs/OnsitePublicationSubsection/90/
4.2.6_luminescencedating.pdf

Murray, A. S., & Wintle, A. G. (2003). The single aliquot regenerative dose protocol: potential for improvements in reliability. Radiation Measurements, 37(4-5), 377-381.

Olley, J. M., Pietsch, T., & Roberts, R. G. (2004). Optical dating of Holocene sediments from a variety of geomorphic settings using single grains of quartz. Geomorphology, 60(3-4), 337-358.

Prescott, J. R., & Hutton, J. T. (1994). Cosmic ray contributions to dose rates for luminescence and ESR dating: large depths and long-term time variations. Radiation Measurements, 23, 497-500.

Sohbati, R., Murray, A. S., Buylaert, J.-P., Ortuno, M., Cunha, P. P., & Masana, E. (2012). Luminescence dating of Pleistocene alluvial sediments affected by the Alhama de Murcia fault (eastern Betics, Spain) - a comparison between OSL, IRSL and post-IR IRSL ages. Boreas, 41(2), 250-262.

Schaetzl, R. J., & Forman, S. L. (2008). OSL ages on glaciofluvial sediment in northern Lower Michigan constrain expansion of the Laurentide ice sheet. Quaternary Research, 70(1), 81-90.

Spencer, J. Q. G., Hadizadeh, J., Gratier, J.-P., & Doan, M.-L. (2012). Dating deep? Luminescence studies of fault gouge from the San Andreas Fault zone 2.6 km beneath Earth's surface. Quaternary Geochronology, 10, 280-284.

Wintle, A. G., & Huntley, D. J. (1980). Thermoluminescence dating of ocean sediments. Canadian Journal of Earth Sciences, 17, 348-360.

Wintle, A. G., & Murray, A. S. (2006). A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols. Radiation Measurements, 41(4), 369-391.

Wright, D. K., Forman, S. L., Waters, M. R., & Ravesloot, J. C. (2011). Holocene eolian activation as a proxy for broad-scale landscape change on the Gila River Indian Community, Arizona. Quaternary Research, 76(1), 10-21.

 

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