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W1983022056 abstract "In the past two years, we have carried out a series of irradiation experiments on fossil tooth enamel fragments, using gamma irradiation for the whole enamel thickness, UV irradiation through the buccal–enamel boundary (BEB) and beta irradiation through the BEB as well as the dentine–enamel junction (DEJ). Using a simulated annealing procedure, the ESR spectra were analysed for three types of CO2− radicals, consisting of two types of anisotropic CO2− radicals (AICORs, orthorhombic and axial) plus non-oriented CO2− radicals (NOCORs). In this paper we complemented the beta irradiation experiments with gamma irradiations on fragments representing the domains close to the BEB as well as the DEJ. The two beta irradiation experiments generated qualitatively similar radical distributions to the natural sample. The effects of gamma irradiation were significantly different. The ESR spectra of both fragments contained only orthorhombic AICORs (non-axial CO2− radicals) plus a very large amount of NOCORs. Relative to the natural fragments, the domain close to the BEB had eight times more NOCORs and the domain close to the DEJ twenty-nine times more. Heating experiments (at 125 °C) showed that NOCORs do not transfer into AICORs but lead to a general decrease of the overall intensity. Orthorhombic CO2− radicals convert into axial. The strong difference between the beta and gamma irradiations leads to the postulation of two different types of NOCORs, one unstable and decaying without transfer into stable AICORs and a second stable variety converting into AICORs. It seems that beta irradiation resembles gamma irradiation with concurrent heating. A preliminary experiment confirmed elevated temperatures during beta irradiation. The appearance of unstable NOCORs, which are not removed by conventional post-irradiation heating steps or long storage times between irradiation and measurement, has serious consequences for ESR dating. It points to significant age underestimations. For the fragments we have investigated thus far, the underestimation is in the range of 30%. However, at this stage it is not possible to provide a correction that can be easily applied to published results, as there are indications that the offset could depend on age, tooth type (molars versus incisors) as well as species (bovid, horse, hippopotamus, humans, etc.). The implications for ESR dating in general, for published ESR results as well as possible remedies are discussed in detail." @default.
W1983022056 created "2016-06-24" @default.
W1983022056 creator A5014664106 @default.
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W1983022056 date "2011-02-01" @default.
W1983022056 modified "2023-10-09" @default.
W1983022056 title "A comprehensive model for CO2− radicals in fossil tooth enamel: Implications for ESR dating" @default.
W1983022056 cites W1947061781 @default.
W1983022056 cites W1967878764 @default.
W1983022056 cites W1970469051 @default.
W1983022056 cites W1972464005 @default.
W1983022056 cites W1972657083 @default.
W1983022056 cites W1973664446 @default.
W1983022056 cites W1974611976 @default.
W1983022056 cites W1984532278 @default.
W1983022056 cites W1994511148 @default.
W1983022056 cites W1994573854 @default.
W1983022056 cites W1996831213 @default.
W1983022056 cites W2001869522 @default.
W1983022056 cites W2008663320 @default.
W1983022056 cites W2008912661 @default.
W1983022056 cites W2013047551 @default.
W1983022056 cites W2013126095 @default.
W1983022056 cites W2013642792 @default.
W1983022056 cites W2019317891 @default.
W1983022056 cites W2024060531 @default.
W1983022056 cites W2028374576 @default.
W1983022056 cites W2028408072 @default.
W1983022056 cites W2028473187 @default.
W1983022056 cites W2030064287 @default.
W1983022056 cites W2033527981 @default.
W1983022056 cites W2033608972 @default.
W1983022056 cites W2036155277 @default.
W1983022056 cites W2045963677 @default.
W1983022056 cites W2046336586 @default.
W1983022056 cites W2046441566 @default.
W1983022056 cites W2050408161 @default.
W1983022056 cites W2053485811 @default.
W1983022056 cites W2055530121 @default.
W1983022056 cites W2056054314 @default.
W1983022056 cites W2056760934 @default.
W1983022056 cites W2058789263 @default.
W1983022056 cites W2063333340 @default.
W1983022056 cites W2066963320 @default.
W1983022056 cites W2069066948 @default.
W1983022056 cites W2069948897 @default.
W1983022056 cites W2072002136 @default.
W1983022056 cites W2082734989 @default.
W1983022056 cites W2084465310 @default.
W1983022056 cites W2085733727 @default.
W1983022056 cites W2092554066 @default.
W1983022056 cites W2092929436 @default.
W1983022056 cites W2093507824 @default.
W1983022056 cites W2100935335 @default.
W1983022056 cites W2106407799 @default.
W1983022056 cites W2114491080 @default.
W1983022056 cites W2116752711 @default.
W1983022056 cites W2139360884 @default.
W1983022056 cites W2154061444 @default.
W1983022056 cites W2156216045 @default.
W1983022056 cites W2171434342 @default.
W1983022056 cites W2173085657 @default.
W1983022056 doi "https://doi.org/10.1016/j.quageo.2010.09.001" @default.
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