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Protracted diagenetic alteration of REE contents in fossil bioapatites: Direct evidence from Lu-Hf isotope systematics
Kocsis, L [Kocsis, László (Geológus), szerző]
;
Trueman, CN
;
Palmer, MR
Angol nyelvű Szakcikk (Folyóiratcikk) Tudományos
Megjelent:
GEOCHIMICA ET COSMOCHIMICA ACTA 0016-7037 1872-9533 0046-564X
74
(21)
pp. 6077-6092
2010
X. Földtudományok Osztálya: A
SJR Scopus - Geochemistry and Petrology: D1
Azonosítók
MTMT: 3189093
DOI:
10.1016/j.gca.2010.08.007
WoS:
000282499700007
Scopus:
77956880313
Szakterületek:
Föld- és kapcsolódó környezettudományok
Fossil bones and teeth are potentially important repository for geochemical proxy data and a target for radiometric dating. The concentration of many trace elements in bones and teeth increases by orders of magnitude after death and it is this diagenetic incorporation that forms the basis for several areas of geochemical study. The use of bones and teeth in this context relies on two assumptions: first, that target metal ions are incorporated rapidly after death, reflecting a known environmental signal, and second, that after early incorporation, the bone or tooth remains as an essentially closed system, resistant to later diagenetic change. A wide literature has developed exploring these assumptions, but relatively little direct evidence has been used to assess the long-term diagenetic stability of trace elements within bones and teeth. In this study, we use the Lu-Hf isotope system to show that bones and teeth of Cretaceous and Triassic age from both terrestrial and marine settings experience continued, long-term diagenetic change, most likely through gradual addition of trace elements. Modelling suggests that diagenetic addition after initial recrystallisation may account for >50% of the total REE content in the sampled bones, the extent depending on initial uptake conditions. Tooth enamel and enameloid may be more resistant to late diagenetic changes, but dentine is probably altered to the same extent as bone. These results have significant implications for the use of bones and teeth as hosts of chronological, palaeoceanographic, palaeoenvironmental and taphonomic information, particularly in Mesozoic and Palaeozoic contexts. © 2010 Elsevier Ltd.
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2024-12-12 11:01
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