- 作者:J.A. Wassenburga ; wassenbu@uni-mainz.de" class="auth_mail" title="E-mail the corresponding author ; D. Scholza ; K.P. Jochumb ; H. Chengc ; d ; J. Ostere ; A. Immenhauserf ; D.K. Richterf ; T. Hä ; gera ; R.A. Jamiesong ; J.U.L. Baldinig ; D. Hoffmannh ; i ; S.F.M. Breitenbachf ; j
- 关键词:Speleothem ; Aragonite ; Trace element ; Distribution coefficient ; Cave
- 刊名:Geochimica et Cosmochimica Acta
- 出版年:2016
- 出版时间:1 October 2016
- 年:2016
- 卷:190
- 期:Complete
- 页码:347-367
- 全文大小:3510 K
This study uses nine calcite-to-aragonite transitions in seven speleothems from diverse environmental settings to derive the first quantitative estimates of the distribution coefficients for several elements in speleothem aragonite: DMg(Ar) = 9.7E−5 ± 9.01E−5, DBa(Ar) = 0.91 ± 0.88, DSr(Ar) = 1.38 ± 0.53, and DU(Ar) = 6.26 ± 4.54 (1σ SD). For one speleothem from western Germany, the distribution coefficients are generally higher, which is potentially related to the very low growth rates (<11 μm/year) of this sample. In particular, DSr(Ar) appears to show a negative correlation with growth rate when growth rate is below 20 μm/year.
In summary, our results demonstrate that speleothem aragonite DMg(Ar) is below one, DU(Ar) is considerably above one, and DSr(Ar) is above one or close to unity. For DBa(Ar), reaching a similar conclusion is difficult due to the relatively high uncertainty. Enhanced prior aragonite precipitation will thus result in lower U and higher Mg concentrations in speleothem aragonite, although in many cases Mg in speleothem aragonite is most likely dominated by other processes. This result suggests that U concentrations in aragonitic stalagmites could serve as a very effective proxy for palaeo-rainfall.