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Klemme et al. 1995
Klemme, S., Vanderlaan, S.R., Foley, S.F. and Gunther, D. (1995). Experimentally Determined Trace and Minor Element Partitioning between Clinopyroxene and Carbonatite Melt under Upper-Mantle Conditions. Earth and Planetary Science Letters 133(3-4): 439-448. doi: 10.1016/0012-821X(95)00098-W.
Laser ablation microprobe analyses of clinopyroxenes equilibrated with carbonatite melt at 20-22 kbar and 1050-1100 degrees C are used to calculate partition coefficients for an extensive suite of trace elements. Our experiments were performed on a mixture of peridotite minerals and two types of carbonates with differing trace element contents (natural carbonatite and mixtures of sedimentary carbonates). Although trace element concentrations vary by an order of magnitude between the carbonate mixtures, the partition coefficients are similar. Some, however, differ substantially from previously published values. Most of the measured elements have broadly similar partition coefficients of D-cpx/clq = 0.1-0.4, including Pr, Nd, Eu, Dy, Er and Hf, which are reported here for the first time. Considerably higher partition values are found for Ti and V which are compatible in clinopyroxene with D-cpx/lq = 1.4 +/- 0.6 for Ti and 2.9 +/- 0.9 for V (1 sigma). The clinopyroxene partitioning data for carbonatite (D-cpx/clq) are remarkably similar to published values for silicate melts (D-cpx/slq), with significant exceptions for the behaviour of Ti, Pa, Nb and perhaps Ta, whereas values for other silicate minerals differ more strongly between carbonatite and silicate melts. From our results, the most sensitive indicator of mantle metasomatism by carbonatite melt as opposed to silicate melt infiltration should be low Ti/Eu in metasomatised peridotites assuming closed-system metasomatism. In contrast to suggestions from some studies of metasomatised mantle xenoliths Zr/Hf ratios appear to remain unchanged during carbonatite metasomatism. These chemical effects only partly agree with those described from natural mantle rocks interpreted to result from carbonatite metasomatism.
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Strategy
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Analytical

Keywords
metasomatism, peridotite, xenoliths, minerals, pressure, germany, eifel, magma
Journal
Earth and Planetary Science Letters
http://www.elsevier.com/wps/product/cws_home/503328
Publisher
Elsevier Science
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