Trace elements mantle

Barth MG, Foley SF, Horn 1 (2002) Partial melting in Archean subduction zones constraints from experimentally determined trace element partition coefficients between eclogitic minerals and tonahtic melts under upper mantle conditions. Precamb Res 113 323-340... 

Blundy JD, Dalton JA (2000) Experimental comparison of trace element partitioning between clinopyroxene and melt in carbonate and silicate systems and implications for mantle metasomatism. Contrib Mineral Petrol 139 356-371... 

Corgne A, Wood B (2003) Trace element partitiorring between silicate melt and Ca-perovskites (CaTiOs and CaSi04)— implications for mantle differentiation. Geophys Res Lett 29(19) 1903, doi 10.1029/2001GL014398... 

Guo J, Green TH (1990) Experimental study of barium partitioning between phlogopite and sihcate liquid at upper-mantle pressure and temperature. Lithos 24 83-96 Harrison WJ, Wood BJ (1980) An experimental investigation of the partitioning of REE between garnet and liquid with reference to the role of defects. Contrib Mineral Petrol 72 145-155 Hart SR, Duim T (1993) Experimental cpx/melt partitioning of 24 trace elements. Contrib Mineral Petrol 113 1-8... 

Spiegelman M, (1996) Geochemical conseqnences of melt transport in 2-D the sensitivity of trace elements to mantle dynamics. Earth Planet Sci Lett 139 115-132 Spiegelman M, Kelemen PB, Aharonov E (2001) Canses and consequences of flow organization dnring melt transport The reaction infiltration instability in compactible media. J Geophys Res 106 2061-2077... 

Zindler A, Hart SR (1986) Chemical geodynamics. Aim Rev Earth Planet Sci 14 493-571 Zindler A, Standigel H, Batiza R (1984) Isotope and trace element geochemistry of young Pacific seamounts implications for the scale of upper mantle heterogeneity. Earth Planet Sci Lett 70 175-190... 

Brenan JM, Shaw HF, Ryerson FJ, Phinney DL (1995) Mineral-aqueous fluid partitioning of trace elements at 900 °C and 2.0 GPa constraints on the trace element chemistry of mantle and deep crastal fluids. Geochim Cosmochim Acta 59 3331-3350... 

Maury RE, Defant MJ, Joron J-L (1992) Metasomatism of the sub-arc mantle iirferred from trace elements in Philippine xenoliths. Nature 360 661-663... 

Pearce JA, Parkinson IJ (1993) Trace element models for mantle melting application to volcanic arc petrogenesis. J Geol Soc Lond 76 373-403... 

Albarede, F. (1983). Inversion of batch melting equations and the trace element pattern of the mantle. J. Geophys. Res., 88, 10573-83. 

The main purpose of this work is to determine the IPGE contents of chromites from mantle podiform chromitites, from crustal stratiform chromitites and from various types of lavas. The analyses have been carried out by laser ablation inductively coupled plasma mass spectrometer (LA-ICPMS) which allows in-sltu determination of trace elements in chromite. 

Fig. 4. Representative primitive mantle normalised trace element patterns of metavolcanic rocks structurally above and below VMS mineralisation. Normalising values are from Sun and McDonough (1989).

The primitive mantle-normalized trace-element spider diagram of felsic rocks shows negative Sr and Eu anomalies that are indicative of either plagioclase restite or plagioclase fractionation resulting from a combination of the partial melting and fractional crystallization processes (Fig. 5), and later changed by hydrothermal alteration. 

Brenninkmeijer CAM, Lowe DC, Manning MR, Sparks RJ, van Velthoven PFJ (1995) The C, C and 0 isotopic composition of CO, CH4 and CO2 in the higher southern latitudes and lower stratosphere. J Geophys Res 100 26163-26172 Broecker WS (1974) Chemical oceanography. Harcourt Brace Jovanovich, New York Brooker R, Blundy J, James R (2004) Trace element and Li isotope systematics in zabargad peri-dotites evidence of ancient subduction processes in the Red Sea mantle. Chem Geol 212 179-204... 

---