Residence of trace elements in metasomatized spinel lherzolite xenoliths: a proton-microprobe study
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[1] K. Nickel,et al. Geothermobarometry in Four-phase Lherzolites I. Experimental Results from 10 to 60 kb , 1990 .
[2] T. Köhler,et al. Calcium exchange between olivine and clinopyroxene calibrated as a geothermobarometer for natural peridotites from 2 to 60 kb with applications , 1990 .
[3] William L. Griffin,et al. Quantitative pixe microanalysis of geological matemal using the CSIRO proton microprobe , 1990 .
[4] W. McDonough. Comment on “Abundance and distribution of gallium in some spinel and garnet lherzolites” by D. B. McKay and R. H. Mitchell , 1990 .
[5] W. Griffin,et al. Trace-element zoning in garnets from sheared mantle xenoliths , 1989 .
[6] R. Mitchell,et al. Abundance and distribution of gallium in some spinel and garnet lherzolites , 1988 .
[7] D. R. Cousens,et al. Conditions of diamond growth: a proton microprobe study of inclusions in West Australian diamonds , 1988 .
[8] W. Griffin,et al. Mantle metasomatism beneath western Victoria, Australia. II. Isotopic geochemistry of Cr-diopside lherzolites and Al-augite pyroxenites , 1988 .
[9] W. Griffin,et al. Mantle metasomatism beneath western Victoria, Australia. I. Metasomatic processes in Cr-diopside lherzolites , 1988 .
[10] Claude Merlet,et al. Distribution of trace transition elements in olivine and pyroxenes from ultramafic xenoliths; application of microprobe analysis , 1987 .
[11] Kazuhiro Suzuki. Grain-boundary enrichment of incompatible elements in some mantle peridotites , 1987 .
[12] H. Amundsen. Evidence for liquid immiscibility in the upper mantle , 1987, Nature.
[13] E. Stolper,et al. Geochemical Consequences of Melt Percolation: The Upper Mantle as a Chromatographic Column , 1987, The Journal of Geology.
[14] A. Hofmann. Nb in hawaiian magmas: Constraints on source composition and evolution , 1986 .
[15] H. Stosch,et al. Trace element and Sr and Nd isotope geochemistry of peridotite xenoliths from the Eifel (West Germany) and their bearing on the evolution of the subcontinental lithosphere , 1986 .
[16] C. Ryan,et al. An electrostatic “Russian” quadruplet microprobe lens , 1986 .
[17] W. Griffin,et al. The trapped fluid phase in upper mantle xenoliths from Victoria, Australia: implications for mantle metasomatism , 1984 .
[18] M. Menzies,et al. Mantle enrichment processes , 1984, Nature.
[19] W. Griffin,et al. Sr isotopic heterogeneity in primitive basaltic rocks, southeastern Australia: correlation with mantle metasomatism , 1984 .
[20] W. Griffin,et al. Ultramafic xenoliths from Bullenmerri and Gnotuk Maars, Victoria, Australia: Petrology of a sub-continental crust-mantle transition , 1984 .
[21] D. Clague,et al. Petrology and Trace Element Geochemistry of the Honolulu Volcanics, Oahu: Implications for the Oceanic Mantle below Hawaii , 1982 .
[22] H. Seck,et al. Chemical control of Al-solubility in orthopyroxene and its implications on pyroxene geothermometry , 1981 .
[23] G. R. Holdren,et al. Implications for Magma Transport in Refractory Upper Mantle Material , 1981 .
[24] J. Dawson. Kimberlites and Their Xenoliths , 1980 .
[25] B. Ellwood. Flow and emplacement direction determined for selected basaltic bodies using magnetic susceptibility anisotropy measurements , 1978 .
[26] J. Reid,et al. Oceanic mantle beneath the southern Rio Grande rift , 1978 .
[27] D. Green,et al. Integrated Models of Basalt Petrogenesis: A Study of Quartz Tholeiites to Olivine Melilitites from South Eastern Australia Utilizing Geochemical and Experimental Petrological Data , 1978 .
[28] D. Green,et al. The mineralogy, geochemistry and origin of Iherzolite inclusions in Victorian basanites , 1974 .
[29] B. Wood,et al. Garnet-orthopyroxene and orthopyroxene-clinopyroxene relationships in simple and complex systems , 1973 .
[30] W. Griffin,et al. Distribution of K, Rb, Sr and Ba in some minerals relevant to basalt genesis , 1969 .
[31] W. Griffin,et al. Abundances of K, Rb, Sr and Ba in some ultramafic rocks and minerals , 1968 .
[32] A. E. Ringwood,et al. The genesis of basaltic magmas , 1967 .
[33] G. Witt,et al. Origin of amphibole in recrystallized and porphyroclastic mantle xenoliths from the Rhenish Massif: implications for the nature of mantle metasomatism , 1989 .
[34] H. Wilshire. A model of mantle metasomatism , 1987 .
[35] S. O’Reilly. Volatile-rich mantle beneath eastern Australia , 1987 .
[36] M. Dungan,et al. Petrology and geochemistry of xenolith-bearing alkalic basalts from the Geronimo Volcanic Field, southeast Arizona; Evidence for polybaric fractionation and implications for mantle heterogeneity , 1987 .
[37] JOSEPH V. Smith,et al. Lherzolite xenoliths in kimberlites and basalts: petrogenetic and crystallochemical significance of some minor and trace elements in olivine, pyroxenes, garnet and spinel , 1986, Transactions of the Royal Society of Edinburgh: Earth Sciences.
[38] A. Irving. Petrology and geochemistry of composite ultramafic xenoliths in alkalic basalts and implications for magmatic processes within the mantle , 1980 .