foley-publications

Publications

Last Updated on: 5 Februar, 2004

[80]S.F.Foley & G.A.Jenner: Trace element partitioning in lamproitic magmas — the Gaussberg olivine leucitite. (in press Lithos Special issue "Geochemical Fingerprinting")

[79] B.Schmickler, D.E.Jacob & S.F.Foley: : Eclogite xenoliths from the Kuruman kimberlites, South Africa: geochemical fingerprinting of deep subduction and cumulate processes. (in press Lithos Special issue "Geochemical Fingerprinting")

[78] D.Prelevic, S.F.Foley, V.Cvetkovic & R.Romer: Origin of minette by mixing of lamproite magma and superheated granitic melt - the example from Veliki Majdan in Serbia. (in press Journal of Petrology)

[77] S Tappe, S.F.Foley & D.G. Pearson. The kamafugites of Uganda: a mineralogical and geochemical comparison with their Italian and Brazilian analogues. Periodico Mineral 72, 51-77.

[76] M. Tiepolo, A. Zanetti, R. Oberti, R. Brumm, S.F. Foley & R. Vannucci (2003) Trace-element partitioning between synthetic potassic richterites and silicate melts, and contrasts with the partitioning behaviour of pargasites and kaersutites. Eur. J. Mineral. 15, 329-340

[75] S.F.Foley, S.Buhre & D.E.Jacob (2003) Evolution of the Archean crust by shallow subduction and recycling. Nature 421, 249-252

[74] S.F.Foley, S.Buhre, D.E.Jacob & T.Rehfeldt (2003) Dunite and pyroxenite xenoliths as metamorphosed cumulates from the Archean lower ocean crust. 8th Kimberlite Conf. Victoria.

[73] S.F.Foley & A.V.Andronikov (2003) The genesis of ultramafic lamprophyres. 8th Kimberlite Conf. Victoria.

[72] S Tappe, S.F.Foley, G.A.Jenner, B.Ryan, D Besserer & B.A.Kjarsgaard (2003) Ultramafic lamprophyre dykes from Labrador and New Quebec: mineralogy and geochemistry. 8th Kimberlite Conf. Victoria

[71] T Zack, S. Foley & T. Rivers (2002) Trace element partitioning values for subduction zone processes derived from hydrous eclogites (Trescolmen, Central Alps). Journal of Petrology 43, 1947-1974

[70] S.F.Foley, M. Tiepolo & R.Vannucci (2002) Growth of early continental crust by melting of amphibolite in subduction zones. Nature 417, 837-840

[69] F.N.Schäfer & S.F.Foley (2002) The effect of crystal orientation on the wetting behaviour of silicate melts on the surfaces of peridotite minerals. Contrib. Mineral. Petrol. 143, 254-262

[68] S.F.Foley, A.V.Andronikov & S.Melzer (2002) Petrology, geochemistry and mineral chemistry of ultramafic lamprophyres from the Jetty Peninsula area of the Lambert-Amery Rift, Eastern Antarctica. Mineralogy and Petrology 74, 361-384

[67] T.Zack, A.Kronz, S.Foley & T.Rivers (2002) Trace element abundances in rutiles from eclogites and associated garnet mica schists. Chemical Geology 184, 97-122

[66] M.G.Barth, S.F.Foley & I. Horn (2002) Partial melting in Archean subduction zones: constraints from experimentally determined trace element partition coefficients between eclogitic minerals and tonalitic melts under upper mantle conditions. Precambrian Research 113, 323-340

[65] D.Prelevic, S.F.Foley, V Cvetkovic, M Jovanovic, S. Melzer (2001) Tertiary ultrapotassic-potassic rocks from Serbia, Yugoslavia. Acta Vulcanologica 13, 101-115

[64] D Prelevic, V Cvetkovic, S.F.Foley (2001) Composite bodies from Serbia: two case studies of a specific interaction of lamprophyric and granitoid magma. Acta Vulcanologica 13, 145-157

[63] S.F.Foley, C.M.Petibon, G.A.Jenner & B.A.Kjarsgaard (2001) High U/Th ratios in alkaline silicate and carbonatite metasomatism caused by clinopyroxenes. Terra Nova 13, 104-109

[62] A.V.Andronikov and S.F.Foley (2001): Trace element and Nd-Sr isotopic composition of ultramafic lamprophyres from the East Antarctic Beaver Lake area. Chemical Geology, 175, 291-305

[61] M.Tiepolo, P.Bottazzi, S.F.Foley, R.Oberti, R.Vannucci & A.Zanetti (2001) Fractionation of Nb and Ta from Zr and Hf at Mantle Depths: the Role of Titanian-Pargasite and Kaersutite. Journal of Petrology, 42, 221-232. Lherzolite Conf. Issue

[60] T.Zack, T.Rivers & S.F.Foley (2001) Cs-Rb-Ba systematics in phengite and amphibole: evidence for fluid mobility at 2.0 GPa in the eclogites of Trescolmen, central Alps. Contrib. Mineral. Petrol. 140, 651-669

[59] M. Tiepolo, R.Vannucci, P. Bottazzi, R.Oberti, A.Zanetti, S.F.Foley (2000): Partitioning of REE, Y, Th, U and Pb between pargasite, kaersutite and basanite to trachyte melts: implications for percolated and veined mantle. Geochemistry, Geophysics, Geosystems [G3] Paper No. 2000GC000064, August 23rd, 2000.

[58] K.D.Litasov, S.F.Foley and Y.D.Litasov (2000): Magmatic modification and metasomatism of the subcontinental mantle beneath the Vitim volcanic field (East Siberia): evidence from trace element data on pyroxenite and peridotite xenoliths from Miocene picrobasalt. Lithos, 54, 83-113

[57] M. Tiepolo, R.Vannucci, R.Oberti, S.F.Foley, P.Bottazzi & A.Zanetti (2000): Nb and Ta incorporation and fractionation in titanian pargasite and kaersutite: crystal-chemical constraints and implications for natural systems Earth Planet Sci Lett, 176, 185-201

[56] S.F.Foley, M.G.Barth & G.A.Jenner (2000): Rutile/melt partition coefficients for trace elements and an assessment of the influence of rutile on the trace element characteristics of subduction zone magmas Geochimica et Cosmochimica Acta 64, 933-938

[55] S. Melzer and S.F.Foley (2000): Phase relations and fractionation sequences in potassic magma series modelled in the system CaMgSi2O6-KAlSiO4-Mg2SiO4-SiO2-F2O-1 at 1 bar and 18 kbar. Contrib. Mineral. Petrol. 138, 186-197

[54] P.Bottazzi, M.Tiepolo, R.Vannucci, A.Zanetti, S.F.Foley, R.C.Brumm & R.Oberti (1999): Distinct site preferences for heavy and light rare-earth elements and the prediction of Amph/LDREE Contrib. Mineral. Petrol. 137, 36-45

[53] S.F.Foley, D.S.Musselwhite and S.R. van der Laan (1999): Melt compositions from ultramafic vein assemblages in the lithospheric mantle: a comparison of cratonic and non-cratonic settings. Proceedings of Cape Town Kimberlite Conference, J.B.Dawson volume, pp.238-246

[52] S.M.Glaser, S.F.Foley & D.Günther (1999) Trace element enrichment by melt infiltration in garnet- and spinel peridotite xenoliths from the Vitim volcanic field, Transbaikalia, eastern Siberia (special volume on ”The composition, deep structure and evolution of continents” eds. R. van der Hilst & W.F.McDonough). Lithos 48, 263-285

[51] D.E.Jacob & S.F.Foley (1999) Evidence for Archean ocean crust with low high field strength element signature from diamondiferous eclogite xenoliths (special volume on ”The composition, deep structure and evolution of continents” eds. R. van der Hilst & W.F.McDonough). Lithos 48, 317-336

[50] A.V.Andronikov, S.F.Foley & B.V.Beliatsky (1998) Sm-Nd and Rb-Sr isotopic systematics of the East Antarctic Manning Massif alkaline trachybasalts and the development of the mantle beneath the Lambert-Amery Rift . Mineralogy and Petrology 63, 243-261

[49] A.V.Andronikov, S.F.Foley & S.Melzer (1998) Trace element composition of the Manning Massif alkaline volcanics (MMAV), Northern Prince Charles Mountains, East Antarctica. Terra Antarctica 4: 29-32

[48] R.Stalder, S.F.Foley, G.P.Brey & I.Horn (1998) Mineral-aqueous fluid partitioning of trace elements at 1000°C-1200°C and 3.0 GPa to 5.5 GPa: New experimental data set for garnet, Cpx and rutile. Geochimica et Cosmochimica Acta 62: 1781-1801

[47] D.E.Jacob & S.F.Foley (1998) Evidence for Archean ocean crust with island arc signature from diamondiferous eclogite xenoliths. Seventh Kimberlite Conf. pp.358-360. Cape Town

[46] A.V.Andronikov, S.F.Foley & S.Melzer (1998) Mantle xenoliths from the Jetty Peninsula area (East Antarctica): samples of thermally eroded lithosphere on the flanks of the Lambert-Amery Rift. Seventh Kimberlite Conf. pp.20-22. Cape Town.

[45] S.F.Foley, D.S.Musselwhite & S.R. van der Laan (1998) Melting processes in veined lithospheric mantle in cratonic and non-cratonic settings. Seventh Kimberlite Conf. pp.220-223. Cape Town.

[44] S.F.Foley, S.M.Glaser & A.V.Andronikov (1998). Non-cratonic garnet peridotites from rifted continental settings in Vitim, Siberia (Baikal Rift) and East Antarctica (Lambert-Amery Rift). Seventh Kimberlite Conf. pp.217-219. Cape Town.

[43] T.Zack, S.F.Foley & G.A.Jenner (1997) A consistent partition coefficient set for clinopyroxene, amphibole and garnet from Laser ablation microprobe analysis of garnet pyroxenites from Kakanui, New Zealand. Neues.Jahrb.Mineral. Abh. Special Issue on Element Partitioning 172: 23-41

[42] R.Stalder, S.F.Foley, G.P.Brey, L.M.Forsythe & I.Horn (1997) First results from a new experimental technique to determine fluid/solid trace element partition coefficients using diamond aggregate extraction traps. Neues.Jahrb.Mineral. Abh. Special Issue on Element Partitioning 172: 117-132

[41] S.F.Foley, S.E.Jackson, B.J. Fryer, J.D.Greenough & G.A.Jenner (1996) Trace element partition coefficients for clinopyroxene and phlogopite in an alkaline lamprophyre from Newfoundland by LAM-ICP-MS. Geochimica et Cosmochimica Acta 60: 629-638

[40] S. Melzer & S.F.Foley (1996) Phase relations in the system KAlSiO4-Mg2SiO4-SiO2-F and the stability of F-phlogopite at atmospheric pressure. Neues.Jahrb. Mineral. Abh 171: 1-31

[39] S. Klemme, S. van der Laan, S.F.Foley & D. Günther (1995) Experimentally determined trace and minor element partitioning between clinopyroxene and carbonatite melt under upper mantle conditions. Earth and Planetary Science Letters 133: 439-448

[38] E. Zinngrebe & S.F.Foley (1995) Metasomatism in mantle xenoliths from Gees, West Eifel, Germany: evidence for the origin of Si-Al rich glasses and the significance of metasomatic Ca-enrichment. Contributions to Mineralogy and Petrology 122: 79-96

[37] S.F.Foley, S.R. van der Laan & I. Horn (1995) Experimental melting reactions in amphibole- and phlogopite-bearing mantle vein assemblages and the trace element compositions of derived partial melts. Sixth Kimberlite Conf. pp.161-163

[36] S.F.Foley, G.A.Jenner, J. Konzett & R.J.Sweeney (1995) Trace element partitioning in natural phlogopite- and K-richterite-bearing xenoliths from southern African kimberlites. Sixth Kimberlite Conf. pp. 164-166

[35] E. Zinngrebe, S.F.Foley, R.Vannucci, P.Bottazzi & D.P.Mattey (1995) Metasomatism of peridotite by alkaline melt and cognate fluid: microchemical and ion-probe evidence from the low-P Inagli dunite. Sixth Kimberlite Conf. pp.700-702

[34] S.F.Foley (1994) Geochemische und experimentelle Untersuchungen zur Genese der kalireichen Magmatite. Neues Jahrb. Mineral. Abh. 167: 1-55

[33] S.F.Foley, H.Höfer & G.P.Brey (1994) High-pressure experiments on the stability of priderite and solid-solutions of the lindsleyite-mathiasite and yimengite-hawthorneite series. Contributions to Mineralogy and Petrology 117: 164-174

[32] I.Horn, S.F.Foley, S.E.Jackson & G.A.Jenner (1994) Experimentally determined partitioning of high field strength and selected transition elements between spinel and basaltic melt. Chemical Geology 117: 193-218

[31] S.F.Foley & S. van der Laan (1994) Trace element partitioning with application to magmatic processes. Chemical Geology 117, vii-xiv

[30] S.F.Foley (1993) An experimental study of olivine lamproite - first results from the diamond stability field. Geochimica et Cosmochimica Acta 57: 483-489

[29] G.A.Jenner, S.F.Foley, S.E.Jackson, T.H.Green, B.J.Fryer & H.P.Longerich (1993) Determination of partition coefficients for trace elements in high-pressure-temperature experimental run products by Laser Ablation Microprobe - inductively coupled mass spectrometry (LAM-ICP-MS). Geochimica et Cosmochimica Acta 57: 5099-5103

[28] S.F.Foley & A.Pecerillo (1992) Potassic and ultrapotassic magmas and thier origin. Lithos 28: 181-185

[27] S.F.Foley (1992) Petrological characterization of the source components of potassic magmas: geochemical and experimental constraints. Lithos 28: 187-204

[26] S.F.Foley (1992) Vein-plus-wall-rock melting mechanisms in the lithosphere and the origin of potassic alkaline magmas. Lithos 28: 435-453

[25] S.F.Foley (1991) High-pressure stability of the fluor- and hydroxy end-members of pargasite and K-richterite. Geochimica et Cosmochimica Acta 55: 2689-2694

[24] S.F.Foley (1991) Experimental studies of olivine lamproite at pressures in the diamond stability field. Fifth Kimberlite Conf. pp.103-105

[23] S.F.Foley (1991) The origin of kimberlite and lamproite in veined lithospheric mantle. Fifth Kimberlite Conf. pp.109-111

[22] V.Bulatov, G.P.Brey & S.F.Foley (1991) Origin of low-Ca, high-Cr garnets by recrystallization of low-pressure harzburgites. Fifth Kimberlite Conf. pp.29-31

[21] S.F.Foley, H.Höfer & G.P.Brey (1991) The stability of priderite, lindsleyite-mathiasite and yimengite-hawthorneite under lower continental lithosphere conditions: experiments at 35 to 50 kbar. Fifth Kimberlite Conf. pp.106-108

[20] D.H.Green, W.R.Taylor & S.F.Foley (1990) The Earth`s upper mantle as a source for volatiles. In (eds. H.K.Herbert & S.E.Ho) Stable isotopes and fluid processes in mineralization, Univ. Western Australia Publ. 23: 17-34

[19] S.F.Foley (1990) Experimental constraints on phlogopite chemistry in lamproites: 2. effect of pressure-temperature variations. European Journal of Mineralogy 2: 327-341

[18] S.F.Foley & G.E.Wheller (1990) Parallels in the origin of the geochemical signatures of island arc volcanics and continental potassic igneous rocks: the role of residual titanates. Chemical Geology 85: 1-18

[17] S.F.Foley (1990) Genesis of potassic magmatism: experimental and conceptual constraints on source mineralogy and development. In: (eds. L.Civetta et al.) Genesi e differenziazione del magmatismo potassico del Bordo Tirrenico, Soc. Ital. Min. Pet. pp. 39-41

[16] S.F.Foley (1990) A review and assessment of experiments on kimberlites, lamproites and lamprophyres as a guide to their origin. Proc. Indian Academy of Sciences 99: 57-80

[15] S.F.Foley (1989) The genesis of lamproitic magmas in a reduced, fluorine-rich mantle. In: (eds. J.Ferguson et al.) Kimberlites and related rocks Vol. 1, pp.616-632

[14] S.F.Foley (1989) Emplacement features of lamprophyre and carbonatitic lamprophyre dykes at Aillik Bay, Labrador. Geological Magazine 126: 29-42

[13] W.R.Taylor & S.F.Foley (1989) Improved oxygen buffering techniques for C-O-H fluid-saturated experiments at high pressures. Journal of Geophysical Research 94: 4146-4158

[12] S.F.Foley & G.Venturelli (1989) High K2O rocks with high MgO, high SiO2 affinities. In: (ed. A.J.Crawford) Boninites and related rocks, pp.72-88

[11] S.F.Foley (1989) Experimental constraints on phlogopite chemistry in lamproites: 1. the effect of water activity and oxygen fugacity. European Journal of Mineralogy 1: 411-426

[10] G.Venturelli, E.Salvioli Mariani, S.F.Foley, S.Capedri & A.J.Crawford (1988) Petrogenesis and conditions of crystallization of Spanish lamproitic rocks. Canadian Mineralogist 26: 67-79

[9] S.F.Foley (1988) The genesis of continental basic alkaline magmas — an interpretation in terms of redox melting. Journal of Petrology (Special Lithosphere Issue) pp.139-161

[8] S.F.Foley, G.Venturelli, D.H.Green & L.Toscani (1987) The ultrapotassic rocks: characteristics, classification and constraints for petrogenetic models. Earth Science Reviews 24: 81-134

[7] J.Malpas, S.F.Foley & A.F.King (1986) Alkaline mafic and ultramafic lamprophyres from the Aillik Bay area, Labrador. Canadian Journal of Earth Sciences 23: 1902-1918

[6] S.F.Foley, W.R.Taylor & D.H.Green (1986) The role of fluorine and oxygen fugacity in the genesis of the ultrapotassic rocks. Contrib Mineral Petrology 94: 183-192

[5] S.F.Foley, W.R.Taylor & D.H.Green (1986) The effect of fluorine on phase relationships in the system KAlSiO4-Mg2SiO4-SiO2 at 28 kbar and the solution mechanism of fluorine in silicate melts. Contrib Mineral Petro l 93: 46-55

[4] S.F.Foley (1986) The genesis of lamproitic magmas in a reduced, fluorine-rich mantle. Fourth Kimberlite Conf. pp.193-195

[3] S.F.Foley (1985) The oxidation state of lamproitic magmas. Ts Min. Pet. Mitt. 34: 217-238

[2] A.L.Jaques & S.F.Foley (1985) The origin of Al-rich spinel inclusions in leucite from the leucite lamproites of Western Australia. American Mineralogist. 70: 1143-1150

[1] S. F. Foley (1984) Liquid immiscibility and melt segregation in alkaline lamprophyres from Labrador. Lithos 17: 127-137