References
Amthauer G, Brenneis P, Grigel W, Rost F (1971). Über orienterte Granatenmischungen in Pyroxenen bei der metamorphen Genese granatführender Ultramafitite des Ultentales, Südtirol. Ber. Deutsch. Geol. Wiss. Reihe B Miner. Lagerstättenf., 16/2, 227-240.
Andersen, T., Neumann, E.-R., 2001. Fluid Inclusions in mantle xenoliths. Lithos 55, 301-320. (doi:10.1016/S0024-4937(00)00049-9)
Andreatta C, 1936 La formazione gneissico-kinzigitica e le oliviniti di Val d’Ultimo (Alto Adige). Mem. Mus. Stor. Nat. Venezia Tridentina, v 3/2, 87-245.
Avanzinelli R., Elliott T., Tommasini S., Conticelli S., 2008 Constraints on the Genesis of Potassium-rich Italian Volcanic Rocks from U/Th Disequilibrium J Petrology 49, 195-223.
Avanzinelli R, Lustrino M., Mattei M., Melluso L., Conticelli S. 2009 Potassic and ultrapotassic magmatism in the circum-Tyrrhenian region: Significance of carbonated pelitic vs. pelitic sediment recycling at destructive plate margins. Lithos 113, 213-227.
Brandon, A. D. & Draper, D. S. (1996). Constraints on the origin of the oxidation state of mantle overlying subduction zones: an example from Simcoe,Washington, USA. Geochimica et Cosmochimica Acta 60, 1739-1749. (doi:10.1016/0016-7037(96)00056-7)
Benciolini N and Poli S. (1993) The lower continental crust in the Tonale Nappe (Upper Austroaline, Ultental): new petrological constraints. Terra Nova 5(1), 398.
Beyer, E.E. Griffin, W.L., O'reilly, S.Y., 2006. Transformation of Archaean Lithospheric Mantle by Refertilization: Evidence from Exposed Peridotites in the Western Gneiss Region, Norway. Journal of Petrology 47, 1611 - 1636.
Bodinier JL, Vasseur G, Vernieres J, Dupuy C, Fabries J (1990) Mechanisms of mantle metasomatism: geochemical evidence from the Lherz orogenic peridotite. J Petrol, 31, 597-628.
Bondi M, De Francesco AM, Morten L (1992) – Major elements, 3d transition elements, Cu and Sr geochemistry of peridotitic rocks within the Austridic crystalline basement, Nonsberg area, Northern Italy. In: “Contributions to the Geology of Italy with Special Regard to the Paleozoic Basements”, Carmignani L. and Sassi F.P. (Eds.), IGCP Newsletter, 5, 229-235.
Braga R, Massonne H-J, Morten L, 2007. An early metamorphic stage for the Variscan Ulten Zone gneiss (NE Italy): evidence from mineral inclusions in kyanite. Mineralogical Magazine, 71, 691-702. (doi:10.1180/minmag.2007.071.6.691)
Braga R, Massonne, H-J 2008. Mineralogy of inclusions in zircon from high-pressure crustal rocks from the Ulten Zone, Italian Alps. Periodico di Mineralogia, 77, 43-64.
Brenneis P, 1971 Zur Geochemie und Genese der Ultramafitite im Bergzug südlich des Ultentales, Südtirol. Unpublished thesis, Universität Saarbrücken.
Brueckner, H.K., 1998. Sinking intrusion model for the emplacement of garnet-bearing peridotites into continent collision orogens. Geology 26, 631–634.
Brueckner, H. K., Medaris, L. G., 2000. A general model for the intrusion and evolution of ‘mantle’ garnet peridotites in highpressure and ultra-high-pressure metamorphic terranes. Journal of Metamorphic Geology 18, 123–133.
Brueckner, H.K., Carswell, D.A., and Griffin, W.L. 2002. Paleozoic diamonds within a Precambrian peridotite lens in UHP gneisses of the Norwegian Caledonides. Earth and Planetary Science Letters 203, 805–816.
Canil, D., 1990. Experimental study bearing on the absence of carbonate in mantle derived xenoliths. Geology 18, 1011–1013.
Carswell, D.A., Van Roermund, H.L.M., 2005. On multi-phase mineral inclusions associated with microdiamond formation in mantle-derived peridotite lens at Bardane on Fjortoft, west Norway. Eur. J. Mineral. 17, 31–42.
Connolly, J.A.D. (1990). Multivariable phase diagrams: an algorithm based on generalized thermodynamics. American Journal of Science 290, 666-718.
Connolly, J.A.D., 1995. Phase diagram methods for graphitic rocks and application to the system C-O-H-FeO-TiO2-SiO2. Contrib. Mineral. Petrol. 119, 94–116.
Connolly, J.A.D. & Cesare, B. (1993). C-O-H-S fluid composition and oxygen fugacity in graphitic metapelites. Journal of Metamorphic Geology 11, 379-388. (doi:10.1111/j.1525-1314.1993.tb00155.x)
Conticelli S., D’Antonio M., Pinarelli L, Civetta L., 2002. Source contamination and mantle heterogeneity in the genesis of Italian potassic and ultrapotassic volcanic rocks: Sr–Nd–Pb isotope data from Roman Province and Southern Tuscany. Mineral Petetrol 74, 1438-1168
Dal Piaz GV, (1993). Evolution of Austroalpine and Uper Penninic basement in the northeastern Alps from Variscan convergence to post-Variscan extension. In von Raumer JF, Neubauer F (eds) The Pre-Mosozoic Geology in the Alps. Springer, Berlin, 327-343.
Del Moro, A., Martin, S., and Prosser, G., 1999, Migmatites of the Ulten Zone (NE Italy), a record of melt transfer in deep crust: Journal of Petrology, v. 40, p. 1803-1826. (doi:10.1093/petrology/40.12.1803)
Demény, A., Vennemann, T.W., Hegner, E., Nagy, G., Milton, J.A., Embey-Isztin, A., Homonnay, Z., Dobosi, G.B. 2004. Trace element and C–O–Sr–Nd isotope evidence for subduction-related carbonate–silicate melts in mantle xenoliths (Pannonian Basin, Hungary). Lithos 75, 89-113
Dobrzhinetskaya, L.F., Eide, E.A., Larsen, R.B., Sturt, B.A., Tronnes, R.G., Smith, D.C., Taylor, W.R., Posukhova, T.V. 1995. Microdiamond in high-grade metamorphic rocks of the Western Gneiss region, Norway. Geology 23, 597–600.
D'Orazio M., Innocenti F., Tonarini S., Doglioni C., 2007 Carbonatites in a subduction system: The Pleistocene alvikites from Mt. Vulture (southern Italy). Lithos 98, 313-334.
Ducea, M.N., Saleeby, J., Morrison, J., Valencia, V.A. 2005. Subducted carbonates, metasomatism of mantle wedges, and possible connections to diamond formation: an example from California. American Mineralogist 90, 864-870. (doi:10.2138/am.2005.1670)
Flügel H.V. (1990) Das vor Alpine Basement im Alpin-Mediterranen Belt - überblick und Problematik. Jahrb. Geol. Bundes., 133, 181-221.
Frezzotti ML., Peccerillo A, Panza G., 2009 Carbonate metasomatism and CO2 lithosphere–asthenosphere degassing beneath the Western Mediterranean: An integrated model arising from petrological and geophysical data. Chem Geol 262, 108-120.
Frost, D. J., McCammon, C. A. (2008).The redox state of the Earthâs mantle. Annual Review of Earth and Planetary Sciences 36, 389-420. (doi:10.1146/annurev.earth.36.031207.124322)
Fumagalli P, Poli S (2005) Experimentally determined phase relations in hydrous peridotites to 6.5 GPa and their consequences on the dynamics of subduction zones. J Petrol 46:555-578
Godard, G., Martin, S., Prosser, G., Kienast, J.R., Morten, L. 1996. Variscan migmatites, eclogites and garnet-peridotites of the Ulten zone, Eastern Austroalpine system. Tectonophysics 259, 313-341 (doi:10.1016/0040-1951(95)00145-X)
Gudmundsson, G., Wood, B. J. (1995). Experimental tests of garnet peridotite oxygen barometry. Contributions to Mineralogy and Petrology 119, 56-67 (doi:10.1007/BF00310717)
Hammer W, 1899 Olivinegesteine aus den Nonsberg, Sulzberg und Ultental. Zeitschr. F. Naturwiss., 72, 1-48.
Hauzenberger CA, Holler W, Hoinkes G, (1996) Transition from eclogite to amphibolite-facies metamorphism in the Austroalpine Ulten Zone. Mineral. Petrol., 58, 111-130. (doi:10.1007/BF01172092)
Herzberg C, Riccio L., Chiesa S, Fornoni A, Gatto GO, Gregnanin A, Piccirillo EM, Scolari A, 1977. Petrogenetic evolution of a spinel-garnet-lherzolite in the Austridic crystalline basement from Val Clapa (Alto Adige, northeastern Italy). Mem. Ist. Geol. Univ. Padova, 30, 3-28.
Höfer, H. E. & Brey, G. P. (2007). The iron oxidation state of garnet by electron microprobe: Its determination with the flank method combined with major-element analysis. American Mineralogist 92, 873-885.
Holland,T. J. B. & Powell, R. (1996). Thermodynamics of order-disorder in minerals. 2. Symmetric formalism applied to solid solutions. American Mineralogist 81, 1425-1437.
Holland,T. J. B. & Powell, R. (1998). An internally consistent thermodynamic data set for phases of petrological interest. Journal of Metamorphic Geology 16, 309-343. (doi:10.1111/j.1525-1314.1998.00140.x)
Holloway, J. R. & Reese, R. L. (1974). The generation of N2-CO2-H2O fluids for use in hydrothermal experimentation. I. Experimental method and equilibrium calculations in the C-O-H-N system. American Mineralogist 59, 587-597.
Ionov DA, Dupuy C, O'Reilly SY, Kopylova MG, Genshaft YS (1993) Carbonated peridotite xenoliths from Spitsbergen: implications for trace element signature of mantle carbonate metasomatism. Earth Planet Sci Lett 119:283-297 (doi:10.1016/0012-821X(93)90139-Z)
Ionov DA, O'Reilly SY, Genshaft YS, Kopylova MG (1996) Carbonate-bearing mantle peridotite xenoliths from Spitsbergen: phase relationships, mineral compositions and trace-element residence. Contrib Mineral Petrol 125:375-392 (doi:10.1007/s004100050229)
Lapen T.L., Medaris, L.G.Jr., Beard, B.L., Johnson, C.M., 2009. The Sandvik peridotite, Gurskøy.Three billion years of mantle evolution in the Baltica lithosphere. Lithos 109; 145-154. (doi:10.1016/j.lithos.2008.08.007)
Laurora, A., Mazzucchelli, M., Rivalenti, G., Vannucci, R., Zanetti, A., Barbieri, M.A., Cingolati, C.A. 2001. Metasomatism and melting in carbonated peridotite xenoliths from the mantle wedge: the Gobernador Gregores case (Southern Patagonia). Journal of Petrology 42, 69-87 (doi:10.1093/petrology/42.1.69)
Luth, R.W., 1999. Carbon and carbonates in the mantle. In: Fei, Y. (Ed.), Geochem. Soc. Spec. Publ. 297–316 pp.
Luth, R.W.,Virgo, D., Boyd, F. R. & Wood, B. J. (1990). Ferric iron in mantle-derived garnets; implications for thermobarometry and for the oxidation state of the mantle. Contributions to Mineralogy and Petrology 104, 56-72. (doi:10.1007/BF00310646)
Malaspina, N., Hermann, J., Scambelluri, M. & Compagnoni, R. (2006). Polyphase inclusions in garnet-orthopyroxenite (Dabie Shan, China) as monitors for metasomatism and fluid-related trace element transfer in subduction zone peridotite. Earth and Planetary Science Letters 249, 173-187. (doi:10.1016/j.epsl.2006.07.017)
Malaspina, N., Hermann, J., Scambelluri, M., 2009a. Fluid/mineral interaction in UHP garnet peridotite. Lithos 107, 38–52.
Malaspina, N., Poli, S., Fumagalli, P., 2009b. The oxidation state of metasomatized mantle wedge: insights from C–O–H-bearing garnet peridotite. J. Petrol. 50, 1533–1552.
Malaspina N., Scambelluri M., Poli S., van Roermund H.L.M, Langenhorst F. (2010): Silicate-rich aqueous fluids sources for diamond crystallisation in deep mantle wedge. EGU General Assembly 2010, Vienna, 03-06 Maggio 2010. Geophysical Research Abstracts 12, 8083.
Marocchi M, Hermann J, Morten L (2007) Evidence for multi-stage metasomatism of chlorite-amphibole peridotites (Ulten Zone, Italy): constraints from trace element compositions of hydrous phases. Lithos 99:85-104 (doi:10.1016/j.lithos.2007.05.010)
Marocchi M, Hermann J, Tropper P, Bargossi GM, Mair V, 2010. Amphibole and phlogopite in âhybridâ metasomatic bands monitor trace element transfer at the interface between felsic and ultramafic rocks (Eastern Alps, Italy). Lithos, in press. (doi:10.1016/j.lithos.2010.02.011)
Martin S, Godard G, Prosser G, Schiavo A, Bernoulli D, Ranalli G (1998) Evolution of the deep crust at the junction Austroalpine/Southalpine: the Tonale Nappe. Mem. Sci. Geol., 50, 3-50.
Martin S, Prosser G, Godard G, Kienast JR, Morten L, (1994) – Tectono-metamorphic evolution of the high-grade gneisses, kyanite-migmatites and spinel-to-garnet peridotites of the Ulten zone (Eastern austroalpine, Italy). Per. Mineral., 63, 1-8.
Maury, R.C., Defant, M.J., Joron, J.-L., 1992. Metasomatism of the sub-arc mantle inferred from trace elements in Philippine xenoliths. Nature 360, 661-663. (doi:10.1038/360661a0)
McDonough, W.F., Sun, S.S. 1995. The composition of the Earth. Chemical Geology 120, 223-253 (doi:10.1016/0009-2541(94)00140-4)
McInnes, B.I.A., Cameron, E.M. 1994. Carbonated, alkaline hybridizing melts from a sub-arc environment-mantle wedge samples from the Tabar-Lihir-Tanga-Feni arc, Papua New Guinea. Earth and Planetary Science Letters 122, 125-141 (doi:10.1016/0012-821X(94)90055-8)
Morten L, Bargossi GM, Landini Bargossi F, (1976) Notizie preliminari sulle metamorfiti della Val di Rumo, Val di Non, Trento. Miner. Petrogr. Acta, 21, 137-144.
Morten L, Nimis P, Rampone E, 2004. Records of mantle–crust exchange processes during continental subduction–exhumation in the Nonsberg–Ultental garnet peridotites (Eastern Alps). A review. Per. Mineral., 73, 119-129.
Morten L, Obata M (1983) Possible high-temperature origin of pyroxenite lenses within garnet peridotite, Northern Italy. Bulletin de Mineralogie 106 : 775-780.
Morten L, Obata M (1990) Rare earth abundances in the eastern Alpine peridotites, Nonsberg area Northern Italy. Eur. J.. Mineral. 2: 643-653.
Morten, L. & Trommsdorff, V. (2003). Metamorphism and textures of dry and hydrous garnet peridotites. In: Carswell, D. A. & Compagnoni, R. (eds) Ultrahigh Pressure Metamorphism. EMU Notes in Mineralogy 5, 443-466.
Mposkos, E.D., Kostopoulos, D.K. 2001. Diamond, former coesite and supersilicic garnet in metasedimentary rocks from the Greek Rhodope: A new ultrahigh-pressure metamorphic evidence established: Earth and Planetary Science Letters 192, 497–506
Neubauer F, Von Raumer JF (1993) The Alpine basement – Linkage between the Variscides and East-Mediterranean mountain belts. In: “The Pre-Mesozoic Geology in the Alps”, von Raumer J.F. and Neubauer F. (Eds.), Springer, Berlin, 641-661.
Nimis, P., Morten, L. 2000. P-T evolution of 'crustal' garnet peridotites and included pyroxenites from Nonsberg area (Upper Austroalpine), NE Italy: from the wedge to the slab. Journal of Geodynamics 30, 93-115 (doi:10.1016/S0264-3707(99)00029-0)
Obata, M., Morten, L. 1987. Transformation of spinel lherzolite to garnet lherzolite in ultramafic lenses of the Austridic crystalline complex, Northern Italy. Journal of Petrology 28, 599-623.
Parkinson, I. J., Arculus, R. J. (1999). The redox state of subduction zones: Insights from arc-peridotites. Chemical Geology 160, 409-423. (doi:10.1016/S0009-2541(99)00110-2)
Peslier, A. H., Luhr, J. F. & Post, J. (2002). Low water contents in pyroxenes from spinel peridotites of the oxidized, sub-arc mantle wedge. Earth and Planetary Science Letters 201, 69-86. (doi:10.1016/S0012-821X(02)00663-5)
Petrini R, Morten L (1993) Nd-isotopic evidence of enriched lithospheric domains: an example from the Nonsberg area, eastern Alps. Terra Abstract supplement to Terra Nova 4:19-20
Rampone E, Morten L (2001) Records of crustal metasomatism in the garnet peridotites of the Ulten zone (Upper Austroalpine, Eastern Alps). Journal of Petrology 42, 207-219 (doi:10.1093/petrology/42.1.207)
Ranalli G, Martin S, Mahatsente R (2005) Continental subduction and exhumation: an example from the Ulten Unit, Tonale Nappe, Eastern Austroalpine. In: Gapais D, Brun JP, Cobbold PR (eds) Deformation mechanisms, rheology and tectonics: from minerals to the lithosphere, vol 243. Geological Society of London. Special Publications, London, pp 159–174
Rost F, Brenneis P, 1978. Die Ultramafitite im Bergzug südlich des Ultentales, Provinz Alto Adige (Oberitalien). Tschermaks Min. Petr. Mitt., 25, 257-286. (doi:10.1007/BF01180232)
Sandberger F, 1866. Über Olivinfels and die in demselben vorkommende Mineralien. Neues Jahrb. F. Min., 385 pp.
Sapienza, G.T., Scambelluri, M., Braga, R., 2009. Dolomite-bearing orogenic garnet peridotites witness fluid-mediated carbon recycling in a mantle wedge (Ulten Zone, Eastern Alps, Italy). Contributions to Mineralogy and Petrology 158, 401-420. (doi:10.1007/s00410-009-0389-2)
Scambelluri, M., Philippot, P. (2001). Deep fluids in subduction zones. Lithos 55, 213-227. (doi:10.1016/S0024-4937(00)00046-3)
Scambelluri, M., Hermann, J., Morten, L., Rampone, E. 2006. Melt- versus fluid-induced metasomatism in spineol to garnet wedge peridotites (Ulten Zone, Eastern Italian Alps): clues from trace element and Li abundances. Contributions to Mineralogy and Petrology 151, 372-394 (doi:10.1007/s00410-006-0064-9)
Scambelluri, M., Pettke, T., Van Roermund, H.L.M., 2008. Majoritic garnets monitor deep subduction fluid flow and mantle dynamics. Geology 36, 59-62 (doi:10.1130/G24056A.1)
Schiano, P., Clocchiatti, R., Shimizu, N., Maury, R.C-, Jochum, K.P., Hofmannm A.W. 1995. Hydrous, silica-rich melts in the subarc mantle and their relationships with erupted arc lavas. Nature 377:595–600
Sobolev, N.V., Shatsky, V.S., 1990. Diamond inclusions in garnets from metamorphic rocks. Nature 343, 742–746.
Spengler, D., Van Roermund, H.L.M., Drury, M.R., Ottolini, L., Mason, P.D., and Davies, G.R., 2006, Deep origin and hot melting of an Archean orogenic peridotite massif in Norway: Nature 440, p. 913-917
Spengler, D., Brueckner, H.K., Van Roerrmund, H.L.M., Drury, M.R., Mason, P.D. 2009. Long-lived, cold burial of Baltica to 200 km depth. Earth and Planetary Science Letters, 281, 27-35 (doi:10.1016/j.epsl.2009.02.001)
Spengler, D., Brueckner, H.K., Van Roerrmund, H.L.M., Drury, M.R., Mason, P.D. 2009. Long-lived, cold burial of Baltica to 200 km depth. Earth and Planetary Science Letters, 281, 27-35
Stache G, 1880 Über das Vorkommen von Olivingesteine in Südtirol. VErhandl. Geol. Reichsanst., p. 287.
Stache G, 1881 Neuen Daten über das Vorkommen von Olivingesteine im Sulzberg, Tltentaler Gebirgszug. Verhandl d. Geol. R. A. Wien, p. 296.
Susini S, Martin S, (1996). Microstrutture nelle peridotiti della Serie d'Ultimo (Austroalpino superiore, Alpi orientali). Atti Tic. Sc. Terra, 4, 47-63.
Szabó, Cs., Bodnar, R.J., Sobolev, A.V., 1996. Metasomatism associated with subduction-related, volatile-rich silicate melt in the upper mantle beneath the Nógrád-Gömör volcanic field, northern Hungary/southern Slovakia: evidence from silicate melt inclusions. Eur. J. Mineral. 8, 881-899.
Thöni M (1981). Degree and evolution of the Alpine metamorphism in the Austroalpine Unit W of the Hohe Tauern in the light of K/Ar and Rb/Sr age determinations in micas. Jb. Geol. Bundesanst., 124, 111-174.
Trial, A.F., Rudnick, R.L., Ashwal, L.D., Henry, D..J., Bergman, S.C. 1984. Fluid inclusions in mantle xenoliths from Ichinomegata, Japan (Abstr.). EOS 65, p 306
Tumiati, S., 2002. Le peridotiti a granato di Cima Vedetta Alta (Val d’Ultimo, Alto Adige). Assetto geologico, caratteri mineralogici e geochimici. Graduate thesis, Università degli Studi di Padova, Padova, Italy, 229 pp.
Tumiati S, Martin S, (2003) – Garnet-peridotite in the Italian Eastern Alps: 150 years of discoveries. Mem. Sci. Geol., 55, 31-46.
Tumiati, S., Godard, G., Martin, S., Nims, P., Mair, V., Boyer, B., 2005. Dissakisite-(La) from the Ulten zone peridotite (Italian Eastern Alps): A new end-member of the epidote group. Am Miner., 90, 1177-1185. (doi:10.2138/am.2005.1710)
Tumiati S, Godard G, Martin S, Klötzli U, Monticelli D (2007) Fluid-controlled crustal metasomatism within a high-pressure subducted mélange (Mt. Hochwart, Eastern Italian Alps). Lithos 94, 148-167.
Tumiati, S., Fumagalli, P., Poli, S., 2009. Carbonate-silicate equilibria in upper-mantle peridotites saturated with C-O-H fluids. Geochim. Cosmochim. Acta 73, A1352.
Tumiati, S., Thoni, M., Nimis, P., Martin, S., Mair, V., 2003. Mantle-crust interactions during Variscan subduction in the Eastern Alps (Nonsberg-Ulten zone): geochronology and new petrological constraints. Earth and Planetary Science Letters 210, 509-526 (doi:10.1016/S0012-821X(03)00161-4)
Van Roermund, H.L.M., Carswell, D.A., Drury, M.R., Heijboer, T.C., 2002. Microdiamonds in a megacrystic garnet websterite pod from Bardane on the island of Fjortoft, western Norway: evidence for diamond formation in mantle rocks during deep continental subduction. Geology 30, 959–962.
Van Roermund, H.L.M., 2009a. Recent progress in Scandian UHPM in the northernmost domain of the Western Gneiss Complex, SW Norway: continental subduction down to 180-200 km. Journal of the Geological Society of London166, 739-751.
Van Roermund, H.L.M., 2009b. Mantle wedge garnet peridotites from the northernmost ultra-high pressure domain of the Western Gneiss Region, SW Norway. European Journal of Mineralogy21, 1085-1096. (doi:10.1127/0935-1221/2009/0021-1976)
Vidal, P.H., Dupuy, C., Maury, R., Richard, M., 1989. Mantle metasomatism above subduction zones: trace-element and radiogenic isotope characteristics of peridotite xenoliths from, Batan Island Philippines. Geology 17, 1115-1118. (doi:10.1130/0091-7613(1989)017<1115:MMASZT>2.3.CO;2)
Wallace, M.E., Green, D.H. 1988. An experimental determination of primary carbonatite magma composition. Nature 335, 343-345 (doi:10.1038/335343a0)
Watson, E.B., Brenan, J.M., and Baker, D.R., 1990, Distribution of fluids in the continental mantle, in Menzies, A., ed., Continental mantle. Oxford Monographs on Geology and Geophysics: Oxford, Oxford University Press, p. 111-125.
Woodland, A. B. & Peltonen, P. (1999). Ferric iron contents of garnet and clinopyroxene and estimated oxygen fugacities of peridotite xenoliths from the Eastern Finland Kimberlite Province. In: P. H. Nixon Volume, Proceedings of the 7th Kimberlite Conference. CapeTown: Red Roof Design, pp. 904-911.
Woodland, A. B., Koch, M. (2003). Variation in oxygen fugacity with depth in the upper mantle beneath the Kaapvaal craton, Southern Africa. Earth and Planetary Science Letters 214, 295-310. (doi:10.1016/S0012-821X(03)00379-0)
Woodland, A. B., Kornprobst, J. & Wood, B. J. (1992). Oxygen thermobarometry of orogenic lherzolite massifs. Journal of Petrology 33, 203-230.
Woodland, A. B., Kornprobst, J. & Tabitc, A. (2006). Ferric iron in orogenic lherzolite massifs and controls of oxygen fugacity in the upper mantle. Lithos 89, 222-241. (doi:10.1016/j.lithos.2005.12.014)
Workman RK. and Hart SR. (2005) Major and trace element composition of the depleted MORB mantle (DMM). Earth Planet Sci Lett 231, 53-72. (doi:10.1016/j.epsl.2004.12.005)
Ye, K., Cong, B., Ye, D., 2000. The possible subduction of continental crust to depths greater than 200 km. Nature 407, 734–736.
Ye, K., Song, Y.R., Chen,Y., Xu. H.J., Liu,J.B., Sun, B., 2009. Multistage metamorphism of orogenic garnet-lherzolite from Zhimafang, Sulu UHP terrane, E.China: Implications for mantle wedge convection during progressive oceanic and continental subduction. Lithos 109, 155-175. (doi:10.1016/j.lithos.2008.08.005)
Zanetti, A., Mazzucchelli, M., Rivalenti, G., and Vannucci, R., 1999, The Finero phlogopite-peridotite massif: an example of subduction-related metasomatism: Contributions to Mineralogy and Petrology, v. 134, p. 107-122. (doi:10.1007/s004100050472)
Zhang, R.Y., Liou, J. G.,Yang, J. S., Yui,T. F., 2000. Petrochemical constraints for dual origin of garnet peridotites from the Dabie-Sulu UHP terrane, eastern-central China. Journal of Metamorphic Geology 18, 149-166. (doi:10.1046/j.1525-1314.2000.00248.x)
Zhang, R.Y., Li, T., Rumble, D.,Yui, T. F., Li, L.,Yang, J. S., Pan,Y., Liou, J.G., 2007. Multiple metasomatism in Sulu ultrahigh-P garnet peridotite constrained by petrological and geochemical investigations. Journal of Metamorphic Geology 25, 149-264. (doi:10.1111/j.1525-1314.2006.00683.x)