- Berry RF (1981) Petrology of the Hili Manu lherzolite, East Timor. J Geol Soc Australia 28: 453–469
Google Scholar
- Bonatti E, Ottonello G, Hamlyn PR (1986) Peridotites from the island of Zabargad (St. John), Red Sea: Petrology and geochemistry. J Geophys Res 91: 599–631
Google Scholar
- Brown GM, Pinsent RH, Coisy P (1980) The petrology of spinel-peridotite xenoliths from the Massif Central, France. Am J Sci 280A: 471–496
Google Scholar
- Cawthorn RG (1975) The amphibole peridotite—metagabbro complex, Finero, Northern Italy. J Geol 83: 437–454
Google Scholar
- Dautria JM, Liotard JM, Cabanes N, Girod M, Briqueu L (1987) Amphibole-rich xenoliths and host alkali basalts: petrogenetic constraints and implications on the recent evolution of the upper mantle beneath Ahaggar (Central Sahara, Southern Algeria). Contrib Mineral Petrol 95: 133–144
Google Scholar
- Dawson JB, Smith JV (1982) Upper mantle amphiboles: a review. Mineral Mag 45: 35–46
Google Scholar
- Ernst WG (1978) Petrochemical study of lherzolitic rocks from the Western Alps. J Petrol 19: 341–392
Google Scholar
- Field SW, Haggerty SH, Erlank AJ (1989) Subcontinental metasomatism in the region of Jagersfontein, South Africa. In: IV International Kimberlite Conference. Australian J Earth Sci Spec Pub 14, pp 771–783
- Francis DM (1976) The origin of amphibole in lherzolite xenoliths from Nunivak Island, Alaska. J Petrol 17: 357–378
Google Scholar
- Frey FA (1970) Rare earth abundances in a high temperature peridotite intrusion. Geochim Cosmochim Acta 33: 1429–1447
Google Scholar
- —Green DH (1974) The mineralogy, geochemistry and origin of lherzolite inclusions in Victorian basanites. Geochim Cosmochim Acta 38: 1023–1059
Google Scholar
- —Prinz M (1978) Ultramafic inclusions from San Carlos, Arizona: Petrologic and geochemical data bearing on their petrogenesis. Earth Planet Sci Lett 38: 129–176
Google Scholar
- Girod M, Dautria JM, De Giovanni R (1981) A first insight into the constitution of the upper mantle under the Hoggar area (Southern Algeria): the lherzolite xenoliths in the alkali basalts. Contrib Mineral Petrol 77: 66–73
Google Scholar
- Green DH (1963) Alumina content of enstatite in a Venezuelan high temperature peridotite. Geol Soc Am Bull 74: 1397–1402
Google Scholar
- — (1964) The petrogenesis of the high-temperature peridotite intrusion in the Lizard area, Cornwall. J Petrol 5: 134–188
Google Scholar
- — (1970) Compositions of basaltic magmas as indicators of conditions of origin: application to oceanic volcanism. Royal Soc Philos Trans 268: 707–721
Google Scholar
- — (1973) Experimental melting studies on a modal upper mantle composition at high pressure under water-saturated and water-undersaturated conditions. Earth Planet Sci Lett 19: 37–55
Google Scholar
- —Ringwood AE (1967) The genesis of basaltic magmas. Contrib Mineral Petrol 15: 103–190
Google Scholar
- —Wallace ME (1988) Mantle metasomatism by ephemeral carbonatite melts. Nature 336: 459–462
Google Scholar
- Griffin WL (1973) Lherzolite nodules from the Fen alkaline complex, Norway. Contrib Mineral Petrol 38: 135–146
Google Scholar
- ——Wass SY, Hollis JD (1984) Ultramafic xenoliths from Bullenmerri and Gnotuk maars, Victoria: petrology of a subcontinental crust-mantle transition. J Petrol 25: 53–87
Google Scholar
- Henry DJ, Medaris LG (1980) Application of pyroxene and olivine-spinel geothermometers to spinel peridotites in Southwestern Oregon. Am J Sci 280A: 211–231
Google Scholar
- Hill RET, Boettcher AL (1970) Water in the earth's mantle: melting curves of basalt-water and basalt-water-carbon dioxide. Science 167: 980–982
Google Scholar
- Holloway JR (1973) The system pargasite-H2O-CO2: a model for melting of a hydrous mineral with a mixed-volatile fluid-1. Experimental results to 8 kbar. Geochim Cosmochim Acta 37: 651–666
Google Scholar
- Jaques AL, Green DH (1980) Anhydrous melting of peridotite at 0-15 kb pressure and the genesis of tholeiitic basalts. Contrib Mineral Petrol 73: 287–310
Google Scholar
- Kempton PD, Menzies MA, Dungan MA (1984) Petrography, petrology and geochemistry of xenoliths and megacrysts from the Geronimo volcanic field, southeastern Arizona. In:Kornprobst J (ed) Kimberlites: 2, the mantle and crust-mantle relationships. Devs. Petrology, vol 11B. Elsevier, Amsterdam, pp 71–74
Google Scholar
- —Dungan MA, Blanchard DP (1987) Petrology and geochemistry of xenolith-bearing alkalic basalts from the Geronimo Volcanic Field, south east Arizona, Evidence for polybaric fractionation and implications for mantle heterogeneity. In:Morris EM, Pasteris JD (ed) Mantle metasomatism and alkali magmatism. Geol Soc Am Spec Paper 215, pp 347–370
- Kushiro I (1970) Stability of amphibole and phlogopite in the upper mantle. Carnegie Inst Wash Yearbk 68: 245–247
Google Scholar
- Leavy BD, Hermes OD (1979) Mantle xenoliths from Southeastern New England. In:Boyd FR, Meyer HOA (ed) The Mantle Sample: Inclusions in Kimberlites and other Volcanics. Washington, pp 374–381
- Maaloe S, Aoki K (1977) The major element composition of the upper mantle estimated from the composition of lherzolites. Contrib Mineral Petrol 63: 161–173
Google Scholar
- Melson WG, Hart SR, Thompson G (1972) St. Paul's Rocks, equatorial Atlantic: petrogenesis, radiometric ages and implications on sea-floor spreading. Geol Soc Am Mem 132: 241–72
Google Scholar
- Mengel K, Green DH (1989) Stability of amphibole and phlogopite in metasomatized peridotite under water-saturated and water-undersaturated conditions. In: IV International Kimberlite Conference. Australian J Earth Sci Spec Pub 14, pp 571–581
- Menzies MA, Rogers N, Tindle A, Hawkesworth CJ (1987) Metasomatic and enrichment processes in lithospheric peridotites, an effect of asthenosphere-lithosphere interaction. In:Menzies MA, Hawkesworth CJ (ed) Mantle Metasomatism. Academic Press, London, pp 313–361
Google Scholar
- Merrill RB, Wyllie PJ (1975) Kaersutite and kaersutite eclogite from Kakanui, New Zealand-Water-excess and water-deficient melting to 30 kilobars. Geol Soc Am Bull 86: 555–570
Google Scholar
- Millhollen GL, Wyllie PJ (1974) Melting relations of brown-hornblende mylonite from St. Paul's rocks under water-saturated and water-undersaturated conditions to 30 kilobars. J Geology 82: 589–606
Google Scholar
- —Irving AJ, Wyllie PJ (1974) Melting interval of peridotite with 5.7 percent water to 30 kilobars. J Geology 82: 575–587
Google Scholar
- Neal CR (1988) The origin and composition of metasomatic fluids and amphiboles beneath Malaita, Solomon Islands. J Petrol 29: 149–180
Google Scholar
- Nickel KG, Green DH (1984) The nature of the uppermost mantle beneath Victoria, Australia as deduced from ultramafic xenoliths. In:Kornprobst J (ed) Kimberlites: 2, The mantle and crust-mantle relationships. Devs Petrology, vol 11A. Elsevier, Amsterdam, pp 161–178
Google Scholar
- Nixon PH (1987) Mantle Xenoliths. Wiley, New York, 844 pp
Google Scholar
- O'Reilly SY, Griffin WL (1988) Mantle metasomatism beneath western Victoria, Australia: 1. Metasomatic processes in Cr-diopside lherzolites. Geochim Cosmochim Acta 53: 433–447
Google Scholar
- Obata M (1980) The Ronda peridotite: garnet-spinel and plagioclase-lherzolite facies and the P-T trajectories of a high-temperature mantle intrusion. J Petrol 21: 533–572
Google Scholar
- ——Morten L (1987) Transformation of spinel lherzolite to garnet lherzolite in ultramafic lenses of the Austridic crystalline complex, northern Italy. J Petrol 28: 599–623
Google Scholar
- Oxburgh ER (1964) Petrological evidence for the presence of amphibole in the upper mantle and its petrogenetic and geophysical implications. Geol Mag 101: 1–19
Google Scholar
- Palme H, Nickel KG (1985) Ca/Al ratio and composition of the earth's upper mantle. Geochim Cosmochim Acta 49: 2123–2132
Google Scholar
- Press S, Witt G, Seck HA (1986) Spinel peridotite xenoliths from the Tariat Depression, Mongolia. 1: Major element chemistry and mineralogy of a primitive mantle xenolith suite. Geochim Cosmochim Acta 50: 2587–2600
Google Scholar
- Roden MK, Hart SR, Frey FA, Melson WG (1984) Sr, Nd, and Pb isotopic and REE geochemistry of St. Paul's Rocks: the metamorphic and metasomatic development of an alkali basalt mantle source. Contrib Mineral Petrol 85: 379–400
Google Scholar
- Seyler M, Mattson PH (1989) Petrology and thermal evolution of the Tinaquillo peridotite, Venezuela. J Geophys Res 94: 7629–7660
Google Scholar
- Stolz AJ, Davies GR (1988) Chemical and isotopic evidence from spinel lherzolite xenoliths for episodic metasomatism of the upper mantle beneath Southeast Australia. J Petrol Spec Lithosphere Issue, pp 303–330
- Takahashi E (1980) Thermal history of lherzolite xenoliths from the Ichinomegata Crater, Oga Peninsula, northeast Japan. Geochim Cosmochim Acta 44: 1643–1658
Google Scholar
- Taylor WR, Green DH (1988) Measurement of reduced peridotite-C-O-H solidus and implications for redox melting of the mantle. Nature 332: 349–352
Google Scholar
- Varne R (1970) Hornblende lherzolite and the upper mantle. Contrib Mineral Petrol 27: 45–51
Google Scholar
- Wallace ME, Green DH (1988) An experimental determination of primary carbonatite magma composition. Nature 335: 343–346
Google Scholar
- Wilkinson JFG, LeMaitre RW (1987) Upper mantle amphiboles and micas and TiO2, K20 and P205 abundances and (100Mg/Mg + Fe2+) ratios of common basalts and andesites: implications for modal mantle metasomatism and undepleted mantle compositions. J Petrol 28: 37–74
Google Scholar
- Wilshire HG, Neilson-Pike JE, Meyer CE, Schwarzman EC (1980) Amphibole-rich veins in lherzolite xenoliths, Dish Hill and Deadman Lake, California. Am J Sci 280A: 576–593
Google Scholar
- —— ——Trask NJ (1971) Structural and textural relationship of amphibole and phlogopite in peridotite inclusions, Dish Hill, California. Am Mineral 56: 240–255
Google Scholar
- Witt G, Seck HA (1987) Temperature history of sheared mantle xenoliths from the West Eifel, West Germany: evidence for mantle diapirism beneath the Rhenish Massif. J Petrol 28: 475–493
Google Scholar