Abbott, R.N. Jr and Draper, G. (2010) Comment on “Corundum-bearing garnet peridotites from northern Dominican Republic: a metamorphic product of an arc cumulate in the Caribbean subduction zone,” by Hattori et al. [Lithos 114 (2010) 437–450.. Lithos, 117, 322–326.
Arai, S. and Ishimaru, S. (2011) Zincian chromite inclusions in diamonds: possibility of deep recycling origin. Journal of Mineralogical and Petrological Sciences, 106, 85–90.
Barnes, S.J. (2000) Chromite in komatiites; II. Modification during greenschist to mid-amphibolite facies metamorphism. Journal of Petrology, 41, 387–409.
Barnes, S.J. and Roeder, P.L. (2001) The range of spinel compositions in terrestrial mafic and ultramafic rocks. Journal of Petrology, 42, 2279–2302.
Beeson, M.H. and Jackson, E.D. (1969) Chemical composition of altered chromites from the Stillwater complex, Montana. American Mineralogist, 74, 1084–1100.
Bliss, N.W. and Maclean, W.H. (1975) The paragenesis of zoned chromite from central Manitoba. Geochimica et Cosmochimica Acta, 39, 973–990.
Caruso, L.J. and Chernosky, J.V. Jr (1979) The stability of lizardite. The Canadian Mineralogist, 17, 757–769.
Cerny, P. (1968) Comments on serpentinization and related metasomatism. American Mineralogist, 53, 1377–1385.
De Hoog, J.C.M., Gall, L. and Cornell, D.H. (2010) Trace-element geochemistry of mantle olivine and application to mantle petrogenesis and geothermobarometry Chemical Geology, 270, 196–215.
De Hoog, J.C.M. (2012) Comments on “Garnet-bearing ultramafic rocks from the Dominican Republic: fossil mantle plume fragments in an ultra high pressure oceanic complex?” by Gazel et al. [Lithos, 125, 393–404. Lithos, 134/135, 330–334.
Deer, W.A., Howie, R.A. and Zussman, J. (1992) An Introduction to the Rock-Forming Minerals, second edition. Pearson Prentice Hall, Harlow, UK, 696 pp.
Dick, H.J.B. and Bullen, T. (1984) Chromian spinel as a petrogenetic indicator in abyssal and alpine-type peridotites and spatially associated lavas. Contributions to Mineralogy and Petrology, 86, 54–76.
Draper, G. and Nagle, F. (1991) Geology, structure, and tectonic development of the Rio San Juan Complex, northern Dominican Republic. Special Paper – Geological Society of America, 262, 77–95.
Evans, B.W. (1977) Metamorphism of alpine peridotite and serpentinite. Annual Review of Earth and Planetary Sciences, 5, 397–447.
Evans, B.W. (2004) The serpentinite multisystem revisited; chrysotile is metastable. International Geology Review, 46, 479–506.
Evans, B.W. and Frost, B.R. (1975) Chrome-spinel in progressive metamorphism; a preliminary analysis. Geochimica et Cosmochimica Acta, 39, 959–972.
Frost, B.R. (1975) Contact metamorphism of serpentinite, Chloritic backwall, and rodingite at Paddy-Go- Easy Pass, Central Cascades, Washington. Journal of Petrology, 16, 272–313.
Frost, B.R. (1985) On the stability of sulfides, oxides and native metals in serpentinite. Journal of Petrology, 26, 31–63.
Gazel, E., Abbott, R.N. Jr and Draper, G. (2011) Garnetbearing ultramafic rocks from the Dominican Republic: fossil mantle plume fragments in an ultra high pressure oceanic complex? Lithos, 125, 393–404.
Gazel, E., Abbott, R.N. Jr and Draper, G. (2012) Reply to comment on “Garnet-bearing ultramafic rocks from the Dominican Republic: fossil mantle plume fragments in an ultra high pressure oceanic complex?” by Jan C.M. De Hoog. Lithos, 134–135. 335–339.
Gerya, T.V., Connolly, J.A.D., Yuen, D.A., Gorczyk, W. and Capel, A.M. (2006) Seismic implications of mantle wedge plumes. Physics of Earth Planetary Interiors, 156, 59–74.
Groves, D.I., Barrett, F.M., Brotherton, R.H., de Villiers, J.P.R. and Cawthorn, P.A. (1983) Exploration significance of chrome-spinels in mineralized ultramafic rocks and nickel-copper ores. Special Publication – Geological Society South Africa, 7, 21–30.
González-Jiménez, J.M., Kerestedjian, T., Proenza, J.A. and Gervilla, F. (2009) Metamorphism on chromite ores from the Dobromirtsi Ultramafic Massif, Rhodope Mountains (SE Bulgaria). Geologica Acta, 7, 413–429.
Gorczyk, W., Guillot S., Gerya, T.V. and Hattori, K.H. (2007) Asthenospheric upwelling, oceanic slab retreat and exhumation of UHP mantle rocks: insights from Greater Antilles. Geophysical Research Letters, 34, http://dx.doi.org/10.1029/ 2007GL031059.
Guillot, S., Hattori, K.H., de Sigoyer, J., Naegler, T. and Auzende, A.L. (2001) Evidence of hydration of the mantle wedge and its role in the exhumation of eclogites. Earth and Planetary Science Letters, 193, 115–127.
Haggerty, S.E. (1991) Oxide textures – a mini-altas. Pp. 129–137. in: Oxide Minerals: Petrological and Magnetic Significance (D.H. Lindsley, editor) Reviews in Mineralogy, 25. The Mineralogical Society of America, Washington DC.
Hattori, K.H. and Guillot, S. (2007) Geochemical character of serpentinites associated with high- to ultrahigh-pressure metamorphic rocks in the Alps, Cuba, and the Himalayas: recycling of elements in subduction zones. Geochemistry Geophysics Geosystems, 8, ht tp://dx.doi.org/10.1029/ 2007GC001594.
Hattori, K.H., Guillot, S., Saumur, B.M., Tubrett, M.N., Vidal, O. and Morfin, S. (2010a) Corundum-bearing garnet peridotite from northern Dominican Republic: a metamorphic product of an arc cumulate in the Caribbean subduction zone. Lithos, 114, 437–450.
Hattori, K.H., Guillot, S., Tubrett, M.N., Saumur, B.-M., Vidal, O. and Morfin, S. (2010b) Reply to comment on “Corundum-bearing garnet peridotites from northern Dominican Republic: a metamorphic product of an arc cumulate in the Caribbean subduction zone” by Richard N. Abbott and Grenville Draper. Lithos, 117, 327–330.
Irvine, T.N. (1967) Chromian spinel as a petrogenetic indicator; Part 2. Petrologic applications. Canadian Journal of Earth Sciences, 4, 71–103.
Ishii, T., Robinson, P.T., Maekawa, H. and Fiske, L. (1992) Petrological studies of peridotites from diapiric serpentinite seamounts in the Izu- Ogasawara-Mariana forearc, Leg 125. Proceedings of the Ocean Drilling Program Scientific Results, 125, 445–485.
Iyer, K., Austrheim, H., John, T. and Jamtveit, B. (2008) Serpentinization of the oceanic lithosphere and some geochemical consequences: constraints from the Leka ophiolite complex, Norway. Chemical Geology, 249, 66–90.
Johan, Z. and Ohnenstetter, D. (2010) Zincochromite from the Guaniamo River diamondiferous placers, Venezuela: evidence of its metasomatic origin. The Canadian Mineralogist, 48, 361–374.
Kelemen, P.B., Joyce, D.B., Webster, J.D. and Holloway, J.R. (1990) Reaction between ultramafic rock and fractionating basaltic magma II. Experimental investigation of reaction between olivine tholeiite and harzburgite at 1150–1050. C and 5 kb. Journal of Petrology, 31, 99–134.
Kimball, K.L. (1990) Effects of hydrothermal alteration on the compositions of chromian spinels. Contributions to Mineralogy and Petrology, 105, 337–346.
Krebs, M., Maresch, W.V., Schertl, H.P., Münker, C., Baumann, A.
Draper, G., Idleman, B. and Trapp, E. (2008) The dynamics of intra-oceanic subduction zones: a direct comparison between fossil petrological evidence (Rio San Juan Complex, Dominican Republic) and numerical simulation. Lithos, 103, 106–137.
Lewis, J.F., Draper, G., Bourdon, C., Bowin, C., Mattson, P.O., Maurrasse, F., Nagle, F. and Pardo, G. (1990) Geology and tectonic evolution of the northern Caribbean margin. Pp. 77–150. in: The Caribbean Region (G. Dengo and J.E. Case, editors). The Geology of North America, volume H. Geological Society of America, Boulder, Colorado, U.A.
Liipo, J.P., Vuollo, J.I., Nykanen, V.M. and Piirainen, T.A. (1995a) Zoned Zn-rich chromite from the Naataniemi serpentinite massif, Kuhmo greenstone belt, Finland. The Canadian Mineralogist, 33, 537–545.
Liipo, J., Vuollo, J., Nykanen, V., Piirainen, T., Pekkarinen, L. and Tuokko, I. (1995b) Chromites from the early Proterozoic Outokumpu-Jormua ophiolite belt; a comparison with chromites from Mesozoic ophiolites. Lithos, 36, 15–27.
Mann, P. and Gordon, M.B. (1996) Tectonic uplift and exhumation of blueschist belts along transpressional strike-slip fault zones. Geophysical Monograph, 96, 143–154.
Mallmann, G. and O’Neill (2009) The crystal/melt partitioning of V during mantle melting as a function of oxygen fugacity compared with some other elements (Al,, P,, Ca,, Sc,, Ti,, Cr,, Fe,, Ga,, Y,, Zr,, and Nb). Journal of Petrology, 50, 1765–1794.
Morgan, Z. and Liang, Y. (2003) An experimental numerical study of the kinetics of harzburgite reactive dissolution with application to dunite dike formation. Earth and Planetary Science Letters, 214, 59–74.
Mcdonough, W.F. and Sun, S.S. (1995) The composition of the Earth. Chemical Geology, 120, 223–253.
Mellini, M., Rumori, C. and Viti, C. (2005) Hydrothermally reset magmatic spinels in retrograde serpentinites: formation of “ferritchromit” rims and chlorite aureoles. Contributions to Mineralogy and Petrology, 149, 266–275.
Merlini, A., Greico, G. and Diella, V. (2009) Ferritchromite and chromian-chlorite in mélange hosted Kalkan chromitite (Southern Urals, Russia). American Mineralogist, 94, 1459–1467.
Niu, Y. (2004) Bulk-rock major and trace element compositions of abyssal peridotites: implications for mantle melting, melt extraction and post-melting processes beneath mid-ocean ridges. Journal of Petrology, 45, 2423–2458.
O’Hanley, D.S. (1996) Serpentinites: Recorders of Tectonic and Petrological History. Oxford Monographs on Geology and Geophysics, 34. Oxford University Press, New York.
Ohara, Y. and Ishii, T. (1998) Peridotites from the southern Mariana forearc: heterogeneous fluid supply in the mantle wedge. Island Arc, 7, 541–558.
Onyeagocha, A.C. (1974) Alteration of chromite from the Twin Sisters Dunite, Washington. American Mineralogist, 59, 608–612.
Paktunca, A.D. and Cabrib, L.J. (1995) proton- and electron-microprobe study of gallium, nickel and zinc distribution in chromian spinel. Lithos, 35, 261–282.
Parkinson, I.J. and Pearce, J.A. (1998) Peridotites from the Izu-Bonin-Mariana forearc (ODP Leg 125): evidence for mantle melting and melt-mantle interaction in a supra-subduction zone setting. Journal of Petrology, 39, 1577–1618.
Parkinson, I.J. and Arculus, R.J. (1999) The redox state of subduction zones: insights from arc-peridotites. Chemical Geology, 160, 409–423.
Peacock, S.M. (1996) Thermal and petrologic structure of subduction zones. Geophysical Monographs (Subduction Top to Bottom), 96, 119–133.
Pindell, J. and Draper, G. (1991) Geologic development of the Puerto Plata region, northern Dominican Republic. Pp. 97–114. in: Geological and tectonic development of the North American-Caribbean plate boundary in Hispaniola (Mann, P., Draper, G. and Lewis, J.F., editors). Geological Society of America, Special Paper 262. Geological Society of America, Boulder, Colorado, U.A.
Pindell, J., Maresch, W.V., Martens, U. and Stanek, K. (2012) The Greater Antillean Arc: Early Cretaceous origin and proposed relationship to Central American subduction mélanges: implications for models of Caribbean evolution. International Geology Review, 54, 131–143.
Pinsent, R.H. and Hirst, D.M. (1977) The metamorphism of the Blue River ultramafic body, Cassiar, British Columbia, Canada. Journal of Petrology, 18, 567–594.
Richter, K., Sutton, S.R., Newville, M., Le, L., Schwandt, C.S., Uchida, H., Lavina, B. and Downs, R.T. (2006) An experimental study of the oxidation state of vanadium in spinel and basaltic melt with implications for the origin of planetary basalt. American Mineralogist, 91, 1643–1656.
Ryan, C.G., Griffin, W.L. and Pearson, N.J. (1996) Garnet geotherms: pressure–temperature data from Cr-pyrope garnet xenocrysts in volcanic rocks. Journal of Geophysical Research, 101, 5611–5625.
Säntti, J., Kontinen, A., Sorjonen-Ward, P., Johanson, B. and Pakkanen, L. (2006) Metamorphism and chromite in serpentinized and carbonate-silicaaltered peridotites of the Paleoproterozoic Outokumpu-Jormua ophiolite belt, Eastern Finland. International Geology Review, 48, 494–546.
Saumur, B.M., Hattori, K.H. and Guillot, S. (2010) Contrasting origins of serpentinites in a subduction complex, northern Dominican Republic. Geological Society of America Bulletin, 122, 292–304.
Saumur, B.M., Hattori, K.H., Stern F. and Jackson S. (2011) Major and trace element compositions of Crspinel from serpentinized forearc mantle peridotites: insights on geochemical processes during melt extraction and metamorphism. Geological Society of America Abstracts with Programs, 43, 588.
Schertl, H.P., Maresch, W.V., Stanek, K., Hertwig, A., Krebs, M., Baese, R. and Sergeev, S.S. (2012) New occurrences of jadeitite, jadeite quartzite and jadeitelawsonite quartzite in the Dominican Republic, Hispaniola: petrological and geochronological overview. European Journal of Mineralogy, 24, 199–216.
Schwartz, S., Guillot, S., Reynard, B., Lafay, R., Debret, B., Nicollet, C., Lanari, P. and Auzende, A.L. (2013) Pressure-temperature estimates of the lizardite/ antigorite transition in high pressure serpentinites. Lithos, http://dx.doi.org/10.1016/j.lithos. 2012.11.023
Spangenberg, K. (1943) Die chromitlaagerstatte von tampedal in Zobten. Zeitschrift für Praktische Geologie, 51, 13–35.
Standish, J.J., Hart, S.R., Blusztajn, J., Dick, H.J.B. and Lee, K.L. (2002) Abyssal peridotite osmium isotopic compositions from Cr-spinel. Geochemistry Geophysics Geosystems, 3, 1–24.
Suita, M.T. and Strieder, J.A. (1996) Cr-spinels from Brazilian mafic-ultramafic complexes: metamorphic modifications. International Geology Review, 38, 245–267.
Tsujimori, T., Kojima, S., Takeuchi, M. and Tsukada, K. (2004) Origin of serpentinites in the Omi serpentinite melange (Hida Mountains, Japan) deduced from zoned Cr-spinel. Journal of the Geological Society of Japan, 110, 591–597.
Ulmer, G.C. (1974) Alteration of Chromite During Serpentinization in the Pennsylvania-Maryland District. American Mineralogist, 59, 1236–1241.
Wang, J., Hattori, K.H., Li, J.P. and Stern, C. (2008) Oxidation state of Paleozoic subcontinental lithospheric mantle below the Pali Aike. Lithos, 105, 98–110.
Wood, B.J. and Virgo, D. (1989) Upper mantle oxidation state: ferric iron contents of lherzolite spinels by 57Fe Mossbauer spectroscopy and resultant oxygen fugacities. Geochimica and Cosmochimica Acta, 53, 1277–1291.
Wylie, A.G., Candela, P.A. and Burke, T.M. (1987) Compositional zoning in unusual Zn-rich chromite from the Sykesville District of Maryland and its bearing on the origin of “ferritchromit”. American Mineralogist, 72, 413–422.
Zack, T., Rivers, T., Brumm, R. and Kronz, A. (2004) Cold subduction of oceanic crust: Implications from a lawsonite eclogite from the Dominican Republic. European Journal of Mineralogy, 16, 909–916.