Tornos, Fernando, Peter, Jan M., Allen, Rodney, Conde, Carmen (2015) Controls on the siting and style of volcanogenic massive sulphide deposits. Ore Geology Reviews, 68. 142-163 doi:10.1016/j.oregeorev.2015.01.003

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	Aerden, Domingo G.A.M (1991) Foliation-boudinage control on the formation of the Rosebery PbZn orebody, Tasmania. Journal of Structural Geology, 13 (7). 759-775 doi:10.1016/0191-8141(91)90002-z
	AERDEN, D. G. A. M. (1994) Microstructural timing of the Rosebery massive sulphides, Tasmania: evidence for a metamorphic origin through mobilization of disseminated base metals. Journal of Metamorphic Geology, 12 (4) 505-522 doi:10.1111/j.1525-1314.1994.tb00039.x
	Agnew, Michael W., Large, Ross R., Bull, Stuart W. (2005) Lewis Ponds, a hybrid carbonate and volcanic-hosted polymetallic massive sulphide deposit, New South Wales, Australia. Mineralium Deposita, 39 (8) 822-844 doi:10.1007/s00126-004-0456-6
	Aharon, Paul, Roberts, Harry H., Snelling, Ron (1992) Submarine venting of brines in the deep Gulf of Mexico: Observations and geochemistry. Geology, 20 (6) 483 doi:10.1130/0091-7613(1992)020<0483:svobit>2.3.co;2
	Allen, Rodney L. (1992) Reconstruction of the tectonic, volcanic, and sedimentary setting of strongly deformed Zn-Cu massive sulfide deposits at Benambra, Victoria. Economic Geology, 87 (3) 825-854 doi:10.2113/gsecongeo.87.3.825
	Allen (1994) , 89
	Allen (1990) The Rosebery controversy: distinguishing prospective submarine ignimbrite-like units from subaerial ignimbrites in the Rosebery–Hercules Zn–Cu–Pb massive sulphide district, Tasmania 25, 31
	Allen (2004) 1.9Ga volcanic stratigraphy, structure, and Zn–Pb–CuAu–Ag massive sulphide deposits of the Renström area, Skellefte District, Sweden , 65
	Allen, Rodney L., Lundstrom, Ingmar, Ripa, Magnus, Christofferson, Hans (1996) Facies analysis of a 1.9 Ga, continental margin, back-arc, felsic caldera province with diverse Zn-Pb-Ag-(Cu-Au) sulfide and Fe oxide deposits, Bergslagen region, Sweden. Economic Geology, 91 (6) 979-1008 doi:10.2113/gsecongeo.91.6.979
	Allen, Rodney L., Weihed, Par, Svenson, Sven-Ake (1996) Setting of Zn-Cu-Au-Ag massive sulfide deposits in the evolution and facies architecture of a 1.9 Ga marine volcanic arc, Skellefte District, Sweden. Economic Geology, 91 (6) 1022-1053 doi:10.2113/gsecongeo.91.6.1022
	Allen (2002) Global comparisons of volcanic-associated massive sulphide deposits , 13
	Allen (2013) Bergslagen: geology of the volcanic and limestone-hosted base metal and iron oxide deposits., excursion Guidebook SWE4
	Almodovar (1998) Mineral. Deposita Geology and genesis of the Aznalcollar massive sulphide deposits, Iberian Pyrite Belt, Spain 33, 111
	Anderson, I. K., Ashton, J. H., Boyce, A. J., Fallick, A. E., Russell, M. J. (1998) Ore depositional process in the Navan Zn-Pb deposit, Ireland. Economic Geology, 93 (5) 535-563 doi:10.2113/gsecongeo.93.5.535
	Anschutz, Pierre, Blanc, Gérard (1996) Heat and salt fluxes in the Atlantis II Deep (Red Sea) Earth and Planetary Science Letters, 142 (1) 147-159 doi:10.1016/0012-821x(96)00098-2
	Anschutz, Pierre, Blanc, Gérard, Monnin, Christophe, Boulègue, Jacques (2000) Geochemical dynamics of the Atlantis II Deep (Red Sea): II. Composition of metalliferous sediment pore waters. Geochimica et Cosmochimica Acta, 64 (23) 3995-4006 doi:10.1016/s0016-7037(00)00486-5
	Arthur, M A, Sageman, B B (1994) Marine Black Shales: Depositional Mechanisms and Environments of Ancient Deposits. Annual Review of Earth and Planetary Sciences, 22. 499-551 doi:10.1146/annurev.ea.22.050194.002435
	Barrett (1996) Explor. Min. Geol. Geology, lithogeochemistry and volcanic setting of the Eskay Creek Au–Ag–Cu–Zn deposit, Northwestern British Columbia 5, 339
	Barrett, T. J., MacLean, W. H., Tennant, S. C. (2001) Volcanic Sequence and Alteration at the Parys Mountain Volcanic-Hosted Massive Sulfide Deposit, Wales, United Kingdom: Applications of Immobile Element Lithogeochemistry. Economic Geology, 96 (5) 1279-1305 doi:10.2113/gsecongeo.96.5.1279
	Barrie (1999) Rev. Econ. Geol. Classification of volcanic-associated massive sulfide deposits based on host rock composition 8, 2
	Barrie, C. Tucker, Ludden, John N., Green, Tony H. (1993) Geochemistry of volcanic rocks associated with Cu-Zn and Ni-Cu deposits in the Abitibi Subprovince. Economic Geology, 88 (6) 1341-1358 doi:10.2113/gsecongeo.88.6.1341
	Barriga, F.J.A.S., Fyfe, W.S. (1988) Giant pyritic base-metal deposits: The example of Feitais (Aljustrel, Portugal) Chemical Geology, 69 (3) 331-343 doi:10.1016/0009-2541(88)90044-7
	Barton, P. B., Bethke, P. M., Roedder, E. (1977) Environment of ore deposition in the Creede mining district, San Juan Mountains, Colorado; Part III, Progress toward interpretation of the chemistry of the ore-forming fluid for the OH Vein. Economic Geology, 72 (1) 1-24 doi:10.2113/gsecongeo.72.1.1
	Bowers, Teresa Suter, Taylor, Hugh P. (1985) An integrated chemical and stable-isotope model of the origin of Midocean Ridge Hot Spring Systems. Journal of Geophysical Research, 90. 12583 doi:10.1029/jb090ib14p12583
	Brathwaite, R. L. (1974) The Geology and Origin of the Rosebery Ore Deposit, Tasmania. Economic Geology, 69 (7) 1086-1101 doi:10.2113/gsecongeo.69.7.1086
	Bryndzia (1983) Econ. Geol. Monogr. Mineralogy, geochemistry, and mineral chemistry of siliceous ore and altered footwall rocks in the Uwamuki 2 and 4 deposits, Kosaka mine, Hokuroku district, Japan 5, 507
	Cagatay, M. Namik (1993) Hydrothermal alteration associated with volcanogenic massive sulfide deposits; examples from Turkey. Economic Geology, 88 (3) 606-621 doi:10.2113/gsecongeo.88.3.606
	Campbell, I. H., McDougall, T. J., Turner, J. S. (1984) A note on fluid dynamic processes which can influence the deposition of massive sulfides. Economic Geology, 79 (8) 1905-1913 doi:10.2113/gsecongeo.79.8.1905
	Cañazas (1998) Acta Geol. Hisp. El depósito volcanogénico de Cu–Zn–Pb–Au El Cobre, Cuba Oriental: estructura y mineralogía 33, 277
	Carvalho (1999) Rev. Econ. Geol. Bimodal siliciclastic systems — the case of the Iberian Pyrite Belt 8, 375
	Chiaradia, Massimo, Fontboté, Lluís (2001) Radiogenic Lead Signatures in Au-Rich Volcanic-Hosted Massive Sulfide Ores and Associated Volcanic Rocks of the Early Tertiary Macuchi Island Arc(Western Cordillera of Ecuador) Economic Geology, 96 (6) 1361-1378 doi:10.2113/gsecongeo.96.6.1361
	Clark (1983) Can. Inst. Min. Metall. Bull. Genetic implications of fragmental ore texture in Japanese Kuroko deposits 76, 105
	Converse, D.R., Holland, H.D., Edmond, J.M. (1984) Flow rates in the axial hot springs of the East Pacific Rise (21°N): Implications for the heat budget and the formation of massive sulfide deposits. Earth and Planetary Science Letters, 69 (1) 159-175 doi:10.1016/0012-821x(84)90080-3
	Cooke, David R., Bull, Stuart W., Large, Ross R., McGoldrick, Peter J. (2000) The Importance of Oxidized Brines for the Formation of Australian Proterozoic Stratiform Sediment-Hosted Pb-Zn (Sedex) Deposits. Economic Geology, 95 (1) 1-18 doi:10.2113/gsecongeo.95.1.1
	Corbett, K. D. (2001) New Mapping and Interpretations of the Mount Lyell Mining District, Tasmania: A Large Hybrid Cu-Au System with an Exhalative Pb-Zn Top. Economic Geology, 96 (5) 1089-1122 doi:10.2113/gsecongeo.96.5.1089
	Corliss (1979) Nature Submarine thermal springs on the Galápagos Rift 203, 1073
	Costa, U. R., Barnett, R. L., Kerrich, R. (1983) The Mattagami Lake Mine Archean Zn-Cu sulfide deposit, Quebec; hydrothermal coprecipitation of talc and sulfides in a sea-floor brine pool; evidence from geochemistry, 18 O/ 16 O, and mineral chemistry. Economic Geology, 78 (6) 1144-1203 doi:10.2113/gsecongeo.78.6.1144
	Davidson, G. J., Stolz, A. J., Eggins, S. M. (2001) Geochemical Anatomy of Silica Iron Exhalites: Evidence for Hydrothermal Oxyanion Cycling in Response to Vent Fluid Redox and Thermal Evolution (Mt. Windsor Subprovince, Australia) Economic Geology, 96 (5) 1201-1226 doi:10.2113/gsecongeo.96.5.1201
	de Ronde, Cornel E., Faure, Kevin, Bray, Colin J., Chappell, Debra A., Wright, Ian C. (2003) Hydrothermal fluids associated with seafloor mineralization at two southern Kermadec arc volcanoes, offshore New Zealand. Mineralium Deposita, 38 (2) 217-233 doi:10.1007/s00126-002-0305-4
	de Ronde (2003) Soc. Econ. Geol. Spec. Publ. Submarine hydrothermal venting related to volcanic arcs 10, 1
	Doyle, Mark G, Allen, Rodney L (2003) Subsea-floor replacement in volcanic-hosted massive sulfide deposits. Ore Geology Reviews, 23 (3) 183-222 doi:10.1016/s0169-1368(03)00035-0
	Doyle, Mark G., Huston, David L. (1999) The subsea-floor replacement origin of the Ordovician Highway-Reward volcanic-associated massive sulfide deposit, Mount Windsor Subprovince, Australia. Economic Geology, 94 (6) 825-843 doi:10.2113/gsecongeo.94.6.825
	Eastoe, C.J., Gustin, M.M. (1996) Volcanogenic massive sulfide deposits and anoxia in the Phanerozoic oceans. Ore Geology Reviews, 10 (3) 179-197 doi:10.1016/0169-1368(95)00022-4
	Eldridge (1983) Econ. Geol. Monogr. Mineral textures and their bearing on formation of the Kuroko ore bodies 5, 241
	Fallick (2001) Econ. Geol. Bacteria were responsible for the magnitude of the world class hydrothermal base metal sulfide orebody at Navan, Ireland 96, 885
	Feely, Richard A., Lewison, Maureen, Massoth, Gary J., Robert-Baldo, Gillian, Lavelle, J. William, Byrne, Robert H., Von Damm, Karen L., Curl, Herbert C. (1987) Composition and dissolution of black smoker particulates from active vents on the Juan de Fuca Ridge. Journal of Geophysical Research: Solid Earth, 92. 11347-11363 doi:10.1029/jb092ib11p11347
	Fouquet, Y., Knott, R., Cambon, P., Fallick, A., Rickard, D., Desbruyeres, D. (1996) Formation of large sulfide mineral deposits along fast spreading ridges. Example from off-axial deposits at 12°43′N on the East Pacific Rise. Earth and Planetary Science Letters, 144 (1) 147-162 doi:10.1016/0012-821x(96)00142-2
	Francheteau, J., Needham, H. D., Choukroune, P., Juteau, T., Séguret, M., Ballard, R. D., Fox, P. J., Normark, W., Carranza, A., Cordoba, D., Guerrero, J., Rangin, C., Bougault, H., Cambon, P., Hekinian, R. (1979) Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise. Nature, 277 (5697). 523-528 doi:10.1038/277523a0
	Franklin (1981) Volcanic associated massive sulfide deposits , 485
	Franklin (2005) Volcanogenic massive sulfide deposits , 523
	Fujii (1974) Tectonics of the Green Tuff region, northern Honshu, Japan , 251
	Galley, A. G., Watkinson, D. H., Jonasson, I. R., Riverin, G. (1995) The subsea-floor formation of volcanic-hosted massive sulfide; evidence from the Ansil Deposit, Rouyn-Noranda, Canada. Economic Geology, 90 (7) 2006-2017 doi:10.2113/gsecongeo.90.7.2006
	Gauert (2003) Geochemical and isotopic aspects of Rosh Pinah mineralisation and host rock, Namibia — relevance for metallogeny and as vectors to ore , 677
	Gemmell, J. Bruce, Large, Ross R. (1992) Stringer system and alteration zones underlying the Hellyer volcanogenic massive sulfide deposit, Tasmania, Australia. Economic Geology, 87 (3) 620-649 doi:10.2113/gsecongeo.87.3.620
	Gemmell (1993) Resour. Geol. Spec. Issue Evolution of a VHMS hydrothermal system, Hellyer deposit, Tasmania, Australia: sulphur isotope evidence 17, 108
	Gemmell, J. B., Sharpe, R., Jonasson, I. R., Herzig, P. M. (2004) Sulfur Isotope Evidence for Magmatic Contributions to Submarine and Subaerial Gold Mineralization: Conical Seamount and the Ladolam Gold Deposit, Papua New Guinea. Economic Geology, 99 (8) 1711-1725 doi:10.2113/gsecongeo.99.8.1711
	Gibson (2000) A reconstruction of the volcanic environment hosting Archean seafloor and subseafloor VMS mineralization at the Potter Mine, Munro township, Ontario, Canada , 65
	Gifkins (2001) Econ. Geol. Textural and chemical characteristics of diagenetic and hydrothermal alteration in glassy volcanic rocks, examples from the Mount Read Volcanics, Tasmania 96, 973
	Goodfellow, Wayne D., Jonasson, Ian R. (1984) Ocean stagnation and ventilation defined by δ34S secular trends in pyrite and barite, Selwyn Basin, Yukon. Geology, 12 (10) 583 doi:10.1130/0091-7613(1984)12<583:osavdb>2.0.co;2
	Goodfellow (2003) Econ. Geol. Monogr. Geologic and genetic attributes of volcanic sediment-hosted massive sulfide deposits of the Bathurst Mining Camp, Northern New Brunswick — a synthesis 11, 245
	Goodfellow, Wayne D., Peter, Jan M. (1996) Sulphur isotope composition of the Brunswick No. 12 massive sulphide deposit, Bathurst Mining Camp, New Brunswick: implications for ambient environment, sulphur source, and ore genesis. Canadian Journal of Earth Sciences, 33 (2) 231-251 doi:10.1139/e96-020
	Goodfellow, Wayne D, Peter, Jan M (1999) Reply: Sulphur isotope composition of the Brunswick No. 12 massive sulphide deposit, Bathurst Mining Camp, New Brunswick: implications for ambient environment, sulphur source, and ore genesis. Canadian Journal of Earth Sciences, 36 (1) 127-134 doi:10.1139/e99-031
	Goodfellow (1993) Geology and genesis of stratiform sediment-hosted (sedex) zinc–lead–silver sulphide deposits , 201
	Goodfellow (1999) Rev. Econ. Geol. Genesis of massive sulphide deposits at sediment-covered spreading centers 8, 297
	Goodfellow (2003) Econ. Geol. Monogr. Ambient marine environment and sediment provenance during formation of massive sulfide deposits in the Bathurst mining camp: importance of reduced bottom waters to sulfide precipitation and preservation 11, 129
	Green, G. R., Solomon, M., Walshe, J. L. (1981) The formation of the volcanic-hosted massive sulfide ore deposit at Rosebery, Tasmania. Economic Geology, 76 (2) 304-338 doi:10.2113/gsecongeo.76.2.304
	Hannington (1993) Can. Mineral. The formation of atacamite during weathering of sulfides on the modern seafloor 31, 945
	Hannington, Mark, Monecke, Thomas (2009) Global Exploration Models for Polymetallic Sulphides in the Area: An Assessment of Lease Block Selection under the Draft Regulations on Prospecting and Exploration for Polymetallic Sulphides. Marine Georesources & Geotechnology, 27. 132-159 doi:10.1080/10641190802680614
	Hannington (1999) Econ. Geol. Monogr. Sulfide mineralogy, geochemistry, and ore genesis of the Kidd Creek deposit: part I. North, Central, and South orebodies 10, 163
	Hannington, M., Jamieson, J., Monecke, T., Petersen, S., Beaulieu, S. (2011) The abundance of seafloor massive sulfide deposits. Geology, 39 (12) 1155-1158 doi:10.1130/g32468.1
	Hedstroem, P., Simeonov, A., Malmstrom, L. (1989) The Zinkgruvan ore deposit, south-central Sweden; a Proterozoic, proximal Zn-Pb-Ag deposit in distal volcanic facies. Economic Geology, 84 (5) 1235-1261 doi:10.2113/gsecongeo.84.5.1235
	Not Yet Imported: Journal of the Fisheries Research Board of Canada - journal-article : 10.1139/f62-001 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 47970
	Herrington (1998) Ancient vent chimney structures in the Silurian massive sulfides of the Urals , 241
	Herrington, Richard, Maslennikov, Valeriy, Zaykov, Victor, Seravkin, Igor, Kosarev, Alexander, Buschmann, Bernd, Orgeval, Jean-Jacques, Holland, Nicola, Tesalina, Svetlana, Nimis, Paolo, Armstrong, Robin (2005) 6: Classification of VMS deposits: Lessons from the South Uralides. Ore Geology Reviews, 27 (1) 203-237 doi:10.1016/j.oregeorev.2005.07.014
	Herzig, Peter M., Hannington, Mark D. (1995) Polymetallic massive sulfides at the modern seafloor a review. Ore Geology Reviews, 10 (2) 95-115 doi:10.1016/0169-1368(95)00009-7
	Herzig, P. M., Hannington, M. D., Arribas Jr., A. (1998) Sulfur isotopic composition of hydrothermal precipitates from the Lau back-arc: implications for magmatic contributions to seafloor hydrothermal systems. Mineralium Deposita, 33 (3) 226-237 doi:10.1007/s001260050143
	Holland, Heinrich D (2006) The oxygenation of the atmosphere and oceans. Philosophical Transactions of the Royal Society B: Biological Sciences, 361 (1470). 903-915 doi:10.1098/rstb.2006.1838
	Horikoshi, Ei (1969) Volcanic activity related to the formation of the Kuroko-type deposits in the Kosaka district, Japan. Mineralium Deposita, 4 (4) doi:10.1007/bf00207161
	Humphris, Susan E., Herzig, P. M., Miller, D. J., Alt, J. C., Becker, K., Brown, D., Brügmann, G., Chiba, H., Fouquet, Y., Gemmell, J.B., Guerin, G., Hannington, M.D., Holm, N. G., Honnorez, J.J., Iturrino, G.J., Knott, R., Ludwig, R., Nakamura, K., Petersen, S., Reysenbach, A-L., Rona, P. A., Smith, S., Sturz, A.A,, Tivey, M.K., Zhao, X. (1995) The internal structure of an active sea-floor massive sulphide deposit. Nature, 377 (6551). 713-716 doi:10.1038/377713a0
	Hunt, J. M., Hays, E. E., Degens, E. T., Ross, D. A. (1967) Red Sea: Detailed Survey of Hot-Brine Areas. Science, 156 (3774). 514-516 doi:10.1126/science.156.3774.514
	Huston, David L., Large, Ross R. (1987) Genetic and exploration significance of the zinc ratio (100 Zn/(Zn + Pb)) in massive sulfide systems. Economic Geology, 82 (6) 1521-1539 doi:10.2113/gsecongeo.82.6.1521
	Huston, D. L., Pehrsson, S., Eglington, B. M., Zaw, K. (2010) The Geology and Metallogeny of Volcanic-Hosted Massive Sulfide Deposits: Variations through Geologic Time and with Tectonic Setting. Economic Geology, 105 (3) 571-591 doi:10.2113/gsecongeo.105.3.571
	Huston, David L., Relvas, Jorge M. R. S., Gemmell, J. Bruce, Drieberg, Susan (2011) The role of granites in volcanic-hosted massive sulphide ore-forming systems: an assessment of magmatic–hydrothermal contributions. Mineralium Deposita, 46 (5) 473-507 doi:10.1007/s00126-010-0322-7
	Hutchinson, R. W. (1973) Volcanogenic Sulfide Deposits and Their Metallogenic Significance. Economic Geology, 68 (8) 1223-1246 doi:10.2113/gsecongeo.68.8.1223
	Inverno, C. M. C., Solomon, M., Barton, M. D., Foden, J. (2008) The Cu Stockwork and Massive Sulfide Ore of the Feitais Volcanic-Hosted Massive Sulfide Deposit, Aljustrel, Iberian Pyrite Belt, Portugal: A Mineralogical, Fluid Inclusion, and Isotopic Investigation. Economic Geology, 103 (1) 241-267 doi:10.2113/gsecongeo.103.1.241
	Ishibashi (2013) Subseafloor structure of a submarine hydrothermal system within volcaniclastic sediments: a modern analogue for ‘Kuroko-type’ VMS deposits, mineral deposit research for a high-tech world , 542
	Ishihara (1974)
	Ishikawa (1974) Min. Geol. Spec. Issue Geology of the Ainai Mine, with special reference to syngenetic origin of the Daikoku deposits 6, 79
	Ito (1974) Min. Geol. Spec. Issue Submarine volcanic-sedimentary features in the Matsumine kuroko deposits, Hanaoka mine, Japan 6, 115
	Janecky, D.R., Seyfried, W.E. (1984) Formation of massive sulfide deposits on oceanic ridge crests: Incremental reaction models for mixing between hydrothermal solutions and seawater. Geochimica et Cosmochimica Acta, 48 (12) 2723-2738 doi:10.1016/0016-7037(84)90319-3
	Janecky (1988) Can. Mineral. Computational modeling of chemical and sulfur isotopic reaction processes in seafloor hydrothermal systems: chimneys, mounds and subjacent alteration zones 26, 805
	Jansson (2007) , 82
	Jansson (2011)
	Kajiwara (1970) Syngenetic features of the Kuroko ore from the Shakanai Mine , 197
	Kalogeropoulos, Stavros I., Scott, Steven D. (1989) Mineralogy and geochemistry of an Archean tuffaceous exhalite: the Main Contact Tuff, Millenbach mine area, Noranda, Quebec. Canadian Journal of Earth Sciences, 26 (1) 88-105 doi:10.1139/e89-008
	Kitazato (1979) Min. Geol. Marine paleobathymetry and paleotopography of the Hokuroku district during the time of the Kuroko deposition, based on foraminiferal assemblages 29, 207
	Komuro, Kosei, Kubota, Hiroshi, Sato, Tokiyuki, Kajiwara, Yoshimichi, Tanimura, Shojiro (2004) Trace Fossils and Sulfur Isotopes in Mudstones around the Kuroko Deposits in the Hokuroku Basin, Northeast Japan: An Attempt to Delineate the Depositional Environment. Resource Geology, 54 (4) 425-436 doi:10.1111/j.1751-3928.2004.tb00218.x
	Kouda (1978) Min. Geol. Ring structure, resurgent cauldron and ore deposits in the Hokuroku volcanic field, northern Akita, Japan 28, 233
	Kyle (1996) Soc. Econ. Geol. Spec. Publ. Metallic deposits of the Gulf Coast basin: diverse mineralization styles in a young sedimentary basin 4, 218
	Lalou, Claude, Reyss, Jean-Louis, Brichet, Evelyne, Rona, Peter A., Thompson, Geoffrey (1995) Hydrothermal activity on a 105-year scale at a slow-spreading ridge, TAG hydrothermal field, Mid-Atlantic Ridge 26°N. Journal of Geophysical Research: Solid Earth, 100. 17855-17862 doi:10.1029/95jb01858
	Lalou, Claude, Münch, Ute, Halbach, Peter, Reyss, Jean-Louis (1998) Radiochronological investigation of hydrothermal deposits from the MESO zone, Central Indian Ridge. Marine Geology, 149 (1) 243-254 doi:10.1016/s0025-3227(98)00042-5
	Lambert, Ian B., Sato, Takeo (1974) The Kuroko and Associated Ore Deposits of Japan; A Review of Their Features and Metallogenesis. Economic Geology, 69 (8) 1215-1236 doi:10.2113/gsecongeo.69.8.1215
	Large, Ross R. (1992) Australian volcanic-hosted massive sulfide deposits; features, styles, and genetic models. Economic Geology, 87 (3) 471-510 doi:10.2113/gsecongeo.87.3.471
	Large (2000)
	Large, Ross R., Bull, Stuart W., Winefield, Peter R. (2001) Carbon and Oxygen Isotope Halo in Carbonates Related to the McArthur River (HYC) Zn-Pb-Ag Deposit, North Australia:Implications for Sedimentation, Ore Genesis, and Mineral Exploration. Economic Geology, 96 (7) 1567-1593 doi:10.2113/gsecongeo.96.7.1567
	Large (2001) Econ. Geol. The alteration box plot: a simple approach to understanding the relationship between alteration mineralogy and lithogeochemistry associated with volcanic-hosted massive sulfide deposits 96, 957
	Large, Ross R., McPhie, Jocelyn, Gemmell, J. Bruce, Herrmann, Walter, Davidson, Garry J. (2001) The Spectrum of Ore Deposit Types, Volcanic Environments, Alteration Halos, and Related Exploration Vectors in Submarine Volcanic Successions: Some Examples from Australia. Economic Geology, 96 (5) 913-938 doi:10.2113/gsecongeo.96.5.913
	Laurila, Tea E., Hannington, Mark D., Petersen, Sven, Garbe-Schönberg, Dieter (2014) Trace metal distribution in the Atlantis II Deep (Red Sea) sediments. Chemical Geology, 386. 80-100 doi:10.1016/j.chemgeo.2014.08.009
	Leistel, J. M., Marcoux, E., Thiéblemont, D., Quesada, C., Sánchez, A., Almodóvar, G. R., Pascual, E., Sáez, R. (1997) The volcanic-hosted massive sulphide deposits of the Iberian Pyrite Belt. Mineralium Deposita, 33 (1) 2-30 doi:10.1007/s001260050130
	Lentz, David R. (1999) Petrology, geochemistry, and oxygen isotope interpretation of felsic volcanic and related rocks hosting the Brunswick 6 and 12 massive sulfide deposits (Brunswick Belt), Bathurst mining camp, New Brunswick, Canada. Economic Geology, 94 (1) 57-86 doi:10.2113/gsecongeo.94.1.57
	Lentz, David R., Goodfellow, Wayne D. (1996) Intense silicification of footwall sedimentary rocks in the stockwork alteration zone beneath the Brunswick No. 12 massive sulphide deposit, Bathurst, New Brunswick. Canadian Journal of Earth Sciences, 33 (2) 284-302 doi:10.1139/e96-022
	Little, Crispin T. S., Herrington, Richard J., Maslennikov, Valeriy V., Morris, Noel J., Zaykov, Viktor V. (1997) Silurian hydrothermal-vent community from the southern Urals, Russia. Nature, 385 (6612). 146-148 doi:10.1038/385146a0
	(1998) The fossil record of hydrothermal vent communities. Special Publication, 148. Geological Society of London. 259-270 doi:10.1144/gsl.sp.1998.148.01.14
	Little, Crispin T. S., Cann, Joe R., Herrington, Richard J., Morisseau, Michel (1999) Late Cretaceous hydrothermal vent communities from the Troodos ophiolite, Cyprus. Geology, 27 (11) 1027 doi:10.1130/0091-7613(1999)027<1027:lchvcf>2.3.co;2
	Lowell, Robert P., Burnell, Daniel K. (1991) Mathematical modeling of conductive heat transfer from a freezing, convecting magma chamber to a single-pass hydrothermal system: implications for seafloor black smokers. Earth and Planetary Science Letters, 104 (1) 59-69 doi:10.1016/0012-821x(91)90237-c
	Lowell, R. P. (2002) Seafloor hydrothermal systems driven by the serpentinization of peridotite. Geophysical Research Letters, 29 (11) doi:10.1029/2001gl014411
	Ludden (1996) Geol. Assoc. Can. Short Course Notes A geodynamic model for the evolution of the Abitibi Belt — implications for the origins of volcanic massive sulphide deposits 12, 205
	Lydon (1988) Volcanogenic massive sulphide deposits: I. A descriptive model , 14
	Lydon (1988) Volcanogenic massive sulphide deposits: II. Genetic models , 43
	Marcoux, E., Mo�lo, Y., Leistel, J.M. (1996) Bismuth and cobalt minerals as indicators of stringer zones to massive sulphide deposits, Iberian Pyrite Belt. Mineralium Deposita, 31 (1) doi:10.1007/bf00225392
	Marcoux, Eric, Belkabir, Abdelhay, Gibson, Harold L., Lentz, David, Ruffet, Gilles (2008) Draa Sfar, Morocco: A Visean (331 Ma) pyrrhotite-rich, polymetallic volcanogenic massive sulphide deposit in a Hercynian sediment-dominant terrane. Ore Geology Reviews, 33 (3) 307-328 doi:10.1016/j.oregeorev.2007.03.004
	Marshall (2000) Rev. Econ. Geol. Discriminating between regional metamorphic remobilization and syntectonic emplacement in the genesis of massive sulfide ores 11, 39
	Maslennikov (1998)
	Maslennikov, V.V., Ayupova, N.R., Herrington, R.J., Danyushevskiy, L.V., Large, R.R. (2012) Ferruginous and manganiferous haloes around massive sulphide deposits of the Urals. Ore Geology Reviews, 47. 5-41 doi:10.1016/j.oregeorev.2012.03.008
	McAllister (1960) Can. Inst. Min. Metall. Bull. Massive sulphide deposits in New Brunswick 53, 88
	Not Yet Imported: Deep Sea Research Part A. Oceanographic Research Papers - journal-article : 10.1016/0198-0149(84)90021-9 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 17239
	Menor-Salván, Cesar, Tornos, Fernando, Fernández-Remolar, David, Amils, Ricardo (2010) Association between catastrophic paleovegetation changes during Devonian–Carboniferous boundary and the formation of giant massive sulfide deposits. Earth and Planetary Science Letters, 299 (3) 398-408 doi:10.1016/j.epsl.2010.09.020
	Miller, A.R, Densmore, C.D, Degens, E.T, Hathaway, J.C, Manheim, F.T, McFarlin, P.F, Pocklington, R, Jokela, A (1966) Hot brines and recent iron deposits in deeps of the Red Sea. Geochimica et Cosmochimica Acta, 30 (3) 341-359 doi:10.1016/0016-7037(66)90007-x
	Monecke, T., Petersen, S., Hannington, M. D. (2014) Constraints on Water Depth of Massive Sulfide Formation: Evidence from Modern Seafloor Hydrothermal Systems in Arc-Related Settings. Economic Geology, 109 (8) 2079-2101 doi:10.2113/econgeo.109.8.2079
	Montelius (2004) Polymetallic massive and network sulphide deposits hosted by a crystal-rich rhyolite pumice deposit, Maurliden, Skellefte district, Sweden , 95
	Mottl, Michael J, McConachy, Timothy F (1990) Chemical processes in buoyant hydrothermal plumes on the East Pacific Rise near 21°N. Geochimica et Cosmochimica Acta, 54 (7) 1911-1927 doi:10.1016/0016-7037(90)90261-i
	Mustafa (1984) Economic interest of hydrothermal deposits. The Atlantis II project , 509
	Nehlig, Pierre (1991) Salinity of oceanic hydrothermal fluids: a fluid inclusion study. Earth and Planetary Science Letters, 102 (3) 310-325 doi:10.1016/0012-821x(91)90026-e
	Oftedahl (1959) Geol. Fören. Stockh. Förh. On exhalative-sedimentary ores 8, 1
	Ohashi (1919) J. Geol. Soc. Jpn. Discussion on the formation of the Kuroko ore deposits in the Kosaka mine and further generalized consideration of the Kuroko-type ore deposits 106, 107
	Ohashi (1920) Akita Min. Coll. J. On the origin of the Kuroko of the Kosaka copper mines, northern Japan 2, 11
	Ohmoto (1978) Min. Geol. Submarine calderas: a key to the formation of volcanogenic massive sulphide deposits? 28
	Ohmoto (1986) Rev. Mineral. Stable isotope geochemistry of ore deposits 16, 491
	Ohmoto, Hiroshi (1996) Formation of volcanogenic massive sulfide deposits: The Kuroko perspective. Ore Geology Reviews, 10 (3) 135-177 doi:10.1016/0169-1368(95)00021-6
	Ohmoto (1997) Sulfur and carbon isotopes , 517
	Ohmoto (1983) Econ. Geol. Monogr. The Kuroko and related volcanogenic massive sulfide deposits: preface and summary of new findings 5, 1
	Oho (1993) Resour. Geol. Sedimentary structures in the sulfide deposits at Tharsis Mine in the Iberian Pyrite Belt 43, 49
	Oudin, Elisabeth, Constantinou, Georges (1984) Black smoker chimney fragments in Cyprus sulphide deposits. Nature, 308 (5957). 349-353 doi:10.1038/308349a0
	Özsoy, Emin, Ünlüata, Ümit (1997) Oceanography of the Black Sea: A review of some recent results. Earth-Science Reviews, 42 (4) 231-272 doi:10.1016/s0012-8252(97)81859-4
	Peter (2003) Ancient iron formations: their genesis and use in the exploration for stratiform base metal sulphide deposits, with examples from the Bathurst mining camp , 145
	Peter, Jan M., Goodfellow, Wayne D. (1996) Mineralogy, bulk and rare earth element geochemistry of massive sulphide-associated hydrothermal sediments of the Brunswick Horizon, Bathurst Mining Camp, New Brunswick. Canadian Journal of Earth Sciences, 33 (2) 252-283 doi:10.1139/e96-021
	Peter (1988) Can. Mineral. Mineralogy, composition, and fluid-inclusion microthermometry of seafloor hydrothermal deposits in the southern trough of Guaymas Basin, Gulf of California 26, 567
	Peter (1993) Resour. Geol. Spec. Issue Fluid inclusion and light stable isotope geochemistry of the Windy Craggy Besshi-type massive sulfide deposit, NW British Columbia 17, 229
	Peter (1999) Rev. Econ. Geol. Windy Craggy, northwestern British Columbia: the world's largest Besshi-type deposit 8, 261
	Peter (2003) Econ. Geol. Monogr. Hydrothermal sedimentary rocks of the Heath Steele Belt, Bathurst Mining Camp, New Brunswick 2. Bulk and rare earth element geochemistry and implications for origin 11, 391
	Peter (2007) Volcanic-hosted massive sulphide deposits of the Finlayson Lake district, Yukon Territory 5, 471
	Petersen, S., Herzig, P. M., Hannington, M. D. (2000) Third dimension of a presently forming VMS deposit: TAG hydrothermal mound, Mid-Atlantic Ridge, 26°N. Mineralium Deposita, 35 (2) 233-259 doi:10.1007/s001260050018
	Piercey (2001) Econ. Geol. Geochemistry and paleotectonic setting of felsic volcanic rocks in the Finlayson Lake volcanic hosted massive sulfide district, Yukon, Canada 96, 1877
	Pisutha-Arnord (1983) Econ. Geol. Monogr. Thermal history and chemical and isotopic compositions of the ore-forming fluids responsible for the Kuroko massive sulfide deposits in the Hokuroku district of Japan 5, 523
	Polliand (2000) The Perubar Ba–Pb–Zn VHMS deposit, central Peru: a possible Andean Kuroko-type equivalent in a shallow water caldera , 159
	Pottorf (1983) Econ. Geol. Monogr. Mineralogy, geochemistry, and ore genesis of hydrothermal sediments from the Atlantis II deep, Red Sea 5, 198
	Prokin, V. A., Buslaev, F. P., Nasedkin, A. P. (1998) Types of massive sulphide deposits in the Urals. Mineralium Deposita, 34 (1) 121-126 doi:10.1007/s001260050190
	Pufahl, P.K., Hiatt, E.E. (2012) Oxygenation of the Earth's atmosphere–ocean system: A review of physical and chemical sedimentologic responses. Marine and Petroleum Geology, 32 (1) 1-20 doi:10.1016/j.marpetgeo.2011.12.002
	Relvas (2002) The Neves Corvo deposit, Iberian Pyrite Belt, Portugal 9, 155
	Relvas, J. M.R.S., Barriga, F. J.A.S., Ferreira, A., Noiva, P. C., Pacheco, N., Barriga, G. (2006) Hydrothermal Alteration and Mineralization in the Neves-Corvo Volcanic-Hosted Massive Sulfide Deposit, Portugal. I. Geology, Mineralogy, and Geochemistry. Economic Geology, 101 (4) 753-790 doi:10.2113/gsecongeo.101.4.753
	Robertson, A.H.F., Hudson, J.D. (1973) Cyprus umbers: Chemical precipitates on a Tethyan ocean ridge. Earth and Planetary Science Letters, 18 (1) 93-101 doi:10.1016/0012-821x(73)90039-3
	Rona (1988) Can. Mineral. Hydrothermal mineralization at oceanic ridges 26, 431
	Rona, Peter A., Hannington, Mark D., Raman, C. V., Thompson, Geoffrey, Tivey, Margaret K., Humphris, Susan E., Lalou, Claude, Petersen, Sven (1993) Active and relict sea-floor hydrothermal mineralization at the TAG hydrothermal field, Mid-Atlantic Ridge. Economic Geology, 88 (8) 1989-2017 doi:10.2113/gsecongeo.88.8.1989
	Rosa, Carlos J. P., McPhie, Jocelyn, Relvas, Jorge M. R. S., Pereira, Zélia, Oliveira, Tomás, Pacheco, Nelson (2008) Facies analyses and volcanic setting of the giant Neves Corvo massive sulfide deposit, Iberian Pyrite Belt, Portugal. Mineralium Deposita, 43 (4) 449-466 doi:10.1007/s00126-008-0176-4
	Sáez, R., Almodóvar, G.R., Pascual, E. (1996) Geological constraints on massive sulphide genesis in the Iberian Pyrite Belt. Ore Geology Reviews, 11 (6) 429-451 doi:10.1016/s0169-1368(96)00012-1
	Sangster, Donald F. (2002) The role of dense brines in the formation of vent-distal sedimentary-exhalative (SEDEX) lead–zinc deposits: field and laboratory evidence. Mineralium Deposita, 37 (2) 149-157 doi:10.1007/s00126-001-0216-9
	Sangster (1998) Explor. Min. Geol. SEDEX lead–zinc deposits — proposed sub-types and their characteristics 7, 341
	Sato (1972) Min. Geol. Behaviours of ore forming solutions in seawater 22, 31
	Sawkins (1976) Geol. Assoc. Can. Spec. Pap. Massive sulphide deposits in relation to geotectonics 14, 221
	Sawkins, Frederick J. (1990) Integrated tectonic-genetic model for volcanic-hosted massive sulfide deposits. Geology, 18 (11) 1061 doi:10.1130/0091-7613(1990)018<1061:itgmfv>2.3.co;2
	Scott (1992) Polymetallic sulfide riches from the deep: fact or fallacy? , 87
	Scott (1997) Massive sulfide-forming systems on the present-day ocean floor , 19
	Sherlock, R. L., Roth, T., Spooner, E. T. C., Bray, C. J. (1999) Origin of the Eskay Creek precious metal-rich volcanogenic massive sulfide deposit; fluid inclusion and stable isotope evidence. Economic Geology, 94 (6) 803-824 doi:10.2113/gsecongeo.94.6.803
	Skei, Jens (1983) Geochemical and sedimentological considerations of a permanently anoxic fjord — Framvaren, south Norway. Sedimentary Geology, 36 (2) 131-145 doi:10.1016/0037-0738(83)90006-4
	Solomon (1976) Volcanic massive sulphide deposits and their host rocks — a review and explanation , 21
	Solomon, Mike (2008) Brine pool deposition for the Zn–Pb–Cu massive sulphide deposits of the Bathurst mining camp, New Brunswick, Canada. I. Comparisons with the Iberian pyrite belt. Ore Geology Reviews, 33 (3) 329-351 doi:10.1016/j.oregeorev.2007.04.001
	Solomon (2007) Ore Geol. Rev. Brine pool deposition for the Zn–Pb–Cu massive sulphide deposits of the Bathurst Mining Camp, New Brunswick, Canada. II. Ocean anoxia during mineralisation , 352
	Solomon (2001) Econ. Geol. Textures of the Hellyer volcanic hosted massive sulfide deposit, Tasmania — the aging of a sulfide sediment on the seafloor 96, 1513
	Solomon, Michael, Quesada, Cecilio (2003) Zn-Pb-Cu massive sulfide deposits: Brine-pool types occur in collisional orogens, black smoker types occur in backarc and/or arc basins. Geology, 31 (12) 1029 doi:10.1130/g19904.1
	Solomon, M., Walshe, J. L. (1979) The formation of massive sulfide deposits on the sea floor. Economic Geology, 74 (4) 797-813 doi:10.2113/gsecongeo.74.4.797
	Solomon, Michael, Zaw, Khin (1997) Formation on the sea floor of the Hellyer volcanogenic massive sulfide deposit. Economic Geology, 92 (6) 686-695 doi:10.2113/gsecongeo.92.6.686
	Solomon (2000) Construction the massive pyritic ore deposits of the Iberian Pyrite Belt: an explanation involving brine pools, sulfur deficient ore fluids and tin granites , 201
	Solomon, M., Tornos, F., Gaspar, O.C. (2002) Explanation for many of the unusual features of the massive sulfide deposits of the Iberian pyrite belt. Geology, 30 (1) 87 doi:10.1130/0091-7613(2002)030<0087:efmotu>2.0.co;2
	Solomon, M, Gemmell, J.B, Zaw, Khin (2004) Nature and origin of the fluids responsible for forming the Hellyer Zn–Pb–Cu, volcanic-hosted massive sulphide deposit, Tasmania, using fluid inclusions, and stable and radiogenic isotopes. Ore Geology Reviews, 25 (1) 89-124 doi:10.1016/j.oregeorev.2003.11.001
	Solomon, M., Tornos, F., Large, R.R., Badham, J.N.P., Both, R.A., Zaw, Khin (2004) Zn–Pb–Cu volcanic-hosted massive sulphide deposits: criteria for distinguishing brine pool-type from black smoker-type sulphide deposition. Ore Geology Reviews, 25 (3) 259-283 doi:10.1016/j.oregeorev.2004.01.003
	Spry (2000) Rev. Econ. Geol. Meta-exhalites as exploration guides to ore 11, 163
	Stanton (1959) Can. Inst. Min. Metall. Bull. Mineralogical features and possible mode of emplacement of the Brunswick Mining and Smelting orebodies, Gloucester County, New Brunswick 62, 631
	Stanton (1960) Can. Inst. Min. Metall. Trans. General features of the conformable “pyritic” orebodies. Part 1. Field associations 53, 24
	Stanton (1960) Can. Inst. Min. Metall. Trans. General features of the conformable “pyritic” orebodies. Part 2. Mineralogy 53, 66
	Stanton, R. L. (1972) A Preliminary Account of Chemical Relationships Between Sulfide Lode and "Banded Iron Formation" At Broken Hill, New South Wales. Economic Geology, 67 (8) 1128-1145 doi:10.2113/gsecongeo.67.8.1128
	Suzuki, Ryohei, Ishibashi, Jun-Ichiro, Nakaseama, Miwako, Konno, Uta, Tsunogai, Urumu, Gena, Kaul, Chiba, Hitoshi (2008) Diverse Range of Mineralization Induced by Phase Separation of Hydrothermal Fluid: Case Study of the Yonaguni Knoll IV Hydrothermal Field in the Okinawa Trough Back-Arc Basin. Resource Geology, 58 (3) 267-288 doi:10.1111/j.1751-3928.2008.00061.x
	Tanimura (1983) Econ. Geol. Monogr. Geologic setting of the Kuroko deposits, Japan. Part II. Stratigraphy and structure of the Hokuroku district 5, 24
	Taube, A. (1986) The Mount Morgan gold-copper mine and environment, Queensland; a volcanogenic massive sulfide deposit associated with penecontemporaneous faulting. Economic Geology, 81 (6) 1322-1340 doi:10.2113/gsecongeo.81.6.1322
	Tesalina (1998)
	Tornos, Fernando (2006) Environment of formation and styles of volcanogenic massive sulfides: The Iberian Pyrite Belt. Ore Geology Reviews, 28 (3) 259-307 doi:10.1016/j.oregeorev.2004.12.005
	Tornos, Fernando, Heinrich, Christoph A. (2008) Shale basins, sulfur-deficient ore brines and the formation of exhalative base metal deposits. Chemical Geology, 247 (1) 195-207 doi:10.1016/j.chemgeo.2007.10.011
	Tornos, F., Clavijo, E. González, Spiro, B. (1997) The Filon Norte orebody (Tharsis, Iberian Pyrite Belt): a proximal low-temperature shale-hosted massive sulphide in a thin-skinned tectonic belt. Mineralium Deposita, 33 (1) 150-169 doi:10.1007/s001260050138
	Tornos, Fernando, Casquet, César, Relvas, Jorge M.R.S. (2005) 4: Transpressional tectonics, lower crust decoupling and intrusion of deep mafic sills: A model for the unusual metallogenesis of SW Iberia. Ore Geology Reviews, 27 (1) 133-163 doi:10.1016/j.oregeorev.2005.07.020
	Tornos, F., Solomon, M., Conde, C., Spiro, B. F. (2008) Formation of the Tharsis Massive Sulfide Deposit, Iberian Pyrite Belt: Geological, Lithogeochemical, and Stable Isotope Evidence for Deposition in a Brine Pool. Economic Geology, 103 (1) 185-214 doi:10.2113/gsecongeo.103.1.185
	Turner, J.S., Campbell, I.H. (1987) Temperature, density and buoyancy fluxes in “black smoker” plumes, and the criterion for buoyancy reversal. Earth and Planetary Science Letters, 86 (1) 85-92 doi:10.1016/0012-821x(87)90191-9
	Tuysuz (2000) Chem. Erde Geology, lithogeochemistry and genesis of the Murgul massive sulfide deposit, NE Turkey 60, 231
	Urabe (1987) Min. Geol. Kuroko deposit modelling based on magmatic-hydrothermal theory 37, 159
	Van Vuuren (1986) Regional setting and structure of the Rosh Pinah zinc–lead deposit, South West Africa-Namibia , 1593
	Wilkin, R. T., Barnes, H. L., Brantley, S. L. (1996) The size distribution of framboidal pyrite in modern sediments: An indicator of redox conditions. Geochimica et Cosmochimica Acta, 60 (20) 3897-3912 doi:10.1016/0016-7037(96)00209-8
	Williams (1934) Trans. Inst. Min. Metall. The geology of the Rio Tinto mines, Spain 43, b593
	Winter (2008)
	Yamada, Ryoichi, Yoshida, Takeyoshi (2011) Relationships between Kuroko volcanogenic massive sulfide (VMS) deposits, felsic volcanism, and island arc development in the northeast Honshu arc, Japan. Mineralium Deposita, 46 (5) 431-448 doi:10.1007/s00126-011-0362-7
	Zaw, Khin, Gemmell, J.B., Large, R.R., Mernagh, T.P., Ryan, C.G. (1996) Evolution and source of ore fluids in the stringer system, Hellyer VHMS deposit, Tasmania, Australia: evidence from fluid inclusion microthermometry and geochemistry. Ore Geology Reviews, 10 (3) 251-278 doi:10.1016/0169-1368(95)00026-7
	Zierenberg, Robert A., Fouquet, Yves, Miller, D. J., Bahr, J. M., Baker, P. A., Bjerkgård, T., Brunner, C. A., Duckworth, R. C., Gable, R., Gieskes, J., Goodfellow, W. D., Gröschel-Becker, H. M., Guèrin, G., Ishibashi, J., Iturrino, G., James, R. H., Lackschewitz, K. S., Marquez, L. L., Nehlig, P., Peter, J. M., Rigsby, C. A., Schultheiss, P., Shanks, W. C., Simoneit, B. R. T., Summit, M., Teagle, D. A. H., Urbat, M., Zuffa, G. G. (1998) The deep structure of a sea-floor hydrothermal deposit. Nature, 392 (6675). 485-488 doi:10.1038/33126

See Also

These are possibly similar items as determined by title/reference text matching only.

	Conde, Carmen, Tornos, Fernando (2020) Geochemistry and architecture of the host sequence of the massive sulfides in the northern Iberian Pyrite Belt. Ore Geology Reviews, 127. 103042pp. doi:10.1016/j.oregeorev.2019.103042
	Allen, Rodney L., Tornos, Fernando, Peter, Jan M. (2011) A thematic issue on the geological setting and genesis of volcanogenic massive sulfide (VMS) deposits. Mineralium Deposita, 46 (5) 429-430 doi:10.1007/s00126-011-0368-1
	Tornos, Fernando (2006) Environment of formation and styles of volcanogenic massive sulfides: The Iberian Pyrite Belt. Ore Geology Reviews, 28 (3) 259-307 doi:10.1016/j.oregeorev.2004.12.005
	Gisbert, Guillem, Tornos, Fernando, Losantos, Emma, McClenaghan, Sean, Pons, Juan Manuel, Videira, Juan Carlos, Brodbeck, Maurice (2022) Vectors to ore in replacive volcanogenic massive sulphide deposits of the northern Iberian Pyrite Belt: Major and trace element mineral chemistry. Ore Geology Reviews, 147. 104963 doi:10.1016/j.oregeorev.2022.104963
	Mousivand, Fardin, Rastad, Ebrahim, Peter, Jan M., Maghfouri, Sajjad (2018) Metallogeny of volcanogenic massive sulfide deposits of Iran. Ore Geology Reviews, 95. 974-1007 doi:10.1016/j.oregeorev.2018.01.011
	Vikentyev, Ilya V., Belogub, Elena V., Novoselov, Konstantin A., Moloshag, Vasily P. (2017) Metamorphism of volcanogenic massive sulphide deposits in the Urals. Ore geology. Ore Geology Reviews, 85. 30-63 doi:10.1016/j.oregeorev.2016.10.032
	Gisbert, G., Tornos, F., Losantos, E., McClenaghan, S., Pons, J. M., Videira, J. C., & Brodbeck, M. (2022). Vectors to ore in replacive volcanogenic massive sulphide deposits of the northern Iberian Pyrite Belt: major and trace element mineral chemistry. Ore Geology Reviews, 104963.
	Rajendran, Sankaran, Nasir, Sobhi (2017) Characterization of ASTER spectral bands for mapping of alteration zones of volcanogenic massive sulphide deposits. Ore Geology Reviews, 88. 317-335 doi:10.1016/j.oregeorev.2017.04.016
	Velasco, F., Herrero, J.M., Suárez, S., Yusta, I., Alvaro, A., Tornos, F. (2013) Supergene features and evolution of gossans capping massive sulphide deposits in the Iberian Pyrite Belt. Ore Geology Reviews, 53. 181-203 doi:10.1016/j.oregeorev.2013.01.008
	Solomon, M., Tornos, F., Large, R.R., Badham, J.N.P., Both, R.A., Zaw, Khin (2004) Zn–Pb–Cu volcanic-hosted massive sulphide deposits: criteria for distinguishing brine pool-type from black smoker-type sulphide deposition. Ore Geology Reviews, 25 (3) 259-283 doi:10.1016/j.oregeorev.2004.01.003
	Botros, Nagy Shawky (2003) On the relationship between auriferous talc deposits hosted in volcanic rocks and massive sulphide deposits in Egypt. Ore Geology Reviews, 23 (3) 223-257 doi:10.1016/j.oregeorev.2003.07.003