Anhydrite from Mid-Atlantic Ridge complex, Atlantic Ocean


Arctic Ocean
Kolbeinsey Ridge North Kolbeinsey Ridge ⓘ Seven Sisters vent field	Marques, A.F.A., Roerdink, D.L., Baumberger, T., de Ronde, C.E.J., Ditchburn, R.G., Denny, A., Thorseth, I.H., Okland, I., Lilley, M.D., Whitehouse, M.J., Pedersen, R.B. (2020) The Seven Sisters Hydrothermal System: First Record of Shallow Hybrid Mineralization Hosted in Mafic Volcaniclasts on the Arctic Mid-Ocean Ridge. Minerals 10, 439.

Atlantic Ocean
Mid-Atlantic Ridge complex ⓘ Logatchev-1 hydrothermal field	Fallon, Emily K., Matthias Frische, Sven Petersen, Richard A. Brooker, and Thomas B. Scott. (2019) "Geological, Mineralogical and Textural Impacts on the Distribution of Environmentally Toxic Trace Elements in Seafloor Massive Sulfide Occurrences" Minerals 9, no. 3: 162. https://doi.org/10.3390/min9030162 Gablina, I.F., Semkova, T.A., Stepanova, T.V., and Gor'kova, N.V. (2006): Lithology and Mineral Resources 41(1), 27-44.
ⓘ Lucky Strike hydrothermal field	Earth and Planetary Science Letters 48 (1997) 69-91
ⓘ Moytirra hydrothermal field	Wheeler, A.J., Murton, B., Copley, J., Lim, A., Carlsson, J., Collins, P., Dorschel, B., Green, D., Judge, M., Nye, V., Benzie, J., Antoniacomi, A., Coughlan, M., Morris, K. (2013) Moytirra: Discovery of the first known deep-sea hydrothermal vent field on the slow-spreading Mid-Atlantic Ridge north of the Azores, Geochemistry, Geophysics, Geosystems, 14(10), 4170–4184.
ⓘ Pobeda-1 hydrothermal field	Maslennikov, Valeriy V., Georgy A. Cherkashov, Anna V. Firstova, Nuriya R. Ayupova, Victor E. Beltenev, Irina Yu. Melekestseva, Dmitry A. Artemyev, Aleksandr S. Tseluyko, and Ivan A. Blinov. (2023) "Trace Element Assemblages of Pseudomorphic Iron Oxyhydroxides of the Pobeda-1 Hydrothermal Field, 17°08.7′ N, Mid-Atlantic Ridge: The Development of a Halmyrolysis Model from LA-ICP-MS Data" Minerals 13, no. 1: 4. https://doi.org/10.3390/min13010004 Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Rainbow Massif ⓘ Rainbow hydrothermal field	New Data on Minerals (2004): 39: 99-105 Bortnikov, N. S., Vikentyev, I. V., Apollonov, V. N., Stavrova, O. O., Bogdanov, Y. A., Lein, A. Y., ... & Ikorskii, S. V. (2001). The Rainbow serpentinite-related hydrothermal field, Mid-Atlantic Ridge, 36 14′ N: mineralogical and geochemical features. In Proc. Joint Sixth Meeting. Mineral Deposits at the Beginning of the 21st Century, Krakow, 26–29 August (pp. 265-268).
ⓘ Snake Pit hydrothermal field	Fouquet, Y., Wafik, A., Cambon, P., Mevel, C., Meyer, G., & Gente, P. (1993). Tectonic setting and mineralogical and geochemical zonation in the Snake Pit sulfide deposit (Mid-Atlantic Ridge at 23 degrees N). Economic geology, 88(8), 2018-2036. Canadian Mineralogist Vol.26, pp. 697-711 (1988)
ⓘ Beehive	Lalou, C., Reyss, J. L., Brichet, E., Arnold, M., Thompson, G., Fouquet, Y., & Rona, P. A. (1993). New age data for Mid‐Atlantic Ridge hydrothermal sites: TAG and Snakepit chronology revisited. Journal of Geophysical Research: Solid Earth, 98(B6), 9705-9713.
Trans-Atlantic Geotraverse hydrothermal field (TAG) ⓘ TAG mound	Wang, S., & Chang, L. (2022). Rock Magnetic Signatures of Hydrothermal Mineralization in the Trans‐Atlantic Geotraverse (TAG) Hydrothermal Field. Geochemistry, Geophysics, Geosystems, 23(5), e2022GC010368. Fallon, Emily K., Matthias Frische, Sven Petersen, Richard A. Brooker, and Thomas B. Scott. (2019) "Geological, Mineralogical and Textural Impacts on the Distribution of Environmentally Toxic Trace Elements in Seafloor Massive Sulfide Occurrences" Minerals 9, no. 3: 162. https://doi.org/10.3390/min9030162 Petersen, S., Herzig, P.M., and Hannington, M.D. (2000): Mineralium Deposita 35, 233-259. Canadian Mineralogist Vol.26, pp. 697-711 (1988)
Southern Mid-Atlantic Ridge complex ⓘ Tongguan hydrothermal field	Wang, S., Li, C., Li, B., Dang, Y., Ye, J., Zhu, Z., ... & Shi, X. (2021). Constraints on fluid evolution and growth processes of black smoker chimneys by pyrite geochemistry: A case study of the Tongguan hydrothermal field, South Mid-Atlantic Ridge. Ore Geology Reviews, 104410.
ⓘ Turtle Pits hydrothermal field	Pašava, J., Vymazalová, A., and Petersen, S. (2007): Mineralium Deposita 42, 423-431.
ⓘ Turtle Pits	Fallon, Emily K., Matthias Frische, Sven Petersen, Richard A. Brooker, and Thomas B. Scott. (2019) "Geological, Mineralogical and Textural Impacts on the Distribution of Environmentally Toxic Trace Elements in Seafloor Massive Sulfide Occurrences" Minerals 9, no. 3: 162. https://doi.org/10.3390/min9030162 Haase, K. M., Petersen, S., Koschinsky, A., Seifert, R., Devey, C. W., Keir, R., ... & Süling, J. (2007). Young volcanism and related hydrothermal activity at 5° S on the slow‐spreading southern Mid‐Atlantic Ridge. Geochemistry, Geophysics, Geosystems, 8(11).

Iceland
Northeastern Region Þingeyjarsveit Skútustaðahreppur Myvatn ⓘ Krafla Volcano	Tamjidi, A. Borehole geology and hydrotermal alteration of well KJ-29 in the Krafla high-temperature area, NE-Iceland. United Nations University.
Southern Peninsula Grindavíkurbær ⓘ Svartsengi Power Station	Ragnarsdóttir, K. V., Walther, J. V., & Arnórsson, S. (1984). Description and interpretation of the composition of fluid and alteration mineralogy in the geothermal system, at Svartsengi, Iceland. Geochimica et Cosmochimica Acta, 48(7), 1535-1553.

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