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Atlantic Ocean | |
| Dekov, Vesselin M., Petersen, Sven, Garbe-Schönberg, C.-Dieter, Kamenov, George D., Perner, Mirjam, Kuzmann, ErnĆ, Schmidt, Mark (2010) FeâSi-oxyhydroxide deposits at a slow-spreading centre with thickened oceanic crust: The Lilliput hydrothermal field (9°33âČS, Mid-Atlantic Ridge) Chemical Geology, 278 (3) 186-200 doi:10.1016/j.chemgeo.2010.09.012 |
- Mid-Atlantic Ridge complex
- Ashadze hydrothermal area
| Ayupova, N. R., Melekestseva, I. Y., Maslennikov, V. V., Tseluyko, A. S., Blinov, I. A., & Beltenev, V. E. (2018). Uranium accumulation in modern and ancient Fe-oxide sediments: Examples from the Ashadze-2 hydrothermal sulfide field (Mid-Atlantic Ridge) and Yubileynoe massive sulfide deposit (South Urals, Russia). Sedimentary Geology, 367, 164-174. |
| Bogdanov, Y.A., Vikentâev, I.V., Lein, A.Y., Bogdanova, O.Y., Sagalevich, A.M., and Sivtsov, A.V. (2008): Geology of Ore Deposits 50(2), 119-134. |
| Melekestseva, I. Y., Maslennikov, V. V., Ayupova, N. R., Belogub, E. V., Maslennikova, S. P., Belâtenev, V. E., ... & Large, R. (2020). Behavior of Trace Elements during Oxidation of Sphalerite of the Irinovskoe Hydrothermal Sulfide Field (13° 20âČ N, Mid-Atlantic Ridge). Geology of Ore Deposits, 62(3), 254-259. |
| Gablina, I.F., Semkova, T.A., Stepanova, T.V., and Gor'kova, N.V. (2006): Lithology and Mineral Resources 41(1), 27-44. |
| Bogdanov, Y.A., Vikentâev, I.V., Lein, A.Y., Bogdanova, O.Y., Sagalevich, A.M., and Sivtsov, A.V. (2008): Geology of Ore Deposits 50(2), 119-134. |
| Gablina, I. F., Dobretsova, I. G., Narkevskii, E. V., Gustaitis, A. N., Sadchikova, T. A., Gorâkova, N. V., ... & Dara, O. M. (2017). Influence of hydrothermal-metasomatic processes on the formation of present-day sulfide ores in carbonate bottom sediments of the Mid-Atlantic Ridge (19°â20° N). Lithology and Mineral Resources, 52, 335-357. |
| 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°08.7âČ 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° 07âČâ17° 08âČ N. Lithology and Mineral Resources, 53(6), 431-454. |
| 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° 07âČâ17° 08âČ N. Lithology and Mineral Resources, 53(6), 431-454. |
| Bonatti, E., Guerstein-Honnorez, B.-M., Honnorez, J. (1976) Copper-iron sulfide mineralizations from the equatorial Mid-Atlantic Ridge: Economic Geology: 71: 1515-1525. |
| Firstova, Anna, Georgy Cherkashov, Tamara Stepanova, Anna Sukhanova, Irina Poroshina, and Victor Belâtenev. (2022) "New Data for the Internal Structure of Ultramafic Hosted Seafloor Massive Sulfides (SMS) Deposits: Case Study of the Semenov-5 Hydrothermal Field (13°31âČ N, MAR)" Minerals 12, no. 12: 1593. https://doi.org/10.3390/min12121593 |
| 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) |
| Lalou, C., Reyss, J. L., Brichet, E., Arnold, M., Thompson, G., Fouquet, Y., & Rona, P. A. (1993). New age data for MidâAtlantic Ridge hydrothermal sites: TAG and Snakepit chronology revisited. Journal of Geophysical Research: Solid Earth, 98(B6), 9705-9713. |
| Bogdanov, Y.A., Vikentâev, I.V., Lein, A.Y., Bogdanova, O.Y., Sagalevich, A.M., and Sivtsov, A.V. (2008): Geology of Ore Deposits 50(2), 119-134. |
| 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 at23°N). Econ Geol Bull Soc Econ Geol 88:2018â2036 |
| Bogdanov, Y.A., Vikentâev, I.V., Lein, A.Y., Bogdanova, O.Y., Sagalevich, A.M., and Sivtsov, A.V. (2008): Geology of Ore Deposits 50(2), 119-134. |
| Barriga, F.J. (2020) XRD Identification of Ore Minerals during Cruises: Refinement of Extraction Procedure with Sodium Acetate Buffer. Minerals 10, 160. Milinovic, J. Dias, Ă.A. Janeiro, A.I. Pereira, M.F. Martins, S. Petersen, S. |
| Dekov, V. M., Damyanov, Z. K., Kamenov, G. D., Bonev, I. K., Rajta, I., & Grime, G. W. (2001). Sorosite (η-Cu6Sn5)-bearing native tin and lead assemblage from the Mir zone (Mid-Atlantic Ridge, 26° N). Oceanologica acta, 24(3), 205-220. Dekov, V., Z. Damyanov, G. Kamenov, I. Bonev, I. Rajta, G. Grime. 2001. Sorosite (h-Cu6Sn5)-bearing native tin and lead assemblage from the Mir zone (Mid-Atlantic Ridge, 26oN). â Oceanologica Acta, 24, 3, 205-220. |
| Canadian Mineralogist Vol.26, pp. 697-711 (1988) |
| Gablina, I. F., Dobretsova, I. G., Narkevskii, E. V., Gustaitis, A. N., Sadchikova, T. A., Gorâkova, N. V., ... & Dara, O. M. (2017). Influence of hydrothermal-metasomatic processes on the formation of present-day sulfide ores in carbonate bottom sediments of the Mid-Atlantic Ridge (19°â20° N). Lithology and Mineral Resources, 52, 335-357. |
- Southern Mid-Atlantic Ridge complex
| Yang, B., Liu, J., Li, C., Zhu, A., Wang, H., Cui, J., ... & Shi, X. (2022). Mineralogical and geochemical characteristics of near-vent metalliferous sediments: Implications for hydrothermal processes along the southern Mid-Atlantic ridge (12° Sâ28° S). Ore Geology Reviews, 148, 105003. |
| Yang, B., Liu, J., Li, C., Zhu, A., Wang, H., Cui, J., ... & Shi, X. (2022). Mineralogical and geochemical characteristics of near-vent metalliferous sediments: Implications for hydrothermal processes along the southern Mid-Atlantic ridge (12° Sâ28° S). Ore Geology Reviews, 148, 105003. |
| Yang, B., Liu, J., Li, C., Zhu, A., Wang, H., Cui, J., ... & Shi, X. (2022). Mineralogical and geochemical characteristics of near-vent metalliferous sediments: Implications for hydrothermal processes along the southern Mid-Atlantic ridge (12° Sâ28° S). Ore Geology Reviews, 148, 105003. |
| Melchert, B, Devey C.W., German, C.R., Lackschewitz, K.S., Seifert, R., Walter, M., Mertens, C., Yoerger, D.R., Baker, E.T., Paulick, H., Nakamura, K. (2008): First evidence for high-temperature off-axis venting of deep crustal/mantle heat: The Nibelungen Hydrothermal Field, southern Mid-Atlantic Ridge.- Earth and Planetary Science Letters, 275, 61-69. |
|
Iceland | |
- Krysuvik-Seltun geothermal area
| Sigurdur H. MarkĂșsson, Andri StefĂĄnsson, Geothermal surface alteration of basalts, KrĂœsuvĂk IcelandâAlteration mineralogy, water chemistry and the effects of acid supply on the alteration process, Journal of Volcanology and Geothermal Research, Volume 206, Issues 1â2, 1 September 2011, Pages 46-59, ISSN 0377-0273, 10.1016/j.jvolgeores.2011.05.007. |
| Carson, G. L. (2015). Hydrothermal Acid-sulfate Alteration at Krafla and NĂĄmafjall, Ne Iceland: Implications for Gusev Crater and Meridiani Planum, Mars. Masters thesis, University of Wisconsin-Milwaukee. |
- NĂĄmaskarĂ° Geothermal Area
| Mineralogy and bulk geochemistry of a fumarole at Hverir, Iceland: Analog for acid sulfate leaching on Mars Am Min in press |