Anomaly high δ34S values of edifices at the Mid-Atlantic Ridge: the closed system effect in the sulfide generation zone

Publication type Article
Status Published
Affiliation: Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry, RAS
Address: Russian Federation
Affiliation: Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry, RAS
Address: Russian Federation
Affiliation: Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry, RAS
Address: Russian Federation
Journal nameDoklady Akademii nauk
EditionVolume 483 Issue 6


Publication date26.12.2018
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1. Bortnikov N.S., Vikent'ev I. V. Sovremennoe sul'fidnoe polimetallicheskoe mineraloobrazovanie v Mirovom okeane // Geol. rud. mestorozhd. 2005. T. 47. № 1. S. 16 – 50.

2. Shanks III, W.C. Stable isotopes in sea?oor hydrothermal systems: vent ?uids, hydrothermal deposits, hydrothermal alteration, and microbial processes. In: Stable Isotope Geochemistry. Rev. Mineral. 2001. V. 43. P. 469–517.

3. Canfield D.E. Biogeochemistry of sulfur isotopes. In: Stable Isotope Geochemistry. Rev. Mineral., 2001. V. 43. P. 607-636.

4. Zeng Zh., Maa Y., Chen S., Selby D., Wang X., Yin X. Sulfur and lead isotopic compositions of massive sulfides from deep-sea hydrothermal systems: Implications for ore genesis and fluid circulation // Ore Geology Reviews. 2017. V. 87. P. 155-171.

5. Seal II, R. R. Sulfur Isotope Geochemistry of Sulfide Minerals // Rev. in Miner. and Geochem. 2006. V. 61. P. 633-677.

6. Ohmoto H., Lasaga A.C. Kinetics of reactions between aqueous sulfates and sulfides in hydrothermal systems // Geochim. et Cosmochim. Acta. 1982. V. 46. P.1727-1745.

7. Bogdanov Yu.A., Bortnikov N.S., Vikent'ev I.V., Gurvich E.G., Sagalevich A.M. Novyj tip sovremennykh mineral-formiruyuschikh sistem: chernye kuril'schiki gidrotermal'nogo polya na 14o45’, Sredinno-Atlanticheskij khrebet// Geol. rud. mestorozhd. 1997. T. 39. № 1. S. 68 - 90.

8. Bogdanov Yu. A., Bortnikov N.S., Vikent'ev I. V., Lein A. Yu., Gurvich E. G. Mineralogo-geokhimicheskie osobennosti gidrotermal'nykh sul'fidnykh rud i flyuida polya Rejnbou, assotsiirovannogo s serpentinitami, Sredinno-Atlanticheskij khrebet (36°14' Geol. rud. mestorozhd. 2002. № 6. S. 513-545.

9. Peters M., Strauss H., Farquhar J., Ockert C., Eickmann B., Jost C.L. Sulfur cycling at the Mid-Atlantic Ridge: A multiple sulfur isotope approach // Chem. Geol. 2010. V. 269. P. 180-196.

10. Fouquet Y., Cherkashov G., Charlou J.L., Bortnikov N.S. Serpentine cruise - ultramafic hosted hydrothermal deposits on the Mid-Atlantic Ridge: First submersible studies on Ashadze 1 and 2, Logatchev 2 and Krasnov vent fields// InterRidge News. 2008. V. 17. P. 15-20.

11. Lein A.Y., Ulyanova N.V., Ulyanov A.A., Cherkashe, G.A., Stepanova T.V. Mineralogy and geochemistry of sulfide ores in ocean-floor hydrothermal fields associated with serpentinite protrusions// Russ. J. Earth Sci. 2001. V. 3. P. 371–393.

12. Rouxel, O., Fouquet, Y., Ludden, J.N. Copper isotope systematics of the Lucky Strike, Rainbow and Logatchev sea?oor hydrothermal ?elds on the Mid Atlantic Ridge // Econ. Geol. 2004. V. 99. P. 585–600.

13. Ockert C. Variability of Sulfur Isotopes of Hydrothermal Sulfides and Sulfates of slow and intermediate spreading ridges. Master thesis, Univ. of Münster. 2008.

14. Bluth G.J., Ohmoto H. Sulfide-sulfate chimneys on the East Pacific Rise, 11° and 13°N latitude. Part II: Sulfur isotopes // Canadian Mineralogist 1988. V. 26. P. 505–515.

15. Woodruff L.G., Shanks III, W.C. Sulfur isotope study of chimney minerals and vent fluids from 21°N, East Pacific Rise: Hydrothermal sulfur sources and disequilibrium sulfate reduction // J. Geophys. Res. 1988. V. 93. P. 4562-4572.

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