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Barite-rich massive sulfides from the Semenov-1 hydrothermal field (Mid-Atlantic Ridge, 13°30.87′ N): evidence for phase separation and magmatic input

Citation

Melekestseva, IY and Tret'yakov, GA and Nimis, P and Yuminov, AM and Maslennikov, VV and Maslennikova, SP and Kotlyarov, VA and Beltenev, VE and Danyushevsky, LV and Large, R, Barite-rich massive sulfides from the Semenov-1 hydrothermal field (Mid-Atlantic Ridge, 13 30.87′ N): evidence for phase separation and magmatic input, Marine Geology, 349 pp. 37-54. ISSN 0025-3227 (2014) [Refereed Article]

Copyright Statement

Copyright 2014 Elsevier B.V.

DOI: doi:10.1016/j.margeo.2013.12.013

Abstract

The ultramafic-hosted Semenov-1 hydrothermal field is a part of the Semenov group of sulfide deposits located at 13°30′ N Mid-Atlantic Ridge. The hydrothermal deposits comprise fine-crystalline, colloform, nodular, and banded barite–marcasite–pyrite assemblages, which are a result of moderately- to low-temperature venting of (Fe, Ba)-rich hydrothermal fluids. The precipitates contain low concentrations of Cu (0.02–0.55 wt.%) and Zn (0.01–0.08 wt.%), and variable Au content (0.35–4.76 ppm). Fe-disulfides are relatively enriched in Au and typical low-temperature trace elements (As, Ag, Pb, Mn, Tl). The concentrations of Au and of most trace elements are higher in the earliest, fine-grained Fe-disulfides and decrease in the late coarse-crystalline pyrite.

Based on fluid inclusion data, barite precipitated from moderately- to low-temperature (244–83°С), low-salinity (0.6–3.8 wt.% NaCl eq.), carbonate–sulfate–aqueous fluids, which incorporated a low-density component produced by fluid phase separation. The presence of CO2 and SO2 in fluid inclusions in barite, as revealed by Raman spectroscopy, may indicate a magmatic volatile contribution to the hydrothermal fluid. The main amount of marcasite and pyrite was formed at temperatures below 240°С, after the precipitation of barite. The occurrence of isocubanite, chalcopyrite and pyrrhotite in precipitates from station 292 indicates a later high-temperature (~ 300°С) overprint. The sulfur isotopic composition of barite (+ 21.0 and + 21.3‰) closely matches that of seawater. The isotopic composition of sulfur in sulfides from station 186 (− 3.26 to − 0.08‰) suggests a possible contribution of light reduced sulfur derived from disproportionation of magmatic SO2 or from leaching of basalt that has degassed SO2. The higher δ34S values in sulfides from station 292 (− 0.08 to + 1.53‰) may reflect a heavy sulfur contribution from reduced seawater sulfate.

Although the Semenov-1 field is considered to be associated with serpentinized ultramafic rocks (Beltenev et al., 2007), the mineralogical composition of the hydrothermal precipitates, particularly, their high barite and pyrite contents, is more typical of EMORB-hosted seafloor hydrothermal deposits (e.g., Lucky Strike or Menez Gwen fields). Thermodynamic modeling of fluid–rock hydrothermal systems using a flow reactor model demonstrates that basalt–seawater interaction generates fluids that can produce only minor amounts of barite, irrespective of the Ba content of the basalt. Addition of a magmatic gas to the system produces highly acidic hydrothermal fluids capable to extract larger amounts of Ba and Fe, and form mineral assemblages similar to the studied ones. In contrast, interaction between ultramafic rock (peridotite) and seawater, with or without magmatic gas, results in precipitation of barite-free mineral assemblages. The above results do not support an ultramafic signature for the Semenov-1 hydrothermal system and suggest a mafic control on the hydrothermal fluid composition.

Item Details

Item Type:Refereed Article
Keywords:VHMS, VMS, Urals, barite, chimney, fluid inclusions, gold, massive sulfides, LA-ICP-MS, Mid-Atlantic Ridge, phase separation, Semenov-1 hydrothermal field, sulfur isotopic composition, thermodynamic modeling
Research Division:Earth Sciences
Research Group:Geology
Research Field:Ore Deposit Petrology
Objective Division:Mineral Resources (excl. Energy Resources)
Objective Group:Other Mineral Resources (excl. Energy Resources)
Objective Field:Mineral Resources (excl. Energy Resources) not elsewhere classified
Author:Danyushevsky, LV (Professor Leonid Danyushevsky)
Author:Large, R (Professor Ross Large)
ID Code:98221
Year Published:2014
Web of Science® Times Cited:7
Deposited By:Centre for Ore Deposit Research - CODES CoE
Deposited On:2015-02-05
Last Modified:2017-10-24
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