Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming

© 2019 Elsevier B.V. ROV-based submersible operations in Yellowstone Lake (Yellowstone National Park, Wyoming, USA) have identified two locations with chemically and mineralogically distinct sublacustrine hydrothermal fluids and deposits: The Deep Hole east of Stevenson Island (SI Deep Hole) and the...

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Published in:Journal of Volcanology and Geothermal Research
Main Authors: Fowler, Andrew P.G., Tan, Chunyang, Luttrell, Karen, Tudor, Amanda, Scheuermann, Peter, Pat Shanks, W. C., Seyfried, William E.
Format: Text
Language:unknown
Published: LSU Digital Commons 2019
Subjects:
Acid-sulfate
Carbonic acid-sulfide
Geochemistry
Neutral-chloride
Sublacustrine hydrothermal dynamics
Yellowstone Lake
Thumb
Stevenson Island
Carbonic acid
Online Access:https://digitalcommons.lsu.edu/geo_pubs/1186
https://doi.org/10.1016/j.jvolgeores.2019.106677
id ftlouisianastuir:oai:digitalcommons.lsu.edu:geo_pubs-2185
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spelling ftlouisianastuir:oai:digitalcommons.lsu.edu:geo_pubs-2185 2023-06-11T04:10:55+02:00 Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming Fowler, Andrew P.G. Tan, Chunyang Luttrell, Karen Tudor, Amanda Scheuermann, Peter Pat Shanks, W. C. Seyfried, William E. 2019-11-15T08:00:00Z https://digitalcommons.lsu.edu/geo_pubs/1186 https://doi.org/10.1016/j.jvolgeores.2019.106677 unknown LSU Digital Commons https://digitalcommons.lsu.edu/geo_pubs/1186 doi:10.1016/j.jvolgeores.2019.106677 Faculty Publications Acid-sulfate Carbonic acid-sulfide Geochemistry Neutral-chloride Sublacustrine hydrothermal dynamics Yellowstone Lake text 2019 ftlouisianastuir https://doi.org/10.1016/j.jvolgeores.2019.106677 2023-05-28T18:17:34Z © 2019 Elsevier B.V. ROV-based submersible operations in Yellowstone Lake (Yellowstone National Park, Wyoming, USA) have identified two locations with chemically and mineralogically distinct sublacustrine hydrothermal fluids and deposits: The Deep Hole east of Stevenson Island (SI Deep Hole) and the SE West Thumb Deep Vent field (SE WT Field). The SI Deep Hole is the deepest part of Yellowstone Lake (120 m), and hosts up to 174 °C fluids heated by steam that condenses on contact with cold lake water. The resulting hot fluids exit through a clay alteration cap that largely consists of kaolinite. The SI Deep Hole hydrothermal vents are analogous to steam-heated hot springs elsewhere in Yellowstone National Park (YNP) (e.g. the Mud Volcano area), which are typified by fumaroles and acid-sulfate fluids. These deep sublacustrine vent fluids are more aptly termed “carbonic-acid-sulfide”, owing to a lack substantial sulfate from H2S oxidation and acidity attributed to dissolved CO2. At 53 m depth, vent fluids at the SE WT Field achieve temperatures of up to 141 °C. These neutral-chloride fluids are largely similar to those that produce siliceous deposits in many subaerial YNP geyser basins. Geothermometry calculations and binary mixing relationships indicate the SE WT Field fluids equilibrated at 207 to 224 °C following mixing between oxygenated dilute cold groundwater and a fluid with T = 345 to 364 °C, Cl = 400 ppm, and δD = −149 ‰ (VSMOW); broadly similar to the putative deep parent fluid that supplies most geyser basins in YNP. The δD values of SE WT Field fluids cannot be derived from lake water, implying km-scale lateral hydrothermal fluid flow from outside the boundary of Yellowstone Lake. The fluid compositions and hydrothermal processes operating in the two sublacustrine vent systems are distinct but the overarching influence of magmatic heating, complex degassing, and alteration mineralization effects are broadly comparable to those that affect their subaerial counterparts. The high temperatures and ... Text Carbonic acid Stevenson Island LSU Digital Commons (Louisiana State University) Thumb ENVELOPE(-64.259,-64.259,-65.247,-65.247) Stevenson Island ENVELOPE(61.181,61.181,-67.438,-67.438) Journal of Volcanology and Geothermal Research 386 106677
institution Open Polar
collection LSU Digital Commons (Louisiana State University)
op_collection_id ftlouisianastuir
language unknown
topic Acid-sulfate
Carbonic acid-sulfide
Geochemistry
Neutral-chloride
Sublacustrine hydrothermal dynamics
Yellowstone Lake
spellingShingle Acid-sulfate
Carbonic acid-sulfide
Geochemistry
Neutral-chloride
Sublacustrine hydrothermal dynamics
Yellowstone Lake
Fowler, Andrew P.G.
Tan, Chunyang
Luttrell, Karen
Tudor, Amanda
Scheuermann, Peter
Pat Shanks, W. C.
Seyfried, William E.
Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
topic_facet Acid-sulfate
Carbonic acid-sulfide
Geochemistry
Neutral-chloride
Sublacustrine hydrothermal dynamics
Yellowstone Lake
description © 2019 Elsevier B.V. ROV-based submersible operations in Yellowstone Lake (Yellowstone National Park, Wyoming, USA) have identified two locations with chemically and mineralogically distinct sublacustrine hydrothermal fluids and deposits: The Deep Hole east of Stevenson Island (SI Deep Hole) and the SE West Thumb Deep Vent field (SE WT Field). The SI Deep Hole is the deepest part of Yellowstone Lake (120 m), and hosts up to 174 °C fluids heated by steam that condenses on contact with cold lake water. The resulting hot fluids exit through a clay alteration cap that largely consists of kaolinite. The SI Deep Hole hydrothermal vents are analogous to steam-heated hot springs elsewhere in Yellowstone National Park (YNP) (e.g. the Mud Volcano area), which are typified by fumaroles and acid-sulfate fluids. These deep sublacustrine vent fluids are more aptly termed “carbonic-acid-sulfide”, owing to a lack substantial sulfate from H2S oxidation and acidity attributed to dissolved CO2. At 53 m depth, vent fluids at the SE WT Field achieve temperatures of up to 141 °C. These neutral-chloride fluids are largely similar to those that produce siliceous deposits in many subaerial YNP geyser basins. Geothermometry calculations and binary mixing relationships indicate the SE WT Field fluids equilibrated at 207 to 224 °C following mixing between oxygenated dilute cold groundwater and a fluid with T = 345 to 364 °C, Cl = 400 ppm, and δD = −149 ‰ (VSMOW); broadly similar to the putative deep parent fluid that supplies most geyser basins in YNP. The δD values of SE WT Field fluids cannot be derived from lake water, implying km-scale lateral hydrothermal fluid flow from outside the boundary of Yellowstone Lake. The fluid compositions and hydrothermal processes operating in the two sublacustrine vent systems are distinct but the overarching influence of magmatic heating, complex degassing, and alteration mineralization effects are broadly comparable to those that affect their subaerial counterparts. The high temperatures and ...
format Text
author Fowler, Andrew P.G.
Tan, Chunyang
Luttrell, Karen
Tudor, Amanda
Scheuermann, Peter
Pat Shanks, W. C.
Seyfried, William E.
author_facet Fowler, Andrew P.G.
Tan, Chunyang
Luttrell, Karen
Tudor, Amanda
Scheuermann, Peter
Pat Shanks, W. C.
Seyfried, William E.
author_sort Fowler, Andrew P.G.
title Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
title_short Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
title_full Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
title_fullStr Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
title_full_unstemmed Geochemical heterogeneity of sublacustrine hydrothermal vents in Yellowstone Lake, Wyoming
title_sort geochemical heterogeneity of sublacustrine hydrothermal vents in yellowstone lake, wyoming
publisher LSU Digital Commons
publishDate 2019
url https://digitalcommons.lsu.edu/geo_pubs/1186
https://doi.org/10.1016/j.jvolgeores.2019.106677
long_lat ENVELOPE(-64.259,-64.259,-65.247,-65.247)
ENVELOPE(61.181,61.181,-67.438,-67.438)
geographic Thumb
Stevenson Island
geographic_facet Thumb
Stevenson Island
genre Carbonic acid
Stevenson Island
genre_facet Carbonic acid
Stevenson Island
op_source Faculty Publications
op_relation https://digitalcommons.lsu.edu/geo_pubs/1186
doi:10.1016/j.jvolgeores.2019.106677
op_doi https://doi.org/10.1016/j.jvolgeores.2019.106677
container_title Journal of Volcanology and Geothermal Research
container_volume 386
container_start_page 106677
_version_ 1768385651262095360

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