Isotope systematics of Icelandic thermal fluids

Thermal fluids in Iceland range in temperature from < 10 °C to > 440 °C and are dominated by water (> 97 mol%) with a chloride concentration from < 10 ppm to > 20,000 ppm. The isotope systematics of the fluids reveal many important features of the source(s) and transport properties of...

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Published in:Journal of Volcanology and Geothermal Research
Main Authors: Stefánsson, Andri, Hilton, David R., Sveinbjörnsdóttir, Árný E., Torssander, Peter, Heinemeier, Jan, Barnes, Jaime D., Ono, Shuhei, Halldórsson, Sæmundur Ari, Fiebig, Jens, Arnórsson, Stefán
Other Authors: Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2017
Subjects:
Iceland
Online Access:https://hdl.handle.net/1721.1/123818
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spelling ftmit:oai:dspace.mit.edu:1721.1/123818 2023-06-11T04:13:07+02:00 Isotope systematics of Icelandic thermal fluids Stefánsson, Andri Hilton, David R. Sveinbjörnsdóttir, Árný E. Torssander, Peter Heinemeier, Jan Barnes, Jaime D. Ono, Shuhei Halldórsson, Sæmundur Ari Fiebig, Jens Arnórsson, Stefán Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences Ono, Shuhei 2017-02 application/pdf https://hdl.handle.net/1721.1/123818 en_US eng Elsevier BV http://dx.doi.org/10.1016/j.jvolgeores.2017.02.006 Journal of Volcanology and Geothermal Research 0377-0273 https://hdl.handle.net/1721.1/123818 Stefánsson, Andri et al. "Isotope systematics of Icelandic thermal fluids." Journal of Volcanology and Geothermal Research 337 (May 2017): 146-164 © 2017 Elsevier Creative Commons Attribution-NonCommercial-NoDerivs License http://creativecommons.org/licenses/by-nc-nd/4.0/ Prof. Ono via Michael Noga Article http://purl.org/eprint/type/JournalArticle 2017 ftmit https://doi.org/10.1016/j.jvolgeores.2017.02.006 2023-05-29T08:40:32Z Thermal fluids in Iceland range in temperature from < 10 °C to > 440 °C and are dominated by water (> 97 mol%) with a chloride concentration from < 10 ppm to > 20,000 ppm. The isotope systematics of the fluids reveal many important features of the source(s) and transport properties of volatiles at this divergent plate boundary. Studies spanning over four decades have revealed a large range of values for δD (− 131 to + 3.3‰), tritium (− 0.4 to + 13.8 TU), δ¹⁸O (− 20.8 to + 2.3‰),³He/⁴He (3.1 to 30.4 R[subscript A]), δ¹¹B (− 6.7 to + 25.0‰), δ¹³C[subscript ∑ CO₂](− 27.4 to + 4.6‰), ¹⁴C[subscript ∑ CO₂](+ 0.6 to + 118 pMC), δ¹³C[subscript CH₄](− 52.3 to − 17.8‰), δ¹⁵N (− 10.5 to + 3.0‰), δ³⁴S[subscript ∑ S− II] (− 10.9 to + 3.4‰), δ³⁴S[subscript SO₄](− 2.0 to + 21.2‰) and δ³⁷Cl (− 1.0 to + 2.1‰) in both liquid and vapor phases. Based on this isotopic dataset, the thermal waters originate from meteoric inputs and/or seawater. For other volatiles, degassing of mantle-derived melts contributes to He, CO₂ and possibly also to Cl in the fluids. Water-basalt interaction also contributes to CO₂ and is the major source of H₂S, SO₄, Cl and B in the fluids. Redox reactions additionally influence the composition of the fluids, for example, oxidation of H₂S to SO₄ and reduction of CO₂ to CH₄. Air-water interaction mainly controls N2, Ar and Ne concentrations. The large range of many non-reactive volatile isotope ratios, such as δ³⁷Cl and ³He/⁴He, indicate heterogeneity of the mantle and mantle-derived melts beneath Iceland. In contrast, the large range of many reactive isotopes, such as δ¹³C[subscript ∑ CO₂] and δ³⁴S[subscript ∑ S− II], are heavily affected by processes occurring within the geothermal systems, including fluid-rock interaction, depressurization boiling, and isotopic fractionation between secondary minerals and the aqueous and vapor species. Variations due to these geothermal processes may exceed differences observed among various crust and mantle sources, highlighting the importance and effects ... Article in Journal/Newspaper Iceland DSpace@MIT (Massachusetts Institute of Technology) Journal of Volcanology and Geothermal Research 337 146 164
institution Open Polar
collection DSpace@MIT (Massachusetts Institute of Technology)
op_collection_id ftmit
language English
description Thermal fluids in Iceland range in temperature from < 10 °C to > 440 °C and are dominated by water (> 97 mol%) with a chloride concentration from < 10 ppm to > 20,000 ppm. The isotope systematics of the fluids reveal many important features of the source(s) and transport properties of volatiles at this divergent plate boundary. Studies spanning over four decades have revealed a large range of values for δD (− 131 to + 3.3‰), tritium (− 0.4 to + 13.8 TU), δ¹⁸O (− 20.8 to + 2.3‰),³He/⁴He (3.1 to 30.4 R[subscript A]), δ¹¹B (− 6.7 to + 25.0‰), δ¹³C[subscript ∑ CO₂](− 27.4 to + 4.6‰), ¹⁴C[subscript ∑ CO₂](+ 0.6 to + 118 pMC), δ¹³C[subscript CH₄](− 52.3 to − 17.8‰), δ¹⁵N (− 10.5 to + 3.0‰), δ³⁴S[subscript ∑ S− II] (− 10.9 to + 3.4‰), δ³⁴S[subscript SO₄](− 2.0 to + 21.2‰) and δ³⁷Cl (− 1.0 to + 2.1‰) in both liquid and vapor phases. Based on this isotopic dataset, the thermal waters originate from meteoric inputs and/or seawater. For other volatiles, degassing of mantle-derived melts contributes to He, CO₂ and possibly also to Cl in the fluids. Water-basalt interaction also contributes to CO₂ and is the major source of H₂S, SO₄, Cl and B in the fluids. Redox reactions additionally influence the composition of the fluids, for example, oxidation of H₂S to SO₄ and reduction of CO₂ to CH₄. Air-water interaction mainly controls N2, Ar and Ne concentrations. The large range of many non-reactive volatile isotope ratios, such as δ³⁷Cl and ³He/⁴He, indicate heterogeneity of the mantle and mantle-derived melts beneath Iceland. In contrast, the large range of many reactive isotopes, such as δ¹³C[subscript ∑ CO₂] and δ³⁴S[subscript ∑ S− II], are heavily affected by processes occurring within the geothermal systems, including fluid-rock interaction, depressurization boiling, and isotopic fractionation between secondary minerals and the aqueous and vapor species. Variations due to these geothermal processes may exceed differences observed among various crust and mantle sources, highlighting the importance and effects ...
author2 Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences
Ono, Shuhei
format Article in Journal/Newspaper
author Stefánsson, Andri
Hilton, David R.
Sveinbjörnsdóttir, Árný E.
Torssander, Peter
Heinemeier, Jan
Barnes, Jaime D.
Ono, Shuhei
Halldórsson, Sæmundur Ari
Fiebig, Jens
Arnórsson, Stefán
spellingShingle Stefánsson, Andri
Hilton, David R.
Sveinbjörnsdóttir, Árný E.
Torssander, Peter
Heinemeier, Jan
Barnes, Jaime D.
Ono, Shuhei
Halldórsson, Sæmundur Ari
Fiebig, Jens
Arnórsson, Stefán
Isotope systematics of Icelandic thermal fluids
author_facet Stefánsson, Andri
Hilton, David R.
Sveinbjörnsdóttir, Árný E.
Torssander, Peter
Heinemeier, Jan
Barnes, Jaime D.
Ono, Shuhei
Halldórsson, Sæmundur Ari
Fiebig, Jens
Arnórsson, Stefán
author_sort Stefánsson, Andri
title Isotope systematics of Icelandic thermal fluids
title_short Isotope systematics of Icelandic thermal fluids
title_full Isotope systematics of Icelandic thermal fluids
title_fullStr Isotope systematics of Icelandic thermal fluids
title_full_unstemmed Isotope systematics of Icelandic thermal fluids
title_sort isotope systematics of icelandic thermal fluids
publisher Elsevier BV
publishDate 2017
url https://hdl.handle.net/1721.1/123818
genre Iceland
genre_facet Iceland
op_source Prof. Ono via Michael Noga
op_relation http://dx.doi.org/10.1016/j.jvolgeores.2017.02.006
Journal of Volcanology and Geothermal Research
0377-0273
https://hdl.handle.net/1721.1/123818
Stefánsson, Andri et al. "Isotope systematics of Icelandic thermal fluids." Journal of Volcanology and Geothermal Research 337 (May 2017): 146-164 © 2017 Elsevier
op_rights Creative Commons Attribution-NonCommercial-NoDerivs License
http://creativecommons.org/licenses/by-nc-nd/4.0/
op_doi https://doi.org/10.1016/j.jvolgeores.2017.02.006
container_title Journal of Volcanology and Geothermal Research
container_volume 337
container_start_page 146
op_container_end_page 164
_version_ 1768389765859639296

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