Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge

Helium concentration and isotopic ratio in the ocean are influenced by four sources: the mantle, atmosphere, crust and tritium decay. In addition, the concentration of dissolved gases can be altered by air injection and ice-related mechanisms such as brine rejection, sea-ice melting and glacial melt...

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Published in:Earth and Planetary Science Letters
Main Authors: Hahm, D., Postlethwaite, C.F., Tamaki, K., Kim, K-R.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2004
Subjects:
Arctic
Knipovich Ridge
Mid-Atlantic Ridge
Svalbard
glacier
Sea ice
Online Access:https://eprints.soton.ac.uk/24078/
id ftsouthampton:oai:eprints.soton.ac.uk:24078
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spelling ftsouthampton:oai:eprints.soton.ac.uk:24078 2023-07-30T03:59:52+02:00 Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge Hahm, D. Postlethwaite, C.F. Tamaki, K. Kim, K-R. 2004 https://eprints.soton.ac.uk/24078/ unknown Hahm, D., Postlethwaite, C.F., Tamaki, K. and Kim, K-R. (2004) Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge. Earth and Planetary Science Letters, 229 (1-2), 125-139. (doi:10.1016/j.epsl.2004.10.028 <http://dx.doi.org/10.1016/j.epsl.2004.10.028>). Article PeerReviewed 2004 ftsouthampton https://doi.org/10.1016/j.epsl.2004.10.028 2023-07-09T20:39:01Z Helium concentration and isotopic ratio in the ocean are influenced by four sources: the mantle, atmosphere, crust and tritium decay. In addition, the concentration of dissolved gases can be altered by air injection and ice-related mechanisms such as brine rejection, sea-ice melting and glacial melting, especially in the high-latitude seas. The Knipovich Ridge, a northern continuation of the Mid-Atlantic Ridge (74–79°N, 6–8°E), is potentially affected by all the sources and mechanisms mentioned above. This suggests that the ridge should be a good place to investigate these mechanisms. During the Knipovich 2000 expedition, water samples were collected for helium and neon analysis along the axis of the ridge. Although Mn and CH4 results suggest the existence of hydrothermal activity in the ridge, we could not detect a significant increase of helium isotopic ratio (3He/4He) at corresponding water depths. Instead, the bottom waters in the northern section of the ridge were supersaturated by up to 40% for 4He. The helium isotopic ratio of 1.3×10?6 indicates the dominance of atmospheric helium. Using He and Ne saturation anomalies, we further explored the mechanisms affecting the distribution of helium and neon in the ridge. Around 5% supersaturation of He and Ne at most deep waters is explained by air injection and brine rejection. However, the large excess in the northern ridge was attributed to the input of 2.5% glacial meltwater, possibly originating from the glacier-covered islands, Svalbard. Article in Journal/Newspaper Arctic Arctic glacier Sea ice Svalbard University of Southampton: e-Prints Soton Arctic Knipovich Ridge ENVELOPE(7.074,7.074,75.712,75.712) Mid-Atlantic Ridge Svalbard Earth and Planetary Science Letters 229 1-2 125 139
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language unknown
description Helium concentration and isotopic ratio in the ocean are influenced by four sources: the mantle, atmosphere, crust and tritium decay. In addition, the concentration of dissolved gases can be altered by air injection and ice-related mechanisms such as brine rejection, sea-ice melting and glacial melting, especially in the high-latitude seas. The Knipovich Ridge, a northern continuation of the Mid-Atlantic Ridge (74–79°N, 6–8°E), is potentially affected by all the sources and mechanisms mentioned above. This suggests that the ridge should be a good place to investigate these mechanisms. During the Knipovich 2000 expedition, water samples were collected for helium and neon analysis along the axis of the ridge. Although Mn and CH4 results suggest the existence of hydrothermal activity in the ridge, we could not detect a significant increase of helium isotopic ratio (3He/4He) at corresponding water depths. Instead, the bottom waters in the northern section of the ridge were supersaturated by up to 40% for 4He. The helium isotopic ratio of 1.3×10?6 indicates the dominance of atmospheric helium. Using He and Ne saturation anomalies, we further explored the mechanisms affecting the distribution of helium and neon in the ridge. Around 5% supersaturation of He and Ne at most deep waters is explained by air injection and brine rejection. However, the large excess in the northern ridge was attributed to the input of 2.5% glacial meltwater, possibly originating from the glacier-covered islands, Svalbard.
format Article in Journal/Newspaper
author Hahm, D.
Postlethwaite, C.F.
Tamaki, K.
Kim, K-R.
spellingShingle Hahm, D.
Postlethwaite, C.F.
Tamaki, K.
Kim, K-R.
Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
author_facet Hahm, D.
Postlethwaite, C.F.
Tamaki, K.
Kim, K-R.
author_sort Hahm, D.
title Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
title_short Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
title_full Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
title_fullStr Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
title_full_unstemmed Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge
title_sort mechanisms controlling the distribution of helium and neon in the arctic seas: the case of the knipovich ridge
publishDate 2004
url https://eprints.soton.ac.uk/24078/
long_lat ENVELOPE(7.074,7.074,75.712,75.712)
geographic Arctic
Knipovich Ridge
Mid-Atlantic Ridge
Svalbard
geographic_facet Arctic
Knipovich Ridge
Mid-Atlantic Ridge
Svalbard
genre Arctic
Arctic
glacier
Sea ice
Svalbard
genre_facet Arctic
Arctic
glacier
Sea ice
Svalbard
op_relation Hahm, D., Postlethwaite, C.F., Tamaki, K. and Kim, K-R. (2004) Mechanisms controlling the distribution of helium and neon in the Arctic seas: the case of the Knipovich Ridge. Earth and Planetary Science Letters, 229 (1-2), 125-139. (doi:10.1016/j.epsl.2004.10.028 <http://dx.doi.org/10.1016/j.epsl.2004.10.028>).
op_doi https://doi.org/10.1016/j.epsl.2004.10.028
container_title Earth and Planetary Science Letters
container_volume 229
container_issue 1-2
container_start_page 125
op_container_end_page 139
_version_ 1772810602343825408

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