Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones

Mooring observation of hydrography, hydrodynamics and suspended particles distribution under a drifting sea ice revealed the mixing and entrainment pattern in the upper mixed layer (ML) of the marginal ice zone. The ice floe where the mooring system was installed drifted as near-inertial motion with...

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Published in:Deep Sea Research Part II: Topical Studies in Oceanography
Main Authors: Kim, Yong Hoon, Ha, Ho Kyung, Lee, Sang Heon, Kim, Hae-Cheol, Lee, Hyun Jung, Hwang, Phil, Park, Jae-Hun
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
Entrainment
Near-inertial drift
Sea ice
Marginal ice zone
Arctic Ocean
Arctic
Online Access:https://pure.uhi.ac.uk/en/publications/24482e20-e030-46b7-be9c-df32b66d0876
https://doi.org/10.1016/j.dsr2.2014.05.019
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spelling ftuhipublicatio:oai:pure.atira.dk:publications/24482e20-e030-46b7-be9c-df32b66d0876 2024-02-04T09:58:35+01:00 Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones Kim, Yong Hoon Ha, Ho Kyung Lee, Sang Heon Kim, Hae-Cheol Lee, Hyun Jung Hwang, Phil Park, Jae-Hun 2015-10 https://pure.uhi.ac.uk/en/publications/24482e20-e030-46b7-be9c-df32b66d0876 https://doi.org/10.1016/j.dsr2.2014.05.019 eng eng info:eu-repo/semantics/closedAccess Kim , Y H , Ha , H K , Lee , S H , Kim , H-C , Lee , H J , Hwang , P & Park , J-H 2015 , ' Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones ' , Deep-Sea Research Part II - Topical Studies in Oceanography , vol. 120 , pp. 21-34 . https://doi.org/10.1016/j.dsr2.2014.05.019 Entrainment Near-inertial drift Sea ice Marginal ice zone Arctic Ocean article 2015 ftuhipublicatio https://doi.org/10.1016/j.dsr2.2014.05.019 2024-01-11T23:21:12Z Mooring observation of hydrography, hydrodynamics and suspended particles distribution under a drifting sea ice revealed the mixing and entrainment pattern in the upper mixed layer (ML) of the marginal ice zone. The ice floe where the mooring system was installed drifted as near-inertial motion with approximately 12-h cycle. The mixing pattern induced by this near-inertial drift can be divided into two distinct regimes. First, simple entrainment (upward) fluxes from the seasonal pycnocline to sea ice–water boundary are induced by shear across ML and seasonal pycnocline during the period when ice floes drift toward pack ice. The entrainment speed was in the range of 0.25–2 m h−1, which matches well with thickening and thinning of the ML during a near-inertial period. Turbulent wakes on the boundary between sea ice and open water occurred behind the advancing edge of ice. In the second regime, when ice floes drift toward open ocean, the turbulent wakes at the advancing edge of ice are combined with the entrainment caused by near-inertial motion, which results in a complex mixing pattern of both upward and downward fluxes in the ML. The echo intensity observed by the acoustic Doppler current profiler and beam attenuation from transmissometer revealed the elevated concentration of suspended particulate materials in the ML, which can be direct evidence visualizing the mixing pattern. Results suggest that the mixing and entrainment found in our study sustain particulate matters in suspension within upper ML for a few months. This may provide a potential mechanism to sustain abundant organic particulates in the ML and upper pycnocline for months after under-ice bloom. Under strong wind events like storms, the entrainment induced by near-inertial motion may also get enhanced, which causes elevated supply of nutrients from the deeper, permanent pycnocline to the ML. Article in Journal/Newspaper Arctic Arctic Ocean Sea ice University of the Highlands and Islands: Research Database of UHI Arctic Arctic Ocean Deep Sea Research Part II: Topical Studies in Oceanography 120 21 34
institution Open Polar
collection University of the Highlands and Islands: Research Database of UHI
op_collection_id ftuhipublicatio
language English
topic Entrainment
Near-inertial drift
Sea ice
Marginal ice zone
Arctic Ocean
spellingShingle Entrainment
Near-inertial drift
Sea ice
Marginal ice zone
Arctic Ocean
Kim, Yong Hoon
Ha, Ho Kyung
Lee, Sang Heon
Kim, Hae-Cheol
Lee, Hyun Jung
Hwang, Phil
Park, Jae-Hun
Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
topic_facet Entrainment
Near-inertial drift
Sea ice
Marginal ice zone
Arctic Ocean
description Mooring observation of hydrography, hydrodynamics and suspended particles distribution under a drifting sea ice revealed the mixing and entrainment pattern in the upper mixed layer (ML) of the marginal ice zone. The ice floe where the mooring system was installed drifted as near-inertial motion with approximately 12-h cycle. The mixing pattern induced by this near-inertial drift can be divided into two distinct regimes. First, simple entrainment (upward) fluxes from the seasonal pycnocline to sea ice–water boundary are induced by shear across ML and seasonal pycnocline during the period when ice floes drift toward pack ice. The entrainment speed was in the range of 0.25–2 m h−1, which matches well with thickening and thinning of the ML during a near-inertial period. Turbulent wakes on the boundary between sea ice and open water occurred behind the advancing edge of ice. In the second regime, when ice floes drift toward open ocean, the turbulent wakes at the advancing edge of ice are combined with the entrainment caused by near-inertial motion, which results in a complex mixing pattern of both upward and downward fluxes in the ML. The echo intensity observed by the acoustic Doppler current profiler and beam attenuation from transmissometer revealed the elevated concentration of suspended particulate materials in the ML, which can be direct evidence visualizing the mixing pattern. Results suggest that the mixing and entrainment found in our study sustain particulate matters in suspension within upper ML for a few months. This may provide a potential mechanism to sustain abundant organic particulates in the ML and upper pycnocline for months after under-ice bloom. Under strong wind events like storms, the entrainment induced by near-inertial motion may also get enhanced, which causes elevated supply of nutrients from the deeper, permanent pycnocline to the ML.
format Article in Journal/Newspaper
author Kim, Yong Hoon
Ha, Ho Kyung
Lee, Sang Heon
Kim, Hae-Cheol
Lee, Hyun Jung
Hwang, Phil
Park, Jae-Hun
author_facet Kim, Yong Hoon
Ha, Ho Kyung
Lee, Sang Heon
Kim, Hae-Cheol
Lee, Hyun Jung
Hwang, Phil
Park, Jae-Hun
author_sort Kim, Yong Hoon
title Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
title_short Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
title_full Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
title_fullStr Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
title_full_unstemmed Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
title_sort entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones
publishDate 2015
url https://pure.uhi.ac.uk/en/publications/24482e20-e030-46b7-be9c-df32b66d0876
https://doi.org/10.1016/j.dsr2.2014.05.019
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
Sea ice
genre_facet Arctic
Arctic Ocean
Sea ice
op_source Kim , Y H , Ha , H K , Lee , S H , Kim , H-C , Lee , H J , Hwang , P & Park , J-H 2015 , ' Entrainment induced by near-inertial drift of sea ice and its impact on under-ice biogeochemical processes in marginal ice zones ' , Deep-Sea Research Part II - Topical Studies in Oceanography , vol. 120 , pp. 21-34 . https://doi.org/10.1016/j.dsr2.2014.05.019
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1016/j.dsr2.2014.05.019
container_title Deep Sea Research Part II: Topical Studies in Oceanography
container_volume 120
container_start_page 21
op_container_end_page 34
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