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| Main Authors: | , , , , , , |
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| Format: | Dataset Open Access |
| Language: | en |
| Published: |
PANGAEA
2024
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| Subjects: | |
| Online Access: | https://doi.org/10.1594/PANGAEA.968700 |
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| _version_ | 1867170124736233472 |
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| author | Brett, Gemma Marie Leonard, Gregory H Rack, Wolfgang Irvin, Anne Haas, Christian Langhorne, Patricia J Smith, Inga J |
| author_facet | Brett, Gemma Marie Leonard, Gregory H Rack, Wolfgang Irvin, Anne Haas, Christian Langhorne, Patricia J Smith, Inga J |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | Ground-based electromagnetic induction (EM) time-series measurements of land-fast sea ice and sub-ice platelet layer thicknesses were carried out on land-fast sea ice in McMurdo Sound, Antarctica in winter (August 8 to 26 October) and late spring (November 4-18) of 2018. The EM data were acquired using a frequency-domain Geonics Ltd EM31-MK2 instrument mounted on the sea ice surface in winter and a sledge in late spring. The thicknesses of consolidated ice (sea ice plus the snow layer) and the sub-ice platelet layer were simultaneously retrieved from the EM31 measured response (i.e., Apparent Conductivity (AppCond) and Inphase (Inph)) using the forward modelling and inversion methods of Irvin (2018). Temporal variability in EM measured thicknesses detected the seasonal growth of land-fast sea ice and sub-ice platelet layer in winter, and shorter timescale variability related to strong offshore wind events in winter and the tides in late spring (Brett et al., 2024). |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_968700 |
| institution | PANGAEA |
| language | en |
| publishDate | 2024 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Winter 2018 time-series measurement of land-fast sea ice and sub-ice platelet layer thicknesses from electromagnetic induction soundings in McMurdo Sound, Antarctica Brett, Gemma Marie Leonard, Gregory H Rack, Wolfgang Irvin, Anne Haas, Christian Langhorne, Patricia J Smith, Inga J Antarctica; Antarctic sea ice; Conductivity, apparent; DATE/TIME; DEEP SOUTH NATIONAL SCIENCE CHALLENGE: Targeted observation and process-informed modelling of Antarctic sea ice; electromagnetic induction; GEM; Ground-based electromagnetic induction; ice-ocean interaction; Ice thickness; In-phase component; McMurdoSound_2018winter; Sea ice thickness; Sub-ice platelet layer; Sub-ice platelet-layer thickness; Temperature, air; Temperature sensor, Campbell Scientific; TOPIMASI Ground-based electromagnetic induction (EM) time-series measurements of land-fast sea ice and sub-ice platelet layer thicknesses were carried out on land-fast sea ice in McMurdo Sound, Antarctica in winter (August 8 to 26 October) and late spring (November 4-18) of 2018. The EM data were acquired using a frequency-domain Geonics Ltd EM31-MK2 instrument mounted on the sea ice surface in winter and a sledge in late spring. The thicknesses of consolidated ice (sea ice plus the snow layer) and the sub-ice platelet layer were simultaneously retrieved from the EM31 measured response (i.e., Apparent Conductivity (AppCond) and Inphase (Inph)) using the forward modelling and inversion methods of Irvin (2018). Temporal variability in EM measured thicknesses detected the seasonal growth of land-fast sea ice and sub-ice platelet layer in winter, and shorter timescale variability related to strong offshore wind events in winter and the tides in late spring (Brett et al., 2024). |
| title | Winter 2018 time-series measurement of land-fast sea ice and sub-ice platelet layer thicknesses from electromagnetic induction soundings in McMurdo Sound, Antarctica |
| topic | Antarctica; Antarctic sea ice; Conductivity, apparent; DATE/TIME; DEEP SOUTH NATIONAL SCIENCE CHALLENGE: Targeted observation and process-informed modelling of Antarctic sea ice; electromagnetic induction; GEM; Ground-based electromagnetic induction; ice-ocean interaction; Ice thickness; In-phase component; McMurdoSound_2018winter; Sea ice thickness; Sub-ice platelet layer; Sub-ice platelet-layer thickness; Temperature, air; Temperature sensor, Campbell Scientific; TOPIMASI |
| url | https://doi.org/10.1594/PANGAEA.968700 |