Stable boundary-layer regimes at dome C, Antarctica : observation and analysis

Investigation of meteorological measurements along a 45 m tower at Dome C on the high East Antarctic Plateau revealed two distinct stable boundary layer (SBL) regimes at this location. The first regime is characterized by strong winds and continuous turbulence. It results in full vertical coupling o...

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Main Authors: Vignon, E, Wiel, BJH Bas van de, Hooijdonk, IGS Ivo van, Genthon, C, Linden, SJA Steven van der, Hooft, JA Antoon van, Baas, P, Maurel, W, Traullé, O, Casasanta, G
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Antarctic
The Antarctic
Antarc*
Antarctica
Online Access:http://repository.tue.nl/880402
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record_format openpolar
spelling ftuniveindhoven:oai:library.tue.nl:880402 2023-05-15T14:01:45+02:00 Stable boundary-layer regimes at dome C, Antarctica : observation and analysis Vignon, E Wiel, BJH Bas van de Hooijdonk, IGS Ivo van Genthon, C Linden, SJA Steven van der Hooft, JA Antoon van Baas, P Maurel, W Traullé, O Casasanta, G 2017 application/pdf http://repository.tue.nl/880402 en eng Copyright (c) Vignon, E Copyright (c) Wiel, BJH Bas van de Copyright (c) Hooijdonk, IGS Ivo van Copyright (c) Genthon, C Copyright (c) Linden, SJA Steven van der Copyright (c) Hooft, JA Antoon van Copyright (c) Baas, P Copyright (c) Maurel, W Copyright (c) Traullé, O Copyright (c) Casasanta, G ISSN:0035-9009 Article / Letter to the editor 2017 ftuniveindhoven 2019-01-23T23:10:51Z Investigation of meteorological measurements along a 45 m tower at Dome C on the high East Antarctic Plateau revealed two distinct stable boundary layer (SBL) regimes at this location. The first regime is characterized by strong winds and continuous turbulence. It results in full vertical coupling of temperature, wind magnitude and wind direction in the SBL. The second regime is characterized by weak winds, associated with weak turbulent activity and very strong temperature inversions reaching up to 25 K in the lowest 10 m. Vertical temperature profiles are generally exponentially shaped (convex) in the first regime and ‘convex–concave–convex’ in the second. The transition between the two regimes is particularly abrupt when looking at the near-surface temperature inversion and it can be identified by a 10 m wind-speed threshold. With winds under this threshold, the turbulent heat supply toward the surface becomes significantly lower than the net surface radiative cooling. The threshold value (including its range of uncertainty) appears to agree with recent theoretical predictions from the so-called ‘minimum wind speed for sustainable turbulence’ (MWST) theory. For the quasi-steady, clear-sky winter cases, the relation between the near-surface inversion amplitude and the wind speed takes a characteristic ‘S’ shape. Closer analysis suggests that this relation corresponds to a ‘critical transition’ between a steady turbulent and a steady ‘radiative’ regime, with a dynamically unstable branch in the transition zone. These fascinating characteristics of the Antarctic boundary layer challenge present and future numerical models to represent this region in a physically correct manner. Article in Journal/Newspaper Antarc* Antarctic Antarctica Eindhoven University of Technology (TU/e): Research Portal Antarctic The Antarctic
institution Open Polar
collection Eindhoven University of Technology (TU/e): Research Portal
op_collection_id ftuniveindhoven
language English
description Investigation of meteorological measurements along a 45 m tower at Dome C on the high East Antarctic Plateau revealed two distinct stable boundary layer (SBL) regimes at this location. The first regime is characterized by strong winds and continuous turbulence. It results in full vertical coupling of temperature, wind magnitude and wind direction in the SBL. The second regime is characterized by weak winds, associated with weak turbulent activity and very strong temperature inversions reaching up to 25 K in the lowest 10 m. Vertical temperature profiles are generally exponentially shaped (convex) in the first regime and ‘convex–concave–convex’ in the second. The transition between the two regimes is particularly abrupt when looking at the near-surface temperature inversion and it can be identified by a 10 m wind-speed threshold. With winds under this threshold, the turbulent heat supply toward the surface becomes significantly lower than the net surface radiative cooling. The threshold value (including its range of uncertainty) appears to agree with recent theoretical predictions from the so-called ‘minimum wind speed for sustainable turbulence’ (MWST) theory. For the quasi-steady, clear-sky winter cases, the relation between the near-surface inversion amplitude and the wind speed takes a characteristic ‘S’ shape. Closer analysis suggests that this relation corresponds to a ‘critical transition’ between a steady turbulent and a steady ‘radiative’ regime, with a dynamically unstable branch in the transition zone. These fascinating characteristics of the Antarctic boundary layer challenge present and future numerical models to represent this region in a physically correct manner.
format Article in Journal/Newspaper
author Vignon, E
Wiel, BJH Bas van de
Hooijdonk, IGS Ivo van
Genthon, C
Linden, SJA Steven van der
Hooft, JA Antoon van
Baas, P
Maurel, W
Traullé, O
Casasanta, G
spellingShingle Vignon, E
Wiel, BJH Bas van de
Hooijdonk, IGS Ivo van
Genthon, C
Linden, SJA Steven van der
Hooft, JA Antoon van
Baas, P
Maurel, W
Traullé, O
Casasanta, G
Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
author_facet Vignon, E
Wiel, BJH Bas van de
Hooijdonk, IGS Ivo van
Genthon, C
Linden, SJA Steven van der
Hooft, JA Antoon van
Baas, P
Maurel, W
Traullé, O
Casasanta, G
author_sort Vignon, E
title Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
title_short Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
title_full Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
title_fullStr Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
title_full_unstemmed Stable boundary-layer regimes at dome C, Antarctica : observation and analysis
title_sort stable boundary-layer regimes at dome c, antarctica : observation and analysis
publishDate 2017
url http://repository.tue.nl/880402
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_source ISSN:0035-9009
op_rights Copyright (c) Vignon, E
Copyright (c) Wiel, BJH Bas van de
Copyright (c) Hooijdonk, IGS Ivo van
Copyright (c) Genthon, C
Copyright (c) Linden, SJA Steven van der
Copyright (c) Hooft, JA Antoon van
Copyright (c) Baas, P
Copyright (c) Maurel, W
Copyright (c) Traullé, O
Copyright (c) Casasanta, G
_version_ 1766271785639084032

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