Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region

The period range between 6 and 480 min is known to represent the major part of the gravity wave spectrum driving mesospheric dynamics. We present a method using wavelet analysis to calculate gravity wave activity with a high period resolution and apply it to temperature data acquired with the OH* ai...

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Published in:Atmospheric Measurement Techniques
Main Authors: Sedlak, René, Zuhr, Alexandra, Schmidt, Carsten, Wüst, Sabine, Bittner, Michael, Didebulidze, Goderdzi G., Price, Colin
Format: Text
Language:English
Published: 2020
Subjects:
Alomar
Antarctic
Arctic
Neumayer
Neumayer Station
Norway
The Antarctic
Antarc*
Online Access:https://doi.org/10.5194/amt-13-5117-2020
https://amt.copernicus.org/articles/13/5117/2020/
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record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:amt83048 2023-05-15T13:31:39+02:00 Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region Sedlak, René Zuhr, Alexandra Schmidt, Carsten Wüst, Sabine Bittner, Michael Didebulidze, Goderdzi G. Price, Colin 2020-09-29 application/pdf https://doi.org/10.5194/amt-13-5117-2020 https://amt.copernicus.org/articles/13/5117/2020/ eng eng doi:10.5194/amt-13-5117-2020 https://amt.copernicus.org/articles/13/5117/2020/ eISSN: 1867-8548 Text 2020 ftcopernicus https://doi.org/10.5194/amt-13-5117-2020 2020-10-05T16:22:14Z The period range between 6 and 480 min is known to represent the major part of the gravity wave spectrum driving mesospheric dynamics. We present a method using wavelet analysis to calculate gravity wave activity with a high period resolution and apply it to temperature data acquired with the OH* airglow spectrometers called GRIPS (GRound-based Infrared P-branch Spectrometer) within the framework of the NDMC (Network for the Detection of Mesospheric Change; https://ndmc.dlr.de , last access: 22 September 2020). We analyse data measured at the NDMC sites Abastumani in Georgia (ABA; 41.75 ∘ N, 42.82 ∘ E), ALOMAR (Arctic Lidar Observatory for Middle Atmosphere Research) in Norway (ALR; 69.28 ∘ N, 16.01 ∘ E), Neumayer Station III in the Antarctic (NEU; 70.67 ∘ S, 8.27 ∘ W), Observatoire de Haute-Provence in France (OHP; 43.93 ∘ N, 5.71 ∘ E), Oberpfaffenhofen in Germany (OPN; 48.09 ∘ N, 11.28 ∘ E), Sonnblick in Austria (SBO; 47.05 ∘ N, 12.95 ∘ E), Tel Aviv in Israel (TAV; 32.11 ∘ N, 34.80 ∘ E), and the Environmental Research Station Schneefernerhaus on top of Zugspitze mountain in Germany (UFS; 47.42 ∘ N, 10.98 ∘ E). All eight instruments are identical in construction and deliver consistent and comparable data sets. For periods shorter than 60 min, gravity wave activity is found to be relatively low and hardly shows any seasonal variability on the timescale of months. We find a semi-annual cycle with maxima during winter and summer for gravity waves with periods longer than 60 min, which gradually develops into an annual cycle with a winter maximum for longer periods. The transition from a semi-annual pattern to a primarily annual pattern starts around a gravity wave period of 200 min. Although there are indications of enhanced gravity wave sources above mountainous terrain, the overall pattern of gravity wave activity does not differ significantly for the abovementioned observation sites. Thus, large-scale mechanisms such as stratospheric wind filtering seem to dominate the evolution of mesospheric gravity wave activity. Text Antarc* Antarctic Arctic Copernicus Publications: E-Journals Alomar ENVELOPE(-67.083,-67.083,-68.133,-68.133) Antarctic Arctic Neumayer Neumayer Station Norway The Antarctic Atmospheric Measurement Techniques 13 9 5117 5128
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The period range between 6 and 480 min is known to represent the major part of the gravity wave spectrum driving mesospheric dynamics. We present a method using wavelet analysis to calculate gravity wave activity with a high period resolution and apply it to temperature data acquired with the OH* airglow spectrometers called GRIPS (GRound-based Infrared P-branch Spectrometer) within the framework of the NDMC (Network for the Detection of Mesospheric Change; https://ndmc.dlr.de , last access: 22 September 2020). We analyse data measured at the NDMC sites Abastumani in Georgia (ABA; 41.75 ∘ N, 42.82 ∘ E), ALOMAR (Arctic Lidar Observatory for Middle Atmosphere Research) in Norway (ALR; 69.28 ∘ N, 16.01 ∘ E), Neumayer Station III in the Antarctic (NEU; 70.67 ∘ S, 8.27 ∘ W), Observatoire de Haute-Provence in France (OHP; 43.93 ∘ N, 5.71 ∘ E), Oberpfaffenhofen in Germany (OPN; 48.09 ∘ N, 11.28 ∘ E), Sonnblick in Austria (SBO; 47.05 ∘ N, 12.95 ∘ E), Tel Aviv in Israel (TAV; 32.11 ∘ N, 34.80 ∘ E), and the Environmental Research Station Schneefernerhaus on top of Zugspitze mountain in Germany (UFS; 47.42 ∘ N, 10.98 ∘ E). All eight instruments are identical in construction and deliver consistent and comparable data sets. For periods shorter than 60 min, gravity wave activity is found to be relatively low and hardly shows any seasonal variability on the timescale of months. We find a semi-annual cycle with maxima during winter and summer for gravity waves with periods longer than 60 min, which gradually develops into an annual cycle with a winter maximum for longer periods. The transition from a semi-annual pattern to a primarily annual pattern starts around a gravity wave period of 200 min. Although there are indications of enhanced gravity wave sources above mountainous terrain, the overall pattern of gravity wave activity does not differ significantly for the abovementioned observation sites. Thus, large-scale mechanisms such as stratospheric wind filtering seem to dominate the evolution of mesospheric gravity wave activity.
format Text
author Sedlak, René
Zuhr, Alexandra
Schmidt, Carsten
Wüst, Sabine
Bittner, Michael
Didebulidze, Goderdzi G.
Price, Colin
spellingShingle Sedlak, René
Zuhr, Alexandra
Schmidt, Carsten
Wüst, Sabine
Bittner, Michael
Didebulidze, Goderdzi G.
Price, Colin
Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
author_facet Sedlak, René
Zuhr, Alexandra
Schmidt, Carsten
Wüst, Sabine
Bittner, Michael
Didebulidze, Goderdzi G.
Price, Colin
author_sort Sedlak, René
title Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
title_short Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
title_full Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
title_fullStr Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
title_full_unstemmed Intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (UMLT) region
title_sort intra-annual variations of spectrally resolved gravity wave activity in the upper mesosphere/lower thermosphere (umlt) region
publishDate 2020
url https://doi.org/10.5194/amt-13-5117-2020
https://amt.copernicus.org/articles/13/5117/2020/
long_lat ENVELOPE(-67.083,-67.083,-68.133,-68.133)
geographic Alomar
Antarctic
Arctic
Neumayer
Neumayer Station
Norway
The Antarctic
geographic_facet Alomar
Antarctic
Arctic
Neumayer
Neumayer Station
Norway
The Antarctic
genre Antarc*
Antarctic
Arctic
genre_facet Antarc*
Antarctic
Arctic
op_source eISSN: 1867-8548
op_relation doi:10.5194/amt-13-5117-2020
https://amt.copernicus.org/articles/13/5117/2020/
op_doi https://doi.org/10.5194/amt-13-5117-2020
container_title Atmospheric Measurement Techniques
container_volume 13
container_issue 9
container_start_page 5117
op_container_end_page 5128
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