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Kirbus, Benjamin; Ehrlich, André; Schäfer, Michael; Wendisch, Manfred (2024): Quasi-Lagrangian air mass matches during HALO-(AC)3: Matches occuring over consecutive days [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.967148

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Abstract:
One of the main goals of the HALO-(AC)3 Arctic airborne campaign conducted in spring 2022 was a quasi-Lagrangian sampling of air masses. This means that the same air masses were to be sampled twice. Such a measurement strategy allows for concrete observations of air mass transformations, which can for example be used to benchmark weather models. After finishing the campaign, trajectory calculations were conducted for all flights of the HALO aircraft to check whether the flight strategy was a success. For this, the trajectory calculation tool Lagranto was used in conjunction with wind fields from the ERA5 reanalysis. Latter has an output resolution of around 30 km and one hour. The hourly data was bi-linearly interpolated to one minute resolution. Air masses were initialized temporally every one minute along the flight track of HALO, and vertically every 5 hPa between 250 hPa and 10 hPa above the ground level. Horizontally, air masses were started within a 30 km radius circle centered around the location of HALO. In each circle, 30 air masses were initialized evenly spaced approximately every 10 km, allowing for a better statistical analysis. Trajectories were then calculated in one-minute steps up to 32 hours forward in time. At typical HALO flight times of up to 10 hours, around 2.7 million trajectories were calculated per research flight. A quasi-Lagrangian match is registered if the same air mass is seen again below HALO on the subsequent day and within the same 30 km radius.
Keyword(s):
Arctic; HALO; HALO-(AC)³; Lagrangian data; trajectories
Related to:
Wendisch, Manfred; Crewell, Susanne; Ehrlich, André; Herber, Andreas; Kirbus, Benjamin; Lüpkes, Christof; Mech, Mario; Abel, Steven J; Akansu, Elisa F; Ament, Felix; Aubry, Clémantyne; Becker, Sebastian; Borrmann, Stephan; Bozem, Heiko; Brückner, Marlen; Clemen, Hans-Christian; Dahlke, Sandro; Dekoutsidis, Georgios; Delanoë, Julien; De La Torre Castro, Elena; Dorff, Henning; Dupuy, Regis; Eppers, Oliver; Ewald, Florian; George, Geet; Gorodetskaya, Irina V; Grawe, Sarah; Groß, Silke; Hartmann, Jörg; Henning, Silvia; Hirsch, Lutz; Jäkel, Evelyn; Joppe, Philipp; Jourdan, Olivier; Jurányi, Zsófia; Karalis, Michail; Kellermann, Mona; Klingebiel, Marcus; Lonardi, Michael; Lucke, Johannes; Luebke, Anna E; Maahn, Maximilian; Maherndl, Nina; Maturilli, Marion; Mayer, Bernhard; Mayer, Johanna; Mertes, Stephan; Michaelis, Janosch; Michalkov, Michel; Mioche, Guillaume; Moser, Manuel; Müller, Hanno; Neggers, Roel; Ori, Davide; Paul, Daria; Paulus, Fiona; Pilz, Christian; Pithan, Felix; Pöhlker, Mira; Pörtge, Veronika; Ringel, Maximilian; Risse, Nils; Roberts, Gregory C; Rosenburg, Sophie; Röttenbacher, Johannes; Rückert, Janna Elisabeth; Schäfer, Michael; Schaefer, Jonas; Schemannn, Vera; Schirmacher, Imke; Schmidt, Jörg; Schmidt, Sebastian; Schneider, Johannes; Schnitt, Sabrina; Schwarz, Anja; Siebert, Holger; Sodemann, Harald; Sperzel, Tim R; Spreen, Gunnar; Stevens, Bjorn; Stratmann, Frank; Svensson, Gunilla; Tatzelt, Christian; Tuch, Thomas; Vihma, Timo; Voigt, Christiane; Volkmer, Lea; Walbröl, Andreas; Weber, Anna; Wehner, Birgit; Wetzel, Bruno; Wirth, Martin; Zinner, Tobias (in review): Overview: Quasi-Lagrangian observations of Arctic air mass transformations – Introduction and initial results of the HALO–(AC) 3 aircraft campaign. https://doi.org/10.5194/egusphere-2024-783
Project(s):
Funding:
German Research Foundation (DFG), grant/award no. 268020496: TRR 172: ArctiC Amplification: Climate Relevant Atmospheric and SurfaCe Processes, and Feedback Mechanisms
Coverage:
Latitude: 67.830280 * Longitude: 20.338890
Date/Time Start: 2022-03-12T08:22:00 * Date/Time End: 2022-04-11T15:55:47
Event(s):
HALO_220312a (RF02) * Latitude Start: 67.830280 * Longitude Start: 20.338890 * Latitude End: 67.830280 * Longitude End: 20.338890 * Date/Time Start: 2022-03-12T08:22:00 * Date/Time End: 2022-03-12T16:44:06 * Campaign: HALO_AC3 * Basis: HALO * Method/Device: Aircraft (AC) * Comment: Kiruna - Kiruna
HALO_220313a (RF03) * Latitude Start: 67.830280 * Longitude Start: 20.338890 * Latitude End: 67.830280 * Longitude End: 20.338890 * Date/Time Start: 2022-03-13T08:04:00 * Date/Time End: 2022-03-13T16:52:49 * Campaign: HALO_AC3 * Basis: HALO * Method/Device: Aircraft (AC) * Comment: Kiruna - Kiruna
HALO_220314a (RF04) * Latitude Start: 67.830280 * Longitude Start: 20.338890 * Latitude End: 67.830280 * Longitude End: 20.338890 * Date/Time Start: 2022-03-14T08:45:00 * Date/Time End: 2022-03-14T17:19:06 * Campaign: HALO_AC3 * Basis: HALO * Method/Device: Aircraft (AC) * Comment: Kiruna - Kiruna
Comment:
For every research flight (RF) of the HALO aircraft during HALO-(AC)3 which have a RF directly on a consecutive day, quasi-Lagrangian matches over two consecutive days are calculated using Lagranto and ERA5 input. For every pair of RFs, three files were uploaded: two quicklook png files, and the match data itself. The match data looks like this:
Reference date 20220312_0800 / Time range 1920 min
time lon lat p alt
------------------------------------
0.22 19.61 67.72 940 20
24.26 17.74 69.38 1000 37
0.22 19.66 67.81 940 99
24.27 17.63 69.42 1003 12
....
In the header, the reference date is given as YYYYMMDD_HHMM (UTC time). Trajectories had been calculated 32 hours forward (time range: 1920 min). Then, a long list of matches is given. Let's look at the first pair of matches. An air mass is seen first at 08:22 UTC (08 + 0.22) below HALO. The lon and lat coordinates are then given, as well as the pressure level of 940 hPa. This corresponds to an altitude of approx. 20 m above ground level, using the ERA5 geopotential height. This same air mass is seen more than 24 hours later, at 08:27 UTC (08 + 24.27) the next day. As it was moving along the prevailing winds, it is now seen at slightly different lon/lat coordinates and a different altitude (1003 hPa, which corresponds to 12 m above ground).
In the quicklooks, the radar reflecitivity of each RF is plotted in the lowest 10 km above ground. At the bottom of the figure, the ERA5 sea-ice concentration is shown, to highlight the surface type HALO was passing over. Finally, all quasi-Lagrangian matches are overlaid. For each orange dot (first match) on the quicklook of the RF on the first day (day1), there is a corresponding red dot (second match) on the quicklook of the consecutive RF (day2), meaning that the same air mass was observed again at a later stage and somewhere below HALO.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Event labelEventKirbus, Benjaminof day 1
2Date/Time of eventDate/TimeKirbus, Benjaminof day 1
3Optional event labelEvent 2Kirbus, Benjaminof day 1
4Text fileTEXTKirbus, Benjamin
5ImageIMAGEKirbus, Benjaminquicklook day 1
6ImageIMAGEKirbus, Benjaminquicklook day 2
Status:
Curation Level: Basic curation (CurationLevelB)
Size:
30 data points

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