The Deep Propagating Gravity Wave Experiment (DEEPWAVE): An Airborne and Ground-Based Exploration of Gravity Wave Propagation and Effects from their Sources throughout the Lower and Middle Atmosphere

The DEEPWAVE experiment was designed to quantify gravity wave (GW) dynamics and effects from orographic and other sources to regions of dissipation at high altitudes. The core DEEPWAVE field phase took place from May through July 2014 using a comprehensive suite of airborne and ground-based instrume...

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Bibliographic Details
Published in:Bulletin of the American Meteorological Society
Main Authors: Fritts, David C., Smith, Ronald B., Taylor, M., Doyle, James D., Eckermann, Stephen D., Dörnbrack, Andreas, Rapp, Markus, Williams, Bifford P., Pautet, D., Bossert, Katrina, Criddle, Neal R., Reynolds, Carolyn A., Reinecke, P. Alex, Uddstrom, Michael, Revell, Michael J., Turner, Richard, Kaifler, Bernd, Wagner, Johannes S., Mixa, Tyler, Kruse, Christopher G., Nugent, Alison D., Watson, Campbell D., Gisinger, Sonja, Smith, Steven M., Lieberman, Ruth S., Laughman, B., Moore, James J., Brown, William O., Haggerty, Julie A., Rockwell, Alison, Stossmeister, Gregory J., Williams, Steven F., Hernandez, Gonzalo, Murphy, Damian J., Klekociuk, Andrew R., Reid, Iain M., Ma, Jun
Format: Other Non-Article Part of Journal/Newspaper
Language:English
Published: American Meteorological Society 2016
Subjects:
Institut für Physik der Atmosphäre
Lidar
Verkehrsmeteorologie
Austral
New Zealand
Southern Ocean
Online Access:https://elib.dlr.de/96852/
https://elib.dlr.de/96852/1/FrittsD-etal-DEEPWAVE-BAMS2016-D-14-00269.pdf
http://journals.ametsoc.org/doi/abs/10.1175/BAMS-D-14-00269.1
Description
Summary:The DEEPWAVE experiment was designed to quantify gravity wave (GW) dynamics and effects from orographic and other sources to regions of dissipation at high altitudes. The core DEEPWAVE field phase took place from May through July 2014 using a comprehensive suite of airborne and ground-based instruments providing measurements from Earth’s surface to ~100 km. Austral winter was chosen to observe deep GW propagation to high altitudes. DEEPWAVE was based on South Island, New Zealand to provide access to the New Zealand and Tasmania “hotspots” of GW activity and additional GW sources over the Southern Ocean and Tasman Sea. To observe GWs up to ~100 km, DEEPWAVE utilized three new instruments built specifically for the NSF/NCAR Gulfstream V (GV): a Rayleigh lidar, a sodium resonance lidar, and an advanced mesosphere temperature mapper. These measurements were supplemented by in-situ probes, dropsondes, and a microwave temperature profiler on the GV and by in-situ probes and a Doppler lidar aboard the German DLR Falcon. Extensive ground-based instrumentation and radiosondes were deployed on South Island, Tasmania, and Southern Ocean islands. Deep orographic GWs were a primary target, but multiple flights also observed deep GWs arising from deep convection, jet streams, and frontal systems. Highlights include the following: 1) strong orographic GW forcing accompanying strong cross-mountain flows, 2) strong high-altitude responses even when orographic forcing was weak, 3) large-scale GWs at high altitudes arising from jet stream sources, and 4) significant flight-level energy fluxes and often very large momentum fluxes at high altitudes.

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