Difference between revisions of "POLSTRACC"

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POLSTRACC investigates the polar stratosphere in a changing climate.
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The POLSTRACC campaign was carried out very successfully with the German High Altitude and Long Range Research Aircraft [http://www.halo.dlr.de (HALO)] between December 2015 and March 2016, investigating the polar stratosphere in a changing climate. Together with the the BMBF/ROMIC project [http://www.pa.op.dlr.de/gwlcycle2 GW-LCYCLE (Gravity Wave Life Cycle Experiment)] and the SALSA project (Seasonality of Air mass transport and origin in the Lowermost Stratosphere using the HALO Aircraft) in total 18 science flights with more than 150 flight hours have been performed from Oberpfaffenhofen, Germany, and Kiruna, Sweden. Currently, data analysis and scientific interpretation of the observations is ongoing.
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== Background ==
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The polar stratosphere is of essential importance for the evolution of the global ozone layer and the climate in future. Catalytic ozone destruction in the Arctic winter vortex leads to a seasonal thinning of Arctic stratospheric ozone. Chemical processed air resulting from the outflow of the polar vortex and the dissipating polar vortex in Arctic spring enters the ambient Upper Troposphere/Lower Stratosphere (UTLS) region at high latitudes and is transported to lower latitudes. Thereby, composition changes in the UTLS region are important drivers for changes in surface climate. Uncertainties in our knowledge of processes involved in Arctic stratospheric ozone depletion, atmospheric dynamics and cloud processes rather challenge predictions for the evolution of the ozone layer and the UTLS region in the future.
 
The polar stratosphere is of essential importance for the evolution of the global ozone layer and the climate in future. Catalytic ozone destruction in the Arctic winter vortex leads to a seasonal thinning of Arctic stratospheric ozone. Chemical processed air resulting from the outflow of the polar vortex and the dissipating polar vortex in Arctic spring enters the ambient Upper Troposphere/Lower Stratosphere (UTLS) region at high latitudes and is transported to lower latitudes. Thereby, composition changes in the UTLS region are important drivers for changes in surface climate. Uncertainties in our knowledge of processes involved in Arctic stratospheric ozone depletion, atmospheric dynamics and cloud processes rather challenge predictions for the evolution of the ozone layer and the UTLS region in the future.
   
   
[[File:polstracc-logo neu.jpg]]
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[[File:Polstracc-logo-hq.jpg|mini|x450px|]]
   
   
The HALO (High Altitude and LOng Range Research Aircraft) mission POLSTRACC aims at providing new scientific knowledge on the structure, composition and evolution of the Arctic UTLS in a changing climate. POLSTRACC will investigate chemical and physical processes involved in Arctic stratospheric ozone depletion, transport and mixing processes in the UTLS at high latitudes, polar stratospheric clouds and cirrus clouds. In contrast to previous aircraft campaigns, a special focus is set on the Lowermost Stratosphere (LMS), a region where fast horizontal transport processes occur and which is important for the atmospheric radiation budget. Utilizing the combination of field measurements and model simulations, POLSTRACC will help improving our understanding of the polar stratosphere in a changing climate. The mission goals are outlined in the [[Media:POLSTRACC_Whitebook_v2.4.2.pdf|'''POLSTRACC Whitebook ''']].
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The HALO (High Altitude and LOng Range Research Aircraft) mission POLSTRACC aims at providing new scientific knowledge on the structure, composition and evolution of the Arctic UTLS in a changing climate. POLSTRACC will investigate chemical and physical processes involved in Arctic stratospheric ozone depletion, transport and mixing processes in the UTLS at high latitudes, polar stratospheric clouds and cirrus clouds. In contrast to previous aircraft campaigns, a special focus is set on the Lowermost Stratosphere (LMS), a region where fast horizontal transport processes occur and which is important for the atmospheric radiation budget. Utilizing the combination of field measurements and model simulations, POLSTRACC will help improving our understanding of the polar stratosphere in a changing climate. The mission goals are outlined in the [[Media:POLSTRACC_Whitebook_v2.4.2.pdf|'''POLSTRACC "White Book" ''']].
   
 
POLSTRACC will be performed in four parts: Early winter flights will be performed from Oberfaffenhofen, Germany, in December 2015 and allow to probe the early polar vortex (Oberpfaffenhofen 1). The main campaign phases will be based in Kiruna, Sweden, at 68°N and will allow extensive flights inside and in the vicinity of the polar vortex. The activities in Kiruna will be split into two phases from the begin of January to the begin of February 2016 (Kiruna 1) and from the end of February to the mid of March 2016 (Kiruna 2). A closing phase based in Oberpfaffenhofen, Germany, in the mid of March 2016 (Oberpfaffenhofen 2) will furthermore allow to study the remants of the dissipating polar vortex in the Arctic spring.
 
POLSTRACC will be performed in four parts: Early winter flights will be performed from Oberfaffenhofen, Germany, in December 2015 and allow to probe the early polar vortex (Oberpfaffenhofen 1). The main campaign phases will be based in Kiruna, Sweden, at 68°N and will allow extensive flights inside and in the vicinity of the polar vortex. The activities in Kiruna will be split into two phases from the begin of January to the begin of February 2016 (Kiruna 1) and from the end of February to the mid of March 2016 (Kiruna 2). A closing phase based in Oberpfaffenhofen, Germany, in the mid of March 2016 (Oberpfaffenhofen 2) will furthermore allow to study the remants of the dissipating polar vortex in the Arctic spring.
   
The POLSTRACC activities are coordinated with the BMBF/ROMIC project GW-LCYLCE (Gravity Wave Life Cycle Experiment) and the SALSA project (Seasonality of Air mass transport and origin in the Lowermost Stratosphere using the HALO Aircraft), which will strongly enhance the scientific outreach and capabilities of the individual projects. POLSTRACC furthermore shares a similar payload with the HALO mission WISE (Wave-driven ISentropic Exchange), which addresses complementary scientific objectives.
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The POLSTRACC activities are coordinated with the BMBF/ROMIC project [http://www.pa.op.dlr.de/gwlcycle2 '''GW-LCYCLE (Gravity Wave Life Cycle Experiment)'''] and the '''SALSA project (Seasonality of Air mass transport and origin in the Lowermost Stratosphere using the HALO Aircraft)''', which will strongly enhance the scientific outreach and capabilities of the individual projects. POLSTRACC furthermore shares a similar payload with the HALO mission WISE (Wave-driven ISentropic Exchange), which addresses complementary scientific objectives.

Revision as of 11:38, 17 May 2016

POLSTRACC investigates the polar stratosphere in a changing climate. The POLSTRACC campaign was carried out very successfully with the German High Altitude and Long Range Research Aircraft (HALO) between December 2015 and March 2016, investigating the polar stratosphere in a changing climate. Together with the the BMBF/ROMIC project GW-LCYCLE (Gravity Wave Life Cycle Experiment) and the SALSA project (Seasonality of Air mass transport and origin in the Lowermost Stratosphere using the HALO Aircraft) in total 18 science flights with more than 150 flight hours have been performed from Oberpfaffenhofen, Germany, and Kiruna, Sweden. Currently, data analysis and scientific interpretation of the observations is ongoing.


Background

The polar stratosphere is of essential importance for the evolution of the global ozone layer and the climate in future. Catalytic ozone destruction in the Arctic winter vortex leads to a seasonal thinning of Arctic stratospheric ozone. Chemical processed air resulting from the outflow of the polar vortex and the dissipating polar vortex in Arctic spring enters the ambient Upper Troposphere/Lower Stratosphere (UTLS) region at high latitudes and is transported to lower latitudes. Thereby, composition changes in the UTLS region are important drivers for changes in surface climate. Uncertainties in our knowledge of processes involved in Arctic stratospheric ozone depletion, atmospheric dynamics and cloud processes rather challenge predictions for the evolution of the ozone layer and the UTLS region in the future.


                                Polstracc-logo-hq.jpg


The HALO (High Altitude and LOng Range Research Aircraft) mission POLSTRACC aims at providing new scientific knowledge on the structure, composition and evolution of the Arctic UTLS in a changing climate. POLSTRACC will investigate chemical and physical processes involved in Arctic stratospheric ozone depletion, transport and mixing processes in the UTLS at high latitudes, polar stratospheric clouds and cirrus clouds. In contrast to previous aircraft campaigns, a special focus is set on the Lowermost Stratosphere (LMS), a region where fast horizontal transport processes occur and which is important for the atmospheric radiation budget. Utilizing the combination of field measurements and model simulations, POLSTRACC will help improving our understanding of the polar stratosphere in a changing climate. The mission goals are outlined in the POLSTRACC "White Book" .

POLSTRACC will be performed in four parts: Early winter flights will be performed from Oberfaffenhofen, Germany, in December 2015 and allow to probe the early polar vortex (Oberpfaffenhofen 1). The main campaign phases will be based in Kiruna, Sweden, at 68°N and will allow extensive flights inside and in the vicinity of the polar vortex. The activities in Kiruna will be split into two phases from the begin of January to the begin of February 2016 (Kiruna 1) and from the end of February to the mid of March 2016 (Kiruna 2). A closing phase based in Oberpfaffenhofen, Germany, in the mid of March 2016 (Oberpfaffenhofen 2) will furthermore allow to study the remants of the dissipating polar vortex in the Arctic spring.

The POLSTRACC activities are coordinated with the BMBF/ROMIC project GW-LCYCLE (Gravity Wave Life Cycle Experiment) and the SALSA project (Seasonality of Air mass transport and origin in the Lowermost Stratosphere using the HALO Aircraft), which will strongly enhance the scientific outreach and capabilities of the individual projects. POLSTRACC furthermore shares a similar payload with the HALO mission WISE (Wave-driven ISentropic Exchange), which addresses complementary scientific objectives.