Title: StratosphereTroposphere Analyses of Regional Transport START Experiment
1Stratosphere-Troposphere Analyses of Regional
Transport (START) Experiment
Investigators Laura Pan (PI, ACD/TIIMES) Ken
Bowman (Texas AM) Mel Shapiro (NOAA/NCARMMM) Bill
Randel (ACD) Rushan Gao (NOAA) Teresa Campos
(ACD/EOL) Chris Davis (MMM) Sue Schauffler (ACD)
Collaborators Chris Barnet Jennifer
Wei (NOAA/NESDIS Satellite data)
Satellite data support Sylvia Murphy (ACD)
Frontal Cloud - flt 2005-12-14
2Acknowledgments
Jorgen Jensen Al Schanot Al Cooper Jeff
Stith Henry Boynton, Bob Maxson, Lowell
Genzlinger and Ed Ringleman Rit Carbone Brian
Ridley
Enter the Rockies - FLT 051209
3Upper Troposphere Lower Stratosphere - A
region of coupled dynamics, chemistry and cloud
microphysics
4HIAPER Progressive Science Mission (22 November-
23 December, 2005)
Daybreak before take off 2005-12-21
5NASA A-Train Satellites
6Science Objectives
- Characterize the dynamical structure of the
extratropical tropopause in and around the
subtropical jet - Identify the chemical transition from the
troposphere to stratosphere across the
extratropical tropopause. - Investigate the irreversible STE mixing
produced by multiple scale dynamical processes
Low pass of Rockies- Flt 2005-12-07
7AIRS Ozone on 250 hPa (in 1x1 degree average)
May 15, 2004
Monthly mean May, 2004
8AIRS Ozone Cross Section (1x1 degree average)
May 15, 2004, Lon160 E
9Chemical Transition using Relative Altitude
(RALT) and Tracer-Tracer Correlations (TTC)
10Example NASA ER-2, POLARIS July 10, 1997
Pan et al., 2004
11The Relative Altitude Coordinates (to locate
the chemical transition between St-Tr)
CO (RALT)
CO (z)
CO (pv)
Pan et al., 2004
12ER-2 data O3-H2O (POLARIS)
13Model Evaluation
WACCM3
1.9x2.5
4x5
14START Experiment Highlights
- Four successful flights (7-9 hour each, out of 6
planned) - Measurements O3, H2O, CO, in addition to
meteorological parameters (and other possible
tracers such as CN) - Near real time satellite data via collaboration
with AIRS science team - Sampled several cases of stratospheric intrusion
- Obtained information on mixing and STE
- Valuable data for AIRS ozone validation
Meteor Crater - Flight 2005-12-07
15Status of Data and Data Analyses
- Ozone data became available during the
experiment. Intercomparison with CMDL ozonesonde
show excellent agreement. - Initial analyses and comparison with satellite
data, meteorological analyses data have been
carried out - Water vapor preliminary data became available 2
weeks ago, further calibration in progress - CO data is still under Q/C verification
- Trajectory analyses in progress
16Ozone Validation with CMDL Ozonesonde
17START Flight 2 (502RF03 -051207)
18Flight RF03 - 2005-12-07
19START Flight 2 (RF03 -051207)
20Enhancement of Ozone at Lower Troposphere due to
the Intrusion
21(No Transcript)
22(No Transcript)
23START Flight 4 RF08 - 2005-12-14
24(No Transcript)
25START Flight 4 RF08 - 2005-12-14
26(No Transcript)
27START Flt 4 2005-12-14
28START Flight 1 2005-12-01 (502RF01)
29START Flight 1 2005-12-01 (502RF01)
30Stratospheric Intrusion and the Separation of the
Thermal and Dynamical Tropopause
31O3 (z)
O3 (RALT)
H2O (RALT)
H2O (z)
32Summary
- Results from the START experiment
- Demonstrated the capability of HIAPER in UTLS
studies - Initial data provided good validation for the
satellite retrievals - Sampled multiple cases of stratospheric
intrusions. Characterization of the air mass in
the region of intrusion using tracer-tracer
correlation and trajectory model is in progress
33Thank You !
Shadows of Monument Valley - Flight 051209