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GOMOS middle atmosphere measurements from 2002-2012
Erkki Kyrölä, FMI
J. Tamminen1
V. Sofieva1
S. Tukiainen1
J.-L. Bertaux2
A. Hauchecorne2
F. Dalaudier2
K. Pérot2
D. Fussen3
F. Vanhellemont3
C. Tétard3
L. Blanot4
G. Barrot4
O. Fanton d’Andon4
L. Saavedra5
A. Dehn5
1 FMI,
Finland, 2 LATMOS, France, 3 BIRA-IASB, Belgium, 4 ACRI ST, France,
5 ESA, Italy
Stars and the Sun
Central band: Retrieval from night and day stellar occultations (ESA)
Upper/lower bands: Retrieval from limb scattered solar radiation (FMI, New)
scattered solar light
stellar light +solar light
scattered solar light
CCD
Our ancient light sources
Measured signal (e)
10
10
10
Sirius (1), m=-1.44, T=11 000 K, 8.6 ly
5
Beta Cru (20) , m=1.25, T=30 000 K, 280 ly
4
3
Eps Car (41) , m=1.86, T=4100 K, 610 ly
2
10
200
300
400
500
600
700
Wavelength (nm)
800
Farthest 2000 ly (Eps Aur star 165)
900
1000
GOMOS instrument
• 4 spectrometers
• UV-VIS:
• A1: 248 - 389nm
• A2: 389 - 690 nm
• Resolution 0.8 nm
• NIR:
500
• B1: 760 nm
450
• B2: 936 nm
350
• Resolution 0.13 nm
Photometers (1 KHz)
• Blue (470-520 nm)
300
SNR
•
SNR
400
250
200
150
• Red (650-700 nm)
100
50
0
250
300
350
400
450
500
550
Wavelength (nm)
600
650
700
GOMOS trace
gas
profile
Motivation:
Double
the
usefuldata
GOMOS data
876 653
occultations
44%
9% ESA
80 212
Twilight
occs.
386 224
day
occs
ESA
386 224
day
occs
386 224
solar limb
scattered
FMI
Useful data
47%
410 106
night
occultations
ESA
Day
Day
Night
Night
Day + Night
Night and Day
•
O3, NO2, NO3
•
aerosol extinction, PSC, PMC
•
H2O, O2
•
turbulence and
air density irregularities
•
high resolution temperature profile
•
Na, OClO
km
100
90
NLC
80
70
Vertical sampling resolution
0.2 – 1.7 km
Pointing uncertainty < 30 m.
Vertical resolution of ozone 2-3 km
NO2, NO3, aerosols, H2O, O2:
4 km
60
50
40
30
20
15
O3
NO2
NO3
aeros.
H2O
O2
T (HRP)
OClO
Na
GOMOS data quality from other measurements
Validation with sondes and ground based instruments
O3,Gijsel, ACP, 2010
Collocated comparisons with satellite instruments
SAGE II, SAGE III, OSIRIS, MLS, SMILES, MIPAS
Climatologies (including comparisons):
O3, NO2, NO3, Kyrölä, ACP, 2010
Third O3 peak, Sofieva, ACP, 2010
Aerosols, Vanhellemont, ACP, 2010
Sodium, Fussen ACP 2010
PMC, Perot, ACP, 2010
O3 mesosphere, Smith, JGR, 2013
OClO, Tetard, AMT discuss., 2013
O3, NO2, aerosols, SPARC DI 2013
O3, ESA O3-CCI, 2013
O3 (night + GBL), ESA SPIN, 2013
Time series (including comparisons)
SAGE II-GOMOS O3, Kyrölä, SI2N ACP discuss, 2013
Validation of ozone
•
•
J. Meijer et al 2004 detailed
comparison using soundings,
lidars and microwave
instruments:
•
Insignificant difference at 14-64 km.
•
Bias independent on star type a
nd latitude
•
Slightly larger difference at polar
latitudes at 40 km.
Similar study by A. van Gijsel
et al. 2010 compared GOMOS
ozone (V5) profiles
•
Good agreement btw 20-40 km:
±2%
• At 15-20 km GOMOS larger
by 5-20%
A.Van Gijsel et al. ACP GOMOS special issue 2010
GOMOS Brigh Limb Ozone
Using GOMOS night occultations:
time difference < 1 day
spatial difference < 250 km
Using MLS
time difference < 12 h
spatial difference < 200 km
GOMOS ozone measurements: mesosphere
number density x108
Lat 50N
Equator
Lat 50S
03
04
05
06
07
08
E. Kyrölä et al., GOMOS O3, NO2, and NO3 observations in 2002-2008.
ACP GOMOS special issue 2010
Monitoring tertiary ozone maximum
30S-40S, 15-23 Sep 2004
72N-73N, 20-30 Dec 2004
Tertiary
ozone maximum
Ozone mixing ratio.
Tertiary ozone maximum is
observed in winter close to
polar night terminator
Ozone mixing ratio at 72 km.
Top: GOMOS, bottom: WACCM
Sofieva et al., 2009, ACP
Solar Storm effects on
atmospheric composition
• GOMOS
observations were
the first to show
ozone loss from
solar storms in the
polar wintertime
atmosphere.
Before
After
Big solar storms in Oct-Nov 2003 resulted in large amounts of charged particles being
blasted out from the Sun. Storms travel through the space and arrive at Earth causing
beautiful displays of Aurora in the polar regions. GOMOS observations showed that these
particles also lead to large ozone loss in the polar atmosphere.
Seppälä et al. GRL, 2004
NO3 measurements
•
Only few validations exist (Renard et
al. JGR 2008, Hakkarainen et al
2012, AMTD)
•
Good agreement with GOMOS and
SAGE III lunar occultations : median
difference is within ±25% at 25-45
km
•
Zonally averaged profiles agree also
well.
GOMOS
SAGE III
Zonally averaged profiles
OClO measurements
•
Also based on virtual occultations and on a DOAS method
•
Comparisons with occultation measurement of balloon-borne instrument AMON :
good agreement.
•
First night-time OClO Climatology:
•
Expected high polar values
•
New finding: OClO layer in the middle
stratosphere (30 - 38 km)
AMON
GOMOS
Lat –alt maps of OClO slant column densities (cm‐2)
Fussen et al., 2006, Tetard et al, ACP 2010, Tetard, ACP, 2013
High-resolution temperature profiling (HRTP)
Exemplary HRTP and comparison with lidar
•
•
•
•
Temperature profile is retrieved from
the time difference between blue and
red photometer signal.
Altitude range 15 – 35 km.
Vertical resolution 200 m
Estimated accuracy 1-2 K
Dalaudier et al. 2006
Sofieva et al., 2009
Polar mesospheric clouds
•
Detection from the solar light scattered by the ice particles
 characteristic signature on GOMOS photometers vertical
profiles
•
Formation in the high latitude summertime mesopause region,
in both hemispheres
•
Detection and retrieval of their
main properties (occurrence
frequency , altitude, radiance)
using GOMOS photometers
 Comprehensive climatology
over 8 years of GOMOS data
(2002-2010):
more than 21 000 clouds detected: unique data set
•
Particle size retrieval using GOMOS spectrometers
Pérot et al, ACP, 2010
Summary
•
•
•
•
•
•
•
•
In 2002-2012 GOMOS measured 880 000 occultations
Nighttime ozone data are validated
Daytime occultations are presently poor quality
Ozone data from daytime limb scattering are under validation
HRTP data provides a new promising temperature data set
H2O data are better quality in the new version 6
New aerosol product from IASB (AERGOM) -> Vanhellemont
GOMOS data are presently used for making climatologies and time
series
• The next reprocessing will improve error estimates and improve
cool/weak star ozone profiles. Improvements expected also in UTLS
ozone. A change in ozone cross sections is under discussion (ACSO).
Original GOMOS data can be obtained from ESA. Vertically gridded data
can be obtained from FMI in Matlab format or in standard binary format.
Also GOMOS bright limb data are available from FMI.
More info on GOMOS: ACP special issue and GOMOS ATBD.
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