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Title: 1' FY09 GOESR3 Project Review Title Page


1
1. FY09 GOES-R3 Project Review Title Page
  • Title ABI Proxy data studies Regional
    Assimilation of SEVIRI Total Column Ozone
  • Project Type Product Utilization Proposal
  • Status Second Year
  • Duration 3 years
  • Leads
  • R. Bradley Pierce1, NOAA/NESDIS
  • Other Participants
  • Chris Schmidt1 (CIMSS)
  • Todd Schaack (SSEC)

1No Cost
2
2. Project Summary
  • This project will use the WRF-CHEM1 regional
    chemical model coupled to the RAQMS global
    chemical analysis2 to evaluate the impacts of ABI
    like Tropospheric Column Ozone (TCO) retrievals
    on Air Quality forecasts. SEVIRI measurements
    will be used as ABI proxy data.
  • Results from these studies will provide guidance
    and develop capabilities for operational use of
    GOES-R TCO within the NOAA Operational AQ
    forecasting system (CMAQ/WRF-NAM).
  • This study will also demonstrate Committee on
    Earth Observation Satellites (CEOS) atmospheric
    composition constellation concepts contributing
    to the space component of the Global Earth
    Observing System of Systems (GEOSS) Air Quality
    Assessment and Forecasting Near Term Opportunity
    (NTO)

1Grell, G. A., et al., Fully coupled online
chemistry within the WRF model, Atmos. Environ.,
39, 6957-6975, 2005. 2Pierce, R. B., et al.
(2007), Chemical data assimilation estimates of
continental U.S. ozone and nitrogen budgets
during the Intercontinental Chemical Transport
ExperimentNorth America, J. Geophys. Res., 112,
D12S21doi10.1029/2006JD007722.
3
3. Motivation/Justification
  • This task supports NOAA Mission Goal(s) to Serve
    Societys Needs for Weather and Water
    Information through development of capabilities
    for assimilating ozone observations from future
    NOAA operational geostationary and polar-orbiting
    research satellites into AQ forecast models and
    evaluating the impacts of these observations on
    air quality prediction capabilities.
  • Justification Development and testing of
    methodologies for incorporating satellite based
    ozone observations into National AQ forecasts
    supports the National Weather Services National
    Air Quality Forecast Capability (AQFC) mandated
    by Congress (H.R. Energy Policy Act of 2002
    Senate Amendment).

4
4. Methodology
  • Linking global RAQMS ozone analyses1, with ozone
    predictions from the WRF-CHEM regional2 model
    provides a first guess for SEVIRI TCO
    assimilation studies. WRF-CHEM regional AQ
    predictions, initialized with ozone analyses with
    and without SEVIRI TCO, will be used for AQ
    forecast impact studies. (RAQMS/WRF-CHEM Linkage
    completed)
  • A baseline analyses with and without SEVIRI TCO
    retrievals will be conducted using existing
    Optimal Interpolation (OI) assimilation
    capabilities implemented into the WRF-CHEM
    regional model. (Baseline WRF-CHEM SEVIRI TCO
    analyses using OI assimilation completed)
  • Coupling between RAQMS/WRF-CHEM and the Gridpoint
    Statistical Interpolation (GSI) system will be
    developed. Assimilation of SEVIRI TCO retrievals
    within the regional Gridpoint Statistical
    Interpolation (GSI) system will be tested.
    (RAQMS/GSI coupling completed, testing of
    WRF-CHEM/GSI coupling underway)
  • Coupling RAQMS/WRF-CHEM to the Community
    Radiative Transfer Model (CRTM) will be
    developed. SEVIRI TCO assimilation with radiance
    based observation operator will be tested.
    (RAQMS/WRF-CHEM/CRTM coupling completed)
  • Surface (EMEP), and ozonesonde (WMO) data
    collected over Europe provide insitu measurements
    for verification.(WMO ozonesonde data acquired)

1August 2006 chemical and aerosol assimilation
data denial experiments have been conducted to
determine the optimal combination of satellite
ozone measurements for RAQMS global ozone
analysis. (FY08 NASA Decadal Survey/GOES-R AWG
activity) 2WRF-CHEM regional model is designed to
be portable to any geographic region.
5
5. Summary of Previous Results
  • A 2006 RAQMS global ozone analysis constrained
    with OMI TCO and TES ozone profile retrievals has
    been completed. The GOES statistical TCO
    retrieval has been adapted for SEVIRI TCO
    studies. Initial comparisons are being conducted
    to assess SEVIRI TCO biases and RMS errors
    (Figure 1).

Figure 1 August 1st 2006 OMI V8 TCO retrieval
(left), RAQMS 18Z TCO Analysis (middle), and
SEVIRI 18Z TCO retrieval (right). RAQMS ozone
assimilation includes OMI TCO and TES ozone
profiles from NASA Aura Satellite. TCO
enhancement over central Africa is associated
with tropospheric ozone column enhancements due
to biomass burning.
6
6. Expected Outcomes
  • Guidance for incorporation of GEOS-R ABI data
    into National AQ prediction.
  • Testing and Evaluation of GSI regional ozone
    assimilation capabilities.
  • Testing and Evaluation of CRTM SEVIRI/ABI forward
    modeling capabilities.
  • Development of observation operators for ABI
    statistical TCO retrieval.
  • Demonstration of CEOS Atmospheric Composition
    Constellation concepts.
  • Demonstration of Integrated Observed-Modeled Air
    Quality Fields for GEOSS Air Quality Assessment
    and Forecasting Near Term Opportunity

7
7. Major Milestones
  • FY08
  • Conduct August-September 2006 WRF-CHEM regional
    baseline (no SEVIRI TCO) simulation using RAQMS
    global chemical analysis for lateral boundary
    conditions.
  • WRF-CHEM model ported to CIMSS
  • Initial testing over CONUS domain has been
    completed
  • WRF-CHEM anthropogenic emissions inventory for
    SEVIRI domain (Africa/EU) has been developed
    (Need to build daily biomass burning emission
    inventory for SEVIRI domain)
  • RAQMS/WRF-CHEM SEVIRI simulation initiated
  • Conduct August-September 2006 RAQMS regional SDF
    SEVIRI TCO assimilation.
  • Upon completion of baseline (no SEVIRI TCO)
    simulation
  • Evaluate impact of assimilation of SEVIRI TCO
    retrieval through comparison with WMO ozonesonde
    and EMEP surface network.
  • WMO ozonesonde data acquired
  • RAQMS August 2006 global chemical analysis has
    been evaluated over Africa
  • Develop coupling between the WRF-CHEM regional
    model and the regional GSI system.
  • GSI has been ported to CIMSS
  • WRF-ARW/Regional GSI has been tested (without
    ozone assimilation)
  • Global GSI SBUV ozone assimilation has been
    tested with RAQMS

8
7. Major Milestones First Year Results
  • A 2006 RAQMS global ozone analysis data denial
    study has been completed. Comparisons with August
    2006 WMO sondes show excellent (lt10 bias)
    agreement in stratosphere and reasonable (lt20
    low bias) agreement in the troposphere at
    Ascension Island (Figure 2).

RAQMS vs WMO sondes August 2006 (5 sondes)
OMI TCO August 2006
RAQMS TCO August 2006
Ascension Island
WRF-CHEM 36km SEVIRI domain
Figure 2 August 2006 OMI V8 TCO retrieval
(left), RAQMS TCO Analysis (right), and RAQMS/WMO
ozonesonde comparison (middle). RAQMS ozone
assimilation includes MLS ozone profiles from
NASA Aura Satellite. TCO enhancement over
central Africa is associated with tropospheric
ozone column enhancements due to biomass burning.
9
7. Major Milestones (cont)
  • FY09
  • Conduct August-September 2006 RAQMS regional GSI
    SEVIRI TCO retrieval assimilation
  • Evaluate impact of GSI SEVIRI TCO assimilation
    through comparison with baseline, SDF, WMO
    ozonesonde, and EMEP surface network.
  • Develop RAQMS/CRTM linkage for forward modeling
    of SEVIRI radiances.
  • CRTM ported to CIMSS
  • CRTM/RAQMS linkage has been tested with
    AIRS/SEVIRI radiance comparisons
  • Develop radiance based observation operator for
    SEVIRI statistical TCO retrieval

10
7. Major Milestones First Year Results (cont)
  • Comparisons between clear sky synthetic (RAQMS)
    and observed (AIRS, SEVIRI) brightness
    temperatures on August 16th, 2006 show a 2K warm
    bias at 1050cm-1, consistent with the
    underestimate in analyzed UT O3 mixing ratios
    relative to WMO ozonesondes (Figure 3).

RAQMS AIRS SEVIRI
Figure 3 August 16th 2006 SEVIRI 9.6um BT (left)
and RAQMS/AIRS/SEVIRI radiance comparison
(right).
11
7. Major Milestones Second Year Plans (cont)
  • Radiance based observation operator for SEVIRI
    statistical TCO retrieval (TOZ)1
  • Where
  • A, B, and C are the regression coefficients
  • Tb is IR BTs (band j1,n)
  • Ta is temperature (layer l1,101)
  • ? is the local zenith angle
  • M is the month
  • LAT is the latitude of the satellite pixel
  • Approach
  • Use CRTM to calculate SEVIRI Tbj from
    RAQMS/WRF-CHEM first guess
  • Generate first guess TCO retrieval (TOZfg) from
    synthetic radiances and model temperature
    profiles
  • Analysis increment is TOZ-TOZfg
  • 1Xin Jin et al., Retrieval of Total Column Ozone
    From Imagers Onboard Geostationary Satellites,
  • IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE
    SENSING, VOL. 46, NO. 2, FEBRUARY 2008

12
7. Major Milestones (Second Year)
  • FY08 (outstanding due to delay in acquiring
    SEVIRI TCO retrievals and biomass burning
    emissions)
  • Conduct August-September 2006 WRF-CHEM regional
    baseline (no SEVIRI TCO) simulation using RAQMS
    global chemical analysis for lateral boundary
    conditions.
  • Baseline simulation completed
  • Identification of significant low bias in
    WRF-CHEM upper tropospheric ozone over Africa
  • Attributed to lack of lightning NOx source in
    WRF-CHEM
  • Conduct August-September 2006 RAQMS regional SDF
    SEVIRI TCO assimilation.
  • Cloud clearing algorithm developed
  • Diurnal bias correction algorithm developed
  • SDF SEVIRI TCO assimilation studies completed
  • FY09
  • Conduct August-September 2006 RAQMS regional GSI
    SEVIRI TCO retrieval assimilation
  • GSI SEVIRI TCO assimilation testing initiated
  • Need to incorporate lightning NOx emissions into
    WRF-CHEM before further assimilation studies are
    conducted
  • Evaluate impact of GSI SEVIRI TCO assimilation
    through comparison with baseline, SDF, WMO
    ozonesonde, and EMEP surface network.
  • Incorporation of lightning NOx emissions will
    require rerunning baseline and SDF assimilation
    studies

13
7. Major Milestones Second Year Results
  • NESDIS SEVIRI fire emissions have been acquired
    and incorported into WRF-CHEM emissions
    preprocessor (Figure 4).

NESDIS African BB emissions are consistently
larger than WRF BB emissions during the time
period considered. This leads to increased
tropospheric ozone production.
Figure 4 August 11th 2006 WRF Biomass Burning
(BB) Organic Carbon (OC) emissions vs NESDIS BB
OC emissions
14
7. Major Milestones Second Year Results
  • SEVIRI Total Column Ozone (TCO) has been acquired
    and algorithms for bias correction and cloud
    clearing have been developed.
  • Enhancements in SEVIRI TCO near cloud edges
    require additional cloud clearing. Hourly
    averaging of 15 minute clear SEVIRI TCO
    retrievals reduces artifacts associated with
    cloud edge effects.
  • Diurnal and spatial bias correction (based on
    differences between RAQMS and cloud filtered
    SEVIRI data) was implemented to remove scan angle
    and zenith angle dependencies in SEVIRI TCO.

Figure 5 August 11-23 2006 18Z SEVIRI (left) and
Bias Corrected SEVIRI (right) TCO
15
7. Major Milestones Second Year Results
  • Statistical Digital Filter (SDF) assimilation
    studies have been completed and results have been
    compared to SHADOWS ozonesonde data to determine
    optimal approach for assimilation of SEVIRI TCO.

Description
Experiment
nosdf - no assimilation
runsdfratiof - assimilation with
original SEVIRI data               
(Increment WRF and RAQMS domain)sdfbias
- assimilation with bias corrected SEVIRI
data              (Increment WRF
domain) sdfbiasratiof - assimilation with
bias corrected SEVIRI data              
(Increment WRF and RAQMS domain)dates run
from August 11 to 23 th  2006
16
7. Major Milestones Second Year Results
  • Statistical Digital Filter (SDF) assimilation
    studies have been conducted and results have been
    compared to SHADOWS ozonesonde data to determine
    optimal approach for assimilation of SEVIRI TCO.

No Assimilation
RAQMS MLS Analysis
17
7. Major Milestones Second Year Results
  • Statistical Digital Filter (SDF) assimilation
    studies have been conducted and results have been
    compared to SHADOWS ozonesonde data to determine
    optimal approach for assimilation of SEVIRI TCO.

Bias Corrected Assimilation
RAQMS MLS Analysis
18
7. Major Milestones Second Year Results
  • Summary of SDF SEVIRI TCO Assimilation
    Experiments vs SHADOWS ozonesonde measurements.

Result
Experiment
nosdf - Large negative biases at
200mb sdfratiof - Majority of
adjustment occurs in stratosphere sdfbias
- WRF column adjustment improves 200mb bias
but introduces lower
stratospheric bias sdfbiasratiof - Majority
of adjustment occurs in stratosphere
  • Conclusions
  • Bias corrected adjustment of WRF O3 has largest
    impact.
  • WRF-CHEM 200mb biases degrade assimilation study.

19
7. Major Milestones Second Year Results
  • Lack of WRF-CHEM Lightning NOx source is most
    likely cause of WRF-CHEM underestimate of upper
    tropospheric (200mb) ozone over Africa.

RAQMS 200mb Lightning NOx Source (2006-08-23, 18Z)
WRF-CHEM OLR (2006-08-23, 18Z)
NO formation from lightning discharges within
convective systems is a dominate source of NOx
(NONO2) in the tropical free troposphere (Levy
et al. J. Geophys. Res., 104, 26279-26306, 1999)
20
7. Major Milestones Second Year Results
  • Lack of WRF-CHEM Lightning NOx source is most
    likely cause of WRF-CHEM underestimate of upper
    tropospheric (200mb) ozone over Africa.

RAQMS 200mb NO2 (2006-08-23, 18Z)
WRF-CHEM 200mb NO2 (2006-08-23, 18Z)
Down wind transport of Lightning induced NO2
significantly impacts South African upper
troposphere (including Niarobi and Reunion
ozonesondes)
21
7. Major Milestones Second Year Results
  • Lack of WRF-CHEM Lightning NOx source is most
    likely cause of WRF-CHEM underestimate of upper
    tropospheric (200mb) ozone over Africa.

RAQMS 200mb O3 (2006-08-23, 18Z)
WRF-CHEM 200mb O3 (2006-08-23, 18Z)
Lack of upper tropospheric ozone production down
wind from Lightning NOx emissions leads to
underestimates in WRF-CHEM upper tropospheric
ozone over Equatorial and Southern Africa.
22
7. Major Milestones Second Year Results
  • Lack of WRF-CHEM Lightning NOx source is most
    likely cause of WRF-CHEM underestimate of upper
    tropospheric (200mb) ozone over Africa.

Need to incorporate Lightning NOx source
into WRF-CHEM before further assimilation studies
are conducted. Will use Price and Rind (Mon.
Weather Rev., 122, 1930-1939, 1994) scheme
currently implemented into RAQMS.
23
7. Major Milestones Second Year Results
  • Testing of WRF-CHEM SEVIRI ozone assimilation
    using the National Center for Environmental
    Prediction (NCEP) Gridpoint Statistical
    Interpolation (GSI) assimilation system has been
    initiated.

Total Column
WRF Column
TCO analyses are similar between the GSI and SDF.
However, GSI shows significantly larger ozone
column within the WRF domain (below 50mb)
GSI
SDF
24
7. Major Milestones (cont)
  • FY10
  • Conduct August-September 2006 RAQMS regional GSI
    SEVIRI TCO assimilation with radiance based
    observation operator
  • Conduct August-September 2006 data denial (with
    and without SEVIRI TCO) AQ forecast studies.
  • Evaluate impact of GSI SEVIRI TCO retrieval
    assimilation on European AQ forecasts through
    comparison with WMO ozonesonde and EMEP surface
    network observations.
  • Interface with GOES-R Aerosol and Air Quality
    AWG.

25
8. Funding Profile (K)
  • Summary of leveraged funding
  • GOES-R AWG Task Use RAQMS global/WRF-CHEM
    regional air quality modeling systems to develop
    proxy data sets for GOES-R ABI aerosol
    retrievals.
  • Leverage development of RAQMS/WRF-CHEM/CRTM
    linkages under GOES-R AWG task.
  • FY09 GOES-R AWG high resolution (4km) proxy data
    set will use GOES-R3 36km SEVIRI ozone/aerosol
    assimilation for initial conditions.

26
9. Expected Purchase Items
  • FY08
  • (48K) STAR CIMSS Grant for 1 person at 25 time
    from OCT 07 to SEP 08
  • Personnel support (including benefits, IT
    charges, overhead, etc) 38K
  • Linux workstation, PGI compiler, IDL license
    (10K)
  • FY09
  • (50K) STAR CIMSS Grant for 1 person at 25 time
    from OCT 08 to SEP 09
  • Personnel support (including benefits, IT
    charges, overhead, etc) 40K
  • Software charges 2K
  • Equipment (RAID disks) 8K
  • FY10
  • (52K) STAR CIMSS Grant for 1 person at 25 time
    from OCT 09 to SEP 10
  • Personnel support (including benefits, IT
    charges, overhead, etc) 42K
  • Software charges 2K
  • Equipment (RAID disks) 8K

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