Presentation is loading. Please wait.

Presentation is loading. Please wait.

Using Satellite Data to Infer Surface Emissions and Boundary Layer Concentrations of NO x (and SO 2 ) Randall Martin With contributions from: Xiong Liu,

Published byHugo Warner Modified over 8 years ago

Similar presentations

Presentation on theme: "Using Satellite Data to Infer Surface Emissions and Boundary Layer Concentrations of NO x (and SO 2 ) Randall Martin With contributions from: Xiong Liu,"— Presentation transcript:

1 Using Satellite Data to Infer Surface Emissions and Boundary Layer Concentrations of NO x (and SO 2 ) Randall Martin With contributions from: Xiong Liu, Chris Sioris, Kelly Chance (Harvard-Smithsonian Center for Astrophysics) Rob Pinder, Robin Dennis (EPA/NOAA)

2 Satellite Instruments With the Capability of Remote Sensing of Tropospheric NO 2 and SO 2 Columns Nadir-viewing solar backscatter instruments including visible (NO 2 ) and ultraviolet (SO 2 ) wavelengths GOME/ERS-2 1995-2002 Spatial resolution 320x40 km 2 Global coverage in 3 days SCIAMACHY/Envisat 2002-present Spatial resolution 60x30 km 2 Global coverage in 6 days OMI/Aura 2004-present Spatial resolution 24x13 km 2 Daily global coverage

3 Spectral Fit of NO 2 Scattering by Earth surface and by atmosphere Backscattered intensity I B Solar I o Distinct NO 2 Spectrum Nonlinear least-squares fitting Ozone NO 2 O 2 -O 2 Albedo A Martin et al., 2002, 2006

4 Total NO 2 Slant Columns Observed from SCIAMACHY Dominant stratospheric background (where NO 2 is produced from N 2 O oxidation) Also see tropospheric hot spots (fossil fuel and biomass burning) May-October 2004 Retrieval Uncertainty Spectral fit 5-10x10 14 molec cm -2 Stratospheric removal 2-10x10 14 molec cm -2

5 Perform an Air Mass Factor (AMF) Calculation to Account for Viewing Geometry and Scattering  RcRc RoRo I B,o I B,c PcPc RsRs GOMECAT (Kurosu) & FRESCO Clouds Fields [Koelemeijer et al., 2002] Surface Reflectivity [Koelemeijer et al., 2003] LIDORT Radiative Transfer Model [Spurr et al., 2002] GEOS-CHEM NO 2 & aerosol profiles dd IoIo Palmer et al., 2001; Martin et al., 2002, 2003 Cloud Radiance Fraction I B,c / (I B,o + I B,c ) AMF Uncertainty 40%

6 Cloud-filtered Tropospheric NO 2 Columns Retrieved from SCIAMACHY May 2004 – Apr 2005 Martin et al., 2006 Mean Uncertainty ±(5x10 14 + 30%)

7 Tropospheric NO 2 Columns More Sensitive to Lower Tropospheric NOx NO NO 2 NOx lifetime < day Nitrogen Oxides (NO x ) Boundary Layer NO / NO2   with altitude hv NO NO 2 O 3, RO 2 hv HNO 3 NOx lifetime ~ week Ozone (O 3 ) Upper Troposphere Ozone (O 3 ) HNO 3 O 3, RO 2

8 ICARTT Campaign Over and Downwind of Eastern North America in Summer 2004 Aircraft Flight Tracks and Validation Locations Overlaid on SCIAMACHY Tropospheric NO 2 Columns NASA DC-8NOAA WP-3D Martin et al., 2006

9 Significant Agreement Between Coincident Cloud-Filtered SCIAMACHY and In-Situ Measurements r = 0.77 slope = 0.82 1:1 line Ryerson (WP-3D) Cohen (DC-8) Cloud-radiance fraction < 0.5 In-situ measurements below 1 km & above 3 km Assume constant mixing ratio below lowest measurement Add upper tropospheric profile from mean obs Horizontal bars show 17 th & 83 rd percentiles Martin et al., 2006

10 Error weighting Conduct a Chemical Inversion For NOx Emissions A posteriori emissions x Top-Down Emissions 10 15 molec N cm -2 A Priori NOx Emissions (x a ) SCIAMACHY NO 2 Columns (y) 10 11 molec N cm -2 s -1 GEOS-CHEM model F(x) min cost function SySy SaSa 1998 2004- 2005

11 Significant Agreement Between A Priori and A Posteriori Largest Discrepancy in East Asia r=0.91 Martin et al., 2006

12 A Posteriori NOx Emissions from East Asia Exceed Those from Either North America or Europe A posteriori (46 Tg N/yr) A priori (38 Tg N/yr)

13 CMAQ SCIAMACHY On-going efforts: Model Evaluation (2004) Test and Improve NOx Emission Inventories molec/cm 2 Evaluation of Modeled Spatial Distributions NO 2 Columns: Summer 2004 Rob Pinder, Robin Dennis

14 Similar discrepancies at surface Comparable spatial distributions SCIAMACHY higher in rural areas  higher regional background  missing source (lightning) or  NOx  NOy too rapid CMAQ higher downwind of urban areas (e.g., Atlanta, St. Louis), Point sources  air mass factor from GEOS-CHEM  NOx lifetime difference due to resolution Evaluation of NO 2 Spatial Distributions (contd.) Rob Pinder, Robin Dennis CMAQ Evaluation CMAQ -SCIAMACHY

15 Can Satellite Measurements of Tropospheric NO 2 Columns Provide a Proxy for Surface NO 2 In Regions Without In Situ Measurements? Highest NO 2 maximum quarterly mean by county, 2001

16 Relationship Between Surface NO 2 and GOME NO 2 Columns Northern Italy Ordonez et al., JGR, 2006 Fall/Winter Spring/Summer In Situ Measurements Corrected for NOy Contamination

17 Relationship Between Simulated (GEOS-Chem) and Measured NO 2 Profiles over Land Martin et al., 2004 Texas AQS ICARTT Martin et al., 2006 In Situ GEOS-Chem (standard) (lightning x 4) In Situ GEOS-Chem

18 CMAQ SCIAMACHY molec/cm 2 Infer Surface NO 2 from Tropospheric NO 2 Column Using Model Vertical Profile ( Courtesy: R. Martin ) Rob Pinder, Robin Dennis ppm

19 Satellite Retrieval of SO 2 Challenging! (Ozone Interference, Rayleigh Scattering <330 nm) TOMS: detect volcanic eruptions (detection limit: 4-6 DU) [Krueger, 1983; Krueger et al., 1995] GOME: detect both volcanic & anthropogenic SO 2 [Eisinger & Burrows, 1998; Khokhar et al., 2005] using the DOAS technique (detection limit: 0.5-1 DU)

20 Global Distribution of SO 2 Columns Retrieved from GOME Missing Source from Nyamuragira Volcano in October 1998 Retrieval Issues in July? GOME GEOS-Chem Xiong Liu Dobson Units Oct98 Jul97

21 Conclusions Top-down information from satellites can be applied to improve NOx emission inventories OMI will provide this capability at higher resolution Additional model development necessary for application at local scale Encouraging prospect of inferring surface NO 2 from satellite/model

Download ppt "Using Satellite Data to Infer Surface Emissions and Boundary Layer Concentrations of NO x (and SO 2 ) Randall Martin With contributions from: Xiong Liu,"

Similar presentations

Inferring SO 2 and NO x Emissions from Satellite Remote Sensing Randall Martin with contributions from Akhila Padmanabhan, Gray O’Byrne, Sajeev Philip.

Inferring SO 2 and NO x Emissions from Satellite Remote Sensing Randall Martin with contributions from Akhila Padmanabhan, Gray O’Byrne, Sajeev Philip.
Aircraft GC 2006 ems GC Streets ems East Asian contrib Lightning contrib Aircraft GC 2006 ems GC Streets ems No Asian No Lightning Long-range transport.

Aircraft GC 2006 ems GC Streets ems East Asian contrib Lightning contrib Aircraft GC 2006 ems GC Streets ems No Asian No Lightning Long-range transport.
Space-Based Constraints on Lightning NOx Emissions Randall V. Martin 1,2, Bastien Sauvage 1, Ian Folkins 1, Christopher Sioris 2,3, Christopher Boone 4,

Space-Based Constraints on Lightning NOx Emissions Randall V. Martin 1,2, Bastien Sauvage 1, Ian Folkins 1, Christopher Sioris 2,3, Christopher Boone 4,
Randall Martin Aaron Van Donkelaar Chris Sioris Kelly Chance Evaluating NOx Emission Inventories in North America and Beyond Yongtao Hu Armistead Russell.

Randall Martin Aaron Van Donkelaar Chris Sioris Kelly Chance Evaluating NOx Emission Inventories in North America and Beyond Yongtao Hu Armistead Russell.
U N I V E R S I T Y O F W A S H I N G T O N S C H O O L O F N U R S I N G Global partitioning of NO x emissions using satellite observations Lyatt Jaeglé.

U N I V E R S I T Y O F W A S H I N G T O N S C H O O L O F N U R S I N G Global partitioning of NO x emissions using satellite observations Lyatt Jaeglé.
Retrieval of SO 2 Vertical Columns from SCIAMACHY and OMI: Air Mass Factor Algorithm Development Chulkyu Lee, Aaron van Dokelaar, Gray O’Byrne: Dalhousie.

Retrieval of SO 2 Vertical Columns from SCIAMACHY and OMI: Air Mass Factor Algorithm Development Chulkyu Lee, Aaron van Dokelaar, Gray O’Byrne: Dalhousie.
Constraints on the Production of Nitric Oxide by Lightning as Inferred from Satellite Observations Randall Martin Dalhousie University With contributions.

Constraints on the Production of Nitric Oxide by Lightning as Inferred from Satellite Observations Randall Martin Dalhousie University With contributions.
1 Global Observations of Sulfur Dioxide from GOME Xiong Liu 1, Kelly Chance 1, Neil Moore 2, Randall V. Martin 1,2, and Dylan Jones 3 1 Harvard-Smithsonian.

1 Global Observations of Sulfur Dioxide from GOME Xiong Liu 1, Kelly Chance 1, Neil Moore 2, Randall V. Martin 1,2, and Dylan Jones 3 1 Harvard-Smithsonian.
Constraining global isoprene emissions with GOME formaldehyde column measurements Changsub Shim, Yuhang Wang, Yunsoo Choi Georgia Institute of Technology.

Constraining global isoprene emissions with GOME formaldehyde column measurements Changsub Shim, Yuhang Wang, Yunsoo Choi Georgia Institute of Technology.
Dalhousie University Department of Physics and Atmospheric Science Materials Science Biophysics Condensed Matter Physics Atmospheric Science Research in.

Dalhousie University Department of Physics and Atmospheric Science Materials Science Biophysics Condensed Matter Physics Atmospheric Science Research in.
Indirect Validation of Tropospheric Nitrogen Dioxide Retrieved from the OMI Satellite Instrument: Insight into the Seasonal Variation of Nitrogen Oxides.

Indirect Validation of Tropospheric Nitrogen Dioxide Retrieved from the OMI Satellite Instrument: Insight into the Seasonal Variation of Nitrogen Oxides.
Validation of a Satellite Retrieval of Tropospheric Nitrogen Dioxide Randall Martin Dalhousie University Smithsonian Astrophysical Observatory Daniel Jacob.

Validation of a Satellite Retrieval of Tropospheric Nitrogen Dioxide Randall Martin Dalhousie University Smithsonian Astrophysical Observatory Daniel Jacob.
Mapping isoprene emissions from space Dylan Millet with

Mapping isoprene emissions from space Dylan Millet with
Retrieval and Interpretation of UV/Vis Satellite Observations of Tropospheric Composition Randall Martin With contributions from: Rongming Hu (Dalhousie.

Retrieval and Interpretation of UV/Vis Satellite Observations of Tropospheric Composition Randall Martin With contributions from: Rongming Hu (Dalhousie.
In Cooperation with the IAMAS Commission on Atmospheric Chemistry and Global Pollution (CACGP) The International Global Atmospheric Chemistry Project A.

In Cooperation with the IAMAS Commission on Atmospheric Chemistry and Global Pollution (CACGP) The International Global Atmospheric Chemistry Project A.
Randall Martin Space-based Constraints on Emission Inventories of Nitrogen Oxides Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory) Lyatt.

Randall Martin Space-based Constraints on Emission Inventories of Nitrogen Oxides Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory) Lyatt.
Satellite Observations of Tropospheric Gases and Aerosols Randall Martin With contributions from: Rongming Hu (Dalhousie University) Chris Sioris, Xiong.

Satellite Observations of Tropospheric Gases and Aerosols Randall Martin With contributions from: Rongming Hu (Dalhousie University) Chris Sioris, Xiong.
Randall Martin Space-based Constraints on Emissions of Nitrogen Oxides With contributions from: Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory)

Randall Martin Space-based Constraints on Emissions of Nitrogen Oxides With contributions from: Chris Sioris, Kelly Chance (Smithsonian Astrophysical Observatory)
Satellite and Aircraft Based Constraints on NO X Emissions Randall Martin Chris Sioris Kelly Chance Tom Ryerson Andy Neuman Ron Cohen UC Berkeley Aaron.

Satellite and Aircraft Based Constraints on NO X Emissions Randall Martin Chris Sioris Kelly Chance Tom Ryerson Andy Neuman Ron Cohen UC Berkeley Aaron.
Dalhousie University Department of Physics and Atmospheric Science Materials Science Biophysics Condensed Matter Physics Atmospheric Science Research in.

Dalhousie University Department of Physics and Atmospheric Science Materials Science Biophysics Condensed Matter Physics Atmospheric Science Research in.

Similar presentations

Ads by Google