investigating the sources of organic carbon aerosol in the atmosphere colette l. heald noaa climate...
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![Page 1: Investigating the Sources of Organic Carbon Aerosol in the Atmosphere Colette L. Heald NOAA Climate and Global Change Postdoctoral Fellow University of](https://reader037.vdocuments.mx/reader037/viewer/2022110207/56649d445503460f94a20711/html5/thumbnails/1.jpg)
Investigating the Sources of Organic Carbon Aerosol in the Atmosphere
Colette L. HealdNOAA Climate and Global Change Postdoctoral Fellow
University of California, Berkeley([email protected])
Daniel J. Jacob, Rokjin J. Park, Solène Turquety, Rynda C. Hudman, Rodney J. Weber, Rick Peltier, Amy Sullivan, Lynn M. Russell
Barry J. Huebert, John H. Seinfeld, Hong Liao
Young Scientists’ Global Change Conference, BeijingNovember 7, 2006
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AEROSOL IMPACTS ON AIR QUALITY
AIR QUALITY / HEALTH VISIBILITY
Clear Day
April 16, 2001
Visibility reduction at Glen Canyon, Arizona due to transpacific transport of Asian dust
Particulates contribute to urban smog:
[Environmental Working Group Report, 2005]
Beijing
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AEROSOL IMPACTS ON CLIMATE
DIRECT EFFECT INDIRECT EFFECT
1. Scattering Radiation = COOLING
2. Absorbing Radiation = WARMING
Reflection
Refraction
Absorption
Increase cloud albedo = COOLINGIncrease cloud lifetime = COOLING
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ESTIMATED RADIATIVE FORCING OF CLIMATE
Secondary OC currently not included in forcing estimates is it important?
[IPCC, 2001]
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ORGANIC CARBON AEROSOL
ReactiveOrganicGases
Oxidation by OH, O3, NO3
Direct Emission
Fossil Fuel Biomass Burning
Monoterpenes
Nucleation or Condensation
Aromatics
ANTHROPOGENIC SOURCESBIOGENIC SOURCES
OC
Fossil Fuel: 10-30 TgC/yrBiomass Burning: 45-80 TgC/yr
Secondary Organic Aerosol (SOA): 8-40 TgC/yr
*Numbers from IPCC [2001]
Isoprene
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ORGANIC CARBON AEROSOL: AT THE SURFACE
Organic carbon constitutes 10-70% of aerosol mass at surface.Difficult to distinguish primary from secondary contributions.
2004 NARSTO Assessment
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ACE-ASIA: FIRST OC AEROSOL MEASUREMENTS IN THE FREE TROPOSPHERE
Mean ObservationsMean SimulationObservations+
Concentrations of OC in the FT were under-predicted by a factor of 10-100!
(ACE-Asia aircraft campaign conducted off of Japan during April/May 2001)
GEOS-Chem:Global ChemicalTransport model
[Heald et al., 2005]
[Mader et al., 2002] [Huebert et al., 2003] [Maria et al., 2003]
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CONTRAST: OTHER AEROSOLS IN ASIAN OUTFLOW
Model simulates both the magnitude and profile of sulfate and elemental carbon (EC) during ACE-Asia
Mean ObservationsMean Simulation (GEOS-Chem)
Scavenging ScavengingSecondaryproduction
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ANY INDICATION THAT DIRECT EMISSIONS ARE UNDERESTIMATED?
Biomass Burning:• Satellite firecounts show no active fires in Siberia• Agricultural fires in SE Asia do not contribute in the FT.
No apparent underestimate in primary emissions
Pollution:• There is a free tropospheric background of 1-4 μg sm-3 that is not correlated with CO or sulfate.
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SECONDARY ORGANIC AEROSOL
Biogenic VOCs(eg. monoterpenes)
ReactiveOrganic Gases
Oxidation by OH, O3, NO3
SecondaryOrganic Aerosol
Condensation of low vapour pressure ROGs on pre-existing aerosol
Simulated April Biogenic SOA
FT observations ~ 4g/m3
Simulated SOA far too small!
SOA parameterization [Chung and Seinfeld, 2002]
VOCi + OXIDANTj i,jP1i,j + i,jP2i,j
Parameters (’s K’s) from smog chamber studies
Ai,j
GGi,ji,j
Pi,jEquilibrium (Komi,j) also f(POA)
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SEVERAL STUDIES SUGGESTING UNDERESTIMATE OF SOA
[Volkamer et al., 2006]
Global underestimate in SOA?
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OC AEROSOL OVER NORTH AMERICA: ICARTT CAMPAIGN
NOAA WP-3 Flight tracks
Note: biomass burning plumes were removed
OC aerosol concentrations captured by the model, BUT we cannot simulate variability in observations (R=0.21) incomplete understanding of formation.
ObservedSimulated
Water soluble OC Aerosol
OC aerosol concentrations 3x lower than observed off of Asia
[Heald et al., submitted]
2004: worst fire season on record in Alaska
Emissions derived from MODIS hot spots
[Turquety et al., submitted]
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WHAT DON’T WE UNDERSTAND ABOUT SOA FORMATION?
ROG
Oxidation by OH, O3, NO3
Direct Emission
Monoterpenes
Nucleation or Condensation
Aromatics
OC
Isoprene
CloudProcessing
FF: 45-80 TgC/yrBB: 10-30 TgC/yr
SOA: ?? TgC/yr
Fossil Fuel Biomass Burning
ANTHROPOGENIC SOURCESBIOGENIC SOURCES
Heterogeneous Reactions1. Precursors
2. Chemistry• Production more efficient at low NOx • Multi-step oxidation
3. New formation pathways
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CARBON CYCLE AND POTENTIAL RADIATIVE IMPLICATIONS
VOC EMISSIONS500-1000 TgC/yr
[IPCC, 2001]
DISSOLVED ORGANIC CARBON
IN RAINWATER430 TgC/yr
[Wiley et al., 2000]
OC AEROSOL1 µg/m3 in the FT globally ~ 100 TgC/yr
AOD @ 50% RH: 0.014TOA Radiative Forcing = -0.3 W/m2