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Surface-Atmosphere Fluxes Part II Christine Wiedinmyer

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Presentation on theme: "Surface-Atmosphere Fluxes Part II Christine Wiedinmyer"— Presentation transcript:

1 Surface-Atmosphere Fluxes Part II Christine Wiedinmyer christin@ucar.edu

2 Part II What did we just learn? – What is emitted? – What are emission sources? How is it applied? – Why do we need to know emission rates? – How do we apply measured emissions? – How do we calculate emissions? EXAMPLE Fire Emissions

3 Emissions to the atmosphere Volatile Organic Compounds (VOC) Nitrogen Species – NOx – NH 3 Carbon monoxide Sulfur species (SO 2 ) Particles – Chemistry – Physical properties

4 Emission Sources Natural (Biogenic/Geogenic) – Lightning (NO x ) N 2  NO x – Volcanoes (SO 2, aerosols) – Oceans – Vegetation * Highly variable in space and time, influenced by season, T, pH, nutrients… Anthropogenic – Mobile sources – Industry – Power generation – Agriculture FIRE

5 How much comes from these sources?

6 Global Emission Estimates: Trace Gases EDGARFT2000 Yan et al, GBC, 2005 Guenther et al., 1995; 2006; pers. comm. GFEDv2 Andreae and Merlet, GBC, 2001 Yokelson et al., ACP, 2008

7 Global Emission Estimates: Particles Andreae and Rosenfeld, Earth Science Reviews, 2008

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9 Location Matters! Bronnimann et al., Meteorologische Zeitschrift, 2009

10 Andreae and Rosenfeld, Earth Science Reviews, 2008

11 Satellite Data from OMI

12 Timing matters, too Daily and seasonal trends in emissions have important implications on chemistry and air quality For example: Why are you asked to fill up your gas tank in the evening during the summer smog season?

13 Tropospheric ozone forms in the presence of NOx, VOC and sunlight Takes time to make (peaks in summer afternoon) Emissions in morning contributes to daytime formation of ozone

14 Example: Emissions from fires Courtesy of Brian Magi, NOAA GFDL

15 What is emitted from fires? Urbanski et al., Wildland Fires and Air Pollution, 2009

16 What else do we need to consider? Controlling variables: - weather - what burns - how it burns - where it burns - when it burns

17 A(x,t): Area burned B(x,t): Biomass burned (biomass burned/area) type of vegetation (ecology) fuel characteristics: – amounts of woody biomass, leaf biomass, litter,... fuel condition – moisture content E fi : Emission factor (mass emission i /biomass burned) fuel characteristics fuel condition

18 (1) Emissions determined from field measurements Thomas Karl, NCAR TROFFEE Study, Brazil

19 Deforestation Fire in the Yucatan, Mexico (March 2006) Bob Yokelson, UMT http://www.umt.edu/chemistry/faculty/yokelson.htm

20 Emission Ratios Andreae and Merlet, Global Biogeochemical Cycles, 2001 Example: CH 3 Cl

21 A schematic of the USFS Fire Sciences Laboratory (FSL) combustion facility in Missoula, MT. http://www.umt.edu/chemistry/faculty/yokelson.htm (2) Fire emissions determined from laboratory experiments

22 Getting at Emission Factors… M x Amount of compound released M biomass Amount of biomass burned M c Mass of carbon emitted [C] biomass Carbon concentration in biomass burned (45%) [x]Concentration of species x in the smoke [C i ]Concentration of species i in the smoke Andreae and Merlet, Global Biogeochemical Cycles, 2001

23 Measurements  Models EF x Emission factor for species X ER (X/Y) Emission ratio of species X relative to the reference species Y MW x Molecular weight of species X MW Y Molecular weight of species Y EF Y Emission factor of species Y Andreae and Merlet, Global Biogeochemical Cycles, 2001

24 Measurements of Organic Compounds in Plumes Canisters – Analysis back at home (GC-FID, GC-MS, etc.) FTIR – E.g., Yokelson et al., University of Montana PTR-MS – E.g., Karl et al., NCAR

25 Akagi et al., Atmos. Phys. & Chem Disc., 2010

26 Other controlling variables Vegetation burned Location/timing Fire severity

27 A(x,t): Area burned B(x,t): Biomass burned (biomass burned/area) type of vegetation (ecology) fuel characteristics: – amounts of woody biomass, leaf biomass, litter,... fuel condition – moisture content E fi : Emission factor (mass emission i /biomass burned) fuel characteristics fuel condition

28 GLOBAL Northern Hemisphere Southern Hemisphere Daily Emission estimates of non-methane organic compounds from fires Wiedinmyer et al, Geosci. Model Dev. Discus., 2010

29

30 Fire Emissions Variability: -Spatial -Temporal Wiedinmyer and Neff, Carbon Balance and Management, 2007

31 Example: Mobile Source Emissions What are ways that mobile sources emit gases and particles to the atmosphere? – Tailpipe emissions – Road dust – Evaporative emissions – Pumping gas

32 What needs to be considered?

33 U.S. EPA provides documentation for developing emission inventories

34 Summary Estimates of emissions are very important Not all sources are equal Timing and location matter Lots of uncertainty associated with emission estimates

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