Black Carbon:Global Budget and Impacts on Climate

1. Black Carbon:Global Budget and Impacts on Climate

2. Soot Particle from a Wood-Burning Stove

3. Scanning electron microscope image of particles collected in Xianghe, W of Beijing.

4. Structure of Soot

5. Outline • Soot: What is it? • Climate Impact • Physics • Prior budgets • INDOEX • Budget evaluation • Conclusions

7. Climate forcing for atmospheric gases and aerosolsIPCC (2001) *Jacobson Nature, 2001.

8. Radiation and fine particles

9. Optical Properties & Visibility Change in intensity of light reflecting off an object I / I = exp(‑bextX) where: I = incident intensity of light I = change in intensity of light bext= extinction coefficient (m‑1) X = distance (m)

10. Extinction Coefficient, bext Sum of scattering and absorption coefficients: bext = bscat + babs Decomposed further from gases and particles: babs = bag + bap bscat = bsg + bsp Where: bag= absorption coefficient due to gases (Beer's law) bap = absorption coefficient due to particles bsg = scattering coefficient due to gases (Rayleigh scattering) bsp = scattering coefficient due to particles (Mie scattering)

11. Atmospheric Aerosols

12. Optical Properties of Small Particles • = bscat/bext • = Single scattering albedo m = n + ik m = complex index of refraction n = scattering (real part) k = absorption (imaginary part)

13. Refractive indicies of aerosol particles at  = 589 nm

14. Radiative Effects (Climate Impact) of Soot • External mixture +0.27 Wm-2 • Coated core +0.54 Wm-2 • Well-mixed internally +0.78 Wm-2 (Jacobson, GRL., 2000)

15. External vs. Internal Mixtures Sulfate & Soot mixed externally. Soot with sulfate coating (coated core). Well-mixed internally.

16. Global Fossil Fuel Black Carbon Emissions(Cooke et al., JGR., 1999; Penner et al., 1993)

17. Indian Today, 1996

18. INDOEX, 1999 INDOEX Experimental Design

19. NOAA R/V Ronald Brown

20. Impactor Samples from Ship during INDOEX

22. Origin of Soot? • Ratio of BC/OC near unity means origin should be fossil fuel • combustion (Novakov et al., 2001). • Low single scattering albedo, 0.81, indicates 70% from fossil • fuel combustion (Mayol-Bracero et al, 2001).

23. Emissions InventoriesGg yr-1 Black Carbon from South AsiaHigh Estimate for 1999

25. Estimate of BC Emissionfrom Ambient Measurements EBC = ECO*[BC]/[CO]/LBC Fort Meade, MD EBC = 90 Tg(CO)/yr * 0.0034 = 0.31 Tg(BC)/yr for N America (vs. 0.49 Tg(BC)/yr) INDOEX EBC = 87 Tg(CO)/yr * 0.0125/0.5 = 2.2 Tg(BC)/yr for South Asia (vs. 0.5 to 1Tg(BC)/yr)

29. Two-Stroke Engine • No Valves • Oil mixed with gasoline • Part of fresh charged exhausted • Fuel adulteration

30. Source Strength Black Carbon in China Estimated annual BC emissions from China: 1300-2600 Gg/yr Inventory: 1049 Gg/yr [Streets et al., 2003] Better agreement compared to a similar study for India [Dickerson et al., 2002] Single Scattering Albedo (SSA): Morning: ~0.81, Afternoon: ~0.85

31. The ambient EC concentration decreases ~50% in the recent 11 years.

32. The ambient OC concentration decreases ~10% in the recent 11 years.

33. EC and OC are correlated (95-00) but show no obvious trend.

34. EC shows a decreasing trend but no correlation with OC.

35. At SHEN, EC decrease by ~15% in 8 years (1989-1997) while CO decrease by ~ 20% during the same period.

36. Summary • Black Carbon (soot) may provide more forcing than methane. • Properties of aerosols suggest that fossil fuel combustion is main source of black carbon from South Asia. • Inventories suggest biofuels contribute substantially, and cannot support emissions above 1 Tg(BC) a-1. • Ambient measurements suggest major role for biomass burning and indicate 2-3 Tg(BC) a-1. • Combustion in S Asia is unlike anything seen in N America or Europe. • Time for direct measurements.

37. Black Carbon References