An aerosol boomerang: Rapid around-the-world transport of smoke from the December 2006 Australian forest fires observed from space
نویسندگان
چکیده
[1] We investigate rapid around-the-world transport of a smoke aerosol plume released by intense forest fires in southeastern Australia in December 2006. During the first half of December 2006, southeastern Australia suffered from severe drought and exceptionally high temperatures. On 14 December 2006, a passing cold front in combination with the intense heat from the fires causing pyro-convective lofting, injected a large mass of aerosol particles into the jet stream. We track the resulting aerosol plume using Aerosol Absorbing Index (AAI) observations from the Ozone Monitoring Instrument (OMI) and find that it circumnavigated the world in 12 days. Using observations from OMI and the CALIOP (Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation) spaceborne lidar, we show that the plume resided in the high troposphere at different stages of its evolution. In absence of CALIOP data, we explored OMI O2-O2 pressures to obtain information on the aerosol plume height. Detailed radiative transfer calculations suggest that the current OMI O2-O2 retrievals contain useful information on the altitude of the aerosol plume under specific conditions (high AAI, no clouds below). The observed two-dimensional evolution of the smoke aerosol plume and the vertical distribution of the plume detected by CALIOP is matched by simulations with the TM4 chemistry transport model for an injection height of 248 hPa ( 10 km). Injection heights at the surface and at 540 hPa ( 5 km) resulted in simulated vertical distributions that were 2–3 km too low relative to CALIOP observations and showed less agreement with the AAI patterns. The high injection altitude of 10 km mimics the effect of pyro-convective lofting as the additional buoyancy from the intense fires is not accounted for in the model. TM4 simulations with an inert and a water-soluble tracer reproduce the observed dilution of the plume and show that the latter gives the best agreement with the observations, suggesting that the ultimate removal of the aerosol particles is by scavenging. To our knowledge, this is the first detailed study of around-the-world long-range transport of forest fire emissions in the extratropical Southern Hemisphere.
منابع مشابه
P2.52 Combining Satellite Data, Trajectory Modeling and Surface Insolation Measurements to Deduce the Direct Radiative Effect of Smoke Aerosol
The need to develop a climatology of aerosols and their direct radiative forcing has been identified as a critical gap in our knowledge of the earth’s atmosphere and may play a large role in the process of climate change. Recognizing this need, the Global Aerosol Climatology Project (GACP) was instituted by NASA and under the auspices of the World Climate Research Programme (WCRP)/ Global Energ...
متن کاملAerosol optical characterization by nephelometer and lidar: The Baltimore Supersite experiment during the Canadian forest fire smoke intrusion
[1] High spatial and temporal resolution elastic backscatter lidar data from Baltimore are analyzed with a near-end approach to estimate vertical profiles of the aerosol extinction coefficient. The near-end approach makes use of the (1) aerosol scattering coefficient measured at the surface with a nephelometer (0.530 mm), (2) surface level particle size distribution, and (3) refractive index ca...
متن کاملLightning response to smoke from Amazonian fires
[1] The effect of anthropogenic aerosols on clouds has the potential to be a key component for climate change predictions, yet is one of the least understood. It is possible that high aerosol loading can change the convection intensity and hence the electrical activity of thunderstorm clouds. Focusing on the Amazon dry season, where thousands of man‐made forest fires inject smoke into the atmos...
متن کاملStudies on Emissions from Forest Fires Using Multi-satellite Datasets over North East Region of India
Tropical biomass burning and associated emissions of aerosols into the atmosphere play a vital role in atmospheric perturbation and climate change. Aerosols containing black carbon are emitted primarily in the tropical and subtropical regions of the globe accounting to the release of almost 100 million tons of smoke into the atmosphere as a result of biomass burning. The present study aims at i...
متن کاملTransport of forest fire emissions from Alaska and the Yukon Territory to Nova Scotia during summer 2004
[1] Emissions from forest fires in Alaska and the Yukon Territory were observed at Chebogue Point, Nova Scotia (43.7 N, 66.1 W), between 11 and 13 July 2004. Smoke aerosols were first detected in the free troposphere by a Raman lidar and extended up to 8 km altitude. The plume was not evident at the surface until the second day, when increases in CO, acetonitrile (CH3CN), benzene, and aerosol m...
متن کامل