Add to ORKGThe AeroCom BB (Biomass Burning) Experiment AOD (Aerosol Optical Depth) motivation: We have a substantial set of satellite wildfire plume AOD snapshots and injection heights to help calibrate model/inventory performance; We are 1) adding more fire source-strength cases 2) using MISR to improve the AOD constrains and 3) adding 2008 global injection heights; We selected GFED3-daily due to good overall source strength performance, but any inventory can be tested; Joint effort to test multiple, global models, to draw robust BB injection height and emission strength conclusions. We provide satellite-based injection height and smoke plume AOD climatologies
Biomass burning is a significant source of trace gases and aerosols to the atmosphere, and the evol...
The document was presented at the 2013 AEROCENTER Annual Meeting held at the GSFC Visitors Center, M...
The MISR and MODIS instruments aboard the NASA Earth Observing System's Terra Satellite have been co...
We present an analysis of over 23,000 globally distributed wildfire smoke plume injection heights de...
Talks presented by Dr. Ralph Kahn at the 16th AeroCom and 5th AeroSat Workshops, held October 9-13, ...
We analyze an extensive record of aerosol smoke plume heights derived from observations over North A...
A new methodology for the estimation of smoke-injection height from wild-land fires is proposed and ...
The Transported Smoke Survey had three objectives: to evaluate imager and polarimeter sensitivity to...
Plume injection height influences plume transport characteristics, such as range and potential for d...
Biomass burning is one of a relatively few natural processes that can inject globally significant qu...
Landscape fires produce smoke containing a very wide variety of chemical species, both gases and aer...
High altitude smoke-plumes from large, explosive fires were discovered in the late 1990sThey can now...
The dispersion of particles from wildfires, volcanic eruptions, dust storms, and other aerosol sour...
The aerosol data products from the NASA Earth Observing System's MISR and MODIS instruments provide ...
We use the global circulation model ECHAM6 extended by the aerosol module HAM2 to simulate global pa...
Biomass burning is a significant source of trace gases and aerosols to the atmosphere, and the evol...
The document was presented at the 2013 AEROCENTER Annual Meeting held at the GSFC Visitors Center, M...
The MISR and MODIS instruments aboard the NASA Earth Observing System's Terra Satellite have been co...
We present an analysis of over 23,000 globally distributed wildfire smoke plume injection heights de...
Talks presented by Dr. Ralph Kahn at the 16th AeroCom and 5th AeroSat Workshops, held October 9-13, ...
We analyze an extensive record of aerosol smoke plume heights derived from observations over North A...
A new methodology for the estimation of smoke-injection height from wild-land fires is proposed and ...
The Transported Smoke Survey had three objectives: to evaluate imager and polarimeter sensitivity to...
Plume injection height influences plume transport characteristics, such as range and potential for d...
Biomass burning is one of a relatively few natural processes that can inject globally significant qu...
Landscape fires produce smoke containing a very wide variety of chemical species, both gases and aer...
High altitude smoke-plumes from large, explosive fires were discovered in the late 1990sThey can now...
The dispersion of particles from wildfires, volcanic eruptions, dust storms, and other aerosol sour...
The aerosol data products from the NASA Earth Observing System's MISR and MODIS instruments provide ...
We use the global circulation model ECHAM6 extended by the aerosol module HAM2 to simulate global pa...
Biomass burning is a significant source of trace gases and aerosols to the atmosphere, and the evol...
The document was presented at the 2013 AEROCENTER Annual Meeting held at the GSFC Visitors Center, M...
The MISR and MODIS instruments aboard the NASA Earth Observing System's Terra Satellite have been co...