Evaluation of Wildfire Plume Injection Heights Estimated from Operational Weather Radar Observations Using Airborne Lidar Retrievals

Author:

Krishna M.12ORCID,Saide P. E.13ORCID,Ye X.14,Turney F. A.1ORCID,Hair J. W.5ORCID,Fenn M.5ORCID,Shingler T.5

Affiliation:

1. Department of Atmospheric and Oceanic Sciences University of California Los Angeles CA USA

2. Department of Earth Sciences Dartmouth College Hanover NH USA

3. Institute of the Environment and Sustainability University of California Los Angeles CA USA

4. Institute of Urban Environment Chinese Academy of Sciences Xiamen China

5. NASA Langley Research Center Hampton VA USA

Abstract

AbstractThe vertical distribution of wildfire smoke aerosols is important in determining its environmental impacts but existing observations of smoke heights generally do not possess the temporal resolution required to fully resolve the diurnal behavior of wildfire smoke injection. We use Weather Surveillance Radar‐1988 Doppler (WSR‐88D) dual polarization data to estimate injection heights of Biomass Burning Debris (BBD) generated by fires. We detect BBD as a surrogate for smoke aerosols, which are often collocated with BBD near the fire but are not within the size range detectable by these radars. Injection heights of BBD are derived for 2–10 August 2019, using WSR‐88D reflectivity (Z ≥ 10 dBZ) and dual polarization correlation coefficients (0.2 < C.C < 0.9) to study the Williams Flats fire. Results show the expected diurnal cycles with maximum injection heights present during the late afternoon period when the fire's intensity and convective mixing are maximized. WSR‐88D and airborne lidar injection height comparisons reveal that this method is sensitive to outliers and generally overpredicts maximum heights by 40%, though mean and median heights are better captured (<20% mean error). WSR‐88D heights between the 75th and 90th percentile seem to accurately represent the maximum heights, with the exception of heights estimated during the occurrence of a pyro‐cumulonimbus. Location specific mapping of WSR‐88D and lidar injection heights reveal that they diverge further away from the fire as expected due to BBD settling. Most importantly, WSR‐88D‐derived injection height estimates provide near continuous smoke height information, allowing for the study of diurnal variability of smoke injections.

Funder

National Science Foundation

National Aeronautics and Space Administration

National Oceanic and Atmospheric Administration

Publisher

American Geophysical Union (AGU)

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