Atmosphere (Jan 2012)

An Evaluation of Modeled Plume Injection Height with Satellite-Derived Observed Plume Height

  • Robert Solomon,
  • Tara T. Strand,
  • Dana Coe Sullivan,
  • Kenneth J. Craig,
  • Narasimhan K. Larkin,
  • Neil J. M. Wheeler,
  • Sean M. Raffuse

DOI
https://doi.org/10.3390/atmos3010103
Journal volume & issue
Vol. 3, no. 1
pp. 103 – 123

Abstract

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Plume injection height influences plume transport characteristics, such as range and potential for dilution. We evaluated plume injection height from a predictive wildland fire smoke transport model over the contiguous United States (U.S.) from 2006 to 2008 using satellite-derived information, including plume top heights from the Multi-angle Imaging SpectroRadiometer (MISR) Plume Height Climatology Project and aerosol vertical profiles from the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP). While significant geographic variability was found in the comparison between modeled plumes and satellite-detected plumes, modeled plume heights were lower overall. In the eastern U.S., satellite-detected and modeled plume heights were similar (median height 671 and 660 m respectively). Both satellite-derived and modeled plume injection heights were higher in the western U.S. (2345 and 1172 m, respectively). Comparisons of modeled plume injection height to satellite-derived plume height at the fire location (R2 = 0.1) were generally worse than comparisons done downwind of the fire (R2 = 0.22). This suggests that the exact injection height is not as important as placement of the plume in the correct transport layer for transport modeling.

Keywords