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- Title
Satellite Multi‐Angle Observations of Wildfire Smoke Plumes During the CalFiDE Field Campaign: Aerosol Plume Heights, Particle Property Evolution, and Aging Timescales.
- Authors
Noyes, K. T. Junghenn; Kahn, R. A.
- Abstract
Wildfire‐related aircraft field campaigns frequently offer opportunities to validate remote‐sensing retrievals of aerosol properties and other quantities derived from satellite‐borne‐instrument observations. Satellite instruments often provide regional context‐imagery for more sparsely sampled aircraft and surface‐based measurements. However, aerosol amount, particle type, aerosol plume height and the associated wind vector products retrieved from the NASA Earth Observing System's Multi‐angle Imaging SpectroRadiometer (MISR) instrument have matured sufficiently that these quantities can also contribute substantially to a campaign data set, in regional context. This is especially useful when such measurements are not acquired at all from the suborbital platforms. During NOAA's California Fire Dynamics Experiment (CalFiDE), aircraft operations were coordinated with MISR overpasses on two occasions: for the Rum Creek fire on 30 August 2022, and for the Mosquito fire on 08 September. MISR‐retrieved aerosol properties show distinctly different patterns of black and brown smoke particle distributions and inferred plume evolution in the two cases. This paper presents the satellite‐retrieved results that complement the field observations, demonstrating what such measurements can offer, and contributing material for detailed fire dynamics and chemistry studies when combined with the CalFiDE suborbital observations and models in continuing studies. Plain Language Summary: A common use of aircraft field campaigns is to validate the radiances measured by space‐based instruments and the geophysical quantities derived from the satellite observations. However, satellite aerosol amount and properties derived from the NASA Earth Observing System's Multi‐angle Imaging SpectroRadiometer (MISR) instrument are sufficiently mature that they can also contribute directly to field‐campaign data sets. During NOAA's CalFiDE campaign is summer 2022, on two occasions the aircraft observed wildfire smoke plumes coordinated with MISR overpasses: for the Rum Creek fire on 30 August 2022, and for the Mosquito fire on 08 September. In addition to providing broad spatial context to the much more spatially limited aircraft measurements, the MISR results offer geometrically‐derived smoke‐plume height and plume‐level motion vectors from which smoke age can be estimated downwind along the plume. From MISR‐retrieved constraints on particle size, shape, and light‐absorption properties, the distribution of black and brown smoke can be inferred, along with the underlying processes responsible for plume‐particle evolution. This paper presents the satellite‐retrieved results that complement the suborbital data acquired for the CalFiDE campaign and associated modeling, for use in continuing studies of fire dynamics. Key Points: NASA's MISR multi‐angle imagery allows aerosol plume‐height, associated motion vector, and particle property retrievals from spaceTypically, field data are acquired to validate satellite data, but MISR data is mature enough to contribute directly to the CalFiDE campaignAircraft and MISR overflights were coordinated twice, yielding MISR aerosol context and detail for joint smoke‐plume dynamics and chemistry study
- Subjects
CAIRO (Egypt); SMOKE plumes; WILDFIRES; UNITED States. National Aeronautics &; Space Administration; AEROSOLS; UNITED States. National Oceanic &; Atmospheric Administration; GEOPHYSICAL instruments; SMOKE; WILDFIRE prevention; MEASURING instruments
- Publication
Journal of Geophysical Research. Atmospheres, 2024, Vol 129, Issue 3, p1
- ISSN
2169-897X
- Publication type
Article
- DOI
10.1029/2023JD039041