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Aerosol lidar observations of atmospheric mixing in Los Angeles: Climatology and implications for greenhouse gas observations
- Source :
- Journal of Geophysical Research. Atmospheres
- Publication Year :
- 2016
- Publisher :
- John Wiley and Sons Inc., 2016.
-
Abstract
- Atmospheric observations of greenhouse gases provide essential information on sources and sinks of these key atmospheric constituents. To quantify fluxes from atmospheric observations, representation of transport—especially vertical mixing—is a necessity and often a source of error. We report on remotely sensed profiles of vertical aerosol distribution taken over a 2 year period in Pasadena, California. Using an automated analysis system, we estimate daytime mixing layer depth, achieving high confidence in the afternoon maximum on 51% of days with profiles from a Sigma Space Mini Micropulse LiDAR (MiniMPL) and on 36% of days with a Vaisala CL51 ceilometer. We note that considering ceilometer data on a logarithmic scale, a standard method, introduces, an offset in mixing height retrievals. The mean afternoon maximum mixing height is 770 m Above Ground Level in summer and 670 m in winter, with significant day‐to‐day variance (within season σ = 220m≈30%). Taking advantage of the MiniMPL's portability, we demonstrate the feasibility of measuring the detailed horizontal structure of the mixing layer by automobile. We compare our observations to planetary boundary layer (PBL) heights from sonde launches, North American regional reanalysis (NARR), and a custom Weather Research and Forecasting (WRF) model developed for greenhouse gas (GHG) monitoring in Los Angeles. NARR and WRF PBL heights at Pasadena are both systematically higher than measured, NARR by 2.5 times; these biases will cause proportional errors in GHG flux estimates using modeled transport. We discuss how sustained lidar observations can be used to reduce flux inversion error by selecting suitable analysis periods, calibrating models, or characterizing bias for correction in post processing.<br />Key Points Aerosol lidar maps LA mixing depth in space (pilot mobile study) and time (2 years data)Automatic mixing depth retrieval system finds daily variability far exceeds seasonal differencePBL heights in models used for GHG monitoring show biases that will carry over to flux estimates
- Subjects :
- Atmospheric Science
Daytime
010504 meteorology & atmospheric sciences
Meteorology
Planetary boundary layer
Mixed layer
Pollution: Urban, Regional and Global
Megacities and Urban Environment
mixed layer
Atmospheric Composition and Structure
010501 environmental sciences
Carbon Cycling
Atmospheric sciences
Biogeosciences
01 natural sciences
Oceanography: Biological and Chemical
Constituent Sources and Sinks
Earth and Planetary Sciences (miscellaneous)
Instruments and Techniques
PBL height
Research Articles
lidar
0105 earth and related environmental sciences
urban greenhouse gases
Marine Pollution
Composition and Chemistry
Aerosols and Particles
Ceilometer
Boundary Layer Processes
Aerosol
Oceanography: General
Geophysics
Lidar
Pollution: Urban and Regional
Space and Planetary Science
Greenhouse gas
Climatology
Weather Research and Forecasting Model
Atmospheric Processes
Environmental science
Natural Hazards
Research Article
Subjects
Details
- Language :
- English
- ISSN :
- 21698996 and 2169897X
- Volume :
- 121
- Issue :
- 16
- Database :
- OpenAIRE
- Journal :
- Journal of Geophysical Research. Atmospheres
- Accession number :
- edsair.doi.dedup.....75ee48bb34f70d1a82f4adadff22e5d6