A four-year lidar-sun photometer aerosol study at São Paulo, Brazil

A backscattering lidar system, the first of this kind in Brazil, has been used to provide the vertical profile of the aerosol backscatter coefficient at 532 nm up to an altitude of 4-6 km above sea level (ASL), in a suburban area in the city of São Paulo. The lidar system has been operational since...

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Bibliographic Details
Published in:Journal of Atmospheric and Oceanic Technology
Main Authors: Landulfo, E, Papayannis, A, Torres, AS, Uehara, ST, Pozzetti, LMV, de Matos, CA, Sawamura, P, Nakaema, WM, de Jesus, W
Format: Conference Object
Language:English
Published: AMER METEOROLOGICAL SOC 2008
Subjects:
Engineering
Ocean
Meteorology & Atmospheric Sciences
Aerosol backscattering
Aerosol optical thickness
Aerosol robotic networks
Backscatter coefficients
Cloud base
Cloud properties
Dry and wet
Extinction coefficients
Extinction-to-backscatter ratio
Input values
LIDAR data
Lidar ratio
Lidar systems
Lower troposphere
Phase functions
Planetary boundary layers
Single scattering albedo
Structure and dynamics
Suburban areas
Sun photometers
Sun-tracking
Temporal Database
Vertical profile
Visible spectral regions
Wet season
Acoustic emissions
Atmospheric aerosols
Atmospheric thermodynamics
Backscattering
Electric reactors
Image sensors
Oceanography
Optical radar
Photometers
Photometry
Sun
Atmospherics
absorption
aerosol
aerosol property
boundary layer
conference proceeding
database
lidar
measurement method
photometer
satellite data
troposphere
Brazil
Sao Paulo [Brazil]
South America
Aerosol Robotic Network
Online Access:http://dspace.lib.ntua.gr/handle/123456789/32104
https://doi.org/10.1175/2007JTECHA984.1
Description
Summary:A backscattering lidar system, the first of this kind in Brazil, has been used to provide the vertical profile of the aerosol backscatter coefficient at 532 nm up to an altitude of 4-6 km above sea level (ASL), in a suburban area in the city of São Paulo. The lidar system has been operational since September 2001. The lidar data products were obtained in a 4-yr period (2001-04) and concerned the aerosol optical thickness (AOT), the aerosol backscattering and extinction coefficients at 532 nm, cloud properties (cloud base, thickness), planetary boundary layer (PBL) heights, aerosol layering, and the structure and dynamics of the lower troposphere. The lidar data are presented and analyzed in synergy with AOT measurements obtained by a Cimel sun-tracking photometer in the visible spectral region, not only to validate the lidar data but also to provide an input value of the so-called extinction-to-backscatter ratio [lidar ratio (LR)]. A correlation between the lidar data and the data obtained by a Cimel sun-tracking photometer [belonging to the Aerosol Robotic Network (AERONET)] is being made to set a temporal database of those data that were collected concomitantly and to cross correlate the information gathered by each instrument. The sun photometer data are used to provide AOT values at selected wavelengths and thus to derive the Ångström exponent (AE) values, single scattering albedo (SSA) and phase function values, and LR values. The analysis of these data showed an important trend in the seasonal signature of the LR indicating a change of the predominant type of aerosol between the dry and wet seasons. Thus, during the wet season the LR lidar values are greater (50-60 sr), which indicates that larger absorption by the aerosols takes place during this period. The corresponding AE values range between 1.3 and 2 for both periods. © 2008 American Meteorological Society.

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