Abstract
Scientific background Aerosols can interact directly with solar and
terrestrial radiation by scattering as well as absorption. In addition,
they can indirectly alter the planetary albedo by modifying the
properties of clouds. Objectives Investigations have been devoted to two
main areas: (1) Aerosol climatology situation in the Negev desert,
investigations of physical and chemical characteristics of aerosols, and
study of the local and long-range transport trajectory of polluted air
masses over the Negev desert; and (2) An estimation of the optical
properties throughout the atmospheric column by surface measurements via
performance of spectral and statistical analysis of the data received
from two measurement systems. Results and conclusions Analyzed data from
the Sede Boker site, in the Negev Desert of Israel, shows an increase in
aerosol optical depth during the summer seasons and a decrease during
winter. One of the possible reasons for this characteristic is an
increase of the precipitable water (reaches 3.0-3.5 cm) due to a
constant wind stream from the Mediterranean Sea in same time. The
highest probability distribution of the aerosol optical depth is in the
range of 0.15-0.20; and of the Angstrom parameter is in range of 0.83 -
1.07. During dust storm events, the scattering coefficient range at 670
nm and 440 nm wavelengths were inverted. It was discovered that the dust
particles in this case had non-spherical character. Comparison between
optical depth, measured through all atmospheric column, and scattering
coefficient from surface measurements provides correlation coefficient
(r) equal to 0.64. The Angstrom parameter, calculated via optical depth
and via scattering coefficient, provides a correlation coefficient of
0.66. Thus we can obtain an estimate of the influence of the surface
aerosol situation on column optical properties. The combined analysis of
dust cloud altitude and optical depth as a function of the time
indicates long-term transport and settling of the aerosol, thus this
analysis allowed to get a qualitative relation with trajectories and
transport models. An additional finding is that except for the dust
storms, the aerosol optical properties defined by fine particles, i.e.
product of urban pollution. Possible explanations for this situation are
the pollution sources in the Israeli Mediterranean coast, where
population and industrial centers are concentrated, and long-range
transport of polluted air masses from the European region.
Original language | English |
---|---|
Title of host publication | American Geophysical Union, Spring Meeting 2002 |
Volume | 51 |
State | Published - 1 May 2002 |
Keywords
- 4801 Aerosols (0305)
- 0305 Aerosols and particles (0345
- 4801)
- 0345 Pollution: urban and regional (0305)