@Article{PoliukhovChBlTaMaMu:2019:RaEfDi,
author = "Poliukhov, A. A. and Chubarova, N. E. and Blinov, D. V. and
Tarasova, Tatiana Aleksandrova and Makshtas, A. P. and Muskatel,
H.",
affiliation = "{Lomonosov Moscow State University} and {Lomonosov Moscow State
University} and {Hydrometeorological Research Center of the
Russian Federation} and {Instituto Nacional de Pesquisas Espaciais
(INPE)} and {Arctic and Antarctic Research Institute} and {Israel
Meteorological Service}",
title = "Radiation effects of different types of aerosol in Eurasia
according to observations and model calculations",
journal = "Russian Meteorology and Hydrology",
year = "2019",
volume = "44",
number = "9",
pages = "579--587",
month = "Sept.",
keywords = "Aero sol, aero sol cli ma tol ogy, cli mate data, ra di a tion and
tem per a ture aero sol ef fects, COSMO-Ru mesoscale model,
CLIRAD(FC05)-SW ra di a tion al go rithm.",
abstract = "Radiation effects for different types of aerosol on the territory
of Eurasia are estimated using modern aerosol climatologies Tegen
and MACv2. Differences in the optical properties of aerosol in the
mentioned climatologies in different natural zones as compared to
the AERONET ground-based observation network are revealed. It is
shown that aerosol climatologies reproduce annual variations with
good accuracy for continental and mineral aerosol. Differences in
the MACv2 are smaller on average than in the Tegen. The
CLIRAD(FC05)-SW radiation algorithm was applied to calculate the
values of total shortwave radiation using different aerosol
climatologies. The errors of calculations are estimated for the
selected observation stations. The deviation of the calculation
results from measurement data does not exceed 25 W/m 2 . The
COSMO-Ru mesoscale model is used to analyze the sensitivity of
surface air temperature prediction to radiation aerosol effects
which varies in the range of 0.71.1°C per 100 W/m 2 for different
aerosol types.",
doi = "10.3103/S1068373919090012",
url = "http://dx.doi.org/10.3103/S1068373919090012",
issn = "1068-3739",
language = "en",
targetfile = "poliukhov_radiation.pdf",
urlaccessdate = "20 abr. 2024"
}