Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations

Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations

Regular aerosol observations based on well-calibrated instruments have led to a better understanding of the aerosol radiative budget on Earth. In recent years, these instruments have played an important role in the determination of the increase of anthropogenic aerosols by means of long-term studies...

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Main Authors: J. Yoon, W. von Hoyningen-Huene, A. A. Kokhanovsky, M. Vountas, J. P. Burrows
Format: Article
Language:English
Published: Copernicus Publications 2012-06-01
Series:Atmospheric Measurement Techniques
Online Access:http://www.atmos-meas-tech.net/5/1271/2012/amt-5-1271-2012.pdf
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spelling doaj-ab5b31383b69430b96e3757f77d633fc2020-11-24T22:09:57ZengCopernicus PublicationsAtmospheric Measurement Techniques1867-13811867-85482012-06-01561271129910.5194/amt-5-1271-2012Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observationsJ. YoonW. von Hoyningen-HueneA. A. KokhanovskyM. VountasJ. P. BurrowsRegular aerosol observations based on well-calibrated instruments have led to a better understanding of the aerosol radiative budget on Earth. In recent years, these instruments have played an important role in the determination of the increase of anthropogenic aerosols by means of long-term studies. Only few investigations regarding long-term trends of aerosol optical characteristics (e.g. aerosol optical thickness (AOT) and Ångström exponent (ÅE)) have been derived from ground-based observations. This paper aims to derive and discuss linear trends of AOT (440, 675, 870, and 1020 nm) and ÅE (440–870 nm) using AErosol RObotic NETwork (AERONET) level 2.0 spectral observations. Additionally, temporal trends of coarse- and fine-mode dominant AOTs (CdAOT and FdAOT) have been estimated by applying an aerosol classification based on accurate ÅE and Ångström exponent difference (ÅED). In order to take into account the fact that cloud disturbance is having a significant influence on the trend analysis of aerosols, we introduce a weighted least squares regression depending on two weights: (1) monthly standard deviation (σ<sub><i>t</i></sub>) and (2) number of observations per month (<i>n<sub>t</sub></i>). <br><br> Temporal increase of FdAOTs (440 nm) prevails over newly industrializing countries in East Asia (weighted trends; +6.23% yr<sup>−1</sup> at Beijing) and active agricultural burning regions in South Africa (+1.89% yr<sup>−1</sup> at Mongu). On the other hand, insignificant or negative trends for FdAOTs are detected over Western Europe (+0.25% yr<sup>−1</sup> at Avignon and −2.29% yr<sup>−1</sup> at Ispra) and North America (−0.52% yr<sup>−1</sup> for GSFC and −0.01% yr<sup>−1</sup> at MD_Science_Center). Over desert regions, both increase and decrease of CdAOTs (+3.37% yr<sup>−1</sup> at Solar_Village and −1.18% yr<sup>−1</sup> at Ouagadougou) are observed depending on meteorological conditions.http://www.atmos-meas-tech.net/5/1271/2012/amt-5-1271-2012.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. Yoon
W. von Hoyningen-Huene
A. A. Kokhanovsky
M. Vountas
J. P. Burrows
spellingShingle J. Yoon
W. von Hoyningen-Huene
A. A. Kokhanovsky
M. Vountas
J. P. Burrows
Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
Atmospheric Measurement Techniques
author_facet J. Yoon
W. von Hoyningen-Huene
A. A. Kokhanovsky
M. Vountas
J. P. Burrows
author_sort J. Yoon
title Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
title_short Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
title_full Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
title_fullStr Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
title_full_unstemmed Trend analysis of aerosol optical thickness and Ångström exponent derived from the global AERONET spectral observations
title_sort trend analysis of aerosol optical thickness and ångström exponent derived from the global aeronet spectral observations
publisher Copernicus Publications
series Atmospheric Measurement Techniques
issn 1867-1381
1867-8548
publishDate 2012-06-01
description Regular aerosol observations based on well-calibrated instruments have led to a better understanding of the aerosol radiative budget on Earth. In recent years, these instruments have played an important role in the determination of the increase of anthropogenic aerosols by means of long-term studies. Only few investigations regarding long-term trends of aerosol optical characteristics (e.g. aerosol optical thickness (AOT) and Ångström exponent (ÅE)) have been derived from ground-based observations. This paper aims to derive and discuss linear trends of AOT (440, 675, 870, and 1020 nm) and ÅE (440–870 nm) using AErosol RObotic NETwork (AERONET) level 2.0 spectral observations. Additionally, temporal trends of coarse- and fine-mode dominant AOTs (CdAOT and FdAOT) have been estimated by applying an aerosol classification based on accurate ÅE and Ångström exponent difference (ÅED). In order to take into account the fact that cloud disturbance is having a significant influence on the trend analysis of aerosols, we introduce a weighted least squares regression depending on two weights: (1) monthly standard deviation (σ<sub><i>t</i></sub>) and (2) number of observations per month (<i>n<sub>t</sub></i>). <br><br> Temporal increase of FdAOTs (440 nm) prevails over newly industrializing countries in East Asia (weighted trends; +6.23% yr<sup>−1</sup> at Beijing) and active agricultural burning regions in South Africa (+1.89% yr<sup>−1</sup> at Mongu). On the other hand, insignificant or negative trends for FdAOTs are detected over Western Europe (+0.25% yr<sup>−1</sup> at Avignon and −2.29% yr<sup>−1</sup> at Ispra) and North America (−0.52% yr<sup>−1</sup> for GSFC and −0.01% yr<sup>−1</sup> at MD_Science_Center). Over desert regions, both increase and decrease of CdAOTs (+3.37% yr<sup>−1</sup> at Solar_Village and −1.18% yr<sup>−1</sup> at Ouagadougou) are observed depending on meteorological conditions.
url http://www.atmos-meas-tech.net/5/1271/2012/amt-5-1271-2012.pdf
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