Search

Your search keyword '"Record Solar UV Irradiance"' showing total 5 results
Start Over Descriptor "Record Solar UV Irradiance"
5 results on '"Record Solar UV Irradiance"'

3. Record Solar UV Irradiance in the Tropical Andes

Author

Nathalie A. Cabrol, Uwe eFeister, Donat P. Häder, Helmut ePiazena, Edmond A. Grin, and Andreas eKlein

Subjects
Andes Mountains, Record Solar UV Irradiance, Negative Ozone Anomaly, UV index, Filter radiometer, Environmental sciences, GE1-350
Abstract

High elevation, thin ozone layer, and clear sky produce intense ultraviolet (UV) radiation in the tropical Andes. Recent models suggest that tropical stratospheric ozone will slightly decrease in the coming decades, potentially resulting in more UV anomalies. Data collected between 4,300-5,916 m above sea level (asl) in Bolivia show how this trend could dramatically impact surface solar irradiance. During 61 days, two Eldonet dosimeters recorded extreme UV-B irradiance equivalent to a UV index (UVI) of 43.3, which is the highest ground value ever reported. If they become more common, events of this magnitude may have societal and ecological implications, which make understanding the process leading to their generation critical. Our data show that this event and other major UV spikes were consistent with rising UV-B/UV-A ratios in the days to hours preceding the spikes, trajectories of negative ozone anomalies (NOAs), and radiative transfer modeling.

Published
2014
Full Text
View/download PDF

4. Response: 'Comment on Record solar UV irradiance in the tropical Andes, by Cabrol et al.'

Author

Uwe Feister, Donat-P. Häder, and Nathalie A. Cabrol

Subjects
lcsh:GE1-350, Tropical andes, Ozone, UV-B, UV-A, UV measurement, Irradiance, Naturwissenschaftliche Fakultät, Atmospheric sciences, Atmosphere, ozone, chemistry.chemical_compound, chemistry, radiative transfer, ddc:570, Environmental Science, atmosphere, Radiative transfer, record solar UV irradiance, Environmental science, lcsh:Environmental sciences, UV index, General Environmental Science
Published
2015
Full Text
View/download PDF

5. Comment on Record solar UV irradiance in the tropical Andes, by Cabrol et al

Author

Germar Bernhard, Francesco Zaratti, Sasha Madronich, and Richard McKenzie

Subjects
lcsh:GE1-350, geography, Tropical andes, Plateau, geography.geographical_feature_category, Atmosphere, UV-B, UV-A, UV measurement, Irradiance, Effects of high altitude on humans, Total ozone, Atmospheric sciences, Altitude, Ozone, radiative transfer, Environmental Science, Environmental science, lcsh:Environmental sciences, General Environmental Science, Record Solar UV Irradiance, UV index
Abstract

Recently Cabrol et al. (2014), hereafter C14, reported measurements of the UV Index (UVI) reaching 43.3 at a high altitude location in the Andes (Licancabur; 22.5◦ S, 67.5◦ W, 5917m a.s.l.). This value is much larger than those previously reported from other high altitude tropical locations. For example, UVI maxima reported for Mauna Loa (19.5◦ N, 155.6◦ W, 3397m a.s.l.) (Bodhaine et al., 1997; McKenzie et al., 2001), La Paz, Bolivia (16.5◦ S, 68.1◦ W, 3420m a.s.l.) (Zaratti et al., 2014), and Chile’s northern Atacama Desert (Chajnantor Plateau; 23.0◦ S, 67.8◦ W, 5100m a.s.l) (Cordero et al., 2014) are less than 26. The large UVI values measured by C14 are surprising because they would simultaneously require atmospheric conditions—specifically low total ozone amounts and cloud enhancements of UV-B radiation—that are extremely unlikely if not impossible (Seckmeyer et al., 2010). An alternative explanation of the results of C14 is that the large reported UV-B changes stem from instrument problems or data analysis issues, as will be discussed later. There are two important reasons why these measurements should be questioned and re-examined more closely

Published
2015
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results