Licht-im-Terrarium: Literaturdatenbank
Licht-im-Terrarium: Literaturdatenbank |
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Udelhofen, P. M., Gies, P., Roy, C., & Randel, W. J. (1999). Surface uv radiation over australia, 1979–1992: Effects of ozone and cloud cover changes on variations of uv radiation. Journal of Geophysical Research: Atmospheres, 104(D16), 19135–19159. Added by: Sarina (2013-09-19 09:56:51) Last edited by: Sarina (2013-09-19 09:57:50) |
| Resource type: Journal Article DOI: 10.1029/1999JD900306 ID no. (ISBN etc.): 2156-2202 BibTeX citation key: Udelhofen1999 View all bibliographic details  |
Categories: Englisch = English Keywords: Sonne = Sun, Ultraviolett = Ultraviolet Creators: Gies, Randel, Roy, Udelhofen Collection: Journal of Geophysical Research: Atmospheres |
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Time series of daily erythemal ultraviolet radiation (UVR) exposure, ozone, and cloud cover were analyzed over the Australian continent using data sets from the NASA Total Ozone Mapping Spectrometer (TOMS) from 1979–1992. The TOMS UVR exposures showed good agreement with data from surface observations. Using a relationship derived from comparisons of the TOMS partial cloud reflectivities with surface cloud cover observations, the TOMS reflectivities were converted into estimates of cloud cover for several Australian regions. It was shown that the deseasonalized time series of UVR exposures can be statistically described as a linear function of ozone and cloud cover anomalies. Results of a trend analysis indicated statistically significant increases in UVR exposures of 10% decade−1 in the summer months in the tropics. These were associated with a simultaneous depletion of ozone and a decrease in cloud cover. Midlatitudinal regions showed no significant trends of UVR. It was found that variations of ozone and UVR over Australia were significantly influenced by the quasi-biennial oscillation (QBO). An increase in zonal wind strength of 20 m s−1 was correlative with reductions of ozone of 1.7% and enhancements of UVR exposures of 2.2%. An increase in solar radio flux of 100×10−22 W m−2 (Hz)−1 was associated with significant reductions of UVR of 5–10% in the tropical and subtropical regions in summer. The results suggested that enhancements in summer UVR exposures of about 10–20% above the climatological average might be expected in years in which the QBO is in its westerly phase and the solar cycle is at its minimum.
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