Aviation and the Global Atmosphere

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Aviation and the Global Atmosphere The introduction of mixed supersonic and subsonic fleets in the future will have the potential to modify the impact of aviation on UVery. Present calculations predict only marginal changes to the values of UVery in the tropics and increases in mid-latitudes. For example, the predicted changes relative to the corresponding background at 45°N in July are +0.6% in 2015 and +0.3% in 2050. For 45°S in January, the predicted changes in UVery are +0.4% for 2015 and +0.2% in 2050, relative to the corresponding background atmospheres. Although these estimated changes may be considered small, they do have significantly larger uncertainty limits. The limits for a particular confidence range are difficult to determine. The %UVery changes are dominated by changes in ozone; the values for these changes are supplied by Chapter 4, which has also considered three components when assessing the uncertainty for the impact of the hybrid fleet on ozone. These components are the spread obtained by a number of models for a range of plausible scenarios, uncertainties in chemical rate coefficients, and uncertainties introduced by inaccurate treatment of atmospheric circulation in the models. Chapter 4 concluded that the annually averaged impact on ozone for the Northern Hemisphere of a hybrid fleet in 2050, including 1,000 High-Speed Civil Transports (HSCTs), would be in the range of -3.5 to +1% compared with the impact of the subsonic fleet, with a best estimate of -1%. This result again represents the 67% likelihood range with a confidence in this uncertainty range of "fair." As with estimated subsonic impacts, we believe that uncertainties in the changes in ozone caused by the hybrid fleet are much greater than any other uncertainties in the calculation of changes in UVery. Chapter 4 has considered only the uncertainty estimate for an annually averaged Northern Hemisphere value, whereas reporting of the UV calculations requires estimates of the uncertainties for a range of latitudes and seasons. To achieve this, Chapter 5 has taken the 67% likelihood range for percent change in UVery to be from (-2% + the best estimate of the percent change) to (+3% + the best estimate of the percent change). The magnitude of the changes calculated for the impact of aviation may be compared to those calculated for the background atmosphere for the period 1970 to 2050. Expressed relative to 1970, the calculated changes in UVery at 45°N in July are +8% for 1992, +3% for 2015, and -3% for 2050. The changes calculated for the three background atmospheres reflect the changing levels of halogens and NO x in the stratosphere and expected increases in NO x in the troposphere, particularly at northern mid-latitudes, as a result of increased industrial activity. Observed changes in total ozone from 1970 to 1992 imply smaller percentage increases in UVery, indicating the degree of uncertainty in the model predictions. Increases in the abundance of atmospheric aerosols or the frequency of cirrus clouds would, in general, lead to a decrease in ground-level UV irradiance, where this change is only weakly dependent on wavelength. The change in aerosol loading expected from increased aircraft operations between the present and 2050 is small relative to the natural aerosol background and to anthropogenic influences other than those related to aviation. The effect of the aircraft-related increase in aerosols is to reduce UV irradiance by less than 0.1%. Calculations indicate that aircraft-related increases in contrails lead to a decrease in UV irradiance of less than 0.2% in an area-averaged sense in regions where 5% of the sky is covered. Table of contents | Previous page | Next page Other reports in this collection http://www.ipcc.ch/ipccreports/sres/aviation/055.htm (2 von 2)08.05.2008 02:42:35 IPCC Homepage
Aviation and the Global Atmosphere Aviation and the Global Atmosphere Table of contents | Previous page | Next page 5.1. Factors that Determine Ground-Level Ultraviolet Irradiance Other reports in this collection This chapter considers the potential impact of aviation on ground-level UV irradiance by using changes in ozone and cloudiness reported in preceding chapters. A series of radiative transfer calculations based on this information yields estimated changes in UV irradiance associated with various aviation scenarios in the years 2015 and 2050 and places these scenarios in context relative to changes expected from other causes during this time period. Because of strong attenuation by atmospheric ozone, practically no solar radiation reaches the ground at wavelengths shorter than 290 nm. The wavelength range of interest extends from this short wavelength ozone cutoff to 400 nm because biological sensitivities, including the reference action spectrum for erythema (defined as a reddening of human skin in response to irradiation) (McKinlay and Diffey, 1987), extend through both the UV-B (wavelengths 280-315 nm) and the UV-A (315-400 nm). To characterize UV radiation, this chapter adopts the UVery defined here as the erythemally weighted irradiance, A(l)E(l), integrated over wavelength and expressed in W m -2 . The quantity A(l) is the biological weighting function of McKinlay and Diffey (1987); E(l) is the spectral irradiance received on a horizontal surface. This chapter presents calculations of UVery at local noon. Although action spectra exist for a variety of biological effects (UNEP, 1994), the erythemal weighting has international recognition and is the basis for the widely used UV index. In general, action spectra that are more sharply peaked toward short wavelengths in the UV-B lead to weighted irradiances that are more sensitive to changes in ozone. The discussion in UNEP (1994) addresses this issue; no further detail is required here. Absorption by ozone is the most important single process that influences the transmission of UV-B radiation through the atmosphere. This absorption leads to a sharp reduction in ground-level spectral irradiance as wavelength decreases from 315 nm. Although the bulk of the absorption occurs at stratospheric altitudes, tropospheric ozone is also important. The dependence of transmission on the geometrical path taken by sunlight, hence on solar zenith angle, leads to a strong dependence of ground-level UV irradiance on latitude, season, and local time. In addition, molecular scattering is significant in the UV and leads to a diffuse irradiance at the surface of the Earth under clear, aerosol-free skies that is comparable to or larger than the direct solar beam, where the relative magnitudes are functions of solar zenith angle. Furthermore, ground-level irradiance increases as surface albedo increases, as a result of backscattering of radiation reflected from the ground. Additional discussion of the factors involved in the transfer of UV radiation appears in Kerr (1997). Recent studies of radiative transfer in the UV emphasize the roles of clouds and aerosols, primarily sulfates and soot, in altering ground-level irradiance (Seckmeyer et al., 1996; Kerr, 1997). Attenuation of UV sunlight by clouds and aerosols arises primarily from backscattering of radiation to space, although absorption by soot-both freely suspended in the atmosphere and incorporated into cloud drops-can be non-negligible under certain circumstances, particularly in polluted urban areas. The http://www.ipcc.ch/ipccreports/sres/aviation/056.htm (1 von 2)08.05.2008 02:42:36
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