Abstract
Surface ultraviolet (UV) irradiance depends not only on stratospheric ozone amounts, but also varies with time and date, latitude, cloud amount and aerosol load. Any assessment of the effect of stratospheric ozone depletion on surface UV irradiance must take into consideration all of the above parameters. Measurements in the UV-B region may be accomplished using filter and detector combinations which mimic a biological response curve. However there are uncertainties such as in determining the exact filter response and in the cosine error of the detector. The UV-A region lacks a strong ozone absorption band and approaches which relate measured UV-A irradiance to measured global irradiance show promise. Theoretical models have been derived which calculate spectral UV irradiance in cloudless and cloudy conditions. Results show that cloud transmissivities increase as wavelength increases; however, there is a strong dependence on cloud type. In the absence of surface observations of clouds, satellite data may be used to map UV-A and UV-B irradiance in a region, and this approach is illustrated using two specific examples.
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Angell JK, Korshover J, Planet WG (1985) Ground-based and satellite evidence for a pronounced total-ozone minimum in early 1983 and responsible atmospheric layers. Month Weather Rev 113:641
Atkinson RJ, Matthews WA, Newman PA, Plumb RA (1989) Evidence of the midlatitude impact of Antarctic ozone depletion. Nature 340:290
Bahm RJ (ed) (1981) Satellites and Forecasting of Solar Radiation. Proceedings of the First Workshop on Terrestrial Solar Resource Forecasting and on Use of Satellites for Solar Resource Assessment, 2–5 February 1981, Washington, DC. Publication Office, American Section of Solar Energy Society
Baker-Blocker A (1980) The effect of sunshine, cloudiness and haze on received ultraviolet radiation in New York. J Appl Meteorol 19:889
Baker-Blocker A, DeLuisi JJ, Dutton E (1984) Received ultraviolet radiation at the South Pole. Solar Energy 32:659
Barton IJ, Paltridge GW (1979) The Australian climatology of biologically effective ultraviolet radiation. Aust J Dermatol 20:68
Basher RE (1987) The calculation of solar ultraviolet radiation and its sunburning effect under clear skies. Scientific Report 26, New Zealand Meteorological Service
Berger DS (1976) The sunburning ultraviolet meter: design and performance. Photochem Photobiol 24:587
Berger DS, Urbach F (1982) A climatology of sunburning ultraviolet radiation. Photochem Photobiol 35:187
Berner P (1964) Investigation on the influence of clouds on ultraviolet sky radiation. Contract AF 61(052)-618, Technical Note 3. Physikalisch-Meteorologisches Observatorium Davos, Davos-Platz, Switzerland
Berner P (1972) Approximate values of intensity of natural ultraviolet radiation for different amounts of oyone. Final Technical Report. European Research Office, US Army, London. Contract No. DAJA 37-68-C-1017
Blumthaler M, Ambach W (1988) Human solar ultraviolet radiant exposure in high mountains. Atmos Envir 22:749
Borkowski J, Chai AT, Mo T, Green AES (1974) Cloud effects on middle ultraviolet global radiation. Acta Geophys Pol 25:287
Braslau N, Dave JV (1973a) Effect of aerosols on the transfer of solar energy through realistic model atmospheres. J Appl Meteorol 12:601
Braslau N, Dave JV (1973b) Effect of aerosols on the transfer of solar energy through realistic model atmospheres, Part II: Partly absorbing aerosols. J Appl Meteorol 12:616
Caldwell MM, Camp LB, Warner CW, Flint SD (1986) Action spectra and their key role in assessing biological consequences of solar UV-B radiation change. In: Worrest RC, Caldwell MM (eds) Stratospheric ozone reduction, solar ultraviolet radiation and plant life. Springer, Berlin p 87
Crutzen PJ, Isaksen ISA, Reid GC (1975) Solar proton events: stratospheric sources of metric oxide. Science 189:457
Dave JV, Halpern P (1976) Effects of changes in ozone amount on the ultraviolet radiation received at sea level of a model atmosphere. Atmos Envir 10:547
Davies JA, Schertzer WS, Nunez M (1975) Estimating global solar radiation. Bound Layer Meteorol 9:33
Davis A, Deane GHW, Diffey BL (1976) Possible dosimeter for ultraviolet radiation. Nature 261:169
Drummond AJ, Wade HA (1969) Instrumentation for the measurement of solar ultraviolet radiation. In: Urbach F (ed) The biological effects of ultraviolet radiation. Pergamon Press, Oxford, p 391
Farman JC, Gardiner BG, Shanklin JD (1985) Large losses of total ozone in Antarctica reveal seasonal ClOxNOx interaction. Nature 315:207
Farmer CB, Toon GC, Schaper PW, Blavier JF, Lowes LL (1987) Stratospheric trace gases in the spring 1986 Antarctic atmosphere. Nature 329:126
Fraser PJ (1989) Chlorofluorocarbons and stratospheric ozone. Chemistry in Australia, 56:272
Frederick JE, Alberts AD (1991) Prolonged enhancement in surface ultraviolet radiation during the Antarctic spring of 1990. Geophys Res Lett 18:1869
Frederick JE, Lubin D (1988) The budget of biologically active ultraviolet radiation in the earth-atmosphere system. J Geophys Res 93 (D4):3825
Frederick JE, Snell HE (1990) Tropospheric influence on solar ultraviolet radiation. J Climate 3:373
Gautier C, Diak G, Masse S (1980) A simple physical model to estimate incident solar radiation at the surface from GOES satellite data. J Appl Meteorol 19:1005
Grainger RG, Basher RE, McKenzie RL (1993) UV-B Robertson-Berger meter field calibration. Appl Optics (in preparation)
Green AES, Mo T, Miller JH (1974a) A study of solar erythema radiation doses. Photochem Photobiol 20:473
Green AES, Sawada T, Shettle EP (1974b) The middle ultraviolet reaching the ground. Photochem Photobiol 19:251
Green AES, Cross KR, Smith LA (1980) Improved analytic characterization of ultraviolet skylight. Photochem Photobiol 31:59
Halpern P, Dave JV, Braslau N (1974) Sea level sole radiation in the biologically active spectrum. Science 186:1204
Hofmann DJ, Oltmans SJ, Harris JM, Solomon S, Deshler T, Johnson BJ (1992) Observation and possible causes of new ozone depletion on Antarctica in 1991. Nature 359:283
Hollows F (1989) Ultraviolet radiation and eye diseases. Trans Menzies Found 15:113
Ilyas M (1987) Effect of cloudiness on solar ultraviolet radiation reaching the surface. Atmos Envir 21:1483
Ilyas M, Barton IJ (1983) Surface dosage of erythemal solar ultraviolet radiation near the equator. Atmos Envir 17:2069
Iqbal M (1983) An introduction to solar radiation. Academic Press, London
Kok CJ, Chalmers AN, Hengstberger F (1978) Measurements of the middle ultraviolet at Durban. Atmos Envir 12:1119
Lehman P, Karoly DJ, Newman PA, Clarkson TS, Matthews WA (1992a) Long-term winter total ozone changes at Macquarie Island. Geophys Res Lett 19:1459
Lehman P, Karoly DJ, Newman PA, Clarkson TS, Matthews WA (1992b) An investigation into the causes of stratospheric ozone loss in the southern Australasian region. Geophys Res Lett 19:1463
Liu SC, McKeen SA, Madronich S (1991) Effect of anthropogenic aerosol on biologically active ultraviolet radiation. Geophys Res Lett 18:2265
Lubin D, Frederick JE (1989) Measurements of enhanced springtime ultraviolet radiation at Palmer Station, Antarctica. Geophys Res Lett 16:783
Lubin D, Frederick JE (1990) Column ozone measurements from Palmer Station, Antarctica: variations during the Austral spring of 1988 and 1989. J Geophys Res 95(D9):13883
Madronich S (1992) Implications of recent total atmospheric ozone measurements for biologically active ultraviolet radiation reaching the earth's surface. Geophys Res Lett 19:37
McKenzie RL, Matthews WA, Johnston PV (1991) The relationship between erythemal UV and ozone derived from spectral irradiance measurements. Geophys Res Lett 18:2269
McKinlay AF, Diffey BL (1987) A reference action spectrum for ultraviolet induced erythema in human skin. Commission Internationale de l'Eclairage (CIE) Journal 6:17
Meador WE, Weaver WR (1980) Two stream approximations to radiative transfer in planetary atmospheres: a unified description of existing methods and a new improvement. J Atmos Sci 37:630
Mo T, Green AES (1974) A climatology of solar erythema dose. Photochem Photobiol 20:483
Moser W, Raschke E (1983) Determination of global radiation and of cloudiness from METEOSAT imaging data. Ann Meteorol (Neue Folge) 18:161
Nack MI, Green AES (1974) Influence of clouds, haze and smog on the middle ultraviolet reaching the ground. Appl Optics 13:2405
Nunez M (1988) A comparison of three approaches to estimate daily totals of global solar radiation in Australia using GMS data. Aust Meteorol Mag 36:25
Nunez M (1990a) Solar energy statistics for Australian capital regions. Solar Energy 44:343
Nunez M (1990b) Mapping ultraviolet radiation in the Australian region. 59th ANZAAS Congress, Hobart, 14–16 February 1990, Univ. Tasmania Printers, Hobart
Nunez M (1993) The development of a satellite-based insolation model for the tropical western Pacific Ocean. Int J Climatol 13:607
Paltridge GW, Barton IJ (1978) Erythemal ultraviolet radiation distribution over Australia: the calculations, detailed results and input data. CSIRO Division of Atmospheric Research Technical Paper 33
Rao CR, Takashima UT, Bradley WA, Lee TY (1984) Near ultraviolet radiation at the earth's surface: measurement and model comparisons. Tellus 36B:286
Reiter R, Munzert K, Sladkovic R (1982) Results of 5-year concurrent recordings of global, diffuse and UV-radiation at three levels (700, 1800, and 3000 m a.s.l.) in the Northern Alps. Arch Meteorol Geophys Biokl B30:1
Roberts A (1991) Human exposure to ultraviolet radiation under all sky conditions in Hobart, Tasmania. Thesis, Department of Geography and Environmental Studies, University of Tasmania
Rodskjer N (1983) Spectral daily insolation at Uppsala, Sweden. Arch Meteorol Geophys Bioclimatol B33:99
Roy C, Gies PH, Elliott G (1989) The ARL solar ultraviolet radiation measurement programme. Trans Menzies Found 15:71
Rundel R (1986) Computation of spectral distribution and intensity of solar UV-B radiation. In: Worrest RC, Caldwell MM (eds) Stratospheric ozone reduction, solar ultraviolet radiation and plant life. Springer, Berlin, p 49
Schippnick PF, Green AES (1982) Analytical characterization of spectral actinic flux and spectral irradiance in the middle ultraviolet. Photochem Photobiol 35:89
Scotto J, Fears TR (1987) The association of solar ultraviolet and skin melanoma incidence among caucasians in the United States. Cancer Invest 5:275
Scotto J, Cotton G, Urbach F, Berger D, Fears T (1988) Biologically effective ultraviolet radiation: surface measurements in the United States, 1974 to 1985. Science 239:762
Seckmeyer G, McKenzie RL (1992) Increased ultraviolet radiation in New Zealand (45 deg S) relative to Germany (48 deg N). Nature 359:135
Setlow RB (1974) The wavelength in sunlight effective in producing skin cancer. Proc Natl Acad Sci 71:3363
Shettle EP, Green AES (1974) Multiple scattering calculation of the middle ultraviolet reaching the ground. Appl Optics 13:1567
Spinhirne JD, Green AES (1978) Calculation of the relative influence of cloud layers on received ultraviolet and integrated solar radiation. Atmos Envir 12:2449
Stolarski RS, Krueger AJ, Schoeberl MR, McPeters RD, Newman PA, Alpert JC (1986) Nimbus 7 satellite measurements of the springtime Antarctic ozone decrease. Nature 322:808
Stolarski RS, Bloomfield P, McPeters RD (1991) Total ozone trends deduced from Nimbus 7 TOMS data. Geophys Res Lett 18:1015
Vogelmann AM, Ackerman TP, Turco RP (1992) Enhancement in biologically effective ultraviolet radiation following volcanic eruptions. Nature 359:47
Webb A, Steven MD (1984) Measurement of solar UVB radiation in the English midlands. Arch Meteorol Biophys Bioclimatol B35:221
Webb A, Steven MD (1986) Daily totals of solar UVB radiation estimated from routine meteorological measurements. J Climatol 6:405
Worrest RC (1982) Review of literature concerning the impact of UV-B radiation on marine organisms. In: Calkins J (ed) The role of solar ultraviolet radiation in marine organisms. Plenum Press, New York, p 429
Zavodska E (1984) The effects of cloudiness, sunshine and snow cover on ultraviolet radiation at Skalnate Pleso. Contrib Geophys Inst Slovak Acad Sci Ser Meteorol 5:21
Zigman S (1977) Near UV light and cataracts. Photochem Photobiol 26:437
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Nunez, M., Forgan, B. & Roy, C. Estimating ultraviolet radiation at the earth's surface. Int J Biometeorol 38, 5–17 (1994). https://doi.org/10.1007/BF01241798
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DOI: https://doi.org/10.1007/BF01241798