CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Simulation of Ozone Depletion Using Ambient Irradiance
Autor/es:
S. DIAZ; C. CAMILION; J. ESCOBAR; G. DEFERRARI; S. ROY; K. LACOSTE; S. DEMERS; C. BELZILE; G. FERREYRA; S. GIANESELLA; M. GOSSELIN; C. NOZAIS; E. PELLETIER; I. SCHLOSS; M. VERNET
Revista:
PHOTOCHEMISTRY AND PHOTOBIOLOGY
Editorial:
American Society for Photobiology
Referencias:
Año: 2006 vol. 82 p. 857 - 864
ISSN:
0031-8655
Resumen:
In studies of the biological effects of UV radiation, ozone
depletion can be mimicked by performing the study under
ambient conditions and adding radiation with UV-B lamps.
We evaluated this methodology at three different locations
along a latitudinal gradient: Rimouski (Canada), Ubatuba
(Brazil) and Ushuaia (Argentina). Experiments of the effect of
potential ozone depletion on marine ecosystems were carried
out in large outdoor enclosures (mesocosms). In all locations
we simulated irradiances corresponding to 60% ozone depletion,
which may produce a 1301900% increase in 305 nm
irradiance at noon, depending on site and season. Supplementation
with a fixed percentage of ambient irradiance provides
a better simulation of irradiance increase due to ozone
depletion than supplementation with a fixed irradiance value,
particularly near sunrise and sunset or under cloudy skies.
Calculations performed for Ushuaia showed that, on very
cloudy days, supplementation by the square-wave method may
produce unrealistic irradiances. Differences between the
spectra of the calculated supplementing irradiance and the
lamp for a given site and date will be a function of the time of
day and may become more or less pronounced according to
the biological weighting function of the effect under study.