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2008-07-31 13:51:35
UV Index Satellite Maps
http://www.temis.nl/uvradiation/world_uvi.html
With the world s highest rates of skin cancer, New
Zealanders should be aware of the health risks posed by
overexposure to UV radiation. A long-established UV
advisory service regularly reports the risk, which is
heightened by (mostly) fair skins, outdoor lifestyle, and a
climate that encourages sun-seeking. Relatively high UV
intensities also play a part. The erythemal (sun-burning)
strength of UV radiation is usually given in terms of the
UV Index (UVI), a scale first used in Canada and defined
to range from 1 to 10 there. In the NZ summer, UVI
values regularly exceed 13, even in the south of the
country where UV is less intense. A recent study showed
that peak UVI values in NZ are about 40% more than at
similar latitudes in North America (McKenzie et al.,
2006).
Compared with equatorial regions, our UV is not
particularly strong contrary to anecdotal evidence from
travellers. The main factors controlling UV, in desdending
order of importance, are:
Solar elevation causes the diurnal, seasonal and
latitudinal range.
Clouds reflect and scatter radiation. Heavy overcast
conditions can reduce UV intensity by more than 90%,
while clouds near the Sun can cause short-term UVI
increases of ~20%. On average, clouds reduce clear sky
UV by about 30%.
Ozone absorbs UV. UVI decreases by about 1% for
every 1% increase in ozone, which varies from a
minimum of about 100 Dobson Units1 inside the
Antarctic ozone hole to a (seasonal) maximum of about
500 DU at mid latitudes. The global average ozone
column is about 300 DU, and away from the ozone hole
it tends to be lowest (~ 200 DU) in the tropics.
Aerosols extinction can reduce UVI by 20-30%.
Altitude reduces the air column for scattering and
absorption; even in the most pristine air, UV increases
by about 5% per kilometre.
Snow reflects UV for backscatter from air. It can add
20-40% to UVI, but less at high altitude.
The elliptical orbit of the Earth about the Sun is also
significant; at closest approach in early January, the UV
intensity at the top of the atmosphere is about 7% more
than in July.
So where on Earth s surface would we expect the
highest UV? Peak UV should occur within the tropics
(high sun, low ozone), at a high altitude site, in the
Southern Hemisphere. Near the Tropic of Capricorn,
overhead Sun occurs during the period when the Earth-
Sun separation is a minimum.