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Solar UV radiation is the single most significant source of UV radiation and can reach a person on the ground from three sources, directly from the sun, scattered from the open sky and reflected from the environment.
What is ultraviolet radiation?
Ultraviolet radiation (UV radiation) is defined as the portion of the electromagnetic spectrum between 100 nanometers (nm) and 400nm. Ultraviolet radiation is classified by wavelength into three regions: UVA - Ultraviolet radiation in the range 315nm to 400nm is thought to contribute to premature aging and wrinkling of the skin and has recently been implicated as a cause of skin cancer. UVB - Ultraviolet radiation in the range 280nm to 315nm is more dangerous than UVA and has been implicated as the major cause of skin cancers, sunburning and cataracts. UVC - Ultraviolet radiation in the range 100nm to 280nm is extremely dangerous but does not reach the earth’s surface due to absorption in the atmosphere by ozone.
How are people exposed to UV radiation?
Solar UV radiation is the single most significant source of UV radiation and can reach a person on the ground from three sources, directly from the sun, scattered from the open sky and reflected from the environment. This means that even if a person is shaded from the direct sun they can still receive substantial UV radiation exposure from the open sky. Also some ground and building surfaces are quite reflective to UV radiation including white paint, light coloured concrete and metallic surfaces. These surfaces can reflect UV radiation onto the skin and eyes. Reflective surfaces can reduce the effect of protective measures.
There are also many types of artificial UV radiation sources, some of which emit high levels of UV radiation. Arc welders used in industry produce an intense UV radiation emission and workers exposed to welding radiation may suffer similar health effects to workers with over exposure to solar UV radiation. There are many other forms of artificial UV radiation sources such as fluorescent lamps, mercury vapour, metal halide and quartz halogen lamps used in industry, offices and in the home.
How is UV radiation measured?
Broadband UV biometers and pyranometers are generally used to measure or monitor solar UV radiation. These instruments measure global solar UV radiation received on a horizontal surface from the entire hemisphere of the sky. Solar radiation includes both UV radiation transmitted directly and scattered UV radiation from the atmosphere so the design of these instruments ensures measurement of both direct and diffuse radiation. These instruments can also be used to monitor changes in ozone levels and cloud cover effects by measuring changes in UV radiation irradiance levels.
Further information may be obtained from the following sites:
The Australian Bureau of Meteorology
World Meteorological Organization
Earth System Research Laboratory - Global Monitoring Division
The Eppley Laboratory Inc.
Yankee Environmental Systems Inc.
Solar Light Co
What are the effects of exposure to UV radiation?
The major organs at risk from exposure to UV radiation are the skin and eyes as the penetration depth of UV radiation is very short. Ultraviolet radiation can be produced by various artificial sources but for most people the sun is the predominant source of UV radiation exposure. For outdoor workers without adequate protection or control measures the levels of solar UV radiation may exceed the generally accepted exposure limits.
People who are overexposed to UV radiation may be unaware of their injury as UV radiation cannot be seen or felt and does not produce an immediate reaction. Over-exposure to UV radiation can cause sunburn, skin damage and skin cancer. The most obvious short-term effect of over-exposure to UV radiation is sunburn. The more UV radiation exposure, the worse the sunburn becomes. A person’s cumulative exposure to UV radiation along with the number of severe sunburns they have received, especially during childhood, increases their risk of developing skin cancer. Sun exposure causes the outer layers of the skin to thicken and long-term exposure can cause skin to wrinkle, sag and become leathery. Melanoma, the least common of the skin cancers but the most dangerous, may be related to severe exposure to solar UV radiation at an early age. Malignant melanomas may appear without warning as a dark mole or a dark spot on the skin.
UV radiation exposure also places our eyes at risk of photokeratitis, photoconjunctivitus and cataracts. Cataract is one of the most common types of eye damage in Australia. Cataract is the clouding of the lens of the eye, which is responsible for focusing light and producing sharp images. Without intervention cataract can lead to blindness.
How can I reduce my risk from UV radiation exposure?
Increasing public awareness and interest in UV protection is due in part to the requirements for occupational protection of outdoor workers as well as the provision of UV radiation protection for the recreational market. Behaviour outdoors can significantly affect a person’s solar UV radiation exposure and use of items of personal protection can provide a substantial reduction in the UV radiation dose received. Many forms of personal protection are available to reduce a person’s exposure to solar UV radiation. The best protection is to avoid going outdoors in summer during the middle of the day. When outdoors, wear clothing with good body coverage, a hat, sunglasses and sunscreen. Over recent years interest has extended to shade structures and the UV radiation protection offered by commonly used materials such as shadecloth, plastic roofing materials, glass and window tinting films.
Further information may be obtained from the following sites:
Safe Work Australia
ARPANSA`s Radiation Protection Standard - Occupational Exposure to Ultraviolet Radiation
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