Ultraviolet radiation at high latitudes and the risk of skin cancer.

Photo-dermatology Pub Date : 1989-06-01
K Henriksen, K Stamnes, G Volden, E S Falk
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Abstract

Solar irradiance in the spectral region 280 to 800 nm was measured with a double monochromator at 2 locations in Norway, Tromsø (69.7 degrees N) and Longyearbyen (78.2 degrees N). During the observational (midnight sun) period in Longyearbyen, the maximum UVB irradiance recorded was less than 0.3 W/m2, and no radiation was detected for wavelengths below 300 nm. Such low levels are believed to be a consequence of the low solar elevation angle and the high ozone content of the Arctic ozone layer, which absorbs the incident UV light. With levels between 280 and 350 DU over the period of study, Tromsø and Longyearbyen recorded only one-ninth of the calculated UVB radiation at the equator. There is therefore a considerably higher risk of radiation damage to the skin in equatorial regions (controlling for skin type), a finding that agrees with the statistical evidence for a 7-8 times higher rate of skin cancer in the white population of equatorial countries.

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高纬度地区的紫外线辐射和患皮肤癌的风险。
在挪威特罗姆瑟(北纬69.7度)和朗伊尔城(北纬78.2度)两个地点用双单色仪测量了光谱区280 ~ 800 nm的太阳辐照度。在朗伊尔城观测(午夜太阳)期间,记录到的最大UVB辐照度小于0.3 W/m2, 300 nm以下的波段没有检测到辐射。如此低的水平被认为是太阳仰角低和北极臭氧层臭氧含量高的结果,臭氧层吸收入射的紫外线。在研究期间,特罗姆瑟和朗伊尔城的辐射量在280至350 DU之间,仅为赤道计算的UVB辐射量的九分之一。因此,赤道地区皮肤受到辐射损伤的风险要高得多(对皮肤类型进行控制),这一发现与赤道国家白人皮肤癌发病率高出7-8倍的统计证据相一致。
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