Abstract
Artificial skyglow, the fraction of artificial light at night that is emitted upwards from Earth and subsequently scattered back within the atmosphere, depends on atmospheric conditions but also on the ground albedo. One effect that has not gained much attention so far is the amplification of skyglow by snow, particularly in combination with clouds. Snow, however, has a very high albedo and can become important when the direct upward emission is reduced when using shielded luminaires. In this work, first results of skyglow amplification by fresh snow and clouds measured with all-sky photometry in a suburban area are presented. Amplification factors for the zenith luminance of 188 for snow and clouds in combination and 33 for snow alone were found at this site. The maximum zenith luminance of nearly 250 mcd/m2 measured with snow and clouds is a factor of 1000 higher than the commonly used clear sky reference of 0.25 mcd/m2. Compared with our darkest zenith luminance of 0.07 mcd/m2 measured for overcast conditions in a very remote area, this leads to an overall amplification factor of ca. 3500. Horizontal illuminance measurements show values of up to 0.79 lx, exceeding maximum possible full-moon illuminance levels by more than a factor of two. Additional measurements near the Arctic Circle for clear and overcast conditions are presented and strategies for further studies are discussed. We propose the term “snowglow” to describe the amplification of skyglow by snow with and without clouds.
Highlights
Artificial light at night (ALAN) is a worldwide environmental problem affecting a majority of the world’s population [1] and it is exponentially growing in radiance and extent [2]
Compared with our darkest zenith luminance of 0.07 mcd/m2 measured for overcast conditions in a very remote area, this leads to an overall amplification factor of ca. 3500
We introduce ground in theasremote subarctic site are on the the same order of of 26
Summary
Artificial light at night (ALAN) is a worldwide environmental problem affecting a majority of the world’s population [1] and it is exponentially growing in radiance and extent [2]. The resulting light pollution, first identified as a problem by astronomers [3], can have diverse impacts on flora and fauna [4,5] and potentially human health [6]. Artificial skyglow is a form of light pollution that describes the part of ALAN that is emitted upwards, scattered within the atmosphere and diverted back to the Earth’s surface [1,12]. A common way to reduce skyglow or astronomical light pollution in general is to avoid ALAN that is directly emitted upwards, for example by shielded
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