The propagation of light pollution in the atmosphere

Cinzano, P.; Falchi, Fabio

doi:10.1111/j.1365-2966.2012.21884.x

Cited by 87 publications

(66 citation statements)

References 55 publications

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“…Model simplifications which were necessary given the computing capabilities in 2001, particularly related to site elevation and atmospheric parameters, could also play a role. The World Atlas will be updated in the coming years based on an improved model29 and improved satellite data30 (due to an overpass time closer to midnight, the new data will not be as dependent upon winter data at high latitudes, when snow cover is common). The SQM data from GLOBE at Night will provide an important independent check of the improved model.…”

Section: Discussionmentioning

confidence: 99%

Citizen Science Provides Valuable Data for Monitoring Global Night Sky Luminance

Kyba

Wagner

Kuechly

et al. 2013

Sci Rep

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The skyglow produced by artificial lights at night is one of the most dramatic anthropogenic modifications of Earth's biosphere. The GLOBE at Night citizen science project allows individual observers to quantify skyglow using star maps showing different levels of light pollution. We show that aggregated GLOBE at Night data depend strongly on artificial skyglow, and could be used to track lighting changes worldwide. Naked eye time series can be expected to be very stable, due to the slow pace of human eye evolution. The standard deviation of an individual GLOBE at Night observation is found to be 1.2 stellar magnitudes. Zenith skyglow estimates from the “First World Atlas of Artificial Night Sky Brightness” are tested using a subset of the GLOBE at Night data. Although we find the World Atlas overestimates sky brightness in the very center of large cities, its predictions for Milky Way visibility are accurate.

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Section: Discussionmentioning

confidence: 99%

Citizen Science Provides Valuable Data for Monitoring Global Night Sky Luminance

Kyba

Wagner

Kuechly

et al. 2013

Sci Rep

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“…The DNB radiance could then be turned into an estimated spectral radiance for the pixel. Spectral radiances would be of greater use in analyses, such as modeling skyglow [16,50], estimating energy consumption [29] and epidemiological studies [18]. Case Study 1 showed that city light is not constant, but changes dynamically over the course of the evening.…”

Section: Resultsmentioning

confidence: 99%

High-Resolution Imagery of Earth at Night: New Sources, Opportunities and Challenges

et al. 2014

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Images of the Earth at night are an exceptional source of human geographical data, because artificial light highlights human activity in a way that daytime scenes do not. The quality of such imagery dramatically improved in 2012 with two new spaceborne detectors. The higher resolution and precision of the data considerably expands the scope of possible applications. In this paper, we introduce the two new data sources and discuss their potential limitations using three case studies. Data from the Visible Infrared Imaging Radiometer Suite Day-Night Band (VIIRS DNB) is shown to have sufficient resolution to identify major sources of waste light, such as airports, and we find considerable variation in the peak radiance of the world's largest airports. Nighttime imagery brings "cultural footprints" to light: DNB data reveals that American cities emit many times more light per capita than German cities and that cities in the former East of Germany emit more light per capita than those in the former West. Photographs from the International Space Station, the second new source of imagery, provide some limited spectral information, as well as street-level resolution. These images may be of greater use for epidemiological studies than the lower resolution DNB data.Remote Sens. 2015, 7 2

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“…years [19][20][21][22][23]. These new developments were made possible thanks to the increasing availability of high-performance computing resources, as well as to the availability of geographical datasets, such as night-time satellite data.…”

Section: Introductionmentioning

confidence: 99%

Physical behaviour of anthropogenic light propagation into the nocturnal environment

Aubé

2015

Phil. Trans. R. Soc. B

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Propagation of artificial light at night (ALAN) in the environment is now known to have non negligible consequences on fauna, flora and human health. These consequences depend on light levels and their spectral power distributions, which in turn rely on the efficiency of various physical processes involved in the radiative transfer of this light into the atmosphere and its interactions with the built and natural environment. ALAN can affect the living organisms by direct lighting and indirect lighting (scattered by the sky and clouds and/or reflected by local surfaces). This paper mainly focuses on the behaviour of the indirect light scattered under clear sky conditions. Various interaction processes between anthropogenic light sources and the natural environment are discussed. This work mostly relies on a sensitivity analysis conducted with the light pollution radiative transfer model, Illumina (Aubé et al . 2005 Light pollution modelling and detection in a heterogeneous environment: toward a night-time aerosol optical depth retrieval method. In Proc. SPIE 2005, vol. 5890, San Diego, California, USA). More specifically, the impact of (i) the molecular and aerosol scattering and absorption, (ii) the second order of scattering, (iii) the topography and obstacle blocking, (iv) the ground reflectance and (v) the spectrum of light devices and their angular emission functions are examined. This analysis considers different behaviour as a function of the distance from the city centre, along with different zenith viewing angles in the principal plane.

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The propagation of light pollution in the atmosphere

Cited by 87 publications

References 55 publications

Citizen Science Provides Valuable Data for Monitoring Global Night Sky Luminance

Citizen Science Provides Valuable Data for Monitoring Global Night Sky Luminance

High-Resolution Imagery of Earth at Night: New Sources, Opportunities and Challenges

Physical behaviour of anthropogenic light propagation into the nocturnal environment

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