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Author Simpson, S.N.; Hanna, B.G. url  doi
openurl 
  Title (down) Willingness to pay for a clear night sky: use of the contingent valuation method Type Journal Article
  Year 2010 Publication Applied Economics Letters Abbreviated Journal Applied Economics Letters  
  Volume 17 Issue 11 Pages 1095-1103  
  Keywords economics; contingent valuation method; light pollution  
  Abstract This article applies the Contingent Valuation Method (CVM) to the issue of night sky pollution. Light pollution decreases the ability to view a clear, unobstructed night sky. We administered a survey to the students of the Rochester Institute of Technology (RIT) to obtain estimates of Willingness To Pay (WTP) to improve night sky visibility and to prevent deterioration in visibility. This is the first CVM study that attempts to distinguish between these different WTPs. We find that students are willing to pay significantly more for a larger improvement in night sky conditions. We also find significant differences in WTP to improve versus prevent deterioration in night sky conditions.  
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  ISSN 1350-4851 ISBN Medium  
  Area Expedition Conference  
  Notes Approved no  
  Call Number IDA @ john @ Serial 121  
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Author Bierman, A. url  doi
openurl 
  Title (down) Will switching to LED outdoor lighting increase sky glow? Type Journal Article
  Year 2012 Publication Lighting Research and Technology Abbreviated Journal Lighting Research and Technology  
  Volume 44 Issue 4 Pages 449-458  
  Keywords LED; light emitting diode; skyglow; light pollution; modeling; Radiative transfer  
  Abstract As LED sources are increasingly being used for outdoor lighting, concerns are being raised about their impact on man-made sky glow. This paper compares the amount of light scattered back to Earth from a 6500 K phosphor-converted white LED light source to that from a 2050 K high pressure sodium (HPS) light source. Calculations based solely on molecular Rayleigh scattering provide an upper limit of 22% more scatter from the LED source, but are not realistic because the atmosphere has significant scatter from aerosol content. Adding in the effects of aerosols in the atmosphere, as derived from aerosol optical depth measurements and Mie scattering distributions, reduces the wavelength dependency of scattered light to where the LED source has roughly 10–20% more scattered light contributing to sky glow. Scattering ratios (LED:HPS) are calculated for different angles and atmospheric conditions.  
  Address Lighting Research Center, 21 Union Street, Troy, NY 12180-3352, USA; bierma2(at)rpi.edu  
  Corporate Author Thesis  
  Publisher SAGE Place of Publication Editor  
  Language English Summary Language English Original Title  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition  
  ISSN 1477-1535 ISBN Medium  
  Area Expedition Conference  
  Notes Luginbuhl, Boley, and Davis (2013) dispute Bierman's thesis. Approved no  
  Call Number IDA @ john @ Serial 269  
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Author Zumthor, P.; Beer, I.; Mathieu, J. openurl 
  Title (down) Wieviel Licht braucht der Mensch, um leben zu können, und wieviel Dunkelheit? Type Journal Article
  Year 2005 Publication Vdf Hochschulverlag Abbreviated Journal  
  Volume Issue Pages 224  
  Keywords History  
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  Area Expedition Conference  
  Notes Approved no  
  Call Number LoNNe @ kagoburian @ Serial 863  
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Author Roenneberg, T. url  openurl
  Title (down) Wie wir ticken. Die Bedeutung der inneren Uhr für unser Leben Type Journal Article
  Year 2010 Publication Abbreviated Journal  
  Volume Issue Pages 240  
  Keywords Human Health  
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  Notes Approved no  
  Call Number LoNNe @ kagoburian @ Serial 844  
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Author Kienast, F.; Weiss, M. url  doi
openurl 
  Title (down) Wie Lichtemissionen den Schweizer Wald seit 1992 erhellen Type Journal Article
  Year 2019 Publication Schweizerische Zeitschrift fur Forstwesen Abbreviated Journal Schweizerische Zeitschrift fur Forstwesen  
  Volume 170 Issue 1 Pages 18-23  
  Keywords Remote Sensing  
  Abstract How light emissions have been lighting up the Swiss forest since 1992

Light emissions increasingly light up the night sky. Worldwide and in Switzerland, there has been a marked increase over the last 20 to 30 years. This is problematic for biological-ecological and health reasons as well as for cultural reasons. At federal and cantonal level, there are various laws and technical standards governing light emissions. In order to monitor the success of these regulations, it is important to observe night-time brightness over longer periods and within larger areas. In Switzerland, this is done within the framework of the Swiss Landscape Observatory (LABES), which provides time series for night-time observations for the years 1992 to 2012. The present work uses satellite images to investigate the extent to which the Swiss forests are lighted up by nocturnal emissions from surrounding residential areas and infrastructures. It also examines the differences between the forest and open land (meadows, fields and remote areas far away from settlements above the treeline) and how the forested area without any detectable artificial light developed between 1992 and 2012. It is shown that the Swiss forests are more and more lighted up by surrounding light sources. With the exception of the Jura, night-time brightness in forest areas is even higher than in open land, which in the present study is dominated by areas above the treeline. The results can be explained by the relative proximity of the forest to residential areas. On the Plateau the last patch of forest without any detectable artificial light during the night disappeared in 2001, and in the Jura mountains in 2010: in the Alps there are still between 4% (Western Central Alps) and 16% (Southern Alps) forest areas without any detectable artificial light during night time. The last large dark areas are, however, not found in the forested area, but in the areas above the treeline. They should be given adequate protection against illumination, for example with large protection areas (“dark sky parks”).

Wie Lichtemissionen den Schweizer Wald seit 1992 erhellen

Lichtemissionen erhellen den Nachthimmel immer mehr. Weltweit und in der Schweiz ist in den letzten 20 bis 30 Jahren eine starke Zunahme festzustellen. Dies ist sowohl aus biologisch-ökologischen und gesundheitlichen als auch aus kulturellen Gründen problematisch. Auf Bundes- und Kantonsebene gibt es verschiedene Gesetze und technische Normen, welche die Lichtemissionen regeln. Für die Erfolgskontrolle dieser Vorschriften ist es wichtig, die Nachthelligkeit über längere Zeiträume und grössere Gebiete zu beobachten. Dies geschieht in der Schweiz im Rahmen der Landschaftsbeobachtung Schweiz (LABES), die für die Jahre 1992 bis 2012 Zeitserien zur Nachthelligkeit zur Verfügung stellt. In der vorliegenden Arbeit wird anhand von Satellitenbildern untersucht, wie stark der Schweizer Wald durch Lichtemissionen der umliegenden Siedlungen und Infrastrukturen aufgehellt wird, welche Unterschiede zum Offenland (Wiesen, Felder und siedlungsferne Gebiete über der Waldgrenze) bestehen und wie sich die Fläche des nachtdunklen Waldes zwischen 1992 und 2012 entwickelt hat. Es zeigt sich, dass die Schweizer Wälder zunehmend durch umliegende Lichtquellen aufgehellt sind. Mit Ausnahme des Juras ist die Nachthelligkeit in Waldgebieten sogar höher als im Offenland, das in der vorliegenden Untersuchung flächenmässig durch die Gebiete über der Waldgrenze dominiert wird. Die Resultate können mit der relativen Siedlungsnähe des Waldes erklärt werden. Während es im Mittelland ab 2001 und im Jura ab 2010 keine nachtdunklen Waldflächen mehr gibt, findet man in den Alpen je nach Region noch zwischen 4% (westliche Zentralalpen) und 16% (Alpensüdflanke) völlig nachtdunkle Waldflächen, d.h. Waldflächen ohne menschlichen Lichteinfluss. Die letzten grossen, völlig nachtdunklen Flächen liegen aber nicht im Waldareal, sondern in den Gebieten über der Waldgrenze. Sie sollten gegen Aufhellung besonders geschützt werden, zum Beispiel mit grossflächigen Schutzgebieten («dark sky parks»).

Comment les émissions lumineuses éclairent la forêt suisse depuis 1992

Le ciel nocturne est de plus en plus éclairé par les émissions lumineuses. On constate dans le monde entier et en Suisse une forte progression des émissions lumineuses ces dernières 20 à 30 années. Ceci est problématique aussi bien pour des raisons bioécologiques et sanitaires que culturelles. Différentes lois et normes techniques, aux niveaux de la Confédération et des cantons, règlent les émissions lumineuses. Il est important d'observer la clarté nocturne sur de longues périodes et de larges régions afin de contrôler le succès de ces mesures. Ceci est réalisé dans le cadre de l'Observation du paysage suisse (OPS) qui met à disposition des séries de données sur les émissions lumineuses pour les années 1992 à 2012. Ce travail examine à l'aide d'images satellites à quel point la forêt suisse est éclairée par les émissions lumineuses nocturnes issues des zones habitées et des infrastructures environnantes, les différences existantes avec les zones ouvertes (prés, champs et zones éloignées des habitats au-delà de la forêt) et comment se sont développées les surfaces nocturnes sombres de la forêt entre 1992 et 2012. Il est démontré que les forêts suisses sont de plus en plus éclairées par les sources lumineuses environnantes. A l'exception du Jura, la clarté nocturne est même plus importante en forêt que dans les surfaces ouvertes, qui dans cette étude sont essentiellement composées de surfaces au-delà de la forêt. Les résultats peuvent être expliqués par la proximité de la forêt avec les zones habitées. Alors qu'il n'existe plus de surfaces forestières sombres la nuit depuis 2001 sur le Plateau et 2010 dans le Jura, il existe encore dans les Alpes selon la région, 4% (Alpes centrales occidentales) et 16% (versant sud des Alpes), de surfaces forestières sombres durant la nuit, c'est à dire des surfaces forestières sans influence lumineuse anthropogénique. Les dernières grandes surfaces totalement sombres durant la nuit ne se situent toutefois pas en forêt, mais au-delà de la forêt. Elles devraient être protégées contre les émissions lumineuses, par exemple avec des grandes réserves («dark sky parks»).
 
  Address  
  Corporate Author Thesis  
  Publisher Place of Publication Editor  
  Language German Summary Language Original Title  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition  
  ISSN 0036-7818 ISBN Medium  
  Area Expedition Conference  
  Notes Approved no  
  Call Number GFZ @ kyba @ Serial 2165  
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