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Xavier Kerola, D. (2006). Modelling artificial night-sky brightness with a polarized multiple scattering radiative transfer computer code: Modelling artificial night-sky brightness. Monthly Notices of the Royal Astronomical Society, 365(4), 1295–1299.
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Kocifaj, M., & Solano Lamphar, H. A. (2014). Skyglow: a retrieval of the approximate radiant intensity function of ground-based light sources. Monthly Notices of the Royal Astronomical Society, 439(4), 3405–3413.
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Troy, J. R., Holmes, N. D., Veech, J. A., & Green, M. C. (2013). Using observed seabird fallout records to infer patterns of attraction to artificial light. Endangered Species Research, 22(3), 225–234.
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Boscarino, B. T., Rudstam, L. G., Eillenberger, J. L., & O'Gorman, R. (2009). Importance of light, temperature, zooplankton and fish in predicting the nighttime vertical distribution of Mysis diluviana. Aquat Biol, 5, 263–279.
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Zamorano, J., Sánchez de Miguel, A., Ocaña, F., Pila-Diez, B., Gómez Castaño, J., Pascual, S., et al. (2016). Testing sky brightness models against radial dependency: a dense two dimensional survey around the city of Madrid, Spain. JQSRT, 181, 52–66.
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