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Author (up) Dunster, G.P.; de la Iglesia, L.; Ben-Hamo, M.; Nave, C.; Fleischer, J.G.; Panda, S.; de la Iglesia, H.O.
Title Sleepmore in Seattle: Later school start times are associated with more sleep and better performance in high school students Type Journal Article
Year 2018 Publication Science Advances Abbreviated Journal Sci. Adv.
Volume 4 Issue 12 Pages eaau6200
Keywords Human Health
Abstract Most teenagers are chronically sleep deprived. One strategy proposed to lengthen adolescent sleep is to delay secondary school start times. This would allow students to wake up later without shifting their bedtime, which is biologically determined by the circadian clock, resulting in a net increase in sleep. So far, there is no objective quantitative data showing that a single intervention such as delaying the school start time significantly increases daily sleep. The Seattle School District delayed the secondary school start time by nearly an hour. We carried out a pre-/post-research study and show that there was an increase in the daily median sleep duration of 34 min, associated with a 4.5% increase in the median grades of the students and an improvement in attendance.
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ISSN 2375-2548 ISBN Medium
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Notes Approved no
Call Number GFZ @ kyba @ Serial 2131
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Author (up) Falchi, F.; Cinzano, P.; Duriscoe, D.; Kyba, C.C.M.; Elvidge, C.D.; Baugh, K.; Portnov, B.A.; Rybnikova, N.A.; Furgoni, R.
Title The new world atlas of artificial night sky brightness Type Journal Article
Year 2016 Publication Science Advances Abbreviated Journal Science Advances
Volume 2 Issue 6 Pages e1600377-e1600377
Keywords Skyglow; Conservation; Remote Sensing
Abstract Artificial lights raise night sky luminance, creating the most visible effect of light pollution—artificial skyglow. Despite the increasing interest among scientists in fields such as ecology, astronomy, health care, and land-use planning, light pollution lacks a current quantification of its magnitude on a global scale. To overcome this, we present the world atlas of artificial sky luminance, computed with our light pollution propagation software using new high-resolution satellite data and new precision sky brightness measurements. This atlas shows that more than 80% of the world and more than 99% of the U.S. and European populations live under light-polluted skies. The Milky Way is hidden from more than one-third of humanity, including 60% of Europeans and nearly 80% of North Americans. Moreover, 23% of the world’s land surfaces between 75°N and 60°S, 88% of Europe, and almost half of the United States experience light-polluted nights.
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ISSN 2375-2548 ISBN Medium
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Notes Approved no
Call Number LoNNe @ kyba @ Serial 1466
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Author (up) Kyba, C.C.M.; Kuester, T.; Sánchez de Miguel, A.; Baugh, K.; Jechow, A.; Hölker, F.; Bennie, J.; Elvidge, C.; Gaston, K.; Guanter, L.
Title Artificially lit surface of Earth at night increasing in radiance and extent Type Journal Article
Year 2017 Publication Science Advances Abbreviated Journal Sci Adv
Volume 3 Issue 11 Pages e1701528
Keywords Remote Sensing; Suomi NPP; VIIRS; light pollution; *economics
Abstract A central aim of the â??lighting revolutionâ? (the transition to solid-state lighting technology) is decreased energy consumption. This could be undermined by a rebound effect of increased use in response to lowered cost of light. We use the first-ever calibrated satellite radiometer designed for night lights to show that from 2012 to 2016, Earthâ??s artificially lit outdoor area grew by 2.2% per year, with a total radiance growth of 1.8% per year. Continuously lit areas brightened at a rate of 2.2% per year. Large differences in national growth rates were observed, with lighting remaining stable or decreasing in only a few countries. These data are not consistent with global scale energy reductions but rather indicate increased light pollution, with corresponding negative consequences for flora, fauna, and human well-being.
Address GFZ German Research Centre for Geosciences, Potsdam 14473, Germany; kyba(at)gfz-potsdam.de
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Publisher AAAS Place of Publication Editor
Language English Summary Language English Original Title
Series Editor Series Title Abbreviated Series Title
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ISSN 2375-2548 ISBN Medium
Area Expedition Conference
Notes Approved no
Call Number IDA @ john @ Serial 1789
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Author (up) Ludvigsen, M.; Berge, J.; Geoffroy, M.; Cohen, J.H.; De La Torre, P.R.; Nornes, S.M.; Singh, H.; Sorensen, A.J.; Daase, M.; Johnsen, G.
Title Use of an Autonomous Surface Vehicle reveals small-scale diel vertical migrations of zooplankton and susceptibility to light pollution under low solar irradiance Type Journal Article
Year 2018 Publication Science Advances Abbreviated Journal Sci Adv
Volume 4 Issue 1 Pages eaap9887
Keywords Animals; Ecology
Abstract Light is a major cue for nearly all life on Earth. However, most of our knowledge concerning the importance of light is based on organisms' response to light during daytime, including the dusk and dawn phase. When it is dark, light is most often considered as pollution, with increasing appreciation of its negative ecological effects. Using an Autonomous Surface Vehicle fitted with a hyperspectral irradiance sensor and an acoustic profiler, we detected and quantified the behavior of zooplankton in an unpolluted light environment in the high Arctic polar night and compared the results with that from a light-polluted environment close to our research vessels. First, in environments free of light pollution, the zooplankton community is intimately connected to the ambient light regime and performs synchronized diel vertical migrations in the upper 30 m despite the sun never rising above the horizon. Second, the vast majority of the pelagic community exhibits a strong light-escape response in the presence of artificial light, observed down to 100 m. We conclude that artificial light from traditional sampling platforms affects the zooplankton community to a degree where it is impossible to examine its abundance and natural rhythms within the upper 100 m. This study underscores the need to adjust sampling platforms, particularly in dim-light conditions, to capture relevant physical and biological data for ecological studies. It also highlights a previously unchartered susceptibility to light pollution in a region destined to see significant changes in light climate due to a reduced ice cover and an increased anthropogenic activity.
Address Centre for Autonomous Operations and Systems, Department of Biology, NTNU, Trondheim, Norway
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ISSN 2375-2548 ISBN Medium
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Notes PMID:29326985; PMCID:PMC5762190 Approved no
Call Number LoNNe @ kyba @ Serial 1806
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Author (up) Mard, J.; Di Baldassarre, G.; Mazzoleni, M.
Title Nighttime light data reveal how flood protection shapes human proximity to rivers Type Journal Article
Year 2018 Publication Science Advances Abbreviated Journal Sci Adv
Volume 4 Issue 8 Pages eaar5779
Keywords Remote Sensing
Abstract To understand the spatiotemporal changes of flood risk, we need to determine the way in which humans adapt and respond to flood events. One adaptation option consists of resettling away from flood-prone areas to prevent or reduce future losses. We use satellite nighttime light data to discern the relationship between long-term changes in human proximity to rivers and the occurrence of catastrophic flood events. Moreover, we explore how these relationships are influenced by different levels of structural flood protection. We found that societies with low protection levels tend to resettle further away from the river after damaging flood events. Conversely, societies with high protection levels show no significant changes in human proximity to rivers. Instead, such societies continue to rely heavily on structural measures, reinforcing flood protection and quickly resettling in flood-prone areas after a flooding event. Our work reveals interesting aspects of human adaptation to flood risk and offers key insights for comparing different risk reduction strategies. In addition, this study provides a framework that can be used to further investigate human response to floods, which is relevant as urbanization of floodplains continues and puts more people and economic assets at risk.
Address IHE Delft Institute for Water Education, 2611 AX Delft, Netherlands
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Language English Summary Language Original Title
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ISSN 2375-2548 ISBN Medium
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Notes PMID:30140738; PMCID:PMC6105301 Approved no
Call Number GFZ @ kyba @ Serial 1989
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