Leatherback hatchling sea-finding in response to artificial lighting: Interaction between wavelength and moonlight

Rivas, Marga L.; Tomillo, Pilar Santidrián; Diéguez-Uribeondo, Javier; Marco, Adolfo

doi:10.1016/j.jembe.2014.12.001

Cited by 26 publications

(17 citation statements)

References 32 publications

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“…The focus for limiting the ecological impacts of white LEDs has so far been on manipulating their spectra to avoid emitting wavelengths that disproportionately affect the environment (Pawson & Bader, ; Longcore et al ., ; Rivas et al ., ; Brüning et al ., ). In the current study amber LEDs, which completely avoided blue‐green wavelengths known to attract Lepidoptera (Van Langevelde et al ., ), did not mitigate the effects of white LEDs on grassland spiders, while beetles were less sensitive to amber compared to white LEDs.…”

Section: Discussionmentioning

confidence: 99%

Multiple night‐time light‐emitting diode lighting strategies impact grassland invertebrate assemblages

Davies

Bennie

Cruse

et al. 2017

Global Change Biology

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White light-emitting diodes (LEDs) are rapidly replacing conventional outdoor lighting technologies around the world. Despite rising concerns over their impact on the environment and human health, the flexibility of LEDs has been advocated as a means of mitigating the ecological impacts of globally widespread outdoor night-time lighting through spectral manipulation, dimming and switching lights off during periods of low demand. We conducted a three-year field experiment in which each of these lighting strategies was simulated in a previously artificial light naïve grassland ecosystem. White LEDs both increased the total abundance and changed the assemblage composition of adult spiders and beetles. Dimming LEDs by 50% or manipulating their spectra to reduce ecologically damaging wavelengths partially reduced the number of commoner species affected from seven to four. A combination of dimming by 50% and switching lights off between midnight and 04:00 am showed the most promise for reducing the ecological costs of LEDs, but the abundances of two otherwise common species were still affected. The environmental consequences of using alternative lighting technologies are increasingly well established. These results suggest that while management strategies using LEDs can be an effective means of reducing the number of taxa affected, averting the ecological impacts of night-time lighting may ultimately require avoiding its use altogether.

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Section: Discussionmentioning

confidence: 99%

Multiple night‐time light‐emitting diode lighting strategies impact grassland invertebrate assemblages

Davies

Bennie

Cruse

et al. 2017

Global Change Biology

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“…The ecological benefits of dimming and part‐night lighting are not yet well explored (although see Azam et al., ; Day, Baker, Schofield, Mathews, & Gaston, ; Davies et al., ). A recent emphasis in the ecological literature has instead been on tailoring spectral power distributions to reduce known ecological impacts (Brüning, Hölker, Franke, Kleiner, & Kloas, ; Davies et al., ; van Geffen et al., ; Longcore et al., ; Pawson & Bader, ; Rivas, Tomillo, Uribeondo, & Marco, ; Spoelstra et al., ), despite this approach being less popular among lighting managers and engineers who often focus on the improved visual performance offered by broad‐spectrum lighting as a key selling point. These studies collectively present an inconsistent picture of whether spectral manipulation can be used to effectively mitigate the ecological impacts of ALAN.…”

Section: Feasibility Of Solutionsmentioning

confidence: 99%

“…The number of beetle taxa aggregating under white LED lighting can be reduced by switching to amber, but this has no discernible effect on the number of spider taxa that aggregate (Davies et al., ). Many animal responses are sensitive to short‐wavelength light (van Langevelde et al., ; Rivas et al., ; Spoelstra et al., ), while phenological responses in plants are most sensitive to the longer wavelengths recommended to avoid such effects (Bennie et al., ; Bennie, Davies, et al., ). Male caterpillars of the moth Mamestra brassicae reared under green artificial light reached a lower maximum mass, pupated earlier and obtained a lower pupal mass than those reared under red light (van Geffen, van Grunsven, van Ruijven, Berendse, & Veenendaal, ), while red light inhibited the attractiveness of a female pheromone lure to more adult males of the winter moth Operophtera brumata than did green light (van Geffen et al., ).…”

Section: Feasibility Of Solutionsmentioning

confidence: 99%

Section: Feasibility Of Solutionsmentioning

confidence: 99%

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Why artificial light at night should be a focus for global change research in the 21st century

Davies

Smyth

2017

Global Change Biology

253

183

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The environmental impacts of artificial light at night have been a rapidly growing field of global change science in recent years. Yet, light pollution has not achieved parity with other global change phenomena in the level of concern and interest it receives from the scientific community, government and nongovernmental organizations. This is despite the globally widespread, expanding and changing nature of night-time lighting and the immediacy, severity and phylogenetic breath of its impacts. In this opinion piece, we evidence 10 reasons why artificial light at night should be a focus for global change research in the 21st century. Our reasons extend beyond those concerned principally with the environment, to also include impacts on human health, culture and biodiversity conservation more generally. We conclude that the growing use of night-time lighting will continue to raise numerous ecological, human health and cultural issues, but that opportunities exist to mitigate its impacts by combining novel technologies with sound scientific evidence. The potential gains from appropriate management extend far beyond those for the environment, indeed it may play a key role in transitioning towards a more sustainable society.

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“…Artificial night-light can alter the behaviour of female turtles that emerge to nest on beaches where the light environment is significantly changed (Salmon & Witherington, 1995; Mazaris, Matsinos & Pantis, 2009). Artificial lights can disorient hatchlings and increase the risk of predation (Limpus & Kamrowski, 2013; Rivas et al, 2015; Thums et al, 2016). Many urban beaches have seawalls and are being artificially nourished with sand, detrimentally affecting nesting female turtles and hatchlings (Brock, Reece & Ehrhart, 2009; Rizkalla & Savage, 2010; Fujisaki & Lamont, 2016).…”

Section: Introductionmentioning

confidence: 99%

Marine turtles are not fussy nesters: a novel test of small-scale nest site selection using structure from motion beach terrain information

Kelly

Leon

Gilby

et al. 2017

PeerJ

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BackgroundNest selection is widely regarded as a key process determining the fitness of individuals and viability of animal populations. For marine turtles that nest on beaches, this is particularly pivotal as the nesting environment can significantly control reproductive success.The aim of this study was to identify the environmental attributes of beaches (i.e., morphology, vegetation, urbanisation) that may be associated with successful oviposition in green and loggerhead turtle nests.MethodsWe quantified the proximity of turtle nests (and surrounding beach locations) to urban areas, measured their exposure to artificial light, and used ultra-high resolution (cm-scale) digital surface models derived from Structure-from-Motion (SfM) algorithms, to characterise geomorphic and vegetation features of beaches on the Sunshine Coast, eastern Australia.ResultsAt small spatial scales (i.e., <100 m), we found no evidence that turtles selected nest sites based on a particular suite of environmental attributes (i.e., the attributes of nest sites were not consistently different from those of surrounding beach locations). Nest sites were, however, typically characterised by occurring close to vegetation, on parts of the shore where the beach- and dune-face was concave and not highly rugged, and in areas with moderate exposure to artificial light.ConclusionThis study used a novel empirical approach to identify the attributes of turtle nest sites from a broader ‘envelope’ of environmental nest traits, and is the first step towards optimizing conservation actions to mitigate, at the local scale, present and emerging human impacts on turtle nesting beaches.

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Leatherback hatchling sea-finding in response to artificial lighting: Interaction between wavelength and moonlight

Cited by 26 publications

References 32 publications

Multiple night‐time light‐emitting diode lighting strategies impact grassland invertebrate assemblages

Multiple night‐time light‐emitting diode lighting strategies impact grassland invertebrate assemblages

Why artificial light at night should be a focus for global change research in the 21st century

Marine turtles are not fussy nesters: a novel test of small-scale nest site selection using structure from motion beach terrain information

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