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Author Bennett, Victoria J; Hale, Amanda M url  doi
openurl 
  Title Red aviation lights on wind turbines do not increase bat-turbine collisions Type Journal Article
  Year 2014 Publication Animal Conservation Abbreviated Journal  
  Volume 17 Issue 4 Pages 354-358  
  Keywords animals; flying mammals; foraging; Light wavelength  
  Abstract Many hypotheses have been proposed to explain why bat–wind turbine collisions occur; however, most of these hypotheses have yet to be tested and with high numbers of bat fatalities reported annually at wind resource facilities globally, there is a real need to understand this phenomenon. In this study, we tested whether aviation lighting influenced the number of bat fatalities at wind turbines. Thus, at a utility-scale wind facility in north-central Texas, we explored whether bat fatalities were higher at wind turbines with red flashing aviation lighting compared with turbines without such lighting. Over a 5-year period, we recorded fatalities at wind turbines as part of a long-term fatality monitoring programme. During standardized searches, we collected 916 bat carcasses representing all six species known to be present at the site. We found that bat fatalities were higher at wind turbines without aviation lighting compared with those with; a pattern that was driven by one species, Lasiurus borealis, and there was no significant difference between fatalities at wind turbines with or without aviation lighting for any other species. Our study demonstrates that wind turbines should continue to be fitted with synchronized, flashing red aviation lights, as this form of lighting does not appear to be one of the potential causes of bat fatalities at wind resource facilities. We therefore support further research that explores possible alternative causes of bat–wind turbine interactions. More specifically, we reiterate that there is still a pressing need to determine the aspects of bat ecology that result in individuals coming into contact with wind turbines.  
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  Notes Approved no  
  Call Number LoNNe @ schroer @ Serial 1578  
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Author Downs, N C; Beaton, V; Guest, J; Polanski, J.; Robinson, S L.; Racey, P A url  doi
openurl 
  Title The effects of illuminating the roost entrance on the emergence behaviour of Pipistrellus pygmaeus Type Journal Article
  Year 2003 Publication Biological Conservation Abbreviated Journal  
  Volume 111 Issue 2 Pages 247.252  
  Keywords animals; flying mammals; animal behavior; light colour  
  Abstract In an attempt to increase the accuracy of roost emergence counts for a monitoring programme, the exits of two Pipistrellus pygmaeus roosts were illuminated with light of different colours and intensities. Light intensity affected bat emergence more than light colour. At one roost there was no significant difference in the bat emergence pattern between when the roost exit received no illumination and when it was illuminated with red light. The use of the latter is proposed to increase the accuracy of bat roost emergence counts.  
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  Notes Approved no  
  Call Number LoNNe @ schroer @ Serial 1587  
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Author Jung, K.; Kalko, E.K. url  doi
openurl 
  Title Where forest meets urbanization: foraging plasticity of aerial insectivorous bats in an anthropogenically altered environment Type Journal Article
  Year 2010 Publication Journal of Mammalogy Abbreviated Journal J. Mammal.  
  Volume 91 Issue 1 Pages 144-153  
  Keywords animals; flying mammals; acoustic monitoring; anthropogenic influence; artificial light; bat activity; Chiroptera; habitat plasticity; moon  
  Abstract Given worldwide rapid human population growth resulting in degradation or loss of habitats, it is important to understand how anthropogenic factors affect species presence and activity, and consequently, how well species tolerate or adapt to anthropogenically altered environments. This study, conducted in Panama, focuses on aerial insectivorous bats, a highly mobile and ecologically important, but largely understudied group. Acoustic monitoring was used to investigate habitat use in a tropical forest-town interface and microhabitat use around streetlights differing in wavelength (type of light) and accessibility (distance to vegetation). Plasticity in microhabitat use also was examined in relation to season and moonlight. We recorded a total of 25 aerial insectivorous bat species in the study area and found a subset of 20 species in town of which 18 frequently foraged around streetlights. Bat activity (passes/min) was lowest at the forest site, highest at streetlights, and intermediate in the dark areas of town. General bat activity at streetlights was concentrated at bluish-white lights compared to yellow-white and orange lights. However, bats revealed species-specific microhabitats with regard to light type, distance to vegetation, and relative light intensity. Season and moon phase affected microhabitat use around streetlights leading to microhabitat plasticity of individual species. Thus, in the forest-town interface most, but not all, aerial insectivorous bats were present in town and regularly foraged around streetlights, suggesting a species-specific tolerance for habitat alteration. Bats foraging at streetlights used microhabitats, and some species even changed microhabitats, according to season or moon phase. This indicates species-specific requirements for microhabitats and the importance of preserving habitat heterogeneity.  
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  Notes Approved no  
  Call Number LoNNe @ schroer @ Serial 1593  
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