Minimising mortality in endangered raptors due to power lines: the importance of spatial aggregation to optimize the application of mitigation measures

Minimising mortality in endangered raptors due to power lines: the importance of spatial aggregation to optimize the application of mitigation measures

Electrocution by power lines is one of the main causes of non-natural mortality in birds of prey. In an area in central Spain, we surveyed 6304 pylons from 333 power lines to determine electrocution rates, environmental and design factors that may influence electrocution and the efficacy of mitigati...

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Bibliographic Details
Published in:PloS one Vol. 6; no. 11; p. e28212
Main Authors: Guil, Francisco, Fernández-Olalla, Mariana, Moreno-Opo, Rubén, Mosqueda, Ignacio, Gómez, María Elena, Aranda, Antonio, Arredondo, Angel, Guzmán, José, Oria, Javier, González, Luis Mariano, Margalida, Antoni
Format: Journal Article
Language:English
Published: United States Public Library of Science 28-11-2011
Public Library of Science (PLoS)
Subjects:
Agriculture
Animal populations
Animals
Aquila adalberti
Biology
Birds
Birds of prey
Carcasses
Conservation of Natural Resources - methods
Data Collection
Design factors
Eagles
Efficiency
Electric Injuries
Electric Power Supplies - adverse effects
Electrocutions
Elongation
Endangered Species - statistics & numerical data
Environmental factors
Environmental protection
Geography
Health aspects
Immigration
Influence
Insulation
Insulators
Mitigation
Models, Biological
Mortality
Power lines
Prey
Pylons
Spain
Species Specificity
Strings
Structural members
Vegetation cover
Veterinary Science
Spain
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Summary:Electrocution by power lines is one of the main causes of non-natural mortality in birds of prey. In an area in central Spain, we surveyed 6304 pylons from 333 power lines to determine electrocution rates, environmental and design factors that may influence electrocution and the efficacy of mitigation measures used to minimise electrocution cases. A total of 952 electrocuted raptors, representing 14 different species, were observed. Electrocuted raptors were concentrated in certain areas and the environmental factors associated with increased electrocution events were: greater numbers of prey animals; greater vegetation cover; and shorter distance to roads. The structural elements associated with electrocutions were shorter strings of insulators, one or more phases over the crossarm, cross-shaped design and pylon function. Of the 952 carcasses found, 148 were eagles, including golden eagle (Aquila chrysaetos), Spanish imperial eagle (Aquila adalberti) and Bonelli's eagle (Aquila fasciata). Electrocuted eagles were clustered in smaller areas than other electrocuted raptors. The factors associated with increased eagle electrocution events were: pylons function, shorter strings of insulators, higher slopes surrounding the pylon, and more numerous potential prey animals. Pylons with increased string of insulators had lower raptor electrocution rates than unimproved pylons, although this technique was unsuccessful for eagles. Pylons with cable insulation showed higher electrocution rates than unimproved pylons, both for raptors and eagles, despite this is the most widely used and recommended mitigation measure in several countries. To optimize the application of mitigation measures, our results recommend the substitution of pin-type insulators to suspended ones and elongating the strings of insulators.
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Conceived and designed the experiments: FG RMO IM MEG A. Aranda Á. Arredondo JO LMG AM. Performed the experiments: FG RMO Á. Arredondo JG. Analyzed the data: FG MFO. Contributed reagents/materials/analysis tools: FG MFO RMO LMG AM. Wrote the paper: FG MFO RMO LMG AM.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0028212