Wildlife at Airports
Collisions between aircraft and wildlife (wildlife strikes) are common occurrences across the developed world. Wildlife strikes are not only numerous, but also costly. Estimates suggest that wildlife strikes cost the civil aviation industry in the U.S. up to $625 million annually, and nearly 500 peo...
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ftunivnebraskali:oai:digitalcommons.unl.edu:nwrcwdmts-1010 2023-11-12T04:15:26+01:00 Wildlife at Airports DeVault, Travis L Blackwell, Bradley F. Belant, Jerrold L. Begier, Michael J. 2017-01-01T08:00:00Z application/pdf https://digitalcommons.unl.edu/nwrcwdmts/10 https://digitalcommons.unl.edu/context/nwrcwdmts/article/1010/viewcontent/FINAL_Wildlife_at_Airports_WDM_Technical_Series_Feb2017.pdf unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/nwrcwdmts/10 https://digitalcommons.unl.edu/context/nwrcwdmts/article/1010/viewcontent/FINAL_Wildlife_at_Airports_WDM_Technical_Series_Feb2017.pdf Wildlife Damage Management Technical Series Aircraft airport antipredator behavior aviation bird strike Branta canadensis Canada goose collision fencing habitat modification lethal control Odocoileus virginianus pyrotechnics repellent sensory ecology white-tailed deer wildlife strike Animal Sciences Behavior and Ethology Biodiversity Ecology and Evolutionary Biology Other Animal Sciences Other Ecology and Evolutionary Biology Population Biology Terrestrial and Aquatic Ecology text 2017 ftunivnebraskali 2023-10-30T11:31:22Z Collisions between aircraft and wildlife (wildlife strikes) are common occurrences across the developed world. Wildlife strikes are not only numerous, but also costly. Estimates suggest that wildlife strikes cost the civil aviation industry in the U.S. up to $625 million annually, and nearly 500 people have been killed in wildlife strikes worldwide. Most wildlife strikes occur in the airport environment: 72 percent of all strikes occur when the aircraft is ≤500 ft (152 m) above ground level, and 41 percent of strikes occur when the aircraft is on the ground during landing or takeoff. Thus, management efforts to reduce wildlife hazards are focused at the airport. There are many techniques used to reduce wildlife hazards at airports, and these usually work best when used in an integrative fashion. Here, we discuss the available data on wildlife strikes with aircraft, summarize legal considerations, explain why wildlife are attracted to airports and how to identify important wildlife attractants, describe commonly-used tools and techniques for reducing wildlife hazards at airports, and explain how airports can enlist the help of professional wildlife biologists to manage wildlife hazards. Effective management of wildlife to reduce strikes, like all types of wildlife damage management, is based on principles from wildlife ecology, physiology, and behavior. Airport biologists should consider how these disciplines interact in the airport context, particularly with an understanding of regulatory guidance, non-wildlife related airport safety priorities, and strike data. This “marriage” of wildlife ecology with aspects of airport operations will aid in discerning how and why animals respond to various mitigation methods (at both the individual and population levels), why and under what conditions some management tools and techniques work better than others, and allow airport biologists to more intelligently direct management efforts. Text Branta canadensis Canada Goose University of Nebraska-Lincoln: DigitalCommons@UNL Canada |
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Open Polar |
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University of Nebraska-Lincoln: DigitalCommons@UNL |
op_collection_id |
ftunivnebraskali |
language |
unknown |
topic |
Aircraft airport antipredator behavior aviation bird strike Branta canadensis Canada goose collision fencing habitat modification lethal control Odocoileus virginianus pyrotechnics repellent sensory ecology white-tailed deer wildlife strike Animal Sciences Behavior and Ethology Biodiversity Ecology and Evolutionary Biology Other Animal Sciences Other Ecology and Evolutionary Biology Population Biology Terrestrial and Aquatic Ecology |
spellingShingle |
Aircraft airport antipredator behavior aviation bird strike Branta canadensis Canada goose collision fencing habitat modification lethal control Odocoileus virginianus pyrotechnics repellent sensory ecology white-tailed deer wildlife strike Animal Sciences Behavior and Ethology Biodiversity Ecology and Evolutionary Biology Other Animal Sciences Other Ecology and Evolutionary Biology Population Biology Terrestrial and Aquatic Ecology DeVault, Travis L Blackwell, Bradley F. Belant, Jerrold L. Begier, Michael J. Wildlife at Airports |
topic_facet |
Aircraft airport antipredator behavior aviation bird strike Branta canadensis Canada goose collision fencing habitat modification lethal control Odocoileus virginianus pyrotechnics repellent sensory ecology white-tailed deer wildlife strike Animal Sciences Behavior and Ethology Biodiversity Ecology and Evolutionary Biology Other Animal Sciences Other Ecology and Evolutionary Biology Population Biology Terrestrial and Aquatic Ecology |
description |
Collisions between aircraft and wildlife (wildlife strikes) are common occurrences across the developed world. Wildlife strikes are not only numerous, but also costly. Estimates suggest that wildlife strikes cost the civil aviation industry in the U.S. up to $625 million annually, and nearly 500 people have been killed in wildlife strikes worldwide. Most wildlife strikes occur in the airport environment: 72 percent of all strikes occur when the aircraft is ≤500 ft (152 m) above ground level, and 41 percent of strikes occur when the aircraft is on the ground during landing or takeoff. Thus, management efforts to reduce wildlife hazards are focused at the airport. There are many techniques used to reduce wildlife hazards at airports, and these usually work best when used in an integrative fashion. Here, we discuss the available data on wildlife strikes with aircraft, summarize legal considerations, explain why wildlife are attracted to airports and how to identify important wildlife attractants, describe commonly-used tools and techniques for reducing wildlife hazards at airports, and explain how airports can enlist the help of professional wildlife biologists to manage wildlife hazards. Effective management of wildlife to reduce strikes, like all types of wildlife damage management, is based on principles from wildlife ecology, physiology, and behavior. Airport biologists should consider how these disciplines interact in the airport context, particularly with an understanding of regulatory guidance, non-wildlife related airport safety priorities, and strike data. This “marriage” of wildlife ecology with aspects of airport operations will aid in discerning how and why animals respond to various mitigation methods (at both the individual and population levels), why and under what conditions some management tools and techniques work better than others, and allow airport biologists to more intelligently direct management efforts. |
format |
Text |
author |
DeVault, Travis L Blackwell, Bradley F. Belant, Jerrold L. Begier, Michael J. |
author_facet |
DeVault, Travis L Blackwell, Bradley F. Belant, Jerrold L. Begier, Michael J. |
author_sort |
DeVault, Travis L |
title |
Wildlife at Airports |
title_short |
Wildlife at Airports |
title_full |
Wildlife at Airports |
title_fullStr |
Wildlife at Airports |
title_full_unstemmed |
Wildlife at Airports |
title_sort |
wildlife at airports |
publisher |
DigitalCommons@University of Nebraska - Lincoln |
publishDate |
2017 |
url |
https://digitalcommons.unl.edu/nwrcwdmts/10 https://digitalcommons.unl.edu/context/nwrcwdmts/article/1010/viewcontent/FINAL_Wildlife_at_Airports_WDM_Technical_Series_Feb2017.pdf |
geographic |
Canada |
geographic_facet |
Canada |
genre |
Branta canadensis Canada Goose |
genre_facet |
Branta canadensis Canada Goose |
op_source |
Wildlife Damage Management Technical Series |
op_relation |
https://digitalcommons.unl.edu/nwrcwdmts/10 https://digitalcommons.unl.edu/context/nwrcwdmts/article/1010/viewcontent/FINAL_Wildlife_at_Airports_WDM_Technical_Series_Feb2017.pdf |
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1782332747132436480 |