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Bird Strike

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Article Information
Category: Bird Strike Bird Strike
Content source: SKYbrary About SKYbrary
Content control: EUROCONTROL EUROCONTROL

Description

A bird strike is strictly defined as a collision between a bird and an aircraft which is in flight or on a take off or landing roll. The term is often expanded to cover other wildlife strikes - with bats or ground animals.

Bird Strike is common and can be a significant threat to aircraft safety. For smaller aircraft, significant damage may be caused to the aircraft structure and all aircraft, especially jet-engined ones, are vulnerable to the loss of thrust which can follow the ingestion of birds into engine air intakes. This has resulted in a number of fatal accidents.

Bird strikes may occur during any phase of flight but are most likely during the take-off, initial climb, approach and landing phases due to the greater numbers of birds in flight at lower levels. Since most birds fly mainly during the day, most bird srikes occur in daylight hours as well.

Effects

The nature of aircraft damage from bird strikes, which is significant enough to create a high risk to continued safe flight, differs according to the size of aircraft. Small, propeller-driven aircraft are most likely to experience the hazardous effects of strikes as structural damage, such as the penetration of flight deck windscreens or damage to control surfaces or the empennage. Larger jet-engined aircraft are most likely to experience the hazardous effects of strikes as the consequences of engine ingestion. Partial or complete loss of control may be the secondary result of either small aircraft structural impact or large aircraft jet engine ingestion. Loss of flight instrument function can be caused by impact effects on the Pitot Static System air intakes which can cause dependent instrument readings to become erroneous.

Complete Engine failure or serious power loss, even on only one engine, may be critical during the take-off phase for aircraft which are not certificated to 'Performance A' standards. In the case of bird ingestion into more than one engine, all aircraft are vulnerable to loss of control. Such hazardous ingestion is infrequent but may result from the penetration of a large flock of medium sized birds or an encounter with a smaller number of very large ones.

In some cases, especially with smaller fixed wing aircraft and helicopters, windscreen penetration may result in injury to pilots or other persons on board and has sometimes led to loss of control. (See the images at the foot of this article.)

Although relatively rare, a higher altitude bird strike to a pressurised aircraft can cause structural damage to the aircraft hull which, in turn, can lead to rapid depressurisation. A more likely cause of difficulty is impact damage to extended landing gear assemblies in flight, which can lead to sufficient malfunction of brakes or nose gear steering systems to cause directional control problems during a subsequent landing roll. A relatively common but avoidable significant consequence of a bird strike on the take off roll is a rejected take off decision which is either made after V1 or which is followed by a delayed or incomplete response and which leads to a runway excursion off the departure end of the runway.

Defences

The primary defence against hazardous bird strikes stems from the requirements for continued safe flight after strikes which are included in the airworthiness requirements of the Aircraft Type and Aircraft Engine Type Certification processes. However, these requirements are not a complete protection and are also mainly focussed on large fixed wing transport aircraft. The relevant design requirements for smaller fixed wing aircraft and helicopters are very limited. The article on Aircraft Certification for Bird Strike Risk provides more detail on this subject.

The opportunities to mitigate the risk of hazardous bird strikes in the first place are centred on airports, because this is where the greatest overall volume of conflict occurs, and because this is where management and control of the hazard is most easily achieved. However, there are two problems with this approach:

  1. The airport-centred bird strike risk is rarely confined to the perimeter of any particular airport
  2. Many of the most hazardous strike encounters - those with large flocking birds - take place so far from the airport that the airport operating authority will often have little real influence over the circumstances.

The basis for managing bird strike hazard at and around airports is considered in more detail in the article on Airport Bird Hazard Management

Establishing and monitoring levels of bird activity is important and a critical part of this process is the recording of bird strikes at the local level. This then provides the opportunity to build up larger databases and to share the information.

Guidance on effective measures for establishing whether or not birds, on or near an aerodrome, constitute a potential hazard to aircraft operations, and on methods for discouraging their presence, is given in the ICAO Airport Services Manual, Part 3. Further detail is provided in a number of State-published documents which are useful beyond their jurisdictions and are referred to under Further Reading in the above-mentioned article on Airport Bird Hazard Management.

Tactical defences against hazardous bird strikes for those who operate and fly transport aircraft are reviewed in the article Operators Checklist for Bird Strike Hazard Management

Typical Scenarios

  1. Bird ingestion to three out of four engines of a departing jet transport occurs at 200 feet agl after take off has been made despite ATC advice of the presence of large birds and an offer to have them dispersed. As a result, one engine is disabled completely and two others are sufficiently damaged to the extent of only producing reduced thrust. An emergency return to land is made.
  2. A flock of medium-sized birds is struck by a jet transport just after V1 but before Vr with a rejected take off response despite take off performance being limiting due to aircraft weight. As a result, an overrun occurs with substantial aircraft damage.
  3. A twin-engined light aircraft flies into a single heron at 200 feet agl after take off and it breaks through the windscreen and hits the pilot who temporarily loses control so that upon recovery, a forced landing ahead is the only option
  4. Wing root damage to a single-engined light aircraft caused by a vulture-strike during climb out causes structural damage to such an extent that control is lost and terrain impact results.

Contributory Factors

  • Habitat features, including open areas of grass and water as well as shrubs and trees, provide food and roosting sites for birds. Even transient water accumulation on uneven pavements can be a significant bird attractant
  • Landfill and other waste disposal sites often attract large numbers of birds if they are not carefully managed.
  • Some types of agricultural activity, on or in the vicinity of an airport, may attract birds.
  • Migrating birds often follow well-defined flight paths in considerable numbers. This can create a hazard if the flight paths are near an airport.
  • Airports in coastal locations often have a much higher level of un-managed bird activity than do inland airports.
  • Most airports contain considerable areas of grass within their perimeters. Since even dry grass can be attractive as a loitering area for birds by day or night, appropriate grass management policies, especially the grass height maintained, can be very important.

Solutions

  • Habitat management, including reduction or elimination of trees, shrubs and other plants which provide food, shelter or roosting sites for birds.
  • Netting or draining of streams, routinely wet grassland and areas of standing water. Prevention of transient formation of such areas after heavy rainfall.
  • Aerodrome grass management appropriate to the prevalent species and the degree of risk that they pose.
  • Liaison with local authorities to ensure that landfill waste disposal sites are not operated so as to create an aircraft hazard.
  • Liaison with local farmers to limit the attraction of birds to fields.
  • Use of bird scaring techniques such as:
    • Broadcast of bird distress signals;
    • Firing of pyrotechnic bird scaring cartridges.
  • Tactical detection of large flocking birds using specialised ground-based radar equipment

Bird Strike Risk and Military Flights

The ability of a large flock of relatively small birds to cause the crash of a large military transport aircraft, a type also used in many civilian roles, underscores the risks associated with bird strikes.

It is generally recognised that most military aircraft operations have a much bigger problem with damaging bird strikes than is experienced with civil transport aircraft operations. This is usually attributed to a greater proportion of flight conducted at low levels. The graphic images below show what happened when a C130 Hercules hit a Bald Eagle near Tacoma WA USA. Luckily, the bird entered the flight deck through a lower window, close to the pilot's left leg. The pilot was uninjured but you can see that his legs are covered in remains. This is a not uncommon event for low flying military aircraft and one of the main reasons why helmets with visors are worn by fast jet pilots:

C130BS1.jpegC130BS2.jpegC130BS3.jpeg

Airports prone to bird strikes

  • BGSF (Kangerlussuaq Airport)
  • CYEV (Inuvik (Mike Zubko) Airport)
  • CYSB (Greater Sudbury Airport)
  • CYSM (Fort Smith Airport)
  • CYZF (Yellowknife Airport)
  • EGLL (London/Heathrow International Airport)
  • ENBR (Bergen/Flesland)
  • HUEN (Entebbe International Airport)
  • KACK (Nantucket Memorial Airport)
  • KAST (Astoria Regional Airport)
  • KBID (Block Island State Airport)
  • KBKL (Cleveland Burke Lakefront Airport)
  • KBOS (Boston/Logan International)
  • KCOS (Colorado Springs)
  • KCVG (Cincinnati North Kentucky)
  • KDOV (Dover Air Force Base)
  • KEWB (New Bedford Regional Airport)
  • KFHR (Friday Harbor Airport)
  • KGPT (Gulfport-Biloxi International)
  • KHYA (Barnstable Municipal Airport)
  • KJFK (New York/John F. Kennedy)
  • KJRA (West 30th Street Heliport)
  • KLGA (LaGuardia Airport)
  • KLMT (Klamath Falls Airport)
  • KLOM (Wings Field)
  • KLSE (La Crosse Municipal Airport)
  • KMCI (Kansas City International)
  • KMDT (Harrisburg International Airport)
  • KMFR (Medford)
  • KMVY (Martha's Vineyard Airport)
  • KNQX (Naval Air Station Key West)
  • KNUW (Naval Air Station Whidbey Island)
  • KONT (LA/Ontario Airport)
  • KORD (Chicago/O'Hare International Airport)
  • KORS (Orcas Island Airport)
  • KOTH (Southwest Oregon Regional Airport)
  • KPDX (Portland International Airport)
  • KPKB (Mid-Ohio Valley Regional Airport)
  • KPVC (Provincetown Municipal Airport)
  • KPWM (Portland International Jetport)
  • KSEA (Seattle-Tacoma)
  • KTEB (Teterboro)
  • LEAS (Asturias)
  • LFKB (Bastia)
  • LFMT (Montpellier)
  • MMBT (Bahías de Huatulco International Airport)
  • MMLP (Manuel Márquez de León International Airport)
  • MMMD (Mérida-Rejón Airport)
  • MMSD (Los Cabos International Airport)
  • MMZO (Playa de Oro International Airport)
  • … further results


The following map shows the aerodromes where bird strikes occur across the world which are listed on SKYbrary:

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Accidents and Incidents

For a list of accidents and incidents involving Bird Strike, see the separate article: "Accident and Serious Incident Reports: BS"

Related Articles

Other Articles in the Bird Strike Category


Further Reading

Transport Canada

  • "Sharing the Skies", An Aviation Guide to the Management of Wildlife Hazards - Transport Canada (TC 13549) on-line version.

ICAO

EASA

UK CAA

FAA

  • FAA "Lessons Learned from Transport Airplane Accidents": Bird Hazards

Others