Preening

This article is about a maintenance behaviour in birds. For similar behaviour in other animals, see Personal grooming.
The head and back of a short-billed red parrot, which is chewing on the tip of a black and red feather
When preening, a bird (such as this red lory) draws individual feathers through its beak, realigning and re-interlocking the barbules.

Preening is a maintenance behaviour found in birds that involves the use of the beak to position feathers, interlock feather barbules that have become separated, clean plumage, and keep ectoparasites in check. Feathers contribute significantly to a bird's insulation, waterproofing and aerodynamic flight, and so are vital to its survival. Because of this, birds spend considerable time each day maintaining their feathers, primarily through preening. Several actions make up preening behaviour. Birds fluff up and shake their feathers, which helps to "rezip" feather barbules that have become unhooked. Using their beaks, they gather preen oil from a gland at the base of their tail and distribute this oil through their feathers. They draw each contour feather through their bill, nibbling it from base to tip.

Over time, some elements of preening have evolved to have secondary functions. Ritualised preening has become a part of some courtship displays, for example. It is also a displacement activity that can occur when birds are subjected to two conflicting drives. Though primarily an individual function, preening can be a social activity involving two or more birds – a behaviour known as allopreening. In general, allopreening occurs either between two members of a mated pair or between flock members in a social species. Such behaviour may assist in effective grooming, in the recognition of individuals (mates or potential sexual partners), or in reducing or redirecting potential aggressive tendencies in social species. Most allopreening is confined to the head and neck, smaller efforts being directed towards other parts of the body.

Ingestion of pollutants or disease-causing organisms during preening can lead to problems ranging from liver and kidney damage to pneumonia and disease transmission. Injury and infection can cause overpreening in caged birds, as can confining a bird with a dominant or aggressive cage mate.

Etymology

The use of the word preen to mean the tidying of a bird's feathers dates from Late Middle English. It appears to be a variant of the word prune; one now-obsolete definition of prune meant "anoint", based on the Latin ungere, which had the same meaning. This usage was combined with the Scottish and northern English dialect preen meaning "pierce" or "pin", due to the "pricking" action of the bird's beak during preening.[1]

Importance

A mallard and her ducklings demonstrate the shaking, nibbling and stroking movements of preening.

Preening is a maintenance behaviour used by all birds to care for their feathers. It is an innate behaviour; birds are born knowing the basics, but there is a learned component. Birds that are hand-reared without access to a role model have abnormalities in their preening behaviours.[2] Despite spending considerable time in their efforts, they do not use proper techniques to groom effectively and may do a poor job overall as a result.[3] Displaced feathers can cause birds considerable trouble; such feathers might become damaged, could interrupt the smooth flow of air over a flying bird, or might allow the bird's body heat to escape. Preening allows a bird to reposition such displaced feathers. There is evidence that filoplumes, specialised feathers buried under a bird's outer covering of contour feathers, help to signal when contour feathers have been displaced. Mechanoreceptors at the base of the filoplumes only fire when contour feathers are displaced or the filoplume moves.[4] Preening enables birds to remove dirt and parasites from their plumage, and assists in the waterproofing of feathers.[5][6] During moult, birds remove the sheaths from around their emerging pin feathers while preening.[7]

Because feathers are critical to a bird's survival – contributing to insulation, waterproofing and aerodynamic flight – birds spend a great deal of time maintaining them.[8] When resting, birds may preen at least once an hour.[9] Studies on multiple species have shown that they spend an average of more than 9% of each day on maintenance behaviours, preening occupying over 92% of that time, though this figure can be significantly higher.[10] Studies found that some gull species spent 15% of daylight hours during the breeding season preening, while another showed that common loons spent upwards of 25% of their day preening.[10][11] In most of the studied species where the bird's sex could be determined in the field, males spent more time preening than females, though this was reversed in ducks.[10] Some ratites, which are not dependent on their feathers for flight, spend far less time on maintenance behaviours. One study of ostriches found that they spent less than 1% of their time engaged in such behaviours.[12]

Preen oil

A reddish-headed bird puts its beak on a small nipple at the base of its brownish-grey tail.
Birds, like this two-barred crossbill, typically use their beak to gather preen gland oil from the uropygial gland.

Fully grown feathers are essentially dead structures, so it is vital that birds have some way to protect and lubricate them. Otherwise, age and exposure cause them to become brittle.[13] To facilitate that care, many bird species have a preen or uropygial gland, which opens above the base of the tail feathers and secretes a substance containing fatty acids, water, and waxes. The bird gathers this substance on its bill and applies it to its feathers.[14] The gland is generally larger (in relation to body size) in waterbirds, including terns, grebes and petrels. However, studies have found no clear correlation between the size of the gland and the amount of time a species spends in the water; it is not consistently largest in those species that spend the most time in the water.[15]

Preen oil plays a role in reducing the presence of parasitic organisms, such as feather-degrading bacteria, lice and fungi, on a bird's feathers.[13] One study of Eurasian hoopoes showed that the presence of symbiotic bacteria (Enterococcus faecalis) in their preen oil inhibited the growth of the feather-degrading bacteria Bacillus licheniformis. Enterococcus faecalis did this by releasing a bacteriocin.[16] Female hoopoes transfer preen oil onto their brood patches and eggs, which results in the transfer of bacteria as well. Preen oil and bacteria are rubbed into microscopic pits on the surface of the eggs during incubation. This alters the colour of the eggs (darkening them) but there is also evidence that the bacteria may help to protect the developing chicks.[17][18] Other studies have shown that removing or restricting access to the uropygial gland typically results in a higher bacterial parasite load on the plumage, though not necessarily of feather-degrading bacterial species.[19][20] Preen oil may play a part in protecting at least some species from some internal parasites; a study of the incidence of avian malaria in house sparrows found that uninfected birds had larger uropygial glands and higher antimicrobial activity in those glands than infected birds did.[21] There is even evidence that the foul-smelling preen oil of hoopoes and wood hoopoes may help to repel mammalian predators.[13]

Preen oil helps to maintain the waterproofing of a bird's plumage. Though the oil does not provide any direct waterproofing agent, it helps to extend the life of the feather – including the microscopic structures (the barbs and barbules) which interlock to create the waterproof barrier.[6]

While most species have a preen gland, the organ is missing in the ratites (emu, ostriches, cassowaries, rheas and kiwis) and some neognath birds, including bustards, woodpeckers, a few parrots and pigeons.[22][23] Some species that lack a preen gland instead have powder down feathers which continually break down into a fine dust that the birds apply to their contour feathers while preening.[24] These powder down feathers may be scattered throughout the bird's plumage or concentrated into dense patches. As well as helping to waterproof and preserve the bird's feathers, powder down can give a metallic sheen to the plumage.[25]

Preening action

A diagram showing a series of increasingly closer views of feather structure, to show how the microscopic elements interact
A shaft runs down the middle of the feather with barbs branching from the main shaft and hooked barbules branching from those barbs. The barbules' hooks interlock as shown to provide strength and flexibility.
Close-up of a talon with a pointed tip and small grooves along one edge
The specialized pectinate claw of a barn owl is used as a comb for facial preening.

A bird's plumage is primarily made up of two feather types: firm vaned or pennaceous feathers on the surface, with softer down feathers underneath. Both feather types have a central shaft with narrower barbs branching from that shaft. Pennaceous feathers also have much smaller barbules branching from the entire length of each barb; these barbules have tiny hooks along their length, which interlock with the hooks of neighbouring barbules. Barbules can become unhooked as a result of a bird's daily activities – dislodged when the bird brushes up against vegetation, for instance, or when it interacts with another bird during fighting or mating. Preening may involve two kinds of bill actions: nibbling (or mandibulating) while working the feather from base to tip, or stroking with the bill either open or closed. The nibbling action is the one used most often; it is more effective than stroking for applying preen oil, removing ectoparasites, rejoining unzipped barbules, and rearranging feathers.[14] The stroking action is typically done in the direction the feathers lie, with the bill either opened or closed. Stroking is used to apply preen oil, as well as to dry and smooth plumage. Grebes stroke more vigorously with an open bill – a behaviour known as "stropping".[26] Penguins use their whole heads to stroke, in a motion referred to as "wiping".[14] Birds regularly fluff up their plumage and repeatedly shake their bodies while preening. Experiments have shown that the shaking action can "rezip" a majority of split feather barbules.[27]

Birds cannot use their beaks to apply preen oil to their own heads. Instead, many use their feet in an action called scratch-preening. Once they have gathered preen oil on their beak, they scrape a foot across their bill to transfer the oil, and then scratch the oil into the feathers on their head.[28] Longer-necked birds may rub their head directly on their uropygial gland.[29] Some species (including nightjars, herons, frigatebirds, owls and pratincoles) have comb-like serrations on the claw (a pectinate claw) of the middle toe which may aid in scratch-preening.[30] Some species stretch their leg over their lowered wing to reach their head (known as "indirect" scratching), while others extend their leg between their wing and their body (known as "direct" scratching).[14][31] There is some evidence that the method used by a species may be related to its ecology. For instance, New World warblers that are primarily arboreal tend to be overwing scratchers, while those that spend significant time on the ground are typically underwing scratchers.[28] In general, preening takes place while the bird is perched, on the ground, or swimming, but some of the more aerial species (including swifts, swallows, terns and albatrosses) preen while flying.[32] Many birds have a slight overhang at the tip of their upper mandible. Experiments suggest that this allows birds to apply shearing forces that kill the flat-bodied feather lice; the removal of the bill tip caused an increase in feather lice due to ineffective preening.[33][34]

Preening is often done in association with other maintenance behaviours, including bathing, dusting, sunning, oiling or anting, and can either precede or follow these other behaviours.[35] All birds typically preen after bathing.[36] Groups of birds sometimes all groom individually at the same time. This has been seen in species ranging from herons to blackbirds.[37]

Secondary functions

A rusty-brown, black and white duck with large orange "sail" feathers sticking up from its back floats on water.
During courtship, drake mandarin ducks ritually preen their distinctive orange "sail" feathers.

Preening may help to send sexual signals to potential mates because plumage colouration (which can be altered by the act of preening) can reliably reflect the health or "quality" of its bearer.[38] In some species, preen oil is used to cosmetically colour the plumage. During the breeding season, the preen oil of the great white pelican becomes red-orange, imparting a pink flush to the bird's plumage.[38] The preen oil of several gull and tern species, including Ross's gull, contains a pink colourant which does the same. The heads of these birds typically show little pink, because of the difficulty of reaching those areas with preen oil.[39] The yellow feathers of the great hornbill are also cosmetically coloured during preening.[38] The preen oil of the Bohemian waxwing increases the UV reflectance of its feathers.[40] Ritualised preening is used in courtship displays by several species, particularly ducks; such preening is typically designed to draw attention to a modified structure (such as the sail-shaped secondaries of the drake mandarin duck) or distinctive colour (such as the speculum) on the bird.[41][42] Mallards of both sexes will lift a wing so that the brightly coloured speculum is showing, then will place their bill behind the speculum as if preening it.[43] Courtship preening is more conspicuous than is preening for feather maintenance, using more stereotypical movements.[44]

Preening may be performed as a displacement activity. In some cases, it is done in place of another activity that birds are strongly motivated, but unable, to do. In one study, black-headed gulls which were prevented from incubating a full clutch of eggs (by the removal of eggs from their nest) responded by preening and nest building – both displacement activities. When all three eggs in their regular clutch were removed, the gulls showed a significant increase in the amount of time they spent preening.[45] The conflict between two incompatible drives, such as incubating and escape, can lead a bird to engage in displacement activities. Nesting Sandwich and common terns preen when they have been alarmed by a potential predator or when they have had an aggressive encounter with a neighbouring bird, for instance.[46] Fighting European starlings will break off their battles to preen.[47]

Allopreening

Further information: Social grooming
Two black and white birds lie on their bellies on a sandy beach; one nuzzles the other's head with the tip of its long, yellow bill.
Allopreening may help to strengthen pair bonds in species such as the Laysan albatross.[48]
Some pet parrots, such as this black-capped conure, may solicit preening from humans.

Although preening is primarily an individual behaviour, some species indulge in allopreening, one individual preening another.[14] It is not particularly common among birds, though species from at least 43 families are known to engage in the mutual activity.[49][50] Most allopreening activity concentrates on the head and neck, a lesser amount being directed towards the breast and mantle and an even smaller percentage applied to the flanks. A few species are known to allopreen other areas, including the rump, tail, belly and underwing.[51]

Several hypotheses have been advanced to explain the behaviour: that it assists in effective grooming, that it assists in recognition of individuals (mates or potential sexual partners), and that it assists in social communication, reducing or redirecting potential aggressive tendencies.[50] These functions are not mutually exclusive.[52] Evidence suggests that different species may participate for different reasons, and that those reasons may change depending on the season and the individuals involved.[50] In most cases, allopreening involves members of the same species, although some cases of interspecific allopreening are known; the vast majority of these involve icterids, though at least one instance of mutual grooming between a wild black vulture and a wild crested caracara has been documented.[53] Birds seeking allopreening adopt specific, ritualised postures to signal so; they may fluff their feathers out or put their heads down.[54] Captive birds of social species that normally live in flocks, such as parrots, will regularly solicit preening from their human owners.[55]

There is some evidence that allopreening may help to keep in good condition those feathers that a bird cannot easily reach by itself; allopreening activities tend to focus on the head and neck.[56][57] It may also help to remove ectoparasites from those hard-to-reach areas. Allopreening is most common among species that are regularly in close physical contact due to flocking or social behaviours, where such contact allows for easier transfer of ectoparasites between individuals.[48][54] In one study, Macaroni penguins that frequently allopreened had significantly fewer ticks on their heads and necks than those that did not.[58] Green wood hoopoes, a flocking species with a complex hierarchy, show similar frequencies of initiating and reciprocating allopreening of the head and neck regardless of social status, time of year or group size, which suggests that such activity is primarily related to feather hygiene.[52]

Five small black-and-white birds perch on a branch; three of them are preening themselves, and a fourth is preening the fifth one's head.
Allopreening can reduce or redirect aggression within a flock, as with these great woodswallows.

Most allopreening is done between the two members of a mated pair, and the activity appears to play an important role in strengthening and maintaining pair bonds.[14] It is more common in species where both parents help to raise the offspring and correlates with an increased likelihood that partners will remain together for successive breeding seasons.[48] Allopreening often features as part of the "greeting ceremony" between the members of a pair in species such as albatrosses and penguins, where partners may be separated for a relatively long period of time, and is far more common among sexually monomorphic species (that is, species where the sexes look outwardly similar). It appears to inhibit or redirect aggression, as it is typically the dominant bird that initiates the behaviour.[51]

Allopreening appears to reduce the incidence of conflict between members of some colonially living or colonially nesting species. Neighbouring common guillemots that engaged in allopreening were much less likely to fight. Since fights often lead to eggs or chicks being knocked off breeding cliffs, fewer fights led to greater breeding success for allopreening neighbours.[59] Among social flocks of green wood hoopoes, rates of body allopreening (that is, allopreening of another bird's body rather than head and neck) increase with group size. Evidence suggests this type of allopreening reduces social tension, and thus plays an important role in group cohesion. More dominant birds receive far more body allopreening services than do lower-ranked birds, and lower-ranked birds initiate far more body allopreening bouts than do their higher-ranked flock mates. Body allopreening is only reciprocal when done between members of a mated pair; otherwise, the dominant bird reciprocates in fewer than 10% of the instances.[52]

Potential problems

A duck coated in oil sits on a stone wall with its head turned to the side and the tip of its bill resting on its feathers.
Oiled birds, like this surf scoter, can quickly ingest harmful or fatal amounts of oil during their attempts to preen.

If birds are exposed to some pollutants, such as leaking petroleum, they can quickly lose the preen oil from their feathers. This causes a loss of heat regulation and waterproofing, and rapidly leads to the bird becoming chilled.[37] If waterbirds are exposed, they can lose both buoyancy and the ability to fly; this means they must swim constantly to stay warm and afloat (if they cannot reach land), and eventually die of exhaustion.[60] While preening in an effort to clean themselves, they may ingest harmfully large amounts of the petroleum.[37] Ingested oil can cause pneumonia, as well as liver and kidney damage. Studies done with black guillemots showed that even small amounts of ingested oil caused the birds physiological distress. It interfered with the foraging efficiency of adults and decreased the growth rates of young birds.[60]

Allopreening may facilitate disease transmission between infected and non-infected individuals. West Nile virus has been found in the feather pulp of several species of corvid, for instance, meaning that birds that preen infected partners might become infected themselves.[61] Even preening its own body may expose a bird to pathogens. There is evidence that water-borne avian influenza virus is "captured" by the preen oil on feathers, providing a possible route for infection.[62][63] The ingestion of parasites during preening may result in infection; the tick-borne disease louping ill virus can be transmitted to red grouse if the bird consumes a tick carrying the disease.[64]

Caged birds, particularly parrots, sometimes overpreen in response to being exposed to strong scents (such as nicotine or air fresheners) or as a result of neuropathy. Reducing exposure to the offending odour, or treating the underlying cause of the neuropathy (such as injury, infection, or heavy metal intoxication) can help to eliminate the behaviour.[65] Confining a bird with an incompatible or very dominant cage mate can lead to excessive allopreening, which can result in feather plucking or injury.[66]

References

  1. ^ "Preen". Oxford English Living Dictionary. Oxford University Press. Archived from the original on August 6, 2017. Retrieved 6 August 2017.
  2. ^ Moon-Fandli, Dodman & O'Sullivan 1999, p. 68.
  3. ^ Luescher 2006, p. 198.
  4. ^ Necker, Reinhold (May 1985). "Observations on the function of a slowly-adapting mechanoreceptor associated with filoplumes in the feathered skin of pigeons". Journal of Comparative Physiology A. 156 (3): 391–394. doi:10.1007/BF00610731. S2CID 8499915.
  5. ^ Moss 2015, p. 71.
  6. ^ a b Lovette & Fitzpatrick 2016, p. 129.
  7. ^ Elphick & Dunning 2001, p. 58.
  8. ^ Elphick & Dunning 2001, p. 57.
  9. ^ Gill 2007, p. 104.
  10. ^ a b c Cotgreave, Peter & Clayton, Dale H. (1994). "Comparative analysis of time spent grooming by birds in relation to parasite load" (PDF). Behaviour. 131 (3): 171–187. doi:10.1163/156853994X00424. ISSN 0005-7959. JSTOR 4535237.
  11. ^ Delius, J. D. (May 1988). "Preening and associated comfort behavior in birds" (PDF). Annals of the New York Academy of Sciences. 525 (1): 40–55. Bibcode:1988NYASA.525...40D. doi:10.1111/j.1749-6632.1988.tb38594.x. PMID 2839072. S2CID 17744188.
  12. ^ Williams, Joseph B.; Siegfried, W. Roy; Milton, Suzanne J.; Adams, Nigel J.; Dean, W. R. J.; du Plessis, Morne A. & Jackson, Sue (March 1993). "Field metabolism, water requirements, and foraging behavior of wild ostriches in the Namib". Ecology. 74 (2): 390–404. Bibcode:1993Ecol...74..390W. doi:10.2307/1939301. JSTOR 1939301.
  13. ^ a b c Gill 2007, p. 102.
  14. ^ a b c d e f Campbell & Lack 1985, p. 102.
  15. ^ Montalti, Diego & Salibián, Alfredo (2000). "Uropygial gland size and avian habitat" (PDF). Ornitologia Neotropical. 11: 297–306.
  16. ^ Ruiz-Rodríguez, M.; Valdivia, E.; Soler, Juan J.; Martín-Vivaldi, M.; Martín-Platero, A. M. & Martínez-Bueno, M. (2009). "Symbiotic bacteria living in the hoopoe's uropygial gland prevent feather degradation" (PDF). Journal of Experimental Biology. 212 (22): 3621–3626. doi:10.1242/jeb.031336. ISSN 0022-0949. PMID 19880722. S2CID 9884724.
  17. ^ Martínez-García, Ángela; Soler, Juan J.; Rodríguez-Ruano, Sonia M.; Martínez-Bueno, Manuel; Martín-Platero, Antonio Manuel; Juárez-García, Natalia & Martín-Vivaldi, Manuel (November 2015). "Preening as a vehicle for key bacteria in hoopoes". Microbial Ecology. 70 (4): 1024–1033. Bibcode:2015MicEc..70.1024M. doi:10.1007/s00248-015-0636-1. hdl:10261/123119. ISSN 1432-184X. PMID 26078039. S2CID 8342661.
  18. ^ Soler, Juan J.; Martín-Vivaldi, M.; Peralta-Sánchez, J. M.; Arco, L.; Juárez-García-Pelayo, N. (2014). "Hoopoes color their eggs with antimicrobial uropygial secretions" (PDF). Naturwissenschaften. 101 (9): 697–705. Bibcode:2014NW....101..697S. doi:10.1007/s00114-014-1201-3. ISSN 0028-1042. PMID 25011415. S2CID 4278863.
  19. ^ Czirják, Gábor Árpád; Pap, Péter László; Vágási, Csongor István; Giraudeau, Mathieu; Mureşan, Cosmin; Mirleau, Pascal & Heeb, Philipp (February 2013). "Preen gland removal increases plumage bacterial load but not that of feather-degrading bacteria". Naturwissenschaften. 100 (2): 145–151. Bibcode:2013NW....100..145C. doi:10.1007/s00114-012-1005-2. ISSN 1432-1904. PMID 23288399. S2CID 15209444.
  20. ^ Giraudeau, M.; Czirják, G.Á.; Duval, C.; Bretagnolle, V.; Gutierrez, C.; Guillon, N. & Heeb, P. (January 2013). "Effect of preen oil on plumage bacteria: an experimental test with the mallard". Behavioural Processes. 92: 1–5. doi:10.1016/j.beproc.2012.08.001. PMID 22940115. S2CID 21076057.
  21. ^ Magallanes, Sergio; Pape Møller, Anders; García-Longoria, Luz; de Lope, Florentino & Marzal, Alfonso (2016). "Volume and antimicrobial activity of secretions of the uropygial gland are correlated with malaria infection in house sparrows". Parasites & Vectors. 9: 232. doi:10.1186/s13071-016-1512-7. PMC 4845389. PMID 27114098.
  22. ^ Perrins 2009, p. 37.
  23. ^ de Juana 1992, p. 40.
  24. ^ Wetmore, Alexander (1920). "The function of powder downs in herons" (PDF). The Condor. 22 (5): 168–170. doi:10.2307/1362391. JSTOR 1362391.
  25. ^ Ehrlich, Dobkin & Wheye 1988, p. 311.
  26. ^ Campbell & Lack 1985, pp. 102–103.
  27. ^ Zhao, Jing-Shan; Zhanga, Jiayue; Zhao, Yuping; Zhanga, Zhaodong & Godefroit, Pascal (February 2020). "Shaking the wings and preening feathers with the beak help a bird to recover its ruffled feather vane". Materials & Design. 187: 108410. doi:10.1016/j.matdes.2019.108410.
  28. ^ a b Ehrlich, Dobkin & Wheye 1988, p. 543.
  29. ^ Hailman 1985, p. 214.
  30. ^ Stettenheim, Peter R. (August 2000). "The integumentary morphology of modern birds—an overview". American Zoologist. 40 (4): 461–477. CiteSeerX 10.1.1.559.1172. doi:10.1668/0003-1569(2000)040[0461:timomb]2.0.co;2. ISSN 0003-1569. S2CID 198156620.
  31. ^ Nice, Margaret M. & Schantz, W.E. (1959). "Head-scratching movements in birds" (PDF). The Auk. 76 (3): 339–342. doi:10.2307/4081811. JSTOR 4081811.
  32. ^ Goodwin, Robert E. (October 1959). "Records of flight preening and related aerial activities in birds, particularly the black tern" (PDF). The Auk. 76 (4): 521–523. doi:10.2307/4082320. JSTOR 4082320.
  33. ^ Clayton, Dale H.; Moyer, Brett R.; Bush, Sarah E.; Jones, Tony G.; Gardiner, David W.; Rhodes, Barry B. & Goller, Franz (2005). "Adaptive significance of avian beak morphology for ectoparasite control". Proceedings of the Royal Society B: Biological Sciences. 272 (1565): 811–817. doi:10.1098/rspb.2004.3036. PMC 1599863. PMID 15888414.
  34. ^ Bush, Sarah E.; Clayton, Dale H. (2018). "Anti-parasite behaviour of birds". Philosophical Transactions of the Royal Society B: Biological Sciences. 373 (1751): 20170196. doi:10.1098/rstb.2017.0196. PMC 6000146. PMID 29866911.
  35. ^ Carnaby 2008, p. 358.
  36. ^ Ehrlich et al. 1994, p. 357.
  37. ^ a b c Kricher 2020, p. 118.
  38. ^ a b c Delhey, Kaspar; Peters, Anne & Kempenaers, Bart (2007-01-01). "Cosmetic coloration in birds: occurrence, function, and evolution". The American Naturalist. 169 (S1): S145–S158. doi:10.1086/510095. ISSN 0003-0147. PMID 19426089. S2CID 29592388.
  39. ^ Ehrlich, Dobkin & Wheye 1988, p. 58.
  40. ^ Pérez-Rodríguez, Lorenzo; Mougeot, Francois & Bortolotti, Gary R. (2011-07-01). "The effects of preen oils and soiling on the UV–visible reflectance of carotenoid-pigmented feathers". Behavioral Ecology and Sociobiology. 65 (7): 1425–1435. Bibcode:2011BEcoS..65.1425P. doi:10.1007/s00265-011-1153-y. hdl:10261/143995. ISSN 0340-5443. S2CID 38405658.
  41. ^ Tinbergen, N. (March 1952). ""Derived" activities; their causation, biological significance, origin, and emancipation during evolution". The Quarterly Review of Biology. 27 (1): 1–32. doi:10.1086/398642. PMID 14930222. S2CID 31957387.
  42. ^ Huxley, Hardy & Ford 1954, p. 242.
  43. ^ Ehrlich et al. 1994, p. 49.
  44. ^ Ehrlich et al. 1994, p. 37.
  45. ^ Moynihan, M. (January 1953). "Some displacement activities of the black-headed gull". Behaviour. 5 (1): 58–80. doi:10.1163/156853953X00041. ISSN 0005-7959. JSTOR 4532768.
  46. ^ Van Iersel, J. J. A. & Bol, A. C. Angela (January 1958). "Preening of two tern species: a study on displacement activities". Behaviour. 13 (1): 1–87. doi:10.1163/156853958x00037. ISSN 1568-539X. JSTOR 4532894.
  47. ^ Mitchell, J. C. (18 May 1968). "Dermatological aspects of displacement activity: attention to the body surface as a substitute for "fight or flight"". Canadian Medical Association Journal. 98 (20): 962–964. PMC 1924139. PMID 5657176.
  48. ^ a b c Kenny, Elspeth; Birkhead, Tim R. & Green, Jonathan P. (July–August 2017). "Allopreening in birds is associated with parental cooperation over offspring care and stable pair bonds across years". Behavioral Ecology. 28 (4): 1142–1148. doi:10.1093/beheco/arx078. PMC 5873249. PMID 29622926.
  49. ^ Wilson 2000, p. 208.
  50. ^ a b c Forsman, Eric D. & Wight, Howard M. (July 1979). "Allopreening in owls: what are its functions?" (PDF). The Auk. 96 (3): 525–531. JSTOR 4085549.
  51. ^ a b Harrison, C. J. O. (July 1965). "Allopreening as Agonistic Behaviour". Behaviour. 24 (3): 161–208. doi:10.1163/156853965x00011. ISSN 1568-539X. JSTOR 4533105.
  52. ^ a b c Radford, Andrew N. & Du Plessis, Morné A. (December 2006). "Dual function of allopreening in the cooperatively breeding green woodhoopoe, Phoeniculus purpureus". Behavioral Ecology and Sociobiology. 61 (2): 221–230. Bibcode:2006BEcoS..61..221R. doi:10.1007/s00265-006-0253-6. JSTOR 25511576. S2CID 43724298.
  53. ^ Ng, David & Jasperson, Bruce D. (May 1984). "Interspecific allopreening between crested caracara and black vulture" (PDF). The Condor. 86 (2): 214–215. doi:10.2307/1367047. JSTOR 1367047.
  54. ^ a b Wilson 2000, p. 209.
  55. ^ Rowley 1997, p. 257.
  56. ^ Loon & Loon 2005, p. 36.
  57. ^ Olsen & Joseph 2011, p. 249.
  58. ^ Deeming & Reynolds 2015, p. 94.
  59. ^ Lewis, Sue; Roberts, Gilbert; Harris, Mike P.; Prigmore, Carina & Wanless, Sarah (August 2007). "Fitness increases with partner and neighbour allopreening". Biological Letters. 3 (4): 386–389. doi:10.1098/rsbl.2007.0258. PMC 2390679. PMID 17550875.
  60. ^ a b Ehrlich et al. 1994, p. 225.
  61. ^ Docherty, Douglas E.; Long, Renee Romaine; Griffin, Kathryn M. & Saito, Emi K. (June 2004). "Corvidae feather pulp and West Nile virus detection". Emerging Infectious Diseases. 10 (5): 907–909. Bibcode:2004EIDis..10..907D. doi:10.3201/eid1005.030825. PMC 3323200. PMID 15200828.
  62. ^ Delogu, Mauro; De Marco, Maria A.; Di Trani, Livia; Raffini, Elisabetta; Cotti, Claudia; Puzelli, Simona; Ostanello, Fabio; Webster, Robert G.; Cassone, Antonio & Donatelli, Isabella (25 June 2010). "Can preening contribute to influenza A virus infection in wild waterbirds?". PLOS ONE. 5 (6): e11315. Bibcode:2010PLoSO...511315D. doi:10.1371/journal.pone.0011315. PMC 2892510. PMID 20593026.
  63. ^ Karunakaran, Athira Cheruplackal; Murugkar, Harshad V.; Kumar, Manoj; Nagarajan, Shanmugasundaram; Tosh, Chakradhar; Pathak, Anubha; Rajendrakumar, Arunraj Mekhemadhom; Agarwal, Rajesh Kumar (May 2019). "Survivability of highly pathogenic avian influenza virus (H5N1) in naturally preened duck feathers at different temperatures". Transboundary and Emerging Diseases. 66 (3): 1306–1313. doi:10.1111/tbed.13148. PMID 30861310. S2CID 76664136.
  64. ^ Gilbert, Lucy; Jones, Linda D.; Laurenson, M. Karen; Gould, Ernie A.; Reid, Hugh W. & Hudson, Peter J. (7 May 2004). "Ticks need not bite their red grouse hosts to infect them with louping ill virus". Proceedings of the Royal Society B: Biological Sciences. 271 (Suppl 4): S202-5. doi:10.1098/rsbl.2003.0147. ISSN 0962-8452. PMC 1810039. PMID 15252984.
  65. ^ Kubiak 2021, p. 175.
  66. ^ Coles 2007, p. 46.

Works cited

Listen to this article (22 minutes)
Spoken Wikipedia icon
This audio file was created from a revision of this article dated 18 July 2023 (2023-07-18), and does not reflect subsequent edits.
(Audio help · More spoken articles)
Wikimedia Commons has media related to Birds preening.

Read other articles:

Ayumi Hamasaki Countdown Live 2012–2013 A: Wake Up

2013 video by Ayumi HamasakiAyumi Hamasaki Countdown Live 2012-2013 A: Wake UpVideo by Ayumi HamasakiReleasedApril 08, 2013RecordedDecember 31, 2012VenueYoyogi National GymnasiumGenreJ-popLabelAvexAyumi Hamasaki chronology Ayumi Hamasaki Arena Tour 2012 A: Hotel Love Songs(2012) Ayumi Hamasaki Countdown Live 2012-2013 A: Wake Up(2013) Ayumi Hamasaki 15th Anniversary Tour: A Best Live(2013) Ayumi Hamasaki Countdown Live 2012–2013 A: Wake Up is Japanese pop singer Ayumi Hamasaki's 12t...

 

Shoeshiner

Person who cleans and polishes foot coverings Shoeshine boy redirects here. For other uses, see Shoeshine boy (disambiguation). For shoeshining effect in tape drives, see Tape drive § Technical limitations. A boot polisher on a railway platform in Mumbai, India. Shoeshiner or boot polisher is an occupation in which a person cleans and buffs shoes and then applies a waxy paste to give a shiny appearance and a protective coating. They are often known as shoeshine boys because the job was ...

 

Lệ Thủy (nghệ sĩ)

Đối với các định nghĩa khác, xem Lệ Thủy (định hướng). Nghệ sĩ Nhân dânLệ ThủyNghệ danhLệ ThủyBiệt danhTiếng hát chuông ngânCô Đào ngoại hạngThông tin cá nhânSinhTrần Thị Lệ Thủy20 tháng 5 năm 1948 (75 tuổi)Bình Minh, Vĩnh Long, Liên bang Đông DươngGiới tínhnữQuốc tịch Việt NamDân tộcKinhNghề nghiệpDiễn viên sân khấuDiễn viên truyền hìnhChồngDương Đình Trúc (cưới 1...

 

Гай Аніцій Церіал

У Вікіпедії є статті про інших людей з таким ім'ям: Гай. Гай Аніцій ЦеріалНародився невідомоПомер 66Рим·самогубствоПідданство Римська імперіяДіяльність політикПосада консул-суффектТермін 65 рікПопередник Публій Пасідієн ФірмРід Аніції Гай Аніцій Церіал (лат. Gaius Anicius Ceria...

 

Auguste Raemdonck van Megrode

Auguste Raemdonck van Megrode Auguste François Egide Marie Raemdonck van Megrode (Lokeren, 10 maart 1863 - aldaar, 15 oktober 1939)[1] was een Belgisch volksvertegenwoordiger voor de Katholieke Partij en burgemeester van Lokeren. Levensloop Raemdonck was een zoon van brouwer Louis Raemdonck en van Justine Lapeer. Hij trouwde met Aline van Mossevelde de Meersman. Hij promoveerde tot doctor in de politieke en administratieve wetenschappen (1886) en tot doctor in de rechten (1887) aan d...

 

Châtelet, Belgium

Municipality in French Community, BelgiumChâtelet Tcheslet (Walloon)MunicipalityThe town hall. FlagCoat of armsLocation of Châtelet ChâteletLocation in Belgium Location of Châtelet in Hainaut Coordinates: 50°24′N 04°31′E / 50.400°N 4.517°E / 50.400; 4.517Country BelgiumCommunityFrench CommunityRegionWalloniaProvinceHainautArrondissementCharleroiGovernment • MayorDaniel Vanderlick (PS) • Governing party/iesPSArea �...

 

Vlad Ţepeş

Vlad III DraculaPangeran WallachiaPotret Vlad Țepeș di Galeri Leluhur Rumah Esterházy,  abad ke-17, Kastil ForchtensteinBerkuasa1448; 1456–1462; 1476WangsaHouse of Drăculești (cabang dari House of Basarab)AyahVlad II DraculIbuCneajna dari MoldaviaPasangan1. Kemungkinan anak haram dari John Hunyadi 2. Ilona SzilágyiAnakPerkawinan pertama:Mihnea cel RăuPerkawinan kedua:Vlad Dracula IV dan anak lainnya yang tidak diketahui Vlad III, Pangeran Wallachia (ca. 1431 – Desember 1475/14...

 

Otto Sjögren (geograf)

Ej att förväxla med Otto Sjögren (historiker).Otto Sjögren Född15 juni 1881[1]Films församling[1], SverigeDöd23 september 1975 (94 år)Danderyds församling, SverigeMedborgare iSverigeSysselsättningGeograf[2], docent[2]Redigera Wikidata Gustaf Otto Teodor Sjögren, född 15 juni 1881 i Films församling, Uppsala län, död 23 september 1975 i Danderyds församling, Stockholms län[3], var en svensk geograf. Biografi Sjögrens arbetsrum på Bragevägen 1, 1930-tal. S...

 

Österreichisch-Ungarische Artillerie

100-mm-SKODA-Gebirgskanone M 1916 Feldartillerie auf dem Marsch Die Artillerie war Teil der Österreichisch-Ungarischen Landstreitkräfte. Inhaltsverzeichnis 1 Gliederung und Aufbau 2 Feldartillerie 3 Festungsartillerie 4 Flugabwehrartillerie 5 Organisation der Technischen Artillerie 5.1 Rangbezeichnungen der Ingenieure und Beamten 6 Persönliche Bewaffnung der Artillerieangehörigen 7 Adjustierung der schießenden Truppe 8 Adjustierung der Technischen Artillerie 8.1 Artillerieingenieure 8.2 ...

 

Europees kampioenschap voetbal vrouwen onder 17 - 2017

Europees kampioenschap voetbal vrouwen onder 17 2017 Toernooi-informatie Gastland  Tsjechië Datum 2 mei – 14 mei 2017 Teams 8 (van 1 confederatie) Stadions 4 (in 4 gaststeden) Winnaar Duitsland (6e titel) Toernooistatistieken Wedstrijden 15 Doelpunten 44  (2,93 per wedstrijd) Topscorer(s) Melissa Kössler (3 goals) Portaal    Voetbal Het Europees kampioenschap voetbal vrouwen onder 17 van 2017 was de 10de editie zijn van het Europees kampioenschap voetbal vrou...

 

Toonerville Folks

American comic strip by Fontaine Fox Toonerville FolksFontaine Fox's Toonerville Folks (February 15, 1931).Author(s)Fontaine FoxCurrent status/scheduleConcluded daily & Sunday gag panelLaunch date1908, syndicated beginning in 1913End dateFeb 12, 1955Alternate name(s)The Toonerville Trolley That Meets All the TrainsSyndicate(s)Wheeler Syndicate (1913–1916)Bell Syndicate (1916–c. 1930)McNaught Syndicate (c. 1930–1955)Publisher(s)All-American PublicationsEastern Color PrintingGenre(s)H...

 

William Sachiti

Zimbabwean-born British entrepreneur and inventor William SachitiSachiti on London Live 2017BornMay 1984 (age 39)Harare, ZimbabweEducationArtificial Intelligence & RoboticsOccupation(s)Entrepreneur, InventorKnown forDragons' Den, Kar-go, mycityvenue, Academy of Robotics Pasi William Sachiti (born May 1984) is a Zimbabwean-born [1] British entrepreneur and inventor. Sachiti is the founder and CEO of Academy of Robotics, an autonomous technology company which is prima...

 

أحداث شارع مجلس الوزراء 2011

أحداث مجلس الوزراء جزء من ثورة 25 يناير الاعتصامات أمام مبنى مجلس الوزراء التاريخ 16 ديسمبر 2011 المكان أمام مبني مجلس الوزراء المصري شارع مجلس الشعب الأسباب محاولة فض الاعتصام أمام مجلس الوزراء الأطراف المتظاهرون والمعتصمونالشرطة العسكرية المصرية والمظلات والقوات الخاص...

 

Camphor

Toxic, waxy, and transparent aromatic organic compound Not to be confused with samphor. For other uses, see Camphor (disambiguation). Camphor[1][2] (+)- and (−)-camphor Names IUPAC name 1,7,7-Trimethylbicyclo[2.2.1]heptan-2-one Other names 2-Bornanone; Bornan-2-one; 2-Camphanone; Formosa Identifiers CAS Number 76-22-2 Y464-49-3 (R) Y464-48-2 (S) Y 3D model (JSmol) Interactive imageInteractive image 3DMet B04902 Beilstein Reference 1907611 ChEBI CHEBI...

 

Agencia Internacional Islámica de Noticias

Logo de la UNA. La Agencia Internacional Islámica de Noticias (en inglés: International Islamic News Agency, abreviado IINA) es un órgano especializado de la Organización de la Conferencia Islámica y una agencia de noticias en árabe, inglés y francés, que centra su actividad en noticias sobre el mundo y asuntos islámicos. Con sede central en Yeda, Arabia Saudita, la agencia fue creada en 1972, en virtud de una resolución de la Tercera Conferencia Islámica de Ministros de Relaciones...

 

Muhammad Saad Iqbal

Pakistani citizen (born 1977) Muhammad Saad IqbalDepartment of Defense photographBorn (1977-10-17) October 17, 1977 (age 46)Detained at Bagram and GuantanamoOther name(s) Hafez Qari Mohamed Saad Iqbal MadniISN743Charge(s)No charge (held in extrajudicial detention)StatusRepatriated September 8, 2008 Muhammad Saad Iqbal is a Pakistani citizen who was held in extrajudicial detention in the United States Guantanamo Bay detention camps, in Cuba.[1] Madni's Guantanamo Internm...

 

Noriko Sakai

Japanese actor and singer Noriko Sakai酒井 法子Noriko Sakai in Hong Kong, during her Asia 1998 Work Out Fine tourBorn (1971-02-14) February 14, 1971 (age 52)Fukuoka, Fukuoka Prefecture, JapanNationalityJapaneseOther namesNori-PEducationHorikoshi High SchoolAlma materUniversity of Creation; Art, Music & Social WorkOccupation(s)Singer, actressYears active1986–20092012–presentAgent(s)Sun Music (1986–2009) Office Nigun Niiba (2012–2021) Smile (2021–present)He...

 

Clone Your Lover

2000 studio album by ZeromancerClone Your LoverStudio album by ZeromancerReleased13 March 2000 (Norway)26 June 2000 (Germany)18 March 2003 (US)GenreIndustrial rockLength37:00LabelCleopatraSony Music EntertainmentProducerJames SaezZeromancer chronology Clone Your Lover(2000) Eurotrash(2001) Clone Your Lover is the first studio album of the Norwegian industrial rock band Zeromancer. Track listing All tracks composed by Kim Ljung. Clone Your Lover – 3:50 Flirt (With Me) – 3:59 Someth...

 

Newsweek

Weekly magazine based in New York City For the 1978–1989 Australia North Queensland current affairs television program, see Newsweek (TV program). NewsweekCover of the September 5, 1983, issueEditor-in-chiefNancy Cooper[1]Former editorsMalcolm Muir (1937–1959)Osborn Elliott (1961–1976)[2]Jon Meacham (2006–2010)[3]CategoriesMagazine, publisherPublisherDev Pragad[4][5], President and CEOTotal circulation(2015)100,000[6]First issueFebruary&...

 

I Wayan Koster

Dr. Ir.I Wayan KosterM.M.Gubernur Bali ke-9Masa jabatan5 September 2018 – 5 September 2023WakilTjokorda Oka Artha Ardana SukawatiPendahuluI Made Mangku Pastika Hamdani (Pj.)PenggantiSang Made Mahendra Jaya (Pj.)Anggota Dewan Perwakilan Rakyat Republik IndonesiaMasa jabatan1 Oktober 2004 – 26 Februari 2018PenggantiI Gusti Agung Putri AstridDaerah pemilihanBali Informasi pribadiLahir20 Oktober 1962 (umur 61)Singaraja, BaliKebangsaanIndonesiaPartai politikPartai De...