Feather

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Feather variations

For other uses, see Feather (disambiguation).

Feathers are one of the epidermal growths that form the distinctive outer covering, or plumage, on birds. They are considered the most complex integumentary structures found in vertebrates.^[1] They are among the outstanding characteristics that distinguishes the extant Aves from other living groups. Feathers have also been noticed in Theropoda which have been termed Feathered dinosaurs. Although feathers cover most parts of the body of birds, they arise only from certain well-defined tracts on the skin. They aid in flight, thermal insulation, waterproofing and coloration that helps in communication and protection.^[2]

1 Evolution
- 1.1 Feathered dinosaurs
2 Structure and characteristics
3 Human usage
- 3.1 Utilitarian functions
- 3.2 In religion and culture
4 See also
5 Gallery
6 References
7 External links

[edit] Evolution

Main article: Origin of avian flight

The functional view on the evolution of feathers has traditionally focussed on insulation, flight and display. Discoveries of non-flying Late Cretaceous feathered dinosaurs in China however suggest that flight could not have been the primary function.^[3] It was suggested that feathers were evolved from reptilian scales. Studies on the development of feathers however suggest that feathers are novel integumentary structures without any known evolutionary antecedents. Scale-based origins of feathers suggest that the planar scale structure was modified by their development into feathers by splitting to form the webbing, however the developmental process involves a tubular structure arising from a follicle and the tube splitting longitudinally to form the webbing.^[1] The number of feathers per unit area of skin is higher in smaller birds than in larger birds and this trend indicates their important role in thermal insulation since smaller birds lose more heat due to the relatively larger surface area for their body weight.^[2]

[edit] Feathered dinosaurs

Main article: Feathered dinosaurs

Several dinosaurs had feathers on their limbs that would not have functioned for flight. One theory is that feathers originally developed on dinosaurs as a means of insulation; those small dinosaurs that then grew longer feathers may have found them helpful in gliding leading to the evolution of proto-birds like Archaeopteryx and Microraptor zhaoianus. Sinosauropteryx had short fibres and symmetrical feather like structures are seen in Protarchaeopteryx and Caudipteryx.^[3] Other dinosaurs that had feathers or protofeathers include Pedopenna daohugouensis, ^[4] and Dilong paradoxus, a tyrannosauroid which is 60 to 70 million years older than Tyrannosaurus rex.^[5]

[edit] Structure and characteristics

Parts of a feather:
1. Vane
2. Rachis
3. Barb
4. Afterfeather
5. Hollow shaft, calamus

Feathers are among the most complex integumentary appendages found in vertebrates and are formed in tiny follicles in the epidermis, or outer skin layer, that produce keratin proteins. The β-keratins in feathers, beaks and claws — and the claws, scales and shells of reptiles — are composed of protein strands hydrogen-bonded into β-pleated sheets, which are then further twisted and crosslinked by disulfide bridges into structures even tougher than the α-keratins of mammalian hair, horns and hoof.

Feathers insulate birds from water and cold temperatures. The individual feathers in the wings and tail play important roles in controlling flight. Some species have a crest of feathers on their heads. Although feathers are light, a bird's plumage weighs two or three times more than its skeleton, since many bones are hollow and contain air sacs. Color patterns serve as camouflage against predators for birds in their habitats, and by predators looking for a meal. As with fish, the top and bottom colors may be different to provide camouflage during flight. Striking differences in feather patterns and colors are part of the sexual dimorphism of many bird species and are particularly important in selection of mating pairs.

A white feather

There are two basic types of feather: vaned feathers which cover the exterior of the body, and down feathers which are underneath the vaned feathers. The pennaceous feathers are vaned feathers. Also called contour feathers, pennaceous feathers are distributed over the whole body. Some of them are modified into remiges, the flight feathers of the wing, and rectrices, the flight feathers of the tail. A typical vaned feather features a main shaft, called the rachis. Fused to the rachis are a series of branches, or barbs; the barbs themselves are also branched and form the barbules. These barbules have minute hooks called barbicels for cross-attachment. Down feathers are fluffy because they lack barbicels, so the barbules float free of each other, allowing the down to trap much air and provide excellent thermal insulation. At the base of the feather, the rachis expands to form the hollow tubular calamus, or quill, which inserts into a follicle in the skin. The basal part of the calamus is without vanes. This part is embedded within the skin follicle and has an opening at the base (proximal umbilicus) and a small opening on the side (distal umbilicus).^[6]

Feather tracts or pterylae and their naming

Contour feathers are not uniformly distributed on the skin of the bird except in the Penguin. In most birds the feathers grow from specific tracts of skin called pterylae while there are regions which are free of feathers called apterylae. Filoplumes and down may arise from the apteria. The arrangement of these feather tracts, pterylosis, varies across bird families.

Feather microstructure showing interlocking

Flight feathers are stiffened so as to work against the wind in the downstroke but yield in other directions. It is noted that the pattern of orientation of β-keratin fibers in the feathers of flying birds differs from that in flightless birds. The fibers are better aligned in the middle of the feather and less aligned towards the tips.^[7]^[8]

The Dyck texture is what causes the colors blue and green in most parrots. This is due to a texture effect in microscopic portions of the feather itself, rather than pigment, or the Tyndall effect as was previously believed. The Dyck texture alters color produced by pigment. Thus, an albino parrot will be white. The spectacular red feathers of certain parrots owe their vibrancy to a rare set of pigments found nowhere else in nature. Albinism is a rare lack of pigment in some or all of a bird's feathers.

In some birds, the feather colors may be created or altered by uropygial gland secretions. The yellow bill colors of many hornbills are produced by preen gland secretions. Other differences that may only be visible in the ultraviolet region have been suggested^[9] but studies have failed to find evidence.^[10]

A bird's feathers are replaced periodically during its life through molting. New feathers are formed through the same follicle from which the old ones were fledged.

Some birds have a supply of powder down feathers which grow continuously, with small particles regularly breaking off from the ends of the barbules. These particles produce a powder that sifts through the feathers on the bird's body and acts as a waterproofing agent and a feather conditioner. Powder down has evolved independently in several taxa and can be found in down as well as pennaceous feathers. They may be scattered in plumage in the pigeons and parrots or in localized patches on the breast, belly or flanks as in herons and frogmouths. Herons use their bill to break the feathers and to spread them while cockatoos may use their head as a powder puff to apply the powder.^[9] Waterproofing can be lost by exposure to emulsifying agents due to human pollution. Feathers can become waterlogged and birds may sink. It is also very difficult to clean and rescue birds whose feathers have been fouled by oil spills. The feathers of cormorants soak up water and help in reducing buoyancy and thereby allowing the birds to swim submerged.^[11]

Bristles are stiff, tapering feathers with a large rachis but few barbs. Rictal bristles are bristles found around the eyes and bill. They may serve a similar purpose to eyelashes and vibrissae in mammals. It has been suggested that they may aid insectivorous birds in prey capture or that it may have sensory functions, however there is no clear evidence.^[12] In one study, Willow Flycatchers (Empidonax traillii) and they were found to catch insects equally well before and after removal of the rictal bristles.^[13]

[edit] Human usage

Shaft of Indian Peacock tail feather

Feathers have a number of utilitarian and cultural and religious uses.

[edit] Utilitarian functions

Feathers are both soft and excellent at trapping heat; thus, they are sometimes used in high-class bedding, especially pillows, blankets, and mattresses. They are also used as filling for winter clothing, such as quilted coats and sleeping bags; goose and eider down have great loft, the ability to expand from a compressed, stored state to trap large amounts of compartmentalized, insulating air.

Bird feathers have long been used for fletching arrows. Colorful feathers such as those belonging to pheasants have been used to decorate fishing lures.

During the 18th, 19th, and even 20th Centuries a booming international trade in plumes, to satisfy market demand in North America and Europe for extravagant head-dresses as adornment for fashionable women, caused so much destruction (for example, to egret breeding colonies) that a major campaign against it by conservationists led to the Lacey Act and caused the fashion to change and the market to finally collapse. Frank Chapman noted in 1886 that as many as 40 species of birds were used in about three-fourths of the 700 ladies' hats that he observed in New York City.^[14]^[15]^[16]

Feathers of large birds (most often geese) have been and are used to make quill pens. The word pen itself is derived from the Latin penna for feather.^[17] The French nom-de-plume for pen name has a similar origin.

Feathers are also valuable in aiding the identification of species in forensic studies, particularly in bird strikes to aircraft. The ratios of Hydrogen isotopes in feathers help in determining the geographic origins of birds.^[18] Feathers may also be useful in the non-destructive sampling of pollutants.^[19]

[edit] In religion and culture

A feather from a Guinea fowl.

Eagle feathers have great cultural and spiritual value to American Indians in the USA and First Nations peoples in Canada as religious objects. In the United States the religious use of eagle and hawk feathers are governed by the eagle feather law (50 CFR 22), a federal law limiting the possession of eagle feathers to certified and enrolled members of federally recognized Native American tribes.

Various birds and their plumages serve as cultural icons throughout the world, from the hawk in ancient Egypt to the bald eagle and the turkey in the United States. In Greek mythology, Daedelus the inventor and Icarus tried to escape his prison by attaching feathered wings to his shoulders with wax, which was melted by the Sun.

[edit] See also

[edit] Gallery

Rainbow Lorikeet feather

[edit] References

^ ^a ^b Prum, Richard O. & AH Brush (2002). "The evolutionary origin and diversification of feathers". The Quarterly Review of Biology 77 (3): 261-295.
^ ^a ^b (1970) Ornithology in Laboratory and Field. Fourth edition. Burgess Publishing Company, 29-58. ISBN 808716093.
^ ^a ^b Sumida, SS & CA Brochu (2000). "Phylogenetic context for the origin of feathers". American Zoologist 40 (4): 486-503. doi:10.1093/icb/40.4.486.
^ Xu, Xing & Fucheng Zhang. "A new maniraptoran dinosaur from China with long feathers on the metatarsus". Naturwissenschaften 92 (4): 173-177. doi:10.1007/s00114-004-0604-y.
^ Xu, Xing (2006). "Feathered dinosaurs from China and the evolution of major avian characters". Integrative Zoology 1 (1): 4-11. doi:10.1111/j.1749-4877.2006.00004.x.
^ McLelland, J. (1991). A color atlas of avian anatomy. W.B. Saunders Co..
^ Cameron, G., Wess, T., & Bonser, R. (2003). "Young’s modulus varies with differential orientation of keratin in feathers". Journal of Structural Biology 143 (2): 118. doi:10.1016/S1047-8477(03)00142-4.
^ Bonser, R., Saker, L., & Jeronimidis, G. (2004). "Toughness anisotropy in feather keratin". Journal of Materials Science 39 (8): 2895-2896.
^ ^a ^b Delhey K, A. Peters, and B. Kempenaers (2007). "Cosmetic coloration in birds: occurrence, function and evolution" (PDF). Am. Nat. 169: S145-158.
^ Delhey, K., A. Peters, PHW Biedermann & B Kempenaers (2008). "Optical properties of the uropygial gland secretion: no evidence for UV cosmetics in birds". Naturwissenschaften. doi:10.1007/s00114-008-0406-8.
^ Ribak, G., Weihs, D. and Arad, Z. (2005). "Water retention in the plumage of diving great cormorants Phalacrocorax carbo sinensis". J. Avian Biol. 36: 89-95.
^ Lederer R. J. (1972) The role of avian rictal bristles. Wilson. Bull. 84, 193-97 pdf
^ Conover, M. R., and D. E. Miller (1980) Rictal bristle function in willow flycatcher. Condor 82:469-471.
^ Doughty, Robin W. 197. Feather Fashions and Bird Preservation, A Study in Nature Protection. University of California Press.
^ Ehrlich, Paul R.; Dobkin. David S.; Wheye. Darryl (1988) Plume Trade] Stanford University
^ Feather trade Smithsonian Institution
^ The American Heritage Dictionary of the English Language, Fourth Edition. 2000. Houghton Mifflin Company. [1]
^ Bowen, Gabriel J.;Leonard I. Wassenaar;Keith A. Hobson. "Global application of stable hydrogen and oxygen isotopes to wildlife forensics". Oecologia 143 (3): 337-348. doi:10.1007/s00442-004-1813-y.
^ Jaspers, V., Voorspoels, S., Covaci, A., Lepoint, G., & Eens, M. (2007). "Evaluation of the usefulness of bird feathers as a non-destructive biomonitoring tool for organic pollutants: A comparative and meta-analytical approach". Environment International 33 (3): 328-337. doi:10.1016/j.envint.2006.11.011.

[edit] External links

Wikimedia Commons has media related to:

Feather

McGraw, K. J. 2005. Polly want a pigment? Cracking the chemical code to red coloration in parrots. Australian Birdkeeper Magazine 18:608-611.
DeMeo, Antonia M. Access to Eagles and Eagle Parts: Environmental Protection v. Native American Free Exercise of Religion (1995) [2]
Electronic Code of Federal Regulations (e-CFR), Title 50: Wildlife and Fisheries PART 22—EAGLE PERMITS [3]
Stokes, DaShanne. (In Press) Legalized Segregation and the Denial of Religious Freedom
U.S. v. Thirty Eight Golden Eagles (1986) [4]

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