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Covert feather
Covert feather
Covert feather
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Topside of a chicken wing showing all major feather groups

A covert feather or tectrix on a bird is one of a set of feathers, called coverts (or tectrices), which cover other feathers. The coverts help to smooth airflow over the wings and tail.

Ear coverts

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The ear coverts are small feathers behind the bird's eye which cover the ear opening (the ear of a bird has no external features).

Tail coverts

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A rear view of an Indian peacock's true tail and elongated uppertail covert feathers

The uppertail and undertail coverts cover the base of the tail feathers above and below. Sometimes these coverts are more specialised. The "tail" of a peacock is made of elongated uppertail coverts.

Wing coverts

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The upperwing coverts fall into two groups: those on the inner wing, which overlay the secondary flight feathers, known as the secondary coverts, and those on the outer wing, which overlay the primary flight feathers, the primary coverts. Within each group, the feathers form a number of rows. The feathers of the outermost, largest, row are termed greater (primary-/secondary-) coverts; those in the next row are the median (primary-/secondary-) coverts, and any remaining rows are termed lesser (primary-/secondary-) coverts. The underwing has corresponding sets of coverts (the names upperwing coverts and underwing coverts are used to distinguish the corresponding sets). In addition, the front edge of the wing is covered with a group of feathers called the marginal coverts. Within each group of wing coverts, the rows of feathers overlap each other like roof tiles (the greater coverts are overlain by the median coverts, which in turn are overlain by the outermost row of lesser coverts, and so on).

See also

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Covert feather

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from Grokipedia
A covert feather, or tectrix, is a specialized type of contour feather in birds that overlaps and covers the bases of larger , such as the remiges on the wings and rectrices on the , to create a streamlined surface for efficient during flight. These feathers are found on both the dorsal (upper) and ventral (lower) surfaces of the wings and , as well as other body regions like the ear coverts near the head, and they overlap like to ensure smooth airflow and protect underlying structures. Primarily composed of pennaceous (stiff and flat) barbs, covert feathers contribute to insulation, , and identification through their coloration and patterns, which are often visible in perched birds. Covert feathers are categorized by location and size, including greater, median, and lesser coverts on the wings—where greater primary coverts overlay the primaries at the wing's trailing edge, and lesser secondary coverts lie closer to the body—along with upper and under tail coverts that conceal the 's base. Their primary function is non-flight related in terms of but essential for reducing drag and , enabling precise and braking; for instance, tail coverts smooth over the fan-shaped rectrices during maneuvers. In ornithological studies, these feathers are key for aging and birds, as juveniles often exhibit distinct buffy fringes on their coverts that wear off with time, revealing adult . Beyond , covert feathers play roles in by trapping air close to the body and in visual signaling, where vibrant upperwing coverts in like warblers aid in mate attraction and territorial displays. Damage or molting of coverts can impair flight efficiency, highlighting their integral role in avian anatomy, though they are replaced annually in most without disrupting overall feather cycles.

Definition and Functions

Definition

Covert feathers, also known as tectrices, are a type of contour feather that overlap and cover the basal portions of larger , such as remiges in the wings or rectrices in the tail. These feathers serve as a protective layer, ensuring the underlying structures are shielded while contributing to the overall aerodynamic profile of the bird. Structurally, covert feathers are typically smaller and more uniform in size compared to the they overlay, arranged in an imbricated pattern akin to overlapping that creates a smooth, continuous surface. Each consists of a central shaft called the rachis, from which extend numerous barbs bearing barbules that interlock via hooklets, forming a cohesive vane adapted for covering rather than primary propulsion. This stiff, vaned architecture distinguishes them from other feather types, such as down feathers, which lack a defined rachis and vane for insulation, or semiplumes, which have looser barbs for intermediate roles. The term "tectrices" derives from the Latin tēctrīx, the feminine form of tēctor meaning "coverer" or "plasterer," reflecting their role in enveloping other feathers, a nomenclature rooted in classical descriptions of avian anatomy. This overlapping arrangement aids in smoothing airflow over the wings during flight.

Functions

Covert feathers play a crucial role in avian aerodynamics by overlapping larger flight feathers to conceal gaps in the wing and tail surfaces, thereby streamlining airflow and minimizing drag and turbulence during both gliding and powered flight. This arrangement allows birds to achieve greater efficiency in locomotion, with studies showing that passive deployment of coverts can reduce drag by up to 31% in post-stall conditions and increase the stall angle by approximately 9%, enhancing overall flight stability and performance. In addition to their aerodynamic contributions, covert feathers serve a protective function by acting as a barrier over the bases of , shielding them from environmental stressors such as wind, rain, debris, and solar wear, which helps preserve the of the underlying structures essential for flight. This protective layering prevents premature damage and abrasion, ensuring the of the bird's primary locomotor apparatus. Certain covert feathers also facilitate display and signaling behaviors in birds, where their coloration or elongation can be integrated into visual signals for mating or territorial interactions, often contributing to patterns of observed across species. Covert feathers contribute secondarily to insulation and camouflage as part of the overall contour plumage, trapping air layers to aid in thermoregulation and providing disruptive color patterns that enhance concealment in natural habitats, though these benefits are subordinate to their primary covering duties. By forming a cohesive outer layer, they help maintain body temperature in varying conditions and support adaptive survival strategies. From a developmental perspective, covert feathers are replaced through sequential molting patterns that prioritize minimal disruption to flight capabilities, with new feathers growing in a stepwise manner to ensure continuous coverage and functionality during the annual cycle. This orderly replacement allows birds to sustain essential aerodynamic and protective roles without compromising mobility.

Coverts by Location

Ear Coverts

Ear coverts, also known as auriculars, consist of small, densely packed feathers positioned behind the eye and extending downward, forming a patch that conceals the external ear opening, or auditory , in birds. Unlike mammals, birds lack a prominent external pinna, and these feathers serve as the primary covering for the . They exhibit an open, loosely webbed structure that distinguishes them from more rigid contour feathers elsewhere on the body. In terms of size and appearance, ear coverts are generally fine and soft-textured, often featuring subtle or patterning that blends seamlessly with the surrounding facial to provide . This soft quality arises from reduced barbule connections, allowing flexibility while maintaining coverage. The exact number and coloration vary by species, but they are adapted to match the head's overall feathering for minimal visual disruption. The primary function of ear coverts is to protect the delicate from environmental hazards such as dust, water, and wind, while their specialized open texture permits efficient sound transmission to the . This structure helps channel sound waves toward the auditory opening without significant obstruction, supporting acute hearing essential for , predator detection, and communication. Additionally, by matching the coloration of adjacent head feathers, they contribute to sensory , reducing visibility to potential threats. In songbirds like the (Turdus migratorius), ear coverts are subtle and grayish, aligning with the bird's dark head to enhance concealment in varied habitats. In raptors such as , these feathers are fluffier and integrated into the facial disk, aiding in by funneling auditory cues more effectively.

Tail Coverts

Tail coverts are contour feathers positioned at the base of the tail, divided into uppertail coverts that lie above the tail and cover the bases of the rectrices (tail ), and undertail coverts that lie below, becoming visible during flight. These feathers are arranged in overlapping rows, forming a shingle-like pattern that exposes waterproof tips while tucking fluffy bases close to the body for insulation and streamlining. In species adapted for elaborate displays, uppertail coverts exhibit significant variations, becoming greatly elongated and ornate; for instance, in the (Pavo cristatus), these coverts form the iconic "train" that can exceed 1.5 meters in length, supported by much shorter true tail feathers (rectrices) and featuring blue-green with prominent eyespots. This elongation amplifies visual signals during , where the fanned creates a shimmering effect through structural and ocellated patterns. Tail coverts play specialized roles in flight by stabilizing the tail during maneuvers, smoothing airflow over the rectrices to reduce drag and enhance steering efficiency. In display contexts, they further enhance signaling by accentuating colors and patterns, such as the eyespots in that draw attention to the male's fitness. Representative examples highlight functional diversity: in like the ring-necked pheasant ( colchicus), undertail coverts are shorter and provide in grassy habitats, aiding concealment for ground-nesting females. Molting of tail coverts typically occurs post-breeding to conserve energy, aligning with the annual replacement of worn feathers after the demanding and nesting periods.

Wing Coverts

Wing coverts are contour feathers that overlay the bases of the primary and secondary (remiges) on both the upper and lower surfaces of the avian wing, forming a smooth aerodynamic surface essential for flight. On the upperwing, they are divided into those covering the outer primaries (primary coverts) and the inner secondaries (secondary coverts), with the primary coverts extending from the carpus to the wingtip and secondary coverts along the . Underwing coverts mirror this arrangement but are typically paler and less pigmented to reduce visibility during flight. The coverts are organized into three main rows per section—greater (outermost, overlying the ), median (intermediate), and lesser (innermost, closest to the body)—arranged like from front to back to minimize air resistance. Marginal coverts line the near the , while additional rows like alular quill coverts protect the bases of the feathers. This layered structure interconnects via smooth muscles and ligaments, allowing dynamic adjustments during for varied flight maneuvers. In certain , wing coverts exhibit specialized adaptations; for instance, the greater secondary coverts in form part of the iridescent speculum, a colorful patch bordered by the secondaries that aids in visual display and recognition, often becoming prominent when wings are spread in flight. During flight, coverts can shift to expose or conceal , fine-tuning airflow and control over the surface. Representative examples illustrate this structure: in the domestic chicken (Gallus gallus domesticus), the primary coverts number approximately 10, aligning with the primaries and providing a basic model of the layered anatomy. In albatrosses like the wandering albatross (Diomedea exulans), the elongated coverts contribute to the narrow, high-aspect-ratio wings optimized for efficient soaring over vast ocean distances with minimal energy expenditure.

References

  1. https://academy.allaboutbirds.org/feathers-article/
  2. https://www.birdsoutsidemywindow.org/2010/01/02/anatomy-wing-coverts/
  3. https://www.poultryhub.org/anatomy-and-physiology/body-systems/integumentary-surface-of-the-bird
  4. https://www.lsu.edu/mns/files/special_pub-manual_for-ageing-and-sexing-reduce.pdf
  5. https://www.sciencedirect.com/topics/veterinary-science-and-veterinary-medicine/covert-feather
  6. https://ornithology.com/ornithology-lectures/feathers/
  7. https://www.thefreedictionary.com/tectrix
  8. https://www.pnas.org/doi/10.1073/pnas.2409268121
  9. https://www.frontiersin.org/journals/bioengineering-and-biotechnology/articles/10.3389/fbioe.2021.612182/full
  10. https://doi.org/10.1111/brv.12918
  11. https://santacruzbirdclub.org/wp-content/uploads/2019/09/External_Anatomy.pdf
  12. http://birds.hobbyist.in/bird-descriptive-parts.php
  13. https://www.birdforum.net/opus/Topography
  14. https://academy.allaboutbirds.org/bird-academys-a-to-z-glossary-of-bird-terms/
  15. https://avianreport.com/feather-areas-bird/
  16. https://www.reconnectwithnature.org/news-events/the-buzz/nature-curiosity-how-do-birds-hear/
  17. https://earthlife.net/bird-ears-and-hearing-in-birds/
  18. https://www.allaboutbirds.org/guide/American_Robin/id
  19. https://www.internationalowlcenter.org/blog/owl-ears
  20. https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/long-eared-owl
  21. https://faansiepeacock.com/how-many-feathers-does-a-canary-have/
  22. https://birdsoftheworld.org/bow/species/compea/cur/identification
  23. https://pubmed.ncbi.nlm.nih.gov/11429141/
  24. https://www.allaboutbirds.org/guide/Ring-necked_Pheasant/id
  25. https://www.audubon.org/magazine/understanding-basics-bird-molts
  26. https://www.sciencedirect.com/science/article/pii/B9780702027826500090
  27. https://pmc.ncbi.nlm.nih.gov/articles/PMC5055087/
  28. https://www.bto.org/sites/default/files/field_craft_bto_news_summer_2024.pdf
  29. https://www.birdpop.org/docs/pubs/Tanaka_and_Pyle_2018_Wood_Duck_Plumages.pdf
  30. https://the-chicken-chick.com/wing-clipping-whether-how-to-clip/
  31. https://www.backyardchickens.com/articles/feather-molt-an-in-depth-look-at-molting.74666/
  32. https://animaldiversity.org/accounts/Diomedea_exulans/
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