Flight feather

Flight feathers (Pennae volatus)^[1] are the long, stiff, asymmetrically shaped, but symmetrically paired pennaceous feathers on the wings or tail of a bird; those on the wings are called remiges (/ˈrɛmɪdʒiːz/), singular remex (/ˈriːmɛks/), while those on the tail are called rectrices (/ˈrɛktrɪsiːz/ or /rɛkˈtraɪsiːz/), singular rectrix (/ˈrɛktrɪks/). The primary function of the flight feathers is to aid in the generation of both thrust and lift, thereby enabling flight. The flight feathers of some birds perform additional functions, generally associated with territorial displays, courtship rituals or feeding methods. In some species, these feathers have developed into long showy plumes used in visual courtship displays, while in others they create a sound during display flights. Tiny serrations on the leading edge of their remiges help owls to fly silently (and therefore hunt more successfully), while the extra-stiff rectrices of woodpeckers help them to brace against tree trunks as they hammer on them. Even flightless birds still retain flight feathers, though sometimes in radically modified forms.

The remiges are divided into primary and secondary feathers based on their position along the wing. There are typically 11 primaries attached to the manus (six attached to the metacarpus and five to the phalanges), but the outermost primary, called the remicle, is often rudimentary or absent; certain birds, notably the flamingos, grebes, and storks, have seven primaries attached to the metacarpus and 12 in all. Secondary feathers are attached to the ulna. The fifth secondary remex (numbered inwards from the carpal joint) was formerly thought to be absent in some species, but the modern view of this diastataxy is that there is a gap between the fourth and fifth secondaries. Tertiary feathers growing upon the adjoining portion of the brachium are not considered true remiges.^[2]^[3]^[4]^[5]^[6]^[7]

The moult of their flight feathers can cause serious problems for birds, as it can impair their ability to fly. Different species have evolved different strategies for coping with this, ranging from dropping all their flight feathers at once (and thus becoming flightless for some relatively short period of time) to extending the moult over a period of several years.

^ Julian J. Baumel. Handbook of Avian Anatomy: Nomina Anatomica Avium. 1993
^ Bruce Campbell, Elizabeth Lack. A Dictionary of Birds. T & AD Poyser Ltd. 1985
^ Olin Sewall Pettingill Jr. Ornithology in Laboratory and Field. 5th Edition. Academic Press, 1985
^ Brian K. Wheeler. Birds of Prey of the West: A Field Guide. Princeton University Press, 2018
^ Lukas Jenni, Raffael Winkler. The Biology of Moult in Birds. Bloomsbury Publishing Plc, 2020
^ John J. Videler. Avian Flight. Oxford University Press 2005
^ Oxford Dictionary of English, 3rd Edition. Oxford University Press 2010

[1] Julian J. Baumel. Handbook of Avian Anatomy: Nomina Anatomica Avium. 1993

[2] Bruce Campbell, Elizabeth Lack. A Dictionary of Birds. T & AD Poyser Ltd. 1985

[3] Olin Sewall Pettingill Jr. Ornithology in Laboratory and Field. 5th Edition. Academic Press, 1985

[4] Brian K. Wheeler. Birds of Prey of the West: A Field Guide. Princeton University Press, 2018

[5] Lukas Jenni, Raffael Winkler. The Biology of Moult in Birds. Bloomsbury Publishing Plc, 2020

[6] John J. Videler. Avian Flight. Oxford University Press 2005

[7] Oxford Dictionary of English, 3rd Edition. Oxford University Press 2010

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