For other uses, see Swift (disambig

For other uses, see Swift (disambiguation).
Swift
Temporal range: Eocene to present
Sunset Sunset 01.jpg
Common swift, Apus sunset
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Birds
Order: Apodiformes
Family: Apodidae
Hartert, 1897
Genera
Nearly 20, see text.

The swifts are a family, Apodidae, of highly aerial birds. They are superficially similar to swallows, but are not closely related to any of the passerine species. Swifts are placed in the order Apodiformes, which they share with hummingbirds. The treeswifts are closely related to the true swifts, but form a separate family, the Hemiprocnidae.

Resemblances between swifts and swallows are due to convergent evolution, reflecting similar life styles based on catching insects in flight.

The family name, Apodidae, is derived from the Greek ἄπους (ápous), meaning "footless", a reference to the small, weak legs of these most aerial of birds.[1][2] The tradition of depicting swifts without feet continued into the Middle Ages, as seen in the heraldic martlet.

Some species of swifts are among the fastest animals on the planet, with some of the fastest measured flight speeds of any bird.

Contents [hide]
1 Taxonomy
1.1 Species
2 Description
3 Distribution and habitat
4 Behaviour
4.1 Breeding
4.2 Feeding
5 Status
6 Relations with humans
7 See also
8 References
9 Bibliography
10 External links
Taxonomy[edit]

Scaniacypselus fossil
Taxonomists have long classified swifts and treeswifts as relatives of the hummingbirds, a judgement corroborated by the discovery of the Jungornithidae (apparently swift-like hummingbird-relatives) and of primitive hummingbirds such as Eurotrochilus. Traditional taxonomies place the hummingbird family (Trochilidae) in the same order as the swifts and treeswifts (and no other birds); the Sibley-Ahlquist taxonomy treated this group as a superorder in which the swift order was called Trochiliformes.

The taxonomy of the swifts is in general complicated, with genus and species boundaries widely disputed, especially amongst the swiftlets. Analysis of behavior and vocalizations is complicated by common parallel evolution, while analyses of different morphological traits and of various DNA sequences have yielded equivocal and partly contradictory results.[3]

The Apodiformes diversified during the Eocene, at the end of which the extant families were present; fossil genera are known from all over temperate Europe, between today's Denmark and France, such as the primitive swift-like Scaniacypselus[4] (Early - Middle Eocene) and the more modern Procypseloides (Late Eocene/Early Oligocene - Early Miocene). A prehistoric genus sometimes assigned to the swifts, Primapus (Early Eocene of England), might also be a more distant ancestor.

Species[edit]
Main article: List of swifts in taxonomic order
There are around 100 species of swifts, normally grouped into two subfamilies and four tribes.[5]

Cypseloidinae

Tribe Cypseloidini
Apodinae

Tribe Collocaliini
Tribe Chaeturini - needletails
Tribe Apodini - typical swifts
Description[edit]
Swifts are the most aerial of birds. Larger species are amongst the fastest fliers in the animal kingdom, with the white-throated needletail having been reported flying at up to 169 km/h (105 mph).[6] Even the common swift can cruise at a maximum speed of 31 metres per second (112 km/h; 70 mph). In a single year the common swift can cover at least 200,000 km.[7]

Compared with typical birds, swiftlet wings have proportionately large wingtip bones. By changing the angle between the wingtip bones and the forelimb bones, they are able to alter the shape and area of their wings, maximizing their efficiency and maneuverability at various speeds.[8] Like their relatives the hummingbirds, and unlike other birds, they are able to rotate their wings from the base, a trait that allows the wing to remain rigid and fully extended deriving power on both upstroke and downstroke.[9] The downstrokes produces both lift and thrust, while the upstrokes produces a negative thrust (drag) that is 60% of the thrust generated during the downstrokes, but simultaneously it contributes with a lift that is also 60% of what is produced during the downstroke. This flight arrangement could also have benefits for the bird's control and maneuverability in the air.[10]

The swiftlets or cave swiftlets have developed a form of echolocation for navigating through dark cave systems where they roost.[11] One species, Aerodramus papuensis, has recently been found to use this navigation at night outside its cave roost too.

Distribution and habitat[edit]
Swifts occur on all the continents, though not in the far north or large deserts, and on many oceanic islands.[12] The swifts of temperate regions are strongly migratory and winter in the tropics. Some species can survive short periods of cold weather by entering torpor, a state similar to hibernation.[11]

Many have a characteristic shape, with a short forked tail and very long swept-back wings that resemble a crescent or a boomerang. The flight of some species is characterised by a distinctive "flicking" action quite different from swallows. Swifts range in size from the pygmy swiftlet (Collocalia troglodytes), which weighs 5.4 g and measures 9 cm (3.5 in) long, to the purple needletail (Hirundapus celebensis), which weighs 184 g (6.5 oz) and measures 25 cm (9.8 in) long.[11]

Behaviour[edit]
Breeding[edit]
The nest of many species is glued to a vertical surface with saliva, and the genus Aerodramus use only that substance, which is the basis for bird's nest soup. The eggs hatch after 19 to 23 days, and the young leave the nest after a further six to eight weeks. Both parents assist in raising the young.[11]

Swifts as a family have smaller egg clutches and much longer and more variable incubation and fledging times than passerines with similarly sized eggs, resembling tubenoses in these developmental factors. Young birds reach a maximum weight heavier than their parents; they can cope with not being fed for long periods of time, and delay their feather growth when undernourished. Swifts and seabirds have generally secure nest sites, but their food sources are unreliable, whereas passerines are vulnerable in the nest but food is usually plentiful.[13][14]

Feeding[edit]
All swifts eat insects, ranging from aerial spiders, dragonflies, flies, ants, to aphids, wasps and bees. Some species, like the chimney swift, hunt with other bird species as well.

Status[edit]
No swift species has become extinct since 1600,[15] but BirdLife International assesses the Guam swiftlet as endangered and lists the Atiu, dark-rumped, Schouteden's, Seychelles and Tahiti swiftlets as vulnerable; twelve other species are near threatened or lack sufficient data for classification.[16]

Relations with humans[edit]
The hardened saliva nests of the edible-nest swiftlet and the black-nest swiftlet have been used in Chinese cooking for over 400 years, most often as bird's nest soup.[17] Over-harvesting of this expensive delicacy has led to a decline in the numbers of these swiftlets,[18][19] especially as the nests are also thought to have health benefits and aphrodisiac properties. Most nests are built during the breeding season by the male swiftlet over a period of 35 days. They take the shape of a shallow cup stuck to the cave wall. The nests are composed of interwoven strands of salivary cement and contain high levels of calcium, iron, potassium, and magnesium.[19]

See also[edit]
List of Apodiformes by population
List of birds by flight speed
References[edit]
Jump up ^ Jobling (2010) pp. 50–51.
Jump up ^ Kaufman (2001) p. 329.
Jump up ^ Thomassen, Henri A.; Tex, Robert-Jan; de Bakker, Merijn A.G.; Povel, G. David E. (2005). "Phylogenetic relationships amongst swifts and swiftlets: A multi locus approach". Molecular Phylogenetics and Evolution 37 (1): 264–277. doi:10.1016/j.ympev.2005.05.010.
Jump up ^ Mayr, Gerald (2003). "A new Eocene swift-like bird with a peculiar feathering" (PDF). Ibis 145: 382–391. doi:10.1046/j.1474-919x.2003.00168.x.
Jump up ^ Chantler & Driessens (2000) pp. 19–20
Jump up ^ Bourton, Jody (2 March 2010). "Supercharged swifts fly fastest". BBC News.
Jump up ^ Piper, Ross (2007), Extraordinary Animals: An Encyclopedia of Curious and Unusual Animals, Greenwood Press.
Jump up ^ On Swift Wings | Natural History Magazine
Jump up ^ Birds of Venezuela - Steven L. Hilty
Jump up ^ Vortex wake and flight kinematics of a swift in cruising flight in a wind tunnel
^ Jump up to: a b c d Collins, Charles T. (1991). Forshaw, Joseph, ed. Encyclopaedia of Animals: Birds. London: Merehurst Press. pp. 134–136. ISBN 1-85391-186-0.
Jump up ^ Martins, Thais; Mead, Christopher J. (2003). "Swifts". In Perrins, Christopher. The Firefly Encyclopedia of Birds. Firefly Books. pp. 346–350. ISBN 1-55297-777-3.
Jump up ^ Lack, David; Lack, Elizabeth (1951). "The breeding biology of the Swift Apus apus". Ibis 93 (4): 501–546. doi:10.1111/j.1474-919X.1951.tb05457.x.
Jump up ^ Boersma, P Dee (1982). "Why some birds take so long to hatch". The American Naturalist 120 (6): 733–750. doi:10.1086/284027. JSTOR 2461170.
Jump up ^ Hoyo, Josep del; Elliott, Andrew; Sargatal, Jordi; Christie, David A (eds.). "Apodidae". Handbook of the Birds of the World Alive. Lynx Edicions. Retrieved 10 September 2013. (subscription required).
Jump up ^ "Apodidae". Species. BirdLife International. Retrieved 27 October 2013.
Jump up ^ Hobbs, Joseph J (2004). "Problems in the harvest of edible birds’ nests in Sarawak and Sabah, Malaysian Borneo". Biodiversity and Conservation 13: 2209–2226. doi:10.1023/b:bioc.0000047905.79709.7f.
Jump up ^ Gausset, Quentin (2004). "Chronicle of a Foreseeable Tragedy: Birds' Nests Management in the Niah Caves (Sarawak)". Human Ecology 32: 487–506. doi:10.1023/b:huec.0000043517.23277.54.
^ Jump up to: a b Marcone, Massimo F (2005). "Characterization of the edible bird's nest the Caviar of the Eas