The tail is the elongated section at the rear end of a bilaterian animal's body; in general, the term refers to a distinct, flexible appendage extending backwards from the midline of the torso. In vertebrate animals that evolved to lose their tails (e.g. frogs and hominid primates), the coccyx is the homologous vestigial of the tail. While tails are primarily considered a feature of vertebrates, some invertebrates such as scorpions and springtails, as well as snails and slugs, have tail-like appendages that are also referred to as tails.
Tail-shaped objects are sometimes referred to as "caudate" (e.g. caudate lobe, caudate nucleus), and the body part associated with or proximal to the tail are given the adjective "caudal" (which is considered a more precise anatomical terminology).
Function
Animal tails are used in a variety of ways. They provide a source of thrust for aquatic locomotion for fish, cetaceans and crocodilians and other forms of marine life. Terrestrial species of vertebrates that do not need to swim, e.g. cats and kangaroos, instead use their tails for balance; and some, such as monkeys and opossums, have grasping prehensile tails, which are adapted for arboreal locomotion.
Many animals use their tail for utility purposes, for example many grazing animals, such as horses and oxens, use their tails to drive away parasitic flies and sweep off other biting insects. Some animals with broad, furry tails (e.g. foxes) often wrap the tail around the body as means of thermal insulation like a blanket.
Some species' tails serve aggressive functions, either predatorily or defensively. For example, the tails of scorpions have a stinger that contain venom, which can be used to either kill large prey or to fight off a threat. Similarly, stingrays have a thickened spine that can deliver penetrating trauma. Thresher sharks are known to use their long tails to stun prey. Many species of snakes wiggle their tails as a lure to attract prey, who may mistake the tail as a worm. The extinct armored dinosaurs (stegosaurs and ankylosaurs) have tails with spikes or clubs as defensive weapons against predators.
Tails are also used for communication and signalling. Most canines use their tails to communicate mood and intention. Some deer species flash the white underside of their tails to warn other nearby deer of possible danger, beavers slap the water with their tails to indicate danger, felids raise and quiver their tails while scent-marking, and canids (including domestic dogs) indicate emotions through the positioning and movement of their tails. Rattlesnakes perform tail vibration to generate a distinct rattling noise that signals aggression and warns potential predators to stay away.
Some species of lizard (e.g. geckos) can self-amputate ("cast") their tails from their bodies to help them escape predators, which are either distracted by the wriggling detached tail or only manages to seize the severed tail while the lizard flees. Tails cast in this manner generally grow back over time, though the replacement is typically darker in colour than the original and contains only cartilage, not bone. Various species of rat demonstrate a similar function with their tails, known as degloving, in which the outer layer is shed in order for the animal to escape from a predator.
Most birds' tails end in long feathers called rectrices. These feathers are used as a rudder, helping the bird steer and maneuver in flight; they also help the bird to balance while it is perched. In some species—such as birds of paradise, lyrebirds, and most notably peafowl—modified tail feathers play an important role in courtship displays. The extra-stiff tail feathers of other species, including woodpeckers and woodcreepers, allow them to brace themselves firmly against tree trunks.
Human tails
In humans, tail bud refers to the part of the embryo which develops into the end of the spine. However, this is not a tail. Infrequently, a child is born with a "soft tail", which contains no vertebrae, but only blood vessels, muscles, and nerves, but this is regarded as an abnormality rather than a vestigial true tail, even when such an appendage is located where the tail would be expected. Fewer than 40 cases have been reported of infants with "true tails" containing the caudal vertebrae, a result of atavism.
In 2024, scientists claimed to have found a genetic mutation that contributed to the loss of the tail in the common ancestor of humans and other apes.
Humans have a "tail bone" (the coccyx) attached to the pelvis; it comprises fused vertebrae, usually four, at the bottom of the vertebral column. It does not normally protrude externally - humans are an acaudal (or acaudate) species (i.e., tailless).
Gallery
- Lion (Panthera leo)
- Scorpion
- Pig (Sus domestica)
- Glyptodon (Glyptodon asper)
- Longhorn cowfish (Lactoria cornuta)
- Grévy's zebra (Equus grevyi)
- American alligator (Alligator mississipiensis)
- Hippopotamus (Hippopotamus amphibius)
- Red wolf (Canis rufus)
See also
- Empennage, the tail of an aircraft
- Rump (animal)
References
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- Outwitting Cats: Tips, Tricks and Techniques for Persuading the Felines in Your Life That What You Want Is Also What They Want. Rowman & Littlefield. 2004. p. 21. ISBN 978-1-59921-625-6.
- Byron Dawson (2003). The Heinemann Science Scheme. Heinemann. p. 125. ISBN 978-0-435-58332-3.
- Melissa Stewart (1 January 2007). New World Monkeys. Lerner Publications. p. 11. ISBN 978-0-8225-6765-3.
- Gilbert WALDBAUER; Gilbert Waldbauer (30 June 2009). What Good Are Bugs? Insects in the Web of Life. Harvard University Press. p. 253. ISBN 978-0-674-04474-6.
- Mary Pope Osborne; Natalie Pope Boyce (28 October 2014). Magic Tree House Fact & Fiction: Horses. Random House Children's Books. p. 113. ISBN 978-0-553-52368-3.
- Adele Richardson (1 July 2002). Scorpions. Capstone. p. 20. ISBN 978-0-7368-1318-1.
- Masashi Hasegawa; Nobuyo Ohtani (February 2014). "Dogs' Body Language Relevant to Learning Achievement". Animals. 4 (1). Azabu University School of Veterinary Medicine: 45–58. doi:10.3390/ani4010045. PMC 4494300. PMID 26479883.
- D. Muller-Schwarze (6 December 2012). Chemical Signals: Vertebrates and Aquatic Invertebrates. Springer Science & Business Media. p. 47. ISBN 978-1-4684-1027-3.
- Bruce M. Carlson (14 October 2008). Beneath the Surface: A Natural History of a Fisherman's Lake. Minnesota Historical Society. p. 240. ISBN 978-0-87351-656-3.
- Sunquist, Mel; Sunquist, Fiona (2017-05-15). Wild Cats of the World. University of Chicago Press. ISBN 978-0-226-51823-7.
- Stanley Coren; Sarah Hodgson (15 February 2011). Understanding Your Dog For Dummies. John Wiley & Sons. p. 250. ISBN 978-1-118-05276-1.
- Stephen J. Divers; Douglas R. Mader (13 December 2005). Reptile Medicine and Surgery. Elsevier Health Sciences. p. 3468. ISBN 1-4160-6477-X.
- Mackenzie, SJ (2015). "Innervation and function of rat tail muscles for modeling cauda equina injury and repair". Muscle and Nerve. 52 (1): 94–102. doi:10.1002/mus.24498. PMID 25346299. S2CID 40356618.
- David Burnie (5 May 2008). DK Eyewitness Books: Bird. DK Publishing. p. 19. ISBN 978-0-7566-6758-0.
- Exploring Life Science. Marshall Cavendish. 2000. p. 731. ISBN 978-0-7614-7145-5.
- Robert W. McFarlane (1994). A Stillness in the Pines: The Ecology of the Red-cockaded Woodpecker. Norton. p. 40. ISBN 978-0-393-31167-9.
- "Tail Bud". Merriam Webster. Retrieved 4 June 2020.
- "Developmental Stages in Human Embryos: Stage 16". the Endowment for Human Development. Retrieved 4 June 2020.
What Kunitomo (1918) designated the "longest tail" at stage 16 is nothing of the kind but is merely the caudal end of the embryo, which will develop into the coccygeal region.
- "Human tail–caudal appendage: tethered cord". Nature. February 1, 2008. Retrieved 2009-04-28.
- "The 'human tail' causing tethered cervical cord". Nature. November 14, 2006. Retrieved 2009-04-28.
- Shad, Jimmy; Biswas, Rakesh (April 18, 2012). "An infant with caudal appendage". BMJ Case Reports. 2012: bcr1120115160. doi:10.1136/bcr.11.2011.5160. PMC 3339178. PMID 22604513.
- Weisberger, Mindy (March 23, 2024). "Why don't humans have tails? Scientists find answers in an unlikely place". CNN. Archived from the original on March 24, 2024. Retrieved March 24, 2024.
- Callaway, Ewen (2024-02-28). "How humans lost their tails — and why the discovery took 2.5 years to publish". Nature. 627 (8002): 15–16. Bibcode:2024Natur.627...15C. doi:10.1038/d41586-024-00610-x. PMID 38418734.
External links
- Media related to Tails at Wikimedia Commons