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Link to original content: http://en.wikipedia.org/wiki/Cloacal_kiss
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Cloaca

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(Redirected from Cloacal kiss)
Cloaca of a red-tailed hawk

A cloaca (/klˈkə/ kloh-AY-kə), pl.: cloacae (/klˈsi/ kloh-AY-see or /klˈki/ kloh-AY-kee), or vent, is the rear orifice that serves as the only opening for the digestive (rectum), reproductive, and urinary tracts (if present) of many vertebrate animals. All amphibians, reptiles, birds, and a few mammals (monotremes, afrosoricids, and marsupial moles)[clarification needed] have this orifice, from which they excrete both urine and feces; this is in contrast to most placental mammals, which have separate orifices for evacuation and reproduction. Excretory openings with analogous purpose in some invertebrates are also sometimes called cloacae. Mating through the cloaca is called cloacal copulation and cloacal kissing.

The cloacal region is also often associated with a secretory organ, the cloacal gland, which has been implicated in the scent-marking behavior of some reptiles,[1] marsupials,[2] amphibians, and monotremes.[3]

Etymology

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The word is from the Latin verb cluo, "(I) cleanse", thus the noun cloaca, "sewer, drain".[4][5][6]

Birds

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Cloaca of a female bird
Cloaca of a male bird
A roseate spoonbill excreting urine in flight

Birds reproduce using their cloaca; this occurs during a cloacal kiss in most birds.[7] Birds that mate using this method touch their cloacae together, in some species for only a few seconds, sufficient time for sperm to be transferred from the male to the female.[8] For palaeognaths and waterfowl, the males do not use the cloaca for reproduction, but have a phallus.[9]

One study[10] has looked into birds that use their cloaca for cooling.[11]

Among falconers, the word vent is also a verb meaning "to defecate".

Fish

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Among fish, a true cloaca is present only in elasmobranchs (sharks and rays) and lobe-finned fishes. In lampreys and in some ray-finned fishes, part of the cloaca remains in the adult to receive the urinary and reproductive ducts, although the anus always opens separately. In chimaeras and most teleosts, however, all three openings are entirely separated.[12]

Mammals

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With a few exceptions noted below, mammals have no cloaca. Even in the marsupials that have one, the cloaca is partially subdivided into separate regions for the anus and urethra.

Diagrams to illustrate the changes in the cloaca in mammals during development. A, early embryonic stage, showing the cloaca receiving the urinary bladder, the rectum, and the Wolffian duct, as in non-therian vertebrates. B, later stage, showing the beginning of the fold which divides the cloaca into a ventral urogenital sinus which receives the urinary bladder, Wolffian ducts, and ureters, and into a dorsal part which receives the rectum. C, further progress of the fold, dividing the cloaca into urogenital sinus and rectum; the ureter has separated from the Wolffian duct and is shifting anteriorly. D, completion of the fold, showing complete separation of the cloaca into ventral urogenital sinus and dorsal rectum.[13]

Monotremes

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The monotremes (egg-laying mammals) possess a true cloaca.[14]

Marsupials

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Cloacal opening in an Australian brushtail possum

In marsupials, the genital tract is separate from the anus, but a trace of the original cloaca does remain externally.[12] This is one of the features of marsupials (and monotremes) that suggest their basal nature, as the amniotes from which mammals evolved had a cloaca, and probably so did the earliest mammals.

Unlike other marsupials, marsupial moles have a true cloaca.[15] This fact has been used to argue that they are not marsupials.[16][17][unreliable source?]

Placentals

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Most adult placentals have no cloaca. In the embryo, the embryonic cloaca divides into a posterior region that becomes part of the anus, and an anterior region that develops depending on sex: in males, it forms the penile urethra, while in females, it develops into the vestibule or urogenital sinus that receives the urethra and vagina.[12][18] However, some placentals retain a cloaca as adults: those are members of the order Afrosoricida (small mammals native to Africa) as well as some shrews.[19][20]

Being placental animals, humans have an embryonic cloaca which divides into separate tracts during the development of the urinary and reproductive organs. However, a few human congenital disorders result in persons being born with a cloaca, including persistent cloaca and sirenomelia (mermaid syndrome).

Reptiles

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In reptiles, the cloaca consists of the urodeum, proctodeum, and coprodeum.[21][22] Some species have modified cloacae for increased gas exchange (see reptile respiration and reptile reproduction). This is where reproductive activity occurs.[23]

Cloacal respiration in animals

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Some turtles, especially those specialized in diving, are highly reliant on cloacal respiration during dives.[24] They accomplish this by having a pair of accessory air bladders connected to the cloaca, which can absorb oxygen from the water.[25]

Sea cucumbers use cloacal respiration. The constant flow of water through it has allowed various fish, polychaete worms and even crabs to specialize to take advantage of it while living protected inside the cucumber. At night, many of these species emerge through the anus of the sea cucumber in search of food.[26]

See also

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References

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  1. ^ Carl Gans; David Crews (June 1992). Hormones, Brain, and Behavior. University of Chicago Press. ISBN 978-0-226-28124-7.
  2. ^ R. F. Ewer (11 December 2013). Ethology of Mammals. Springer. ISBN 978-1-4899-4656-0.
  3. ^ Harris, R. L., Cameron, E. Z., Davies, N. W., & Nicol, S. C. (2016). Chemical cues, hibernation and reproduction in female short-beaked echidnas (Tachyglossus aculeatus setosus): implications for sexual conflict. In Chemical Signals in Vertebrates 13 (pp. 145-166). Springer, Cham.
  4. ^ Cassell's Latin Dictionary, Marchant, J.R.V, & Charles, Joseph F., (Eds.), Revised Edition, 1928, p.103
  5. ^ Harper, Douglas. "cloaca". Online Etymology Dictionary.
  6. ^ cloaca. Charlton T. Lewis and Charles Short. A Latin Dictionary on Perseus Project.
  7. ^ Michael L. Morrison; Amanda D. Rodewald; Gary Voelker; Melanie R. Colón; Jonathan F. Prather (3 September 2018). Ornithology: Foundation, Analysis, and Application. JHU Press. ISBN 978-1-4214-2471-2.
  8. ^ Lynch, Wayne (2007). "The Cloacal Kiss". Owls of the United States and Canada. JHU Press. p. 151. ISBN 978-0-8018-8687-4.
  9. ^ Julian Lombardi (1998). Comparative Vertebrate Reproduction. Springer. ISBN 978-0-7923-8336-9. Archived from the original on 26 March 2014. Retrieved 5 December 2012.
  10. ^ Hoffman, Ty C. M.; Walsberg, Glenn E.; DeNardo, Dale F. (2007). "Cloacal evaporation: an important and previously undescribed mechanism for avian thermoregulation". The Journal of Experimental Biology. 210 (5): 741–9. Bibcode:2007JExpB.210..741H. doi:10.1242/jeb.02705. PMID 17297135.
  11. ^ Hager, Yfke (2007). "Cloacal Cooling". The Journal of Experimental Biology. 210 (5): i. Bibcode:2007JExpB.210S...1H. doi:10.1242/jeb.02737.
  12. ^ a b c Romer, Alfred Sherwood; Parsons, Thomas S. (1977). The Vertebrate Body. Philadelphia, PA: Holt-Saunders International. pp. 396–399. ISBN 978-0-03-910284-5.
  13. ^ Libbie Henrietta Hyman, A laboratory manual for comparative vertebrate anatomy. 1922 (1920s)
  14. ^ Mervyn Griffiths (2 December 2012). The Biology of the Monotremes. Elsevier Science. ISBN 978-0-323-15331-7.
  15. ^ Gadow, Hans (20 August 2009). "On the Systematic Position of Notoryctes typhlops". Proceedings of the Zoological Society of London. 60 (3): 361–433. doi:10.1111/j.1469-7998.1892.tb06835.x.
  16. ^ Riedelsheimer, B.; Unterberger, Pia; Künzle, H.; Welsch, U. (November 2007). "Histological study of the cloacal region and associated structures in the hedgehog tenrec Echinops telfairi". Mammalian Biology. 72 (6): 330–341. Bibcode:2007MamBi..72..330R. doi:10.1016/j.mambio.2006.10.012.
  17. ^ Chimento, Nicolás; Agnolin, Federico (22 December 2014), Morphological evidence supports Dryolestoid affinities for the living Australian marsupial mole Notoryctes, PeerJ PrePrints, doi:10.7287/peerj.preprints.755
  18. ^ Linzey, Donald W. (2020). Vertebrate Biology: Systematics, Taxonomy, Natural History, and Conservation. Johns Hopkins University Press. p. 306. ISBN 978-1-42143-733-0.
  19. ^ Symonds, Matthew R. E. (February 2005). "Phylogeny and life histories of the 'Insectivora': controversies and consequences". Biological Reviews. 80 (1): 93–128. doi:10.1017/S1464793104006566. PMID 15727040. S2CID 21132866.
  20. ^ Jonathan Kingdon; David Happold; Thomas Butynski; Michael Hoffman; Meredith Happold; Jan Kalina (2020). Mammals of Africa: Volumes I-VI. Bloomsbury Publishing. p. 216. ISBN 978-1-40818-996-2. Retrieved 13 November 2024.
  21. ^ Stephen J. Divers; Douglas R. Mader (13 December 2005). Reptile Medicine and Surgery - E-Book. Elsevier Health Sciences. ISBN 978-1-4160-6477-0.
  22. ^ C. Edward Stevens; Ian D. Hume (25 November 2004). Comparative Physiology of the Vertebrate Digestive System. Cambridge University Press. pp. 23–. ISBN 978-0-521-61714-7.
  23. ^ Orenstein, Ronald (2001). Turtles, Tortoises & Terrapins: Survivors in Armor. Firefly Books. ISBN 978-1-55209-605-5.
  24. ^ Dunson, William A. (1960). "Aquatic Respiration in Trionyx spinifer asper". Herpetologica. 16 (4): 277–83. JSTOR 3889486.
  25. ^ The Straight Dope - Is it true turtles breathe through their butts?
  26. ^ Aquarium Invertebrates by Rob Toonen, Ph.D.