Coprophagia (/ˌkɒprəˈfeɪdʒiə/KOP-rə-FAY-jee-ə)[1] or coprophagy (/kəˈprɒfədʒi/kə-PROF-ə-jee) is the consumption of feces. The word is derived from the Ancient Greekκόπροςkópros "feces" and φαγεῖνphageîn "to eat". Coprophagy refers to many kinds of feces-eating, including eating feces of other species (heterospecifics), of other individuals (allocoprophagy), or one's own (autocoprophagy). Feces may be already deposited or taken directly from the anus.[2]
In humans, coprophagia has been described since the late 19th century in individuals with mental illnesses and in some sexual acts,[3] such as the practices of anilingus and felching where sex partners insert their tongue into each other's anus and ingest biologically significant amounts of feces.[4] Some animal species eat feces as a normal behavior, in particular lagomorphs, which do so to allow tough plant materials to be digested more thoroughly by passing twice through the digestive tract. Other species may eat feces under certain conditions.
Members of a religious cult[which?] in Thailand routinely ate the feces and dead skin of their leader, whom they considered to be a holy man with healing powers.[8]
During the mid 16th century, physicians tasted their patients' feces to better judge their state and condition, according to François Rabelais. Rubelais studied medicine, but was also a writer of satirical and grotesque fiction, so the truth of this statement is unclear.[15]
Lewin[who?] reported "... consumption of fresh, warm camel feces has been recommended by Bedouins as a remedy for bacterial dysentery; its efficacy (probably attributable to the antibiotic subtilisin from Bacillus subtilis) was anecdotally confirmed by German soldiers in Africa during World War II".[16] However, this story is likely a myth, and independent research has been unable to verify these claims.[17]
Coprophagous insects consume and redigest the feces of large animals. These feces contain substantial amounts of semidigested food, particularly in the case of herbivores, owing to the inefficiency of the large animals' digestive systems. Thousands of species of coprophagous insects are known, especially among the orders Diptera and Coleoptera. Examples of such flies are Scathophaga stercoraria and Sepsis cynipsea, dung flies commonly found in Europe around cattle droppings.
Among beetles, dung beetles are a diverse lineage, many of which feed on the microorganism-rich liquid component of mammals' dung, and lay their eggs in balls composed mainly of the remaining fibrous material.[20] Group living and aggregation among common earwigs promotes allo-coprophagy (consuming the feces of other members of one's own species) to promote the growth of helpful gut bacteria and provide a food source when food is scarce.[21]
Through proctodeal feeding, termites eat one another's feces as a means of obtaining their hindgutprotists. Termites and protists have a symbiotic relationship (e.g. with the protozoan that allows the termites to digest the cellulose in their diet). For example, in one group of termites, a three-way symbiotic relationship exists; termites of the family Rhinotermitidae, cellulolytic protists of the genus Pseudotrichonympha in the guts of these termites, and intracellular bacterial symbionts of the protists.[22]
By vertebrates
Lagomorphs (rabbits, hares, pikas) and some other mammals ferment fiber in their cecums, which is then expelled as cecotropes and eaten from the anus, a process called "cecotrophy". Then their food is processed through the gastrointestinal tract a second time, which allows them to absorb more nutrition. While cecotropes are expelled from the anus, they are not feces and thus eating them is not called coprophagia.
Domesticated and wild mammals are sometimes coprophagic.
Some dogs may lack critical digestive enzymes when they are only eating processed dried foods, so they gain these from consuming fecal matter. They only consume fecal matter that is less than two days old which supports this theory.[23]
Cattle in the United States are often fed chicken litter. Concerns have arisen that the practice of feeding chicken litter to cattle could lead to bovine spongiform encephalopathy (mad-cow disease) because of the crushed bone meal in chicken feed. The U.S. Food and Drug Administration regulates this practice by attempting to prevent the introduction of any part of cattle brain or spinal cord into livestock feed. Chickens also eat their own feces. [24][25] Other countries, such as Canada, have banned chicken litter for use as a livestock feed.[26]
The young of elephants, giant pandas, koalas, and hippos eat the feces of their mothers or other animals in the herd, to obtain the bacteria required to properly digest vegetation found in their ecosystems.[27] When such animals are born, their intestines are sterile and do not contain these bacteria. Without doing this, they would be unable to obtain any nutritional value from plants. Piglets with access to maternal feces early in life exhibited better performance.[28]
Hamsters, guinea pigs, chinchillas, hedgehogs, and pigs eat their own droppings, which are thought to be a source of vitaminsB and K, produced by gut bacteria.[29] Sometimes, there is also the aspect of self-anointment while these creatures eat their droppings.[30] On rare occasions gorillas have been observed consuming their feces, possibly out of boredom, a desire for warm food, or to reingest seeds contained in the feces.[31]
^"Paraphilic Disorders". Diagnostic and Statistical Manual of Mental Disorders (Fifth ed.). Philadelphia, Pennsylvania: American Psychiatric Publishing. 2013. pp. 685–686.
^Holmes RM (2001-11-05). Sex Crimes: Patterns and Behavior. Thousand Oaks: Sage Publications. p. 244. ISBN0-7619-2417-5. OCLC47893709.
^Harada KI, Yamamoto K, Saito T (May 2006). "Effective treatment of coprophagia in a patient with schizophrenia with the novel atypical antipsychotic drug perospirone". Pharmacopsychiatry. 39 (3): 113. doi:10.1055/s-2006-941487. PMID16721701. S2CID260250812.
^Rose EA, Porcerelli JH, Neale AV (2000). "Pica: common but commonly missed". The Journal of the American Board of Family Practice. 13 (5): 353–358. PMID11001006.
^Nichols E, Spector S, Louzada J, Larsen T, Amezquita S, Favila ME, et al. (The Scarabaeinae Research Network) (2008). "Ecological functions and ecosystem services provided by Scarabaeine dung beetles". Biological Conservation. 141 (6): 1461–1474. Bibcode:2008BCons.141.1461N. doi:10.1016/j.biocon.2008.04.011.
^Noda S, Kitade O, Inoue T, Kawai M, Kanuka M, Hiroshima K, et al. (March 2007). "Cospeciation in the triplex symbiosis of termite gut protists (Pseudotrichonympha spp.), their hosts, and their bacterial endosymbionts". Molecular Ecology. 16 (6): 1257–1266. Bibcode:2007MolEc..16.1257N. doi:10.1111/j.1365-294X.2006.03219.x. PMID17391411. S2CID21264858.
^Rothman JM, Pell AN, Nkurunungi JB, Dierenfeld ES (2006). "Nutritional aspects of the diet of wild gorillas."(PDF). In Newton-Fisher NE, Notman H, Paterson JD, Reynolds V (eds.). Primates of Western Uganda. New York, NY: Springer Science & Business Media. pp. 153–169. ISBN978-0-387-33505-6. Archived from the original(PDF) on 18 October 2012.