Sloth

This article is about the Central and South American mammal. For other uses, see Sloth (disambiguation).

Sloths[1]
Temporal range: Early Oligocene to Holocene
Brown-throated three-toed sloth
(Bradypus variegatus)
Gatun Lake, Republic of Panama.
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Subclass: Theria
Infraclass: Eutheria
Superorder: Xenarthra
Order: Pilosa
Suborder: Folivora
Delsuc, Catzeflis, Stanhope, and Douzery, 2001
Families

Bradypodidae
Megalonychidae
Megatheriidae
Mylodontidae
Nothrotheriidae

Sloths (/ˈslθ/ SLOHTH, /ˈslɒθ/ SLOTH)[2] are medium-sized mammals belonging to the families Megalonychidae (two-toed sloth) and Bradypodidae (three-toed sloth), classified into six species.

They are part of the order Pilosa and are therefore related to anteaters, which sport a similar set of specialized claws. Extant sloths are arboreal (tree-dwelling) residents of the jungles of Central and South America, and are known for being slow-moving, and hence named "sloths". Extinct sloth species include a few species of aquatic sloths and many ground sloths, some of which attained the size of elephants.

Sloths make a good habitat for other organisms, and a single sloth may be home to moths, beetles, cockroaches, ciliates, fungi, and algae.[3]

Taxonomy and names

The sloth's taxonomic suborder is Folivora, sometimes also called Phyllophaga (Owen, 1842) or Tardigrada (Latham and Davies, 1795). The first two names both mean "leaf-eaters"; derived from Latin and Greek, respectively. Names for the animals used by tribes in Ecuador include ritto, rit, and ridette, mostly forms of the word "sleep", "eat", and "dirty" from Tagaeri tribe of Huaorani.

Ecology

Sloths are classified as folivores, as the bulk of their diets consist of buds, tender shoots, and leaves, mainly of Cecropia trees. Some two-toed sloths have been documented as eating insects, small reptiles, and birds as a small supplement to their diets. Linnaeus's two-toed sloth has recently been documented eating human faeces from open latrines.[4] They have made extraordinary adaptations to an arboreal browsing lifestyle. Leaves, their main food source, provide very little energy or nutrients, and do not digest easily. Sloths, therefore, have large, specialized, slow-acting stomachs with multiple compartments in which symbiotic bacteria break down the tough leaves. Sloths' tongues have the unique ability to protrude from their mouths 10 to 12 inches, an ability that is useful for collecting leaves just out of reach.[5] As much as two-thirds of a well-fed sloth's body weight consists of the contents of its stomach, and the digestive process can take a month or more to complete.

Since leaves provide little energy, sloths deal with this by a range of economy measures: they have very low metabolic rates (less than half of that expected for a mammal of their size), and maintain low body temperatures when active (30–34 °C or 86–93 °F), and still lower temperatures when resting.

Although unable to survive outside the tropical rainforests of South and Central America, within that environment sloths are outstandingly successful creatures. On Barro Colorado Island in Panama, sloths have been estimated to comprise 70% of the biomass of arboreal mammals.[6] Four of the six living species are presently rated "least concern"; the maned three-toed sloth (Bradypus torquatus), which inhabits Brazil's dwindling Atlantic Forest, is classified as "vulnerable",[7] while the island-dwelling pygmy three-toed sloth (B. pygmaeus) is critically endangered.

Physiology

Sloth fur exhibits specialized functions: the outer hairs grow in a direction opposite from that of other mammals. In most mammals, hairs grow toward the extremities, but because sloths spend so much time with their legs above their bodies, their hairs grow away from the extremities to provide protection from the elements while the sloth hangs upside down. In most conditions, the fur hosts two species of symbiotic algae, which provide camouflage.[8][9] Because of the algae, sloth fur is a small ecosystem of its own, hosting many species of non-parasitic insects. Sloths have short, flat heads, big eyes; short snouts, long legs, and tiny ears. Some species have stubby tails (6–7 cm long). Altogether, sloths' bodies usually are between 50 and 60 cm long.

Sloths' claws serve as their only natural defense. A cornered sloth may swipe at its attackers in an effort to scare them away or wound them. Despite sloths' apparent defenselessness, predators do not pose special problems: sloths blend in with the trees and, moving only slowly, do not attract attention. Only during their infrequent visits to ground level do they become vulnerable. The main predators of sloths are the jaguar, the harpy eagle, and humans. The majority of recorded sloth deaths in Costa Rica are due to contact with electrical lines and poachers. Their claws also provide a further unexpected deterrent to human hunters; when hanging upside-down in a tree, they are held in place by the claws themselves and often do not fall down even if shot from below.

Despite their adaptation to living in trees, sloths (like many other rainforest animals) make competent swimmers. This is likely to have been true of the extinct ground sloths, as well, as evidenced by the fact that megalonychid sloths were able to colonise the Antilles by the Oligocene, and that the megalonychid Pliometanastes and the mylodontid Thinobadistes were able to colonise North America about 9 million years ago, well before the existence of the Isthmus of Panama. Additionally, the nothrotheriid Thalassocnus of the west coast of South America became adapted to a semiaquatic marine lifestyle.[10]

Sloths move only when necessary and even then very slowly; they have about a quarter as much muscle tissue as other animals of similar weight. They can move at a marginally higher speed if they are in immediate danger from a predator (4 m or 13 ft per minute for the three-toed sloth), but they burn large amounts of energy doing so. Their specialised hands and feet have long, curved claws to allow them to hang upside down from branches without effort.[11] While they sometimes sit on top of branches, they usually eat, sleep, and even give birth hanging from limbs. They sometimes remain hanging from branches after death. On the ground, the maximum speed of the three-toed sloth is 2 m or 6.5 ft per minute.[12]

Sloths were thought to be among the most somnolent animals, sleeping from 15 to 18 hours each day. Recently, however, Dr. Neil Rattenborg and his colleagues from the Max Planck Institute for Ornithology in Starnberg, Germany, published a study testing sloth sleep patterns in the wild; this is the first study of its kind. The study indicated that sloths sleep just under 10 hours a day.[13] Three-toed sloths are mostly diurnal, while two-toed sloths are nocturnal.[14]

Three-toed sloth in the Dallas World Aquarium

Sloths go to the ground to urinate and defecate about once a week, digging a hole and covering it afterwards. They go to the same spot each time and are vulnerable to predation while doing so. The reason for this risky behaviour is unknown, although some believe it is to avoid making noise while defecating from up high that would attract predators.[15] Consistent with this, they reportedly relieve themselves from their branches during storms in the rainy season.[16] Another possible explanation is that the middens provide the sloths with one of their few methods of finding one another for breeding purposes, since their sense of smell is far more acute than their eyesight or hearing.[17] Still other recent studies have suggested that it might be relevant for maintaining the ecosystem in the sloths' fur.[18] Individual sloths tend to spend the bulk of their time feeding on a single "modal" tree; by burying their excreta near the trunk of that tree, they may help nourish it.[19] Recently there has been some speculation that sloths go to the ground to defecate because of their mutually beneficial relationships with moths. While the sloth defecates, female moths that otherwise live on a sloth will get off and immediately lay their eggs directly on the fecal matter, on which the larvae survive until they mature to adulthood and are able to fly onto sloths. Incidentally, it appears that sloths benefit from their relationship with moths because the moths are responsible for fertilizing algae on the sloth, which provides them with nutrients.[20]

Infant sloths normally cling to their mothers' fur, but occasionally fall off. Sloths are very sturdily built and rarely die from a fall. In some cases, they die from a fall indirectly because the mothers prove unwilling to leave the safety of the trees to retrieve the young. Females normally bear one baby every year, but sometimes sloths' low level of movement actually keeps females from finding males for longer than one year. Sloths are not particularly sexually dimorphic and several zoos have purchased sloths of the wrong sex.[21][22]

Almost all mammals have seven cervical vertebrae (neck bones), including those with very short necks, such as elephants or whales, and those with very long necks, such as giraffes). The few exceptions include manatees and two-toed sloths, which each have only six cervical vertebrae, and three-toed sloths with 9 cervical vertebrae.[23]

Evolution

Restoration of the Shasta ground sloth (Nothrotheriops shastense)

Sloths are members of the superorder Xenarthra, a group of mammals that appeared in South America about 60 million years ago (Mya),[24] although at least one source puts the date at which sloths and related animals broke off from other placental mammals at about 100 Mya.[25] Also included among the Xenarthra are anteaters and armadillos. The earliest xenarthrans were arboreal herbivores with sturdy spines, fused pelvises, stubby teeth, and small brains.[24]

The living sloths belong to one of two families, known as the Megalonychidae ("two-toed" sloths) and the Bradypodidae (three-toed sloths). All living sloths have in fact three toes; the "two-toed" sloths, however, have only two fingers. Two-toed sloths are generally faster-moving than three-toed sloths. Both types tend to occupy the same forests; in most areas, one species of three-toed sloth and one species of the larger two-toed type will jointly predominate.

However, their adaptations belie the actual relationships of the living sloth families, which are more distant from each other than their outward similarity suggests. The common ancestor of the two families apparently lived 35–40 Mya, making the living forms exceptional examples of convergent or parallel evolution.[26] The two-toed sloths of today are far more closely related to one particular group of ground sloths than to the living three-toed sloths. Whether these ground-dwelling Megalonychidae were descended from tree-climbing ancestors or whether the two-toed sloths are really miniature ground sloths converted (or reverted) to arboreal life cannot presently be determined to satisfaction. The latter possibility seems slightly more likely, because the small ground sloths Acratocnus and Neocnus, which were also able to climb, are among the closer relatives of the two-toed sloths, and these together were related to the huge ground sloths Megalonyx and Megalocnus.

The evolutionary history of the three-toed sloths is not well known. No particularly close relatives, ground-dwelling or not, have yet been identified.

The ground sloths do not constitute a monophyletic group. Rather, they make up a number of lineages, and as far as is known, until the Holocene, most sloths were in fact ground-dwellers. The famous Megatherium, for example, belonged to a lineage of ground sloths that was not very close to the living sloths and their ground-living relatives, like the small Neocnus or the massive Megalonyx. Meanwhile, Mylodon, among the last ground sloths to disappear, was only very distantly related to either of these.

Classification

Suborder Folivora (sloths)

Extinctions

Until about 10,000 years ago, ground sloths such as Megatherium[27] lived in South America as well as in much of North America; they colonized the latter as part of the Great American Interchange. Along with many other animals, however, they disappeared shortly after the appearance of humans on both continents.[27] Much evidence suggests human hunting contributed to the extinction of the American megafauna, like that of far northern Asia, Australia, New Zealand, and Madagascar.[27] Simultaneous climate change that came with the end of the last ice age may have also played a role in some cases. However, the survival of ground sloths on the Antilles until about 5000 years ago (after these islands were finally settled by humans), long after they had died out on the mainland, points toward human activities as the agency of extinction.[28]

In Peru and Chile, sloths of the genus Thalassocnus adapted to a coastal marine lifestyle beginning in the late Miocene. Initially they just stood in the water, but over a span of 4 million years they eventually evolved into swimming creatures.[29] It is thought that when the Isthmus of Panama closed about 3 million years ago the water grew colder, perhaps contributing to their extinction by the late Pliocene. The plants these sloths fed on may have grown sparse, or they may have been unable to adapt to the lower water temperatures.

Conservation

In Costa Rica, the Aviarios Sloth Sanctuary cares for wounded and abandoned sloths. About 130 animals have been released back into the wild.[30]

In popular culture

A birthday cake featuring sloths

Sloths increased in popularity during the early 21st century,[31][32] with the release of the first of the Ice Age movies, which featured Sid, a prehistoric ground sloth, as a central character.[31] As of 2013, there are four Ice Age movies, with the fifth planned to come out on the 15th of July, 2016.[33] The Croods, which came out in 2013, features a sloth as a family pet.[31] In Disney's upcoming animated film Zootopia, Flash is a sloth who along with other sloths works at the DMV, who all speak and perform various actions extremely slowly, much to the other characters' frustration.[34]

References

  1. Gardner, A. (2005). Wilson, D.E.; Reeder, D.M., eds. Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. pp. 100–101. ISBN 978-0-8018-8221-0. OCLC 62265494.
  2. The pronunciation /ˈslθ/ is commonest in British English. The pronunciation /ˈslɒθ/ is used in most Englishes.
  3. Horne, Genevieve (April 14, 2010). "Sloth fur has symbiotic relationship with green algae". BioMed Central. Springer Science+Business Media. Retrieved February 15, 2013.
  4. Heymann, E. W., Flores Amasifuén, C., Shahuano Tello, N., Tirado Herrera, E. T. & Stojan-Dolar, M (2010). "Disgusting appetite: Two-toed sloths feeding in human latrines". Mammalian Biology 76 (1): 84–86. doi:10.1016/j.mambio.2010.03.003.
  5. "Animals of the Rainforest-Sloth". caltech.edu.
  6. Eisenberg, John F.; Redford, Kent H. (May 15, 2000). Mammals of the Neotropics, Volume 3: The Central Neotropics: Ecuador, Peru, Bolivia, Brazil. University of Chicago Press. pp. 624 (see p. 96). ISBN 978-0-226-19542-1. OCLC 493329394.
  7. Chiarello, A. & Moraes-Barros, N. (2014). "Bradypus torquatus". IUCN Red List of Threatened Species. Version 2014.1. International Union for Conservation of Nature. Retrieved 2015-09-13.
  8. "Rainforest Canopy—Animals". Retrieved 2009-12-30.
  9. "The Hidden Lives of Sloths". Retrieved 2009-12-30.
  10. Muizon, C. de; McDonald, H. G.; Salas, R.; Urbina, M. (June 2004). "The evolution of feeding adaptations of the aquatic sloth Thalassocnus". Journal of Vertebrate Paleontology (Society of Vertebrate Paleontology) 24 (2): 398–410. doi:10.1671/2429b. JSTOR 4524727.
  11. Mendel, 1979; 1981a; 1981b; 1985
  12. "Speed of a Sloth". Hypertextbook.com. Retrieved 2010-05-21.
  13. Briggs, Helen (2008-05-13). "Article "Sloth's Lazy Image 'A Myth'"". BBC News. Retrieved 2010-05-21.
  14. Eisenberg, John F.; Redford, Kent H. (May 15, 2000). Mammals of the Neotropics, Volume 3: The Central Neotropics: Ecuador, Peru, Bolivia, Brazil. University of Chicago Press. pp. 624 (see pp. 94–95, 97). ISBN 978-0-226-19542-1. OCLC 493329394.
  15. David Attenborough. "Life of Mammals". BBC.
  16. Stewart, Melissa (November 2004). "Slow and Steady Sloths". Smithsonian Zoogoer. Smithsonian Institution. Retrieved 2009-09-14.
  17. David Attenborough. "David Attenborough's Life Stories". BBC Radio 4; 8:50 am 7 June 2009.
  18. Title:A syndrome of mutualism reinforces the lifestyle of a sloth Authors:Jonathan N. Pauli, Jorge E. Mendoza, Shawn A. Steffan, Cayelan C.Carey, Paul J. Weimer and M. Zachariah Peery Journal:Proceedings of the Royal Society B
  19. Montgomery, Sy. "Community Ecology of the Sloth". Cecropia: Supplemental Information. Encyclopædia Britannica. Retrieved 2009-09-06.
  20. Ed Yong. "Can Moths Explain Why Sloths Poo On the Ground?". Phenomena.
  21. "Manly secret of non-mating sloth at London Zoo". BBC News (BBC). 19 August 2010. Retrieved 30 April 2015.
  22. "Same-sex sloths dash Drusillas breeding plan". BBC News (BBC). 5 December 2013. Retrieved 30 April 2015.
  23. Narita, Yuichi; Kuratani, Shigeru (2005). "Evolution of the Vertebral Formulae in Mammals: A Perspective on Developmental Constraints". Journal of Experimental Zoology (Mol Dev Evol) 304 (2): 91–106. doi:10.1002/jez.b.21029. PMID 15660398.
  24. 1 2 "At the Zoo: Slow and Steady Sloths". National Zoo| FONZ. Retrieved 2010-05-21.
  25. Carl Zimmer (11 January 2010). "Hunting Fossil Viruses in Human DNA". The New York Times. Retrieved 17 January 2010.
  26. Gaudin, Timothy J. (2004). "Phylogenetic relationships among sloths (Mammalia, Xenarthra, Tardigrada): the craniodental evidence". Zoological Journal of the Linnean Society (Linnean Society of London) 140 (2): 255–305. doi:10.1111/j.1096-3642.2003.00100.x.
  27. 1 2 3 Wildfacts "Megatherium" Check |url= value (help). BBC Science & Nature. Retrieved 2007-01-09.
  28. Steadman, D. W.; Martin, P. S.; MacPhee, R. D. E.; Jull, A. J. T.; McDonald, H. G.; Woods, C. A.; Iturralde-Vinent, M.; Hodgins, G. W. L. (2005-08-16). "Asynchronous extinction of late Quaternary sloths on continents and islands". Proc. Natl. Acad. Sci. USA (National Academy of Sciences) 102 (33): 11763–11768. doi:10.1073/pnas.0502777102. PMC 1187974. PMID 16085711. Retrieved 2009-01-24.
  29. Amson, E.; Muizon, C. de; Laurin, M.; Argot, C.; Buffrénil, V. de (2014). "Gradual adaptation of bone structure to aquatic lifestyle in extinct sloths from Peru". Proceedings of the Royal Society of London, Series B (Royal Society of London) 281 (1782): 1–6. doi:10.1098/rspb.2014.0192.
  30. Sevcenko, Melanie (2013-04-17). "Sloth sanctuary nurtures animals back to health". Deutsche Welle. Retrieved 2013-04-18.
  31. 1 2 3 Rothman, Lily (22 March 2013). "How Sloths Took Over Pop Culture, The World". Time.com (Time Magazine). Retrieved 19 June 2015.
  32. Marechal, Aj (29 October 2013). "Animal Planet Dives Into Pop Culture’s Sloth Fixation". Variety. Retrieved 19 June 2015.
  33. McClintock, Pamela (20 Dec 2013). "'Ice Age 5' to Hit Theaters Summer 2016". The Hollywood Reporter. Retrieved 19 June 2015.
  34. http://variety.com/2015/film/news/zootopia-trailer-dmv-sloths-1201646717/

External links

Look up sloth in Wiktionary, the free dictionary.
Wikimedia Commons has media related to Folivora.
Wikisource has the text of the 1920 Encyclopedia Americana article Sloth.
This article is issued from Wikipedia - version of the Monday, February 08, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.