Turtle

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For other uses, see Turtle (disambiguation).

Turtles
Temporal range:
Late TriassicPresent,[1] 220–0 Ma
Florida box turtle (Terrapene carolina)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Clade: Pantestudines
Clade: Testudinata
Clade: Perichelydia
Order: Testudines
Batsch, 1788 [2]
Subgroups

Cryptodira
Pleurodira
Meiolaniidae
and see text

Diversity
14 extant families with 356 species
Blue: sea turtles, black: land turtles

Turtles are diapsids of the order Testudines (or Chelonii[3]) characterized by a special bony or cartilaginous shell developed from their ribs and acting as a shield.[4] "Turtle" may refer to the order as a whole (American English) or to fresh-water and sea-dwelling testudines (British English).[5] The order Testudines includes both extant (living) and extinct species. The earliest known members of this group date from 220 million years ago,[1][6] making turtles one of the oldest reptile groups and a more ancient group than snakes or crocodilians. Of the 356 known species[2] alive today, some are highly endangered.[2]

Turtles are ectotherms—animals commonly called cold-blooded—meaning that their internal temperature varies according to the ambient environment. However, because of their high metabolic rate, leatherback sea turtles have a body temperature that is noticeably higher than that of the surrounding water. Turtles are classified as amniotes, along with other reptiles, birds, and mammals. Like other amniotes, turtles breathe air and do not lay eggs underwater, although many species live in or around water. The study of turtles is called cheloniology, after the Greek word for turtle. It is also sometimes called testudinology, after the Latin name for turtles.

Turtle, tortoise, or terrapin

Turtle, tortoise, and terrapin
Green sea turtle
African spurred tortoise
Red-eared slider (terrapin)

Differences exist in usage of the common terms turtle, tortoise, and terrapin, depending on the variety of English being used.[7] These terms are common names and do not reflect precise biological or taxonomic distinctions.[8]

Turtle may either refer to the order as a whole, or to particular turtles that make up a form taxon that is not monophyletic, or may be limited to only aquatic species. Tortoise usually refers to any land-dwelling, non-swimming chelonian.[9] Terrapin is used to describe several species of small, edible, hard-shell turtles, typically those found in brackish waters.

In North America, all chelonians are commonly called turtles. Tortoise is used only in reference to fully terrestrial turtles or, more narrowly, only those members of Testudinidae, the family of modern land tortoises.[10][9] Terrapin may refer to small semi-aquatic turtles that live in fresh and brackish water, in particular the diamondback terrapin (Malaclemys terrapin).[11][12][13][14] Although the members of the genus Terrapene dwell mostly on land, they are referred to as box turtles rather than tortoises.[8] The American Society of Ichthyologists and Herpetologists uses "turtle" to describe all species of the order Testudines, regardless of whether they are land-dwelling or sea-dwelling, and uses "tortoise" as a more specific term for slow-moving terrestrial species.[7]

In the United Kingdom, the word turtle is used for water-dwelling species, including ones known in the US as terrapins, but not for terrestrial species, which are known only as tortoises.

The word chelonian is popular among veterinarians, scientists, and conservationists working with these animals as a catch-all name for any member of the superorder Chelonia, which includes all turtles living and extinct, as well as their immediate ancestors. Chelonia is based on the Greek word for turtles, χελώνη chelone;[15][16][17] Testudines, on the other hand, is based on the Latin word for tortoise, testudo.[18] Terrapin comes from an Algonquian word for turtle.[10][19]

Some languages do not have this distinction, as all of these are referred to by the same name. For example, in Spanish, the word tortuga is used for turtles, tortoises, and terrapins. A sea-dwelling turtle is tortuga marina, a freshwater species tortuga de río, and a tortoise tortuga terrestre.[20]

Anatomy and morphology

This image from Pacific Lutheran University shows the cervical vertebrae of a Cryptodire as seen ventrally. The vertebrae have an S-shaped curve to allow for neck retraction into the shell.

The largest living chelonian is the leatherback sea turtle (Dermochelys coriacea), which reaches a shell length of 200 cm (6.6 ft) and can reach a weight of over 900 kg (2,000 lb). Freshwater turtles are generally smaller, but with the largest species, the Asian softshell turtle Pelochelys cantorii, a few individuals have been reported up to 200 cm (6.6 ft). This dwarfs even the better-known alligator snapping turtle, the largest chelonian in North America, which attains a shell length of up to 80 cm (2.6 ft) and weighs as much as 113.4 kg (250 lb).[21]

Giant tortoises of the genera Geochelone, Meiolania, and others were relatively widely distributed around the world into prehistoric times, and are known to have existed in North and South America, Australia, and Africa. They became extinct at the same time as the appearance of man, and it is assumed humans hunted them for food. The only surviving giant tortoises are on the Seychelles and Galápagos Islands and can grow to over 130 cm (51 in) in length, and weigh about 300 kg (660 lb).[22]

The largest ever chelonian was Archelon ischyros, a Late Cretaceous sea turtle known to have been up to 4.6 m (15 ft) long.[23]

The smallest turtle is the speckled padloper tortoise of South Africa. It measures no more than 8 cm (3.1 in) in length and weighs about 140 g (4.9 oz). Two other species of small turtles are the American mud turtles and musk turtles that live in an area that ranges from Canada to South America. The shell length of many species in this group is less than 13 cm (5.1 in) in length.

Neck retraction

Neck retraction in turtles
Pleurodires retract their neck sideways
Cryptodires retract their neck backwards

Turtles are divided into two groups, according to how they retract their necks into their shells (something the ancestral Proganochelys could not do). The mechanism of neck retraction differs phylogenetically: the suborder Pleurodira retracts laterally to the side, anterior to shoulder girdles, while the suborder Cryptodira retracts straight back, between shoulder girdles.[24] These motions are largely due to the morphology and arrangement of cervical vertebrae. Of all recent turtles, the cervical column consists of nine joints and eight vertebrae, which are individually independent.[25] Since these vertebrae are not fused and are rounded, the neck is more flexible, being able to bend in the backwards and sideways directions.[24] The primary function and evolutionary implication of neck retraction is thought to be for feeding rather than protection.[26] Neck retraction and reciprocal extension allows the turtle to reach out further to capture prey while swimming. Neck expansion creates suction when the head is thrust forward and the oropharynx is expanded, and this morphology suggests the retraction function is for feeding purposes as the suction helps catch prey.[26] The protection the shell provides the head when it is retracted is therefore not the main function of retraction, thus is an exaptation.[27] As for the difference between the two methods of retraction, both Pleurodirans and Cryptodirans use the quick extension of the neck as a method of predation, so the difference in retraction mechanism is not due to a difference in ecological niche.[28]

Head

Most turtles that spend most of their lives on land have their eyes looking down at objects in front of them. Some aquatic turtles, such as snapping turtles and soft-shelled turtles, have eyes closer to the top of the head. These species of turtle can hide from predators in shallow water, where they lie entirely submerged except for their eyes and nostrils. Near their eyes, sea turtles possess glands that produce salty tears that rid their body of excess salt taken in from the water they drink.

Turtles have rigid beaks and use their jaws to cut and chew food. Instead of having teeth, which they appear to have lost about 150-200 million years ago,[29] the upper and lower jaws of the turtle are covered by horny ridges. Carnivorous turtles usually have knife-sharp ridges for slicing through their prey. Herbivorous turtles have serrated-edged ridges that help them cut through tough plants. They use their tongues to swallow food, but unlike most reptiles, they cannot stick out their tongues to catch food.

Shell

Main article: Turtle shell

The upper shell of the turtle is called the carapace. The lower shell that encases the belly is called the plastron. The carapace and plastron are joined together on the turtle's sides by bony structures called bridges. The inner layer of a turtle's shell is made up of about 60 bones that include portions of the backbone and the ribs, meaning the turtle cannot crawl out of its shell. In most turtles, the outer layer of the shell is covered by horny scales called scutes that are part of its outer skin, or epidermis. Scutes are made up of the fibrous protein keratin that also makes up the scales of other reptiles. These scutes overlap the seams between the shell bones and add strength to the shell. Some turtles do not have horny scutes; for example, the leatherback sea turtle and the soft-shelled turtles have shells covered with leathery skin instead.

The shape of the shell gives helpful clues about how a turtle lives. Most tortoises have a large, dome-shaped shell that makes it difficult for predators to crush the shell between their jaws. One of the few exceptions is the African pancake tortoise, which has a flat, flexible shell that allows it to hide in rock crevices. Most aquatic turtles have flat, streamlined shells, which aid in swimming and diving. American snapping turtles and musk turtles have small, cross-shaped plastrons that give them more efficient leg movement for walking along the bottom of ponds and streams. Another exception is the Belawan Turtle (Cirebon, West Java), which has sunken-back soft-shell.

The color of a turtle's shell may vary. Shells are commonly colored brown, black, or olive green. In some species, shells may have red, orange, yellow, or grey markings, often spots, lines, or irregular blotches. One of the most colorful turtles is the eastern painted turtle, which includes a yellow plastron and a black or olive shell with red markings around the rim.

Tortoises, being land-based, have rather heavy shells. In contrast, aquatic and soft-shelled turtles have lighter shells that help them avoid sinking in water and swim faster with more agility. These lighter shells have large spaces called fontanelles between the shell bones. The shells of leatherback sea turtles are extremely light because they lack scutes and contain many fontanelles.

It has been suggested by Jackson (2002) that the turtle shell can function as pH buffer. To endure through anoxic conditions, such as winter periods trapped beneath ice or within anoxic mud at the bottom of ponds, turtles utilize two general physiological mechanisms. In the case of prolonged periods of anoxia, it has been shown that the turtle shell both releases carbonate buffers and uptakes lactic acid.[30]

Respiration

Respiration, for many amniotes, is achieved by the contraction and relaxation of specific muscle groups (i.e. intercostals, abdominal muscles, and/or a diaphragm) attached to an internal rib-cage that can expand or contract the body wall thus assisting airflow in and out of the lungs.[31] The ribs of Chelonians, however, are fused with their carapace and external to their pelvic and pectoral girdles, a feature unique among turtles. This rigid shell is not capable of expansion, and by rendering their rib-cage immobile, Testudines have had to evolve special adaptations for respiration.[32][33]

Turtle pulmonary ventilation occurs by using specific groups of abdominal muscles attached to their viscera and shell that pull the lungs ventrally during inspiration, where air is drawn in via a negative pressure gradient (Boyle's Law).[31] In expiration, the contraction of the transversus abdominus is the driving force by propelling the viscera into the lungs and expelling air under positive pressure.[32] Conversely, the relaxing and flattening of the oblique abdominis muscle pulls the transversus back down which, once again, draws air back into the lungs.[32] Important auxiliary muscles used for ventilatory processes are the pectoralis, which is used in conjunction with the transverse abdominis during inspiration, and the serratus, which moves with the abdominal oblique accompanying expiration.

The lungs of Testudines are multi-chambered and attached their entire length down the carapace. The number of chambers can vary between taxa, though most commonly they have three lateral chambers, three medial chambers, and one terminal chamber.[34] As previously mentioned, the act of specific abdominal muscles pulling down the viscera (or pushing back up) is what allows for respiration in turtles. Specifically, it is the turtles large liver that pulls or pushes on the lungs.[32] Ventral to the lungs, in the coelomic cavity, the liver of turtles is attached directly to the right lung, and their stomach is directly attached to the left lung by the ventral mesopneumonium, which is attached to their liver by the ventral mesentery.[32] When the liver is pulled down, inspiration begins. Supporting the lungs is the post-pulmonary septum, which is found in all Testudines, and is thought to prevent the lungs from collapsing.[35]

Skin and molting

Tail of a snapping turtle

As mentioned above, the outer layer of the shell is part of the skin; each scute (or plate) on the shell corresponds to a single modified scale. The remainder of the skin has much smaller scales, similar to the skin of other reptiles. Turtles do not molt their skins all at once as snakes do, but continuously in small pieces. When turtles are kept in aquaria, small sheets of dead skin can be seen in the water (often appearing to be a thin piece of plastic) having been sloughed off when the animals deliberately rub themselves against a piece of wood or stone. Tortoises also shed skin, but dead skin is allowed to accumulate into thick knobs and plates that provide protection to parts of the body outside the shell.

By counting the rings formed by the stack of smaller, older scutes on top of the larger, newer ones, it is possible to estimate the age of a turtle, if one knows how many scutes are produced in a year.[36] This method is not very accurate, partly because growth rate is not constant, but also because some of the scutes eventually fall away from the shell.

Limbs

Terrestrial tortoises have short, sturdy feet. Tortoises are famous for moving slowly, in part because of their heavy, cumbersome shells, which restrict stride length.

Skeleton of snapping turtle (Chelydra serpentina)

Amphibious turtles normally have limbs similar to those of tortoises, except that the feet are webbed and often have long claws. These turtles swim using all four feet in a way similar to the dog paddle, with the feet on the left and right side of the body alternately providing thrust. Large turtles tend to swim less than smaller ones, and the very big species, such as alligator snapping turtles, hardly swim at all, preferring to walk along the bottom of the river or lake. As well as webbed feet, turtles have very long claws, used to help them clamber onto riverbanks and floating logs upon which they bask. Male turtles tend to have particularly long claws, and these appear to be used to stimulate the female while mating. While most turtles have webbed feet, some, such as the pig-nosed turtle, have true flippers, with the digits being fused into paddles and the claws being relatively small. These species swim in the same way as sea turtles do (see below).

Sea turtles are almost entirely aquatic and have flippers instead of feet. Sea turtles fly through the water, using the up-and-down motion of the front flippers to generate thrust; the back feet are not used for propulsion but may be used as rudders for steering. Compared with freshwater turtles, sea turtles have very limited mobility on land, and apart from the dash from the nest to the sea as hatchlings, male sea turtles normally never leave the sea. Females must come back onto land to lay eggs. They move very slowly and laboriously, dragging themselves forwards with their flippers.

Behavior

Senses

Turtles are thought to have exceptional night vision due to the unusually large number of rod cells in their retinas. Turtles have color vision with a wealth of cone subtypes with sensitivities ranging from the near ultraviolet (UVA) to red. Some land turtles have very poor pursuit movement abilities, which are normally found only in predators that hunt quick-moving prey, but carnivorous turtles are able to move their heads quickly to snap.

Communication

The Arrau turtle has a sizable vocal repertoire.[37]

While typically thought of as mute, turtles make various sounds when communicating. Tortoises may be vocal when courting and mating. Various species of both freshwater and sea turtles emit numerous types of calls, often short and low frequency, from the time they are in the egg to when they are adults. These vocalizations may serve to create group cohesion when migrating.[37]

Intelligence

See also: Animal cognition

It has been reported that wood turtles are better than white rats at learning to navigate mazes.[38] Case studies exist of turtles playing.[38] They do, however, have a very low encephalization quotient (relative brain to body mass), and their hard shells enable them to live without fast reflexes or elaborate predator avoidance strategies.[39] In the laboratory, turtles (Pseudemys nelsoni) can learn novel operant tasks and have demonstrated a long-term memory of at least 7.5 months.[40]

Ecology and life history

Sea turtle swimming

Although many turtles spend large amounts of their lives underwater, all turtles and tortoises breathe air and must surface at regular intervals to refill their lungs. They can also spend much or all of their lives on dry land. Aquatic respiration in Australian freshwater turtles is currently being studied. Some species have large cloacal cavities that are lined with many finger-like projections. These projections, called papillae, have a rich blood supply and increase the surface area of the cloaca. The turtles can take up dissolved oxygen from the water using these papillae, in much the same way that fish use gills to respire.[41]

Like other reptiles, turtles lay eggs that are slightly soft and leathery. The eggs of the largest species are spherical while the eggs of the rest are elongated. Their albumen is white and contains a different protein from bird eggs, such that it will not coagulate when cooked. Turtle eggs prepared to eat consist mainly of yolk. In some species, temperature determines whether an egg develops into a male or a female: a higher temperature causes a female, a lower temperature causes a male. Large numbers of eggs are deposited in holes dug into mud or sand. They are then covered and left to incubate by themselves. Depending on the species, the eggs will typically take 70–120 days to hatch.[citation needed] When the turtles hatch, they squirm their way to the surface and head toward the water. There are no known species in which the mother cares for her young.

Sea turtles lay their eggs on dry, sandy beaches. Immature sea turtles are not cared for by the adults. Turtles can take many years to reach breeding age, and in many cases, breed every few years rather than annually.

Researchers have recently discovered a turtle's organs do not gradually break down or become less efficient over time, unlike most other animals. It was found that the liver, lungs, and kidneys of a centenarian turtle are virtually indistinguishable from those of its immature counterpart. This has inspired genetic researchers to begin examining the turtle genome for longevity genes.[42]

A group of turtles is known as a bale.[43]

Diet

A green sea turtle grazing on seagrass

A turtle's diet varies greatly depending on the environment in which it lives. Adult turtles typically eat aquatic plants;[citation needed] invertebrates such as insects, snails, and worms; and have been reported to occasionally eat dead marine animals. Several small freshwater species are carnivorous, eating small fish and a wide range of aquatic life. However, protein is essential to turtle growth and juvenile turtles are purely carnivorous.

Sea turtles typically feed on jellyfish, sponges, and other soft-bodied organisms. Some species with stronger jaws have been observed to eat shellfish, while others, such as the green sea turtle, do not eat meat at all and, instead, have a diet largely made up of algae.[44]

Systematics and evolution

Main article: Turtle classification
See also: List of Testudines families
Life restoration of Odontochelys semitestacea, the oldest known turtle relative with a partial shell
"Chelonia" from Ernst Haeckel's Kunstformen der Natur, 1904

Based on body fossils, the first proto-turtles are believed to have existed in the late Triassic Period of the Mesozoic era, about 220 million years ago, and their shell, which has remained a remarkably stable body plan, is thought to have evolved from bony extensions of their backbones and broad ribs that expanded and grew together to form a complete shell that offered protection at every stage of its evolution, even when the bony component of the shell was not complete. This is supported by fossils of the freshwater Odontochelys semitestacea or "half-shelled turtle with teeth", from the late Triassic, which have been found near Guangling in southwest China. Odontochelys displays a complete bony plastron and an incomplete carapace, similar to an early stage of turtle embryonic development.[45] Prior to this discovery, the earliest-known fossil turtle ancestors, like Proganochelys, were terrestrial and had a complete shell, offering no clue to the evolution of this remarkable anatomical feature. By the late Jurassic, turtles had radiated widely, and their fossil history becomes easier to read.

Their exact ancestry has been disputed. It was believed they are the only surviving branch of the ancient evolutionary grade Anapsida, which includes groups such as procolophonids, millerettids, protorothyrids, and pareiasaurs. All anapsid skulls lack a temporal opening while all other extant amniotes have temporal openings (although in mammals, the hole has become the zygomatic arch). The millerettids, protorothyrids, and pareiasaurs became extinct in the late Permian period and the procolophonoids during the Triassic.[46]

However, it was later suggested that the anapsid-like turtle skull may be due to reversion rather than to anapsid descent. More recent morphological phylogenetic studies with this in mind placed turtles firmly within diapsids, slightly closer to Squamata than to Archosauria.[47][48] All molecular studies have strongly upheld the placement of turtles within diapsids; some place turtles within Archosauria,[49] or, more commonly, as a sister group to extant archosaurs,[50][51][52][53] though an analysis conducted by Lyson et al. (2012) recovered turtles as the sister group of lepidosaurs instead.[54] Reanalysis of prior phylogenies suggests that they classified turtles as anapsids both because they assumed this classification (most of them studying what sort of anapsid turtles are) and because they did not sample fossil and extant taxa broadly enough for constructing the cladogram. Testudines were suggested to have diverged from other diapsids between 200 and 279 million years ago, though the debate is far from settled.[47][50][55] Even the traditional placement of turtles outside Diapsida cannot be ruled out at this point. A combined analysis of morphological and molecular data conducted by Lee (2001) found turtles to be anapsids (though a relationship with archosaurs couldn't be statistically rejected).[56] Similarly, a morphological study conducted by Lyson et al.. (2010) recovered them as anapsids most closely related to Eunotosaurus.[57] A molecular analysis of 248 nuclear genes from 16 vertebrate taxa suggests that turtles are a sister group to birds and crocodiles (the Archosauria).[58] The date of separation of turtles and birds and crocodiles was estimated to be 255 million years ago. The most recent common ancestor of living turtles, corresponding to the split between Pleurodira and Cryptodira, was estimated to have occurred around 157 million years ago.[59][60] The oldest definitive crown-group turtle (member of the modern clade Testudines) is the species Caribemys oxfordiensis from the late Jurassic period (Oxfordian stage).[59] Through utilizing the first genomic-scale phylogenetic analysis of ultraconserved elements (UCEs) to investigate the placement of turtles within reptiles, Crawford et al. (2012) also suggest that turtles are a sister group to birds and crocodiles (the Archosauria).[61]

The first genome-wide phylogenetic analysis was completed by Wang et al. (2013). Using the draft genomes of Chelonia mydas and Pelodiscus sinensis, the team used the largest turtle data set to date in their analysis and concluded that turtles are likely a sister group of crocodilians and birds (Archosauria).[62] This placement within the diapsids suggests that the turtle lineage lost diapsid skull characteristics as it now possesses an anapsid-like skull.

The earliest known fully shelled member of the turtle lineage is the late Triassic Proganochelys. This genus already possessed many advanced turtle traits, and thus probably indicates many millions of years of preceding turtle evolution; this is further supported by evidence from fossil tracks from the Early Triassic of the United States (Wyoming and Utah) and from the Middle Triassic of Germany, indicating that proto-turtles already existed as early as the Early Triassic.[63] Proganochelys lacked the ability to pull its head into its shell, had a long neck, and had a long, spiked tail ending in a club. While this body form is similar to that of ankylosaurs, it resulted from convergent evolution.

Turtles are divided into two extant suborders: Cryptodira and Pleurodira. The Cryptodira is the larger of the two groups and includes all the marine turtles, the terrestrial tortoises, and many of the freshwater turtles. The Pleurodira are sometimes known as the side-necked turtles, a reference to the way they retract their heads into their shells. This smaller group consists primarily of various freshwater turtles.

Classification of turtles

Clade Testudinata Klein, 1760[64]

Fossil record

Turtle fossils of hatchling and nestling size have been documented in the scientific literature.[65] Paleontologists from North Carolina State University have found the fossilized remains of the world's largest turtle in a coal mine in Colombia. The specimen named as Carbonemys cofrinii is around 60 million years old and nearly 2.4 m (8 ft) long.[66]

On a few rare occasions, paleontologists have succeeded in unearthing large numbers of Jurassic or Cretaceous turtle skeletons accumulated in a single area (the Nemegt Formation in Mongolia, the Turtle Graveyard in North Dakota, or the Black Mountain Turtle Layer in Wyoming). The most spectacular find of this kind to date occurred in 2009 in Shanshan County in Xinjiang, where over a thousand ancient freshwater turtles apparently died after the last water hole in an area dried out during a major drought.[67][68]

Though absent from New Zealand in recent times, turtle fossils are known from the Miocene Saint Bathans Fauna, represented by a meiolaniid and pleurodires.[69]

Genomics

Turtles possess diverse chromosome numbers (2n = 28–66) and a myriad of chromosomal rearrangements have occurred during evolution.[70]

In human culture

As pets

A red-eared slider basking on a floating platform under a sun lamp

Some turtles, particularly small terrestrial and freshwater turtles, are kept as pets. Among the most popular are Russian tortoises, spur-thighed tortoises, and red-eared sliders.[71]

In the United States, due to the ease of contracting salmonellosis through casual contact with turtles, the U.S. Food and Drug Administration (FDA) established a regulation in 1975 to discontinue the sale of turtles under 4 in (100 mm).[72] It is supposed to be illegal in every US state for anyone to sell any turtles under 4 inches (10 cm) long, but many stores and flea markets still sell small turtles due to a loophole in the FDA regulation which allows turtles under 4 in (100 mm) to be sold for educational purposes.[73][74]

Some states have other laws and regulations regarding possession of red-eared sliders as pets because they are looked upon as invasive species or pests where they are not native, but have been introduced through the pet trade. As of July 1, 2007, it is illegal in Florida to sell any wild type red-eared slider.[75] Unusual color varieties such as albino and pastel red-eared sliders, which are derived from captive breeding, are still allowed for sale in that state.

As food, traditional medicine, and cosmetics

The flesh of turtles, calipash or calipee, was and still is considered a delicacy in a number of cultures.[76] Turtle soup has been a prized dish in Anglo-American cuisine,[77] and still remains so in some parts of Asia.[which?] Gopher tortoise stew was popular with some groups in Florida.[78]

Turtles remain a part of the traditional diet on the island of Grand Cayman, so much so that when wild stocks became depleted, a turtle farm was established specifically to raise sea turtles for their meat. The farm also releases specimens to the wild as part of an effort to repopulate the Caribbean Sea.[79]

Fat from turtles is also used in the Caribbean and in Mexico as a main ingredient in cosmetics, marketed under its Spanish name crema de tortuga.[80]

Turtle plastrons (the part of the shell that covers a tortoise from the bottom) are widely used in traditional Chinese medicine; according to statistics, Taiwan imports hundreds of tons of plastrons every year.[81] A popular medicinal preparation based on powdered turtle plastron (and a variety of herbs) is the guilinggao jelly;[82] these days, though, it is typically made with only herbal ingredients.

Conservation status

In February 2011, the Tortoise and Freshwater Turtle Specialist Group published a report about the top 25 species of turtles most likely to become extinct, with a further 40 species at very high risk of becoming extinct. This list excludes sea turtles, however, both the leatherback and the Kemp's ridley would make the top 25 list. The report is due to be updated in four years time allowing to follow the evolution of the list. Between 48 and 54% of all 328 of their species considered threatened, turtles and tortoises are at a much higher risk of extinction than many other vertebrates. Of the 263 species of freshwater and terrestrial turtles, 117 species are considered Threatened, 73 are either Endangered or Critically Endangered and 1 is Extinct. Of the 58 species belonging to the family Testudinidae, 33 species are Threatened, 18 are either Endangered or Critically Endangered, 1 is Extinct in the wild and 7 species are Extinct. 71% of all tortoise species are either gone or almost gone. Asian species are the most endangered, closely followed by the five endemic species from Madagascar. Turtles face many threats, including habitat destruction, harvesting for consumption, and the pet trade. The high extinction risk for Asian species is primarily due to the long-term unsustainable exploitation of turtles and tortoises for consumption and traditional Chinese medicine, and to a lesser extent for the international pet trade.[83]

Efforts have been made by Chinese entrepreneurs to satisfy increasing demand for turtle meat as gourmet food and traditional medicine with farmed turtles, instead of wild-caught ones; according to a study published in 2007, over a thousand turtle farms operated in China.[84][85] Turtle farms in Oklahoma and Louisiana raise turtles for export to China.[85]

Turtles on tree branch over a lake in New Jersey.

Nonetheless, wild turtles continue to be caught and sent to market in large number (as well as to turtle farms, to be used as breeding stock[84]), resulting in a situation described by conservationists as "the Asian turtle crisis".[86] In the words of the biologist George Amato, "the amount and the volume of captured turtles... vacuumed up entire species from areas in Southeast Asia", even as biologists still did not know how many distinct turtle species live in the region.[87] About 75% of Asia's 90 tortoise and freshwater turtle species are estimated to have become threatened.[85]

Harvesting wild turtles is legal in a number of states in the USA.[85] In one of these states, Florida, just a single seafood company in Fort Lauderdale was reported in 2008 as buying about 5,000 pounds of softshell turtles a week. The harvesters (hunters) are paid about $2 a pound; some manage to catch as many as 30–40 turtles (500 pounds) on a good day. Some of the catch gets to the local restaurants, while most of it is exported to Asia. The Florida Fish and Wildlife Conservation Commission estimated in 2008 that around 3,000 pounds of softshell turtles were exported each week via Tampa International Airport.[88]

Nonetheless, the great majority of turtles exported from the USA are farm raised. According to one estimate by the World Chelonian Trust, about 97% of 31.8 million animals harvested in the U.S. over a three-year period (November 4, 2002 – November 26, 2005) were exported.[85][89] It has been estimated (presumably, over the same 2002–2005 period) that about 47% of the US turtle exports go to People's Republic of China (predominantly to Hong Kong), another 20% to Taiwan, and 11% to Mexico.[90][91]

TurtleSAt is a smartphone app that has been developed in Australia in honor of World Turtle Day to help in the conservation of fresh water turtles in Australia. The app will allow the user to identify turtles with a picture guide and the location of turtles using the phones GPS to record sightings and help find hidden turtle nesting grounds. The app has been developed because there has been a high per cent of decline of fresh water turtles in Australia due to foxes, droughts, and urban development. The aim of the app is to reduce the number of foxes and help with targeting feral animal control.[92]

See also

Template:Wikipedia books

Notes

  1. ^ a b Li, Chun; Xiao-Chun Wu; Olivier Rieppel; Li-Ting Wang; Li-Jun Zhao (November 27, 2008). "An ancestral turtle from the Late Triassic of southwestern China". Nature. 456 (7221): 497–501. Bibcode:2008Natur.456..497L. doi:10.1038/nature07533. PMID 19037315.
  2. ^ a b c Turtle Taxonomy Working Group (2017). "Turtles of the World: Annotated Checklist and Atlas of Taxonomy, Synonymy, Distribution, and Conservation Status (8th Ed.)" (PDF). Chelonian Research Monographs. 7: 1–292. doi:10.3854/crm.7.checklist.atlas.v8.2017.
  3. ^ Dubois, Alain; Bour, Roger (2010). "The distinction between family-series and class-series nomina in zoological nomenclature, with emphasis on the nomina created by Batsch (1788, 1789) and on the higher nomenclature of turtles" (PDF). Bonn zoological Bulletin. 57 (2): 149–171.
  4. ^ Hutchinson 1996
  5. ^ "Oxford English Dictionary: Turtle".
  6. ^ Reisz, Robert R.; Jason J. Head (November 27, 2008). "Palaeontology: Turtle origins out to sea". Nature. 456 (7221): 450–451. Bibcode:2008Natur.456..497L. doi:10.1038/nature07533. PMID 19037315.
  7. ^ a b Simoons, Frederick J. (1991). Food in China: A Cultural and Historical Inquiry. CRC Press. ISBN 084938804X. p. 358.
  8. ^ a b Burton, Maurice and Burton, Robert (2002). International Wildlife Encyclopedia. Marshall Cavendish. ISBN 0761472665. p. 2796.
  9. ^ a b Fergus 2007
  10. ^ a b Ernst & Lovich 2009, p. 3
  11. ^ Orenstein, Ronald Isaac (2001). Turtles, Tortoises and Terrapins: Survivors in Armor. Firefly Books. ISBN 1770851194
  12. ^ "Turtle". Sandiegozoo.org. Archived from the original on December 6, 2010. Retrieved September 16, 2012. {{cite web}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  13. ^ What is the difference between turtles, terrapins, and tortoises? Archived May 5, 2015, at the Wayback Machine, North Carolina Aquariums (July 1997).
  14. ^ Dawkins, Richard (2009). The Greatest Show on Earth: The Evidence for Evolution. Free Press. ISBN 1416594795. p. 174.
  15. ^ χελώνη, χέλυς. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project
  16. ^ χελώνη, χέλυς. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project.
  17. ^ Stone 2006, p. 85
  18. ^ testudo. Charlton T. Lewis and Charles Short. A Latin Dictionary on Perseus Project.
  19. ^ Harper, Douglas. "terrapin". Online Etymology Dictionary.
  20. ^ [1], Diccionario de la Real Academia Española
  21. ^ National Geographic 2011.
  22. ^ Connor 2009
  23. ^ Everhart 2012
  24. ^ a b Werneburg, I.; Wilson, L. A. B.; Parr, W. C. H.; Joyce, W. G. (March 1, 2015). "Evolution of Neck Vertebral Shape and Neck Retraction at the Transition to Modern Turtles: an Integrated Geometric Morphometric Approach". Systematic Biology. 64 (2): 187–204. doi:10.1093/sysbio/syu072. ISSN 1063-5157.
  25. ^ Biology of turtles. Wyneken, Jeanette, 1956-, Bels, V. L. (Vincent L.), Godfrey, Matthew H. Boca Raton: CRC Press. 2008. ISBN 0849333393. OCLC 144570900.{{cite book}}: CS1 maint: others (link)
  26. ^ a b Van Damme, Johan; Aerts, Peter (August 1, 1997). "Kinematics and functional morphology of aquatic feeding in Australian snake-necked turtles (Pleurodira; Chelodina)". Journal of Morphology. 233 (2): 113–125. doi:10.1002/(SICI)1097-4687(199708)233:23.0.CO;2-7. ISSN 1097-4687.
  27. ^ Anquetin, Jérémy; Tong, Haiyan; Claude, Julien (February 16, 2017). "A Jurassic stem pleurodire sheds light on the functional origin of neck retraction in turtles". Scientific Reports. 7. Bibcode:2017NatSR...742376A. doi:10.1038/srep42376. ISSN 2045-2322.
  28. ^ Wyneken, Jeanette (2007). Biology of Turtles: From Structures to Strategies of Life. CRC Press. pp. 179–181. ISBN 0849333393.
  29. ^ "Long in the tooth: Genome proves turtles evolve…very slowly". News.ubc.ca. May 30, 2013. Retrieved November 11, 2017.
  30. ^ Jackson 2002
  31. ^ a b Cordeiro, Tábata E.F.; Abe, Augusto S.; Klein, Wilfried (2016-04). "Ventilation and gas exchange in two turtles: Podocnemis unifilis and Phrynops geoffroanus (Testudines: Pleurodira)". Respiratory Physiology & Neurobiology. 224: 125–131. doi:10.1016/j.resp.2014.12.010. ISSN 1569-9048. {{cite journal}}: Check date values in: |date= (help)
  32. ^ a b c d e Lyson, Tyler R.; Schachner, Emma R.; Botha-Brink, Jennifer; Scheyer, Torsten M.; Lambertz, Markus; Bever, G. S.; Rubidge, Bruce S.; de Queiroz, Kevin (November 7, 2014). "Origin of the unique ventilatory apparatus of turtles". Nature Communications. 5: 5211. Bibcode:2014NatCo...5E5211L. doi:10.1038/ncomms6211. ISSN 2041-1723.
  33. ^ Lee, Stella Y.; Milsom, William K. (2016). "The metabolic cost of breathing in red-eared sliders: An attempt to resolve an old controversy". Respiratory Physiology & Neurobiology. 224: 114–124. doi:10.1016/j.resp.2015.10.011. ISSN 1569-9048.
  34. ^ Lambertz, Markus; Böhme, Wolfgang; Perry, Steven F. (2010-07). "The anatomy of the respiratory system in Platysternon megacephalum Gray, 1831 (Testudines: Cryptodira) and related species, and its phylogenetic implications". Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 156 (3): 330–336. doi:10.1016/j.cbpa.2009.12.016. ISSN 1095-6433. {{cite journal}}: Check date values in: |date= (help)
  35. ^ Klein, Wilfried; Codd, Jonathan R. (2010). "Breathing and locomotion: Comparative anatomy, morphology and function". Respiratory Physiology & Neurobiology. 173: S26–S32. doi:10.1016/j.resp.2010.04.019. ISSN 1569-9048.
  36. ^ Pet Education 2012.
  37. ^ a b Ferrara, C. R.; Vogt, R. C.; Sousa-Lima, R. S. (2012). "Turtle Vocalizations as the First Evidence of Posthatching Parental Care in Chelonians" (PDF). Journal of Comparative Psychology. 127 (1): 24–32. doi:10.1037/a0029656.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  38. ^ a b Angier, Natalie (December 16, 2006). "Ask Science". The New York Times. Retrieved September 15, 2013.
  39. ^ Jerison, H.F. (1983). Advances in the Study of Mammalian Behavior. Pittsburgh: Special Publication of the American Society of Mammalogists, nr. 7. pp. 113–146. {{cite book}}: Unknown parameter |editors= ignored (|editor= suggested) (help)
  40. ^ "Training and long-term memory of a novel food acquisition task in a turtle (Pseudemys nelsoni)". Behavioural Processes. 75 (2): 225–230. 2007. doi:10.1016/j.beproc.2007.02.021. {{cite journal}}: Cite uses deprecated parameter |authors= (help)
  41. ^ Priest & Franklin 2002
  42. ^ Angier 2012
  43. ^ "What do you call a group of ...? | Oxford Dictionaries". Oxford Dictionaries | English. Retrieved January 29, 2017.
  44. ^ "What Do Turtles Eat?". what-do-turtles-eat.com. Retrieved May 31, 2013.
  45. ^ Li et al. 2008
  46. ^ Laurin 1996
  47. ^ a b Rieppel & DeBraga 1996
  48. ^ Müller 2004
  49. ^ Mannen & Li 1999
  50. ^ a b Zardoya & Meyer 1998
  51. ^ Iwabe et al. 2004
  52. ^ Roos, Aggarwal & Janke 2007
  53. ^ Katsu et al. 2010
  54. ^ Lyson et al. 2012
  55. ^ Benton 2000
  56. ^ Lee 2001
  57. ^ Lyson et al. 2010
  58. ^ Chiari et al. 2012
  59. ^ a b Joyce 2007
  60. ^ Anquetin 2012
  61. ^ Crawford et al. 2012
  62. ^ Wang, Zhuo; Pascual-Anaya, J; Zadissa, A; Li, W; Niimura, Y; Huang, Z; Li, C; White, S; Xiong, Z; Fang, D; Wang, B; Ming, Y; Chen, Y; Zheng, Y; Kuraku, S; Pignatelli, M; Herrero, J; Beal, K; Nozawa, M; Li, Q; Wang, J; Zhang, H; Yu, L; Shigenobu, S; Wang, J; Liu, J; Flicek, P; Searle, S; Wang, J; et al. (March 27, 2013). "The draft genomes of soft-shell turtle and green sea turtle yield insights into the development and evolution of the turtle-specific body plan". Nature Genetics. 45 (701–706): 701–6. doi:10.1038/ng.2615. PMC 4000948. PMID 23624526. Retrieved November 15, 2013.
  63. ^ Asher J. Lichtig; Spencer G. Lucas; Hendrik Klein; David M. Lovelace (2017). "Triassic turtle tracks and the origin of turtles". Historical Biology: An International Journal of Paleobiology. in press. doi:10.1080/08912963.2017.1339037.
  64. ^ Mikko's Phylogeny Archive [2] Haaramo, Mikko (2007). "Testudinata – turtles, tortoises and terrapins". Retrieved December 30, 2015.
  65. ^ Tanke & Brett-Surman 2001, pp. 206–18
  66. ^ Maugh II 2012
  67. ^ Wings et al. 2012
  68. ^ Gannon 2012
  69. ^ Worthy, Trevor H. "Terrestrial Turtle Fossils from New Zealand Refloat Moa's Ark". Copeia. 2011 (1): 72–76. doi:10.2307/41261852.
  70. ^ Valenzuela & Adams 2011
  71. ^ Alderton 1986
  72. ^ CDC 2007.
  73. ^ GCTTS 2007.
  74. ^ FDA 2012.
  75. ^ "Turtles in the Pond". Creasey Mahan Nature Preserve. April 14, 2015. Retrieved June 13, 2016.
  76. ^ Barzyk 1999
  77. ^ Turtle Soup Recipe 1881.
  78. ^ Smithsonian 2001.
  79. ^ "Cayman Islands Turtle Farm". Archived from the original on December 19, 2009. Retrieved October 28, 2009. {{cite web}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  80. ^ NOAA 2003.
  81. ^ Chen, Chang & Lue 2009
  82. ^ Dharmananda 2011
  83. ^ Rhodin et al. 2011
  84. ^ a b Fish Farmer 2007.
  85. ^ a b c d e Hylton 2007
  86. ^ Cheung & Dudgeon 2006
  87. ^ Amato 2007
  88. ^ Pittman 2008
  89. ^ World Chelonian Trust: Totals 2006.
  90. ^ World Chelonian Trust: Destinations 2006.
  91. ^ World Chelonian Trust: Observations 2006.
  92. ^ "Help save turtles with a new tracking app". Australian Geographic. May 23, 2014. Retrieved November 18, 2014.

References

Further reading

  • Pritchard, Peter Charles Howard (1979). Encyclopedia of turtles. Neptune, NJ: T.F.H. Publications. ISBN 0-87666-918-6.

External links

The Wikibook Animal Care has a page on the topic of: Turtle
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