Today marks 79 years of the death of the last known thylacine, Benjamin, at the zoo in Hobart (Tasmania). The thylacine, Tasmanian wolf or Tasmanian tiger is one of the classic examples of extinct animals by humans. Its fame is due to its relatively recent extinction, its strange anatomy and the existence of videos of the last thylacine, which transmits certain uneasiness to know that no longer exists. Do you want to know their characteristics, the causes of their disappearance and their cloning project?
THE THYLACINE, A MARSUPIAL
Despite its many names, the thylacine (Thylacinus cynocephalus*) was not related to wolves or tigers (placental mammals), as it was a marsupial animal. Marsupials are a mammals’ infraorder in which the young is born at a very early stage of development, almost in embryonic state. The best known representatives are kangaroos, koalas, wallabies, possums and bandicoots.
After a very short gestation, newborn moves to one of the mother‘s nipples where is seized several months. In most marsupials, nipples, -and therefore the newborn- are protected by a pouch. When the brood completes its development, it will release the nipple and leave the pouch to explore the outside. Look in the following video the birth and migration of the embryo of a red kangaroo:
The thylacine was native of Australia and Papua New Guinea, but in the seventeenth century (arrival of European settlers Oceania) was found only in Tasmania.
It was an animal with physical traits of wolf, tiger and kangaroo due to convergent evolution, which made him a unique case and an enigma to science before their taxonomy was known. Its closest relative is the Tasmanian devil (Sarcophilus harrisii).
He looked like a big dog with a thick, stiff tail. Its weight was about 30 kg on average. The fur was short, gray-brown with 13-20 vertical black stripes at the rear. It is estimated that lived between 5 and 7 years in the wild.
It was capable of bipedal jumps and upright posture for short periods of time. They were also good swimmers. The anatomy of the thylacine when stood up, with its tail resting on the ground, reminds the kangaroo as evidenced by the following filming of 1933:
The thylacine was exclusively carnivorous, feeding on kangaroos, emus, wallabies and wombats. It was a solitary and crepuscular hunter who caught their prey by ambushes, as it was not very fast. It could turn the palm of the leg up like cats do. This increased movement of the leg would have allowed them subdue prey more easily after a surprise attack. In contrast, animals with reduced mobility in the leg, as some canines, prefer the persecution of the ambush and often hunt in herds.
Another unique feature was the ability it had to open its mouth. Equipped with 46 teeth, its powerful jaws could be opened at an angle of 120 degrees, allowing him to swallow large chunks of meat.
Look in the following video the last moving record of Benjamin (1933), from which was obtained the above screenshot:
To view the 7 videos that remain from this fantastic animal, enter The Thylacine videos.
Thylacines could reproduce from June to December. It were born 2-4 pups per litter, who spent three months in the pouch but were still dependent on its mother‘s milk more than nine months. Unlike many marsupials, in the thylacine pouch opened to the rear of the body.
Australian Aborigines already knew and hunted the thylacine, as seen in their 1000 b.C art. The first possible thylacine footprints discovered by Europeans are from 1642, although it was not until 1808 that a detailed description of the species was made.
There are several hypotheses that point to the extinction of the Tasmanian tiger, in the majority, humans are the main blamable. Like it happens nowadays in Spain, the Tasmanian wolf was quickly accused of killing cattle and hen, so despondent rewards were offered for the animal and was the subject of an intensive hunt. Later research has concluded that its jaw was not strong enough to kill an adult sheep.
With the colonization of Australia, the habitat and prey of the thylacine were diminished drastically. They were also victims of introduced species on the continent by humans, such as dogs, foxes and dingoes (wolf subspecies). It is also probably that suffered some diseases that lead them to death.
In 1920 the thylacine was already on the verge of extinction. In 1930, it was hunted by a farmer the last known wild specimen and in 1933 arrived at Hobart Zoo the nicknamed Benjamin. In 1936, he was forgotten outside his cage and did not survive the freezing temperatures at night. 59 days before, it had been approved officially the protection of the species.
After the 50 years required by the scientific community without any sightings or evidence of its existence, the thylacine was officially declared extinct by IUCN in 1986. Many claim to have seen the thylacine and even filmed one in the wild, but there are no no definitive evidence.
The International Thylacine Specimen Database is an international database that compiles all existing records of the Tasmanian wolf (museum specimens, bones, photos, videos…). Since 1999, there have been attempts to bring the thylacine back to life by cloning techniques, which have been unsuccessful. In 2008, Australian scientists were able to extract DNA from specimens preserved in alcohol and activate a gene implanting it in a mouse embryo and in 2009 the complete sequencing of mitochondrial DNA was published. The elusive goal is to activate the complete genome of thylacine, to have a real possibility of cloning. But if that happens, what are the ethical, economic and scientific implications of the reappearance of an extinct species? The debate is still open.
*Thylacinus cynocephalus from greek θύλακος (thylakos, “pouch”) and κυνοκἐφαλος (kinokefalos, “dog-headed”).
- Animal. Clutton-Brock, Juliet et al. 2002. Animal. Pearson Educación
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- Imagen de portada por Robb Kendrick