Tasmanian devil

features

Tasmanian devil

The marsupial devil is the largest living predator. The males have an average head body length of 65 centimeters, the tail has an average length of almost 26 centimeters and they weigh about eight kilograms. Females are slightly smaller and lighter: their head body length averages 57 centimeters, their tail is 24 centimeters long, and they weigh about six kilograms.

The physique of the Tasmanian devil is compact and strong. The front legs are slightly longer than the back legs. The head is short and broad, the teeth are very strong and ideal for breaking bones. The fur is black or dark brown, with the exception of a white strip of throat and occasional white spots on the trunk. Tasmanian devils store body fat in their tails. A sick marsupial devil can therefore usually be recognized by a thin tail. When aroused, the marsupial devil gives off a pungent odor that is as unpleasant as that of the skunk . Hearing and smell are very good, but he can see relatively poorly.

A study of the bite force in relation to body size has shown that the Tasmanian devil has the strongest bite of any mammal . It is above all the large head in relation to his body size that makes his jaws so powerful.

distribution

Habitat and way of life

Resting marsupial devil

Tasmanian devils can be found all over Tasmania and can be considered relatively common. They use almost all habitats on the island and are also found in the outskirts of cities . However, their preferred living quarters are dry forests and the wooded areas along the coast . They prefer to hunt during the night and at dusk and spend the day either in thick bushes or in an underground burrow. Tasmanian devils can swim. Young marsupial devils can also climb trees; as they get older, this becomes more and more difficult for the animals.

Apart from the mating season, they are loners. The action spaces they use are between eight and twenty square kilometers. The action areas of several animals can overlap considerably.

Food and subsistence

A marsupial devil eats a run over wallaby.

Tasmanian devils are able to kill animals up to the size of a small wallaby , but most of their prey is dying animals or carrion . Their food spectrum includes smaller mammals , preferably wombats , as well as birds , insects , frogs and reptiles , but also domestic animals such as sheep .

The diet of the Tasmanian devil is thus variable and depends on which food sources are available to him. On average, he consumes around 15 percent of his body weight in food per meal. If given the opportunity, however, he is also able to eat amounts within 30 minutes that correspond to around 40 percent of his body weight.

Tasmanian devils devour their prey completely - that is, in addition to the meat and internal organs, they also consume the bones and fur of a prey. Some Tasmanian farmers therefore value Tasmanian devils for their ecological role. The speed with which they clear carcasses prevents insects from multiplying, which could otherwise adversely affect the rest of the livestock.

Although the marsupial devil is a solitary creature, several can appear around a large carcass. Tasmanian devils fight fiercely with each other and the screeching sounds they utter during these rough communal meals can be heard over several kilometers. Studies of the feeding behavior of the Tasmanian devil have shown that twenty different postures can be identified. The characteristic aggressive, threatening yawn is also one of the typical behavioral features. Eleven different vocalizations can be made out. The ranking among the animals is usually determined by utterances and threatening postures. However, fights are also very common. Adult males are usually more aggressive and almost always have scars that they get when fighting for food and sexual partners.

Reproduction

Tasmanian devil in Brehm's animal life , 1883

Female marsupial devils are sexually mature in their second year of life and from then on they begin to reproduce.

The development of the embryos takes 31 days. Female marsupials give birth to between twenty and thirty completely naked and limited mobility cubs. Each young animal weighs only between 0.18 and 0.24 grams. Immediately after birth, they crawl from the vagina to the pouch of the mother that is open to the rear. If they are in the bag, they attach to one of the mammary glands, where they remain for the next 100 days. Despite the large number of young that a female marsupial devil usually has, it only has four mammary glands, so that a litter can grow to a maximum of four young. On average, more females than males manage to attach themselves to one of the mammary glands. The kittens in a litter that fail to find a mammary gland are usually eaten by their mother.

Similar to the wombat , the mother cannot interact with the young because the pouch is open to the rear. The young in the pouch develop very quickly. From the 15th day the ears become visible, eyelids are visible on the 16th day and the whiskers appear on the 17th day. The lips can be seen on the 20th day. The young animals develop their fur at 49 days. The fur development is completed on the 90th day of life. Their eyes open between the 87th and 93rd day of life and around the 100th day of life they loosen their hold on the mammary gland. An average of 105 days after they have made their way from the vagina to the pouch, the 200 gram pups leave it. Unlike kangaroos , young devils do not return to the pouch. For the next three months they will remain in the mother's den. They leave this for the first time between October and December. In January they will be completely independent. Except for the six weeks between when their offspring become independent and when they mate again in March, female marsupial devils are almost exclusively engaged in reproductive activities.

Duration

Population development after Tasmania was settled by European settlers

Europeans settled Australia from 1788 and soon settled in Tasmania. Similar to the Aborigines, they also ate marsupial devils, the taste of which they compared to that of calves. Since the European settlers were convinced that marsupial devils represented a threat to their livestock, a bonus system was established as early as 1830, which rewarded the shooting of marsupial devils. Over the next hundred years, trapping and poisoning operations reduced the number of marsupial devils so much that they were on the verge of extinction. The fact that the last Tasmanian tiger died in 1936 contributed to their protection . Tasmanian devils have been under protection since 1941 and their numbers have recovered.

Current inventory

In addition to hunting, at least two disease epidemics have significantly reduced the numbers of Tasmanian devils. The first took place in 1909 and the second in 1950. For 1999, 100,000 to 150,000 individuals were assumed, which means that every 20 Tasmanian devils colonize an area of ​​ten to 20 square kilometers each. Tasmania and Australia regulate the export of marsupial devils very strictly and so currently live in Copenhagen Zoo , in some US zoos, such as B. since 2013 in the San Diego Zoo , and since the end of March 2017 in the Duisburg Zoo, Tasmanian devil outside Australia.

Recently, however, another epidemic has led to a drastic decline in the population. It is a cancer that mainly affects parts of the face.

The DFTD threat

Hell with DFTD

The outbreak of DFTD

A main problem of the disease is that the MHC proteins of the tumor cells hardly differ from those of healthy cells, which is why the immune system of the animals does not recognize and fight them as tumor cells. Scientists from the University of Sydney reported in February 2010 the discovery of an MHC gene group in a population of healthy marsupial devils, in which clear differences compared to the otherwise usual MHC gene group were found. The researchers hope that this genetic variability will cause resistance to DFTD.

In March 2013, researchers at Cambridge University found a starting point for a vaccine: “If you treat tumor cells with interferon and then inject them into the Tasmanian devils in a deactivated form, their immune system recognizes them as foreign - and remembers them next to the 'label' of the MHC -Complex also other tell-tale proteins on the cell surface. If unmanipulated DFTD cells then get into the bag's body through a bite, the defense has a chance to recognize and fight them despite the lack of an MHC label on these proteins. The nice thing about it: Once this happens, the immune system produces interferon gamma by itself and thus also forces the newly invaded tumor cells to give themselves away, as the researchers report. Further tests and research are still necessary, but the new findings could open up a possibility for the first time to protect the last big predator on our planet from the ultimate end. "

Countermeasures

Tasmanian devil populations are currently being closely monitored to determine the spread of the disease and changes in the clinical picture. Among the scientific studies repeatedly capture part of all Tasmanian Devil in a marked out area. This is to help determine how the disease is spreading over time. What is certain is that the disease can kill all animals in an area. The observation periods are still too short to say whether these regions will be repopulated by other marsupial devils. It is also being tested whether catching and removing sick animals can slow the spread of the disease.

Great hope was placed in the so-called culling , i.e. the precautionary killing of infected or even all animals of an affected population. However, recent research shows that this method is not an appropriate measure to prevent the spread of the disease.

The Tasmanian Peninsula is home to the Tasmanian Devil Conservation Park , which is home to an isolated population, and since the peninsula is only connected to the mainland by a land bridge, there is a good chance these animals will not become infected.

The breeding programs of zoos located on mainland Australia could also prevent this species from becoming extinct if the wild population collapses due to DFTD.

Red fox and marsupial devil

The decline in the numbers of Tasmanian devils is also of concern for another reason. Unlike Australia , Tasmania was free of red foxes until the turn of the millennium . Red foxes have been shown to be aggressive invasive neozoa in Australia , the presence of which can have a dramatic impact on native wildlife.

In 2001 the red fox was illegally released in Tasmania. The fact that, unlike in Australia, it was not immediately able to establish itself in this new habitat was attributed, among other things, to the presence of the aggressive marsupial devils. However, it cannot be ruled out that marsupial devils will find it difficult to re-establish themselves in a territory once foxes have conquered a territory free of marsupial devils.

Tasmanian devil and human

Tuz

The Tasmanian devil is the symbol of the Tasmanian National Park and Wildlife Services and the Tasmanian football team is called The Devils, based on this animal . The Tasmanian devil is also one of six animals native to Australia and Tasmania featured on the two hundred dollar coins issued between 1989 and 1994.

Tasmanian devils have been the subject of documentaries and non-fiction books for children on several occasions because of their way of life. An Australian documentary called Terror of Tasmania was released by David Parer and Elizabeth Parer-Cook in 2005. The documentary follows a female marsupial named Manganinnie through the mating season, the birth and the rearing of the young, and also deals with the effects of DFTD and the protective measures that are intended to ensure the continued existence of the species. The documentary appeared on the National Geographic Channel in both North America and Australia. The two German animal filmmakers Hans Schweiger and Ernst Arendt ( animals in front of the camera ) also made a film about the Tasmanian devil.

The restrictions on the export of marsupial devils mean that, with a few exceptions, marsupial devils can currently only be seen in captivity in Australia and Tasmania. The Tasmanian government gave four animals to Copenhagen Zoo as a present for the birth of the Danish Prince Christian, as Christian’s mother, Princess Mary , comes from Tasmania. Offspring of these animals can be seen in the zoos of Mechelen, Brugelette and Duisburg. The previously last living outside of Australia Tasmanian devils died in 2004 at the zoo in Fort Wayne in the US state of Indiana , also to DFTD.

Probably the most famous marsupial devil is the character of the Tasmanian devil Taz in the animated series Looney Tunes . The only similarity between the cartoon character and the actual Tasmanian devil, however, is their appetite.

Tasmanian devils do not usually attack humans, but when attacked or caught they will defend themselves with powerful bites and can pose a threat to young children.

The mascot Tux the Linux -Project was in the kernel version 2.6.29 for 3 months by 2009 Tuz replaced, a Tasmanian devil with attached yellow Pappschnabel. Linus Torvalds wanted to draw attention to the situation of the bag devil.

literature

• Diana O. Fisher, Ian PF Owens, Christopher N. Johnson: The ecological basis of life history variation in marsupials. In: Ecology. Vol. 82, 2001, pp. 3531-3540, doi : 10.2307 / 2680170 .
• Colin Groves : Antechinus subtropicus. In: Don E. Wilson , DeeAnn M. Reeder (Eds.): Mammal Species of the World . A Taxonomic and Geographic Reference. Volume 1. 3rd edition. Johns Hopkins University Press, Baltimore MD 2005, ISBN 0-801-88221-4 .
• Robert K. Rose, David A. Pemberton, Nick J. Mooney, Menna E. Jones: Sarcophilus harrisii (Dasyuromorphia: Dasyuridae). Mammalian Species 49 (942), May 1, 2017; Pp. 1-17. doi : 10.1093 / mspecies / sex001
• Eric R. Guiler: Observations on the Tasmanian Devil, Sarcophilus harrisii (Marsupialia: Dasyuridae). II. Reproduction, Breeding and Growth of Pouch Young. In: Australian Journal of Zoology. Vol. 18, 1970, ISSN  0004-959X , pp. 63-70.
• George P. Harris: Description of two species of Didelphis for Van Diemen's Land. In: The Transactions of the Linnean Society of London. Vol. 9, 1808, pp. 174-178 .
• Christopher N. Johnson, Stephen Wroe: Causes of extinction of vertebrates during the Holocene of mainland Australia, arrival of the dingo, or human impact? In: The Holocene. Vol. 13, No. 6, 2003, pp. 941-948, doi : 10.1191 / 0959683603hl682fa .
• Carey Krajewski, Amy C. Driskell, Peter R. Baverstock , Michael J. Braun: Phylogenetic relationships of the thylacine (Mammalia: Thylacinidae) among dasyuroid marsupials: evidence from cytochrome b DNA sequences. In: Proceedings of the Royal Society of London . Series B: Biological Sciences. Vol. 250, No. 1327, 1992, pp. 19-27, PMID 1361058 , doi : 10.1098 / rspb.1992.0125 .
• Paul S. Martin , Richard G. Klein (Eds.): Quaternary Extinctions. A Prehistoric Revolution. The University of Arizona Press, Tucson AZ 1984, ISBN 0-8165-1100-4 .
• David Pemberton, Deane Renouf: A field-study of communication and social behavior of Tasmanian Devils at feeding sites. In: Australian Journal of Zoology. Vol. 41, 1993, pp. 507-526.
• Lars Werdelin: Some observations on Sarcophilus laniarius and the evolution of Sarcophilus. in: Records of the Queen Victoria Museum. Vol. 90, 1987, ISSN  0085-5278 , pp. 1-27.

Documentary film

• Animals in front of the camera: The nights of the Tasmanian Devils . German television documentary by Ernst Arendt and Hans Schweiger . Bayerischer Rundfunk 1988, approx. 43 minutes
• Tasmania, sympathy for the devil . 360 ° geo report. arte, Germany, France 2014 [1]

Web links

Commons : Tasmanian devil  - album with pictures, videos and audio files

• Sarcophilus harrisii in the Red List of Threatened Species of the IUCN 2011. Posted by: Hawkins, CE, McCallum, H. Mooney, N., Jones, M. & Holdsworth, M., 2008. Accessed September 8, 2011th

• Video tame devil

Individual evidence

1. ↑ Don E. Wilson, DeeAnn M. Reeder (Ed.): Mammal Species of the World. Volume 1. 3rd edition. 2005.
2. ↑ Eric R. Guiler: Tasmanian Devil. In: Ronald Strahan (Ed.): Complete Book of Australian Mammals. The national photographic index of Australian wildlife. Angus & Robertson, London 1983, ISBN 0-207-14454-0 , pp. 27-28.
3. ↑ Stephen Wroe, Colin McHenry, Jeffrey Thomason: Bite club: comparative bite force in big biting mammals and the prediction of predatory behavior in fossil taxa. In: Proceedings of the Royal Society of London . Series B: Biological Sciences. Vol. 272, No. 1563, 2005, pp. 619-625, PMID 15817436 , doi : 10.1098 / rspb.2004.2986 .
4. ↑ Hamish McCallum, Menna Jones: To Lose Both Would Look Like Carelessness: Tasmanian Devil Facial Tumor Disease. In: PLOS Biology . Vol. 4, No. 10, 2006, e342, doi : 10.1371 / journal.pbio.0040342 .
5. ↑ Bjarne Braun: Devil Facial Tumor Disease - a contagious cancer . August 13, 2012.
6. ↑ Webb Miller, inter alia: Genetic diversity and population structure of the endangered marsupial Sarcophilus harrisii (Tasmanian devil). In: Proceedings of the National Academy of Sciences of the United States of America . Vol. 108, No. 30, 2011, pp. 12348-12353, doi : 10.1073 / pnas.1102838108 .
7. ↑ Rachel Sullivan: Human intervention speeds up devil cancer evolution. ABC News of March 17, 2014.
8. ↑ Tasmanian Devil: Evidence of resistance to deadly disease discovered. Spiegel ONLINE from March 10, 2010.
9. ↑ Nadja Podbregar: Devilish Tumors. On: Wissenschaft.de on March 11, 2013. Accessed on September 8, 2019.
10. ↑ Nick Beeton, Hamish McCallum: Models predict that culling is not a feasible strategy to prevent extinction of Tasmanian devils from facial tumor disease . In: Journal of Applied Ecology . Vol. 48, No. 5, 2011, pp. 1315-1323. doi : 10.1111 / j.1365-2664.2011.02060.x .
11. ↑ Martin Vieweg: Fear for a devil. On: Wissenschaft.de on October 6, 2011. Accessed on September 8, 2019.
12. ↑ Save the Tasmanian Devil Program acknowledges 10 years of support , website of the "Save the Tasmanian Devil Program" (a project of the Australian and Tasmanian governments), online at: tassiedevil.com.au / ...
13. ↑ Wild Devil Recovery , website of the "Save the Tasmanian Devil Program" (a project of the Australian and Tasmanian governments), online at: tassiedevil.com.au /.../ wild ...
14. ↑ Tasmanian Devil Insurance Population , Report of the Zoo and Aquarium Association (ZAA), https://www.zooaquarium.org.au/index.php/tasmanian-devil-insurance-population/
15. ^ Information on Tasmanian Devil Conservation Park ( Memento from February 11, 2009 in the Internet Archive ). Retrieved July 18, 2015.
16. ↑ Tasmanian devil - Frequently Asked Questions ( Memento from February 20, 2007 in the Internet Archive )
17. ↑ Linus Torvald's Blog - New Logo

This article was added to the list of excellent articles on May 20, 2006 in this version .