Australian megafauna

large animals in Australia, past and present era

Australian megafauna is a word used to describe a number of animal species in Australia that are quite a bit bigger than their closest living relatives. These species became extinct during the Pleistocene (16,100±100 - 50,000 years before present),[1] but exact dates for their extinction have only been discovered recently.

Marsupial Lion skeleton in Naracoorte Caves, South Australia.

Some mythological creatures from the Aboriginal dreamtime look a bit like animals from the prehistoric Australian megafauna.

Extinction change

Scientists have been unable to agree on the reasons the megafauna became extinct. It is possible when humans came to Australia (around 48,000-60,000 years ago), and began hunting and using fire, they may have caused the extinction of the megafauna.[2] Climate change, which made the country much drier during an Ice Age about 18,000 years ago, may have also have led to the extinction of the megafauna. Some scientists say that climate change alone caused the extinction of the megafauna. This argument does not allow for the fact that the megafaunal species had lived through two million years of climate changes. They had lived through a number of dry times before their sudden extinction.

New evidence change

Scientists have got new evidence, based on new and better ways of finding dates, using optically stimulated luminescence and Uranium-thorium dating of megafaunal bones. This suggests that humans were the main cause of the extinction of megafauna in Australia.[3] The dates show that the last of the megafauna became extinct around the same time, about 47,000 years ago. This was the time in which humans first arrived in Australia. The dates suggest the main reason for extinction was human burning of the land. Many plants were not able to survive regular fires, and so the types of plants changed. Scientists have studied oxygen and carbon isotopes from teeth of megafauna. These show sudden, dramatic, non-climate-related changes in plants, and in the diet of surviving marsupial animals, as well as the loss of megafaunal species. Further study of the teeth of megafauna shows the climate was dry at the time of extinction, similar to the dry climate of today, and that the megafauna were able to live in dry climates.

Living Australian megafauna change

Extinct Australian megafauna: pre-1788 change

The following is a list of some of the Australian megafauna. It shows:

  • Latin name (scentific name), (common name, when it lived), and a brief description.

Mammals change

Mammals are set out by size with largest at the top.

 
The diprotodon was a hippopotamus-sized marsupial, most closely related to the wombat.

1000-2000 kilograms[4] change

  • Diprotodon optatum was the largest type of Diprotodontid. About three metres long, two metres high at the shoulder and weighing up to two tonnes, it looked like a giant wombat. It is the largest marsupial currently known.
  • Diprotodon minor
  • Zygomaturus trilobus was a smaller, about the size of a cow, about two metres long and one metre high. It was a Diprotodontid that may have had a short trunk (like an elephant). It appears to have lived in wetlands, using two fork-like teeth to dig up reeds for food.
  • Palorchestes azael (the Marsupial Tapir) was a Diprotodontoid, about the same size as the Zygomaturus, with long claws and a long trunk. It lived in the Pleistocene (Mackness 2009).

100-1000 kilograms change

  • Euowenia grata
  • Nototherium mitchelli
  • Euryzygoma dunense
  • Phascolonus gigas
  • Ramsayia magna
  • Procoptodon goliah (the Giant Short-faced Kangaroo) is the largest kangaroo to have ever lived. It grew 2–3 metres (7–10 feet) tall, and weighed up to 230 kilograms. It had a flat, shortened face with jaw and teeth able to chew tough, desert plants. It had forward-looking eyes providing three dimensional vision. Procoptodon was one of seventeen species, in three genera in the Sthenurine subfamily, which are all extinct. Sthenurines lived in open woodlands in central northern Australia. All sthenurines had a hoof-like, fourth toe on the back legs. Their other toes were not fully formed. They also had elastic ligaments between the toe bones; this gave them more spring and speed compared to modern kangaroos. Sthenurine front legs were long, with two long fingers and claws, compared with the small, stiff arms of modern kangaroos. These may have been used for pulling branches nearer for eating and for walking on all four legs for short distances.
  • Procoptodon rapha, P. pusio and P. texasensis
  • Protemnodon a type of giant wallaby with four species.[5]
  • Palorchestes parvus
  • Macropus pearsoni and M. ferragus

10-100 kilograms change

Birds change

 
Dromornis stirtoni
  • Family Dromornithidae: this group of birds was closely related to waterfowl (ducks), not the modern ratites (emus and cassowaries).
    • Dromornis stirtoni, (Stirton's Thunder Bird, Miocene epoch) was a bird that did not fly. It was 3 m (10 ft) tall and weighed about 500 kg (1,102 lb). It is one of the largest birds so far discovered. It lived in subtropical open woodlands and may have been carnivorous. It was heavier than the Moa and taller than the Aepyornis.
    • Bullockornis planei (the 'Demon Duck of Doom') was another large member of the Dromornithidae. It was up to 2.5 m (8 ft) tall and weighed up to 250 kg (551 lb), and was probably carnivorous.
    • Genyornis newtoni (the Mihirung) was related to Dromornis. It was about the height of an ostrich. It was the last survivor of the Dromornithidae. It had a large lower jaw and was probably omnivorous.
  • Leipoa gallinacea (formerly Progura) was a giant malleefowl.

Reptiles change

 
Megalania
  • Varanus priscus (formerly Megalania prisca) was a giant, carnivorous goanna that might have grown to as long as 7 m (23 ft), and weighed up to 1,940 kg (4,277 lb) (Molnar, 2004).
  • Wonambi naracoortensis was a snake about 6 m (20 ft) in length. It would catch animals at a water hole and kill by crushing. It was not a poisonous snake.
  • Quinkana sp., was a land crocodile, which grew up to 7 m (23 ft) in length. It had long legs positioned underneath its body, and chased down mammals, birds and other reptiles for food. Its teeth were sharp for cutting, not pointed for gripping like water living crocodiles. It was part of the Mekosuchine subfamily (all now extinct). It was discovered at Bluff Downs in Queensland.
  • Liasis sp., (Bluff Downs Giant Python), lived during the Pliocene epoch, grew up to 10 m (33 ft) long, and is the largest Australian snake known. It hunted mammals, birds and reptiles in woodlands near rivers. It is similar to the Olive Python (Liasis olivacea).[6]
  • Meiolania was a group of huge land cryptodire turtle measuring 2.5 m (8 ft) in length, with a horned head and spiked tail.

References change

  1. Vanderwal and Fullager 1989 as cited in Josephine Flood (2004) Archaeology of the Dreamtime, J.B Publishing, Marleston p, 182 ISBN 1-876-62250-4
  2. Miller, G. H. 2005. Ecosystem Collapse in Pleistocene Australia and a Human Role in Megafaunal Extinction. Science, 309:287-290 PMID 16002615
  3. Prideaux, G.J. et al. 2007. An arid-adapted middle Pleistocene vertebrate fauna from south-central Australia. Nature 445:422-425
  4. Flannery. T Pleistocene extinctions as cited in Josephine Flood (2004) Archaeology of the Dreamtime, J.B Publishing, Marleston p. 178 ISBN 1-876-62250-4
  5. Helgen, K.M., Wells, R.T., Kear, B.P., Gerdtz, W.R., and Flannery, T.F. (2006). Ecological and evolutionary significance of sizes of giant extinct kangaroos. Australian Journal of Zoology 54, 293–303. doi:10.1071/ZO05077
  6. Scanlon JD and Mackness BS. 2001. A new giant python from the Pliocene Bluff Downs Local Fauna of northeastern Queensland. Alcheringa 25: 425-437
  • Field, J. H. and J. Dodson. 1999. Late Pleistocene megafauna and archaeology from Cuddie Springs, south-eastern Australia. Proceedings of the Prehistoric Society 65: 1-27.
  • Wroe, S., J. Field, and R. Fullagar. 2002. Lost giants. Nature Australia 27(5): 54-61.
  • Mackness, B.S. 2009. Reconstructing Palorchestes (Marsupialia: Palorchestidae) — from Giant Kangaroo to Marsupial ‘Tapir’. Proceedings of the Linnean Society of New South Wales 130: 21-36.
  • Gavin J Prideaux, Richard G. Roberts, Dirk Megirian, Kira E. Westaway, John C. Hellstrom, John M. Olley. 2007. Mammalian responses to Pleistocene climate change in southeastern Australia. Geology, v. 35, n. 1, p. 33-36.

Other websites change