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May 18, 2020
Fossil discoveries reveal the cause of megafauna extinction
Decline of giant Australian species most likely due to extreme environmental change
Australian palaeontologists today (Monday 18 May 2020) announced the discovery of new extinct megafauna that lived until 40,000 years ago in tropical northern Queensland.
The research was led by Queensland Museum and included experts from a number of Australian universities including the 精东传媒 of 精东传媒 (UOW), 精东传媒 of Adelaide, Griffith 精东传媒, Southern Cross 精东传媒, 精东传媒 of Queensland, Australian National 精东传媒.
The research team concluded that extreme environmental change was the most likely cause of the megafauna鈥檚 extinction, and that humans alone could not be blamed.
The fossils were discovered at an area near Mackay called South Walker Creek. It is the youngest megafauna site in northern Australia and was once home to at least 16 species of megafauna.
The findings, published in the open access scientific journal , outline how the successive loss of water flow, intensified drying, increased burning and vegetation change created the conditions to drive the extinction of at least 13 species of super-sized megafauna species, including five reptilian megapredators, a marsupial 鈥渓ion鈥 and the world鈥檚 largest wombats and kangaroos.
Professor from UOW鈥檚 School of Earth, Atmospheric and Life Sciences helped analyse the discoveries made at the site. He said the team used a range of techniques to get robust ages on the megafauna fossils.
鈥淲e measured chemical elements uranium and thorium in fossil teeth to determine the age of giant wombats,鈥 Professor Dosseto said.
鈥淲e found ages for these giant extinct animals of about 25,000 years. This is similar to what another lab involved in the study found using the same technique on other teeth.
鈥淐ombining all different techniques used in this study, we found an average age of 40,000 years for the youngest fossil deposit, with possibly even younger ages.鈥
Some of the megafauna found at South Walker Creek: (Clockwise from top left) Quinkana, a land dwelling crocodile about 3-4-metres long; Thylacoleo, the marsupial "lion"; Megalania, the world's largest land-dwelling lizard growing up to 6-metres in length; Palorchestes, a giant marsupial plant-eater. Pictures: Queensland Museum.
Queensland Museum palaeontologist Dr Scott Hocknull, who led the study, said there was still more research to come out of the site,
鈥淭he megafauna at South Walker Creek were uniquely tropical, dominated by huge reptilian carnivores and mega-herbivores that went extinct around 40,000 years ago, well after humans arrived onto mainland Australia,鈥 Dr Hocknull said.
鈥淲e cannot place humans at this 40,000-year-old crime scene, we have no firm evidence. Therefore, we find no role for humans in the extinction of these species of megafauna.
鈥淚nstead, we do find that their extinction is coincident with major climatic and environmental deterioration both locally and regionally, including increased fire, reduction in grasslands and loss of freshwater. Together, these sustained changes were simply too much for the largest of Australia鈥檚 animals to cope with.鈥
Professor Dosseto, founder of the 精东传媒 Isotope Geochronology Laboratory, said the findings challenged the theory that human hunting largely drove the extinction of Australian megafauna.
鈥淥ur study shows that Australia megafauna was alive and well in Queensland later than previously thought,鈥 he said.
鈥淎t this time, humans have been in the area for thousands of years. Our new ages for extinction also show it鈥檚 a time of major environmental change and increased aridity.
鈥淣o doubt humans would have hunted megafauna and had it for dinner. But these new results show that humans alone didn鈥檛 drive megafauna to extinction; climate and environmental change was also a big driver.鈥
Clockwise from left: Macropus, the world鈥檚 biggest kangaroo, standing 2.5-metres tall and weighing an estimated 274 kilograms; Protemnodon
a giant forest wallaby; Phascolonus, the giant wombat, about 2-3 times the size of modern wombats and weighing between 100-250 kilograms. Pictures: Queensland Museum.
The South Walker Creek site was the stomping ground for a diverse range of megafauna including several new species, which are yet to be formally described.
One highlight from the site was the discovery of the remains of a kangaroo that stood 2.5 metres tall with an estimated mass of 274 kg, making it the largest known kangaroo of all time. Other herbivore species found at the site were four other kangaroo species, two wombats, one palorchestid, two diprotodontids and the emu.
Carnivores found at the site were the marsupial 鈥渓ion鈥 (Thylacoleo), three crocodile species (an extinct freshwater croc around 7-metres long; a relation to the modern salt water crocodile; and a land-dwelling crocodile) and two giant lizard species 鈥 a 6-metre long lizard named Megalania, and another giant lizard, similar in size to the Komodo dragon (2.5-metres).
The fossils were discovered in 2008 by the Barada Barna people during a cultural heritage clearance at the South Walker Creek site, which is operated by BHP Billiton Mitsui Coal (BMC).
This site is located 40 kilometres west of Nebo and through a partnership with Queensland Museum Network, there has been a systematic excavation since 2008 that has revealed spectacular never-before-seen megafauna fossils ranging from minute fish scales to colossal limb bones.
"The Board of Directors from the Barada Barna Aboriginal Corporation are extremely excited that we have found the Megafauna within our traditional country,鈥 a Barada Barna Aboriginal Corporation spokesperson for the Board of Directors said.
鈥淭he team that discovered these finds back in 2008 had no idea of how great a discovery it was. With the help of Queensland Museum we have discovered more and more animals from that time.鈥
Photographs of the dig site at South Walker Creek, Queensland. Pictures: Queensland Museum
ABOUT THE RESEARCH
鈥溾 by Scott A. Hocknull, Richard Lewis, Lee J. Arnold, Tim Pietsch, Renaud Joannes-Boyau, Gilbert J. Price, Patrick Moss, Rachel Wood, Anthony Dosseto, Julien Louys, Jon Olley and Rochelle A. Lawrence is published in Nature Communications.
The project was supported by the Queensland Museum Foundation, Queensland Museum, BHP, BHP Mitsui Coal, BMA, and the Australian Research Council.
