This December 2017 video says about itself:
Thylacosmilus || A Jaguar sized Saber-tooth Marsupial relative from South America
Though Thylacosmilus is one of several predatory mammal genera typically called “saber-toothed cats”, it was not a felid placentalian, but a sparassodont, a group closely related to marsupials, and only superficially resembled other saber-toothed mammals due to convergent evolution.
Remains of this animal have been found primarily in Catamarca, Entre Ríos, and La Pampa Provinces in northern Argentina.
Thylacosmilus was described and named by Elmer S. Riggs in 1933. He named two species, T. atrox and T. lentis.
Thylacosmilus had large, saber-like canines. The roots of these canines grew throughout the animal’s life, growing in an arc up the maxilla and above the orbits. Its cervical vertebrae were very strong and to some extent resembled the vertebrae of Machairodontinae.
Body mass estimates of Thylacosmilus suggest this animal weighed between 80 to 120 kilograms (180 to 260 lb), and one estimate suggesting up to 150 kg (330 lb), about the same size as a modern jaguar. This would make it one of the largest known carnivorous metatherians.
Recent comparative biomechanical analysis have estimated the bite force of T. atrox starting at maximum gape at 38 newtons (8.5 lbf), much weaker than that of a leopard, suggesting its jaw muscles had an insignificant role in the dispatch of prey.
Its skull was similar to that of Smilodon in that it was much better adapted to withstand loads applied by the neck musculature.
Based on studies of its habitat, Thylacosmilus is believed to have hunted in savanna-like or sparsely forested areas, avoiding the more open plains where it would have faced competition with the more successful and aggressive Phorusrhacids it shared its environment with.
Although older references have often stated that Thylacosmilus became extinct due to competition with the “more competitive” saber-toothed cat Smilodon during the Great American Interchange, newer studies have shown this is not the case.
Thylacosmilus died out during the Pliocene (3.6–2.58 mya) whereas saber-toothed cats are not known from South America until the Middle Pleistocene (781-126,000 years ago).
As a result, the last appearance of Thylacosmilus is separated from the first appearance of Smilodon by over one and a half million years.
From the University of Bristol in England:
Bizarre saber-tooth predator from South America was no saber-tooth cat
June 26, 2020
A new study led by researchers from the University of Bristol has shown that not all saber-tooths were fearsome predators.
Saber-tooth cats, such as the North American species Smilodon fatalis, are among the most iconic fossil animals with a reputation for being fierce predators. However, saber-tooths came in all shapes and sizes and nearly a hundred different saber-tooths are known to science so far.
Thylacosmilus atrox (which means ‘terrible pouched knife’) is a well-known animal that lived around five million years ago in Argentina.
A jaguar-sized marsupial, it is popularly known as the ‘marsupial saber-tooth’, compared with the sabertoothed cats elsewhere in the world, and it is often presented as a classic case of convergent evolution — where animals appear similar in form despite having very different evolutionary relationships (such as marsupial flying possums and placental flying squirrels — both, of course, being gliders rather than true fliers).
Thylacosmilus had huge, ever-growing canines, leading people to speculate that it was an even more vicious predator than the placental carnivores it superficially resembled such as Smilodon.
But was it really a fierce predator like the extinct placental saber-toothed cats, which seem to have been much like modern cats but with a different mode of killing their prey?
An international team of researchers, led by Professor Christine Janis from Bristol’s School of Earth Sciences, have performed a series of studies on the skull and teeth of this animal and have come to a different conclusion. Their findings are published in the journal PeerJ.
Professor Janis said: “The title of this paper, ‘An Eye for a Tooth’, sums up how we think this animal has been perceived.
“It has impressive canines, for sure: but if you look at the whole picture of its anatomy, lots of things simply don’t add up. For example, it just about lacks incisors, which big cats today use to get meat off the bone, and its lower jaws were not fused together.
“In addition, the canines of Thylacosmilus were different from the teeth of other saber-toothed mammals, being triangular in shape like a claw rather than flat like a blade.”
A statistical study, comparing aspects of the skull and teeth of Thylacosmilus with both present-day big cats and a diversity of extinct saber-toothed cats, confirmed suspicions about the differences from its placental supposed counterparts.
Co-author Borja Figueirido of the University of Málaga (Spain) added: “The skull superficially looks rather like that of a saber-toothed placental.
“But if you actually quantify things, it becomes clear that Thylacosmilus’ skull was different in many details from any known carnivorous mammal, past or present.”
Detailed biomechanical studies comparing the skulls of Thylacosmilus and Smilodon, simulating performance under different conditions, were also revealing.
Stephan Lautenschlager from the University of Birmingham, the contributing author on the paper who performed these analyses, said: “Previous studies by other researchers have shown Thylacosmilus to have had a weaker bite than Smilodon.
“But what we can show is there was probably a difference in behaviour between the two species: Thylacosmilus’ skull and canines are weaker in a stabbing action than those of Smilodon, but are stronger in a ‘pull-back’ type of action. This suggests that Thylacosmilus was not using its canines to kill with, but perhaps instead to open carcasses.”
Finally, the other teeth of Thylacosmilus also pose problems for the interpretation of this animal as a cat-like predator, whether saber-toothed or not. Besides the puzzling lack of incisors, the molars are small, and did not wear down along the sides as seen in an animal feeding on meat.
Larisa DeSantis from Vanderbilt University (USA), who conducted a detailed dental study, added: “The molars tend to wear flat from the top, rather like you see in a bone crusher.
“But if you examine the detailed microwear on tooth surfaces, it’s clear that it was eating soft food. Its wear is most similar to that of cheetahs which eat from fresh carcasses and suggests an even softer diet than fed to captive lions.
“Thylacosmilus was not a bone-crusher and may have instead specialised on internal organs.”
Professor Janis said: “It’s a bit of a mystery as to what this animal was actually doing but it’s clear that it wasn’t just a marsupial version of a saber-toothed cat like Smilodon.
“In addition to the differences in the skull and the teeth, it was also short-legged and stiff-backed, and lacked retractile claws, so it would have had difficulties in pursuing its prey, pouncing on it and holding on to it. I suspect it was some sort of specialised scavenger.
“It may have employed those canines to open carcasses and perhaps also used a big tongue to help extract the innards: other mammals that have lost the incisors, like walruses and anteaters, also have big tongues that they use in feeding.”
When Thylacosmilus lived on the plains of Argentina five million years ago, it would have inhabited a very different type of ecosystem to any modern one. Then the big predators were huge flightless birds, the “terror birds” or phorusrachiformes, now all extinct. Life in the past may have been very different to the present day.
Borja Figueirido added: “In Africa today it’s the mammals who are the killers and the big birds, like vultures, are the scavengers. But perhaps five million years ago in Argentina it was the other way around, and it was the mammals who were the scavengers.”