Giant prehistoric kangaroos preferred to ‘chill at home’ and didn’t like to go out much, scientists say

TruthLens AI Suggested Headline:

"Study Reveals Prehistoric Kangaroo Protemnodon Lived in Limited Range, Suggesting Homebody Behavior"

Giant prehistoric kangaroos preferred to ‘chill at home’ and didn’t like to go out much, scientists say analysis cover image

The Guardian 9.1

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Original Article Source: https://www.theguardian.com/environment/2025/apr/24/giant-prehistoric-kangaroos-preferred-to-chill-at-home-and-didnt-like-to-go-out-much-scientists-say

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Raw Article Publish Date: 23 April 2025

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TruthLens AI Summary

Recent research from Australia has revealed surprising insights about the lifestyle of Protemnodon, a prehistoric giant kangaroo that roamed the continent between 5 million and 40,000 years ago. Unlike modern kangaroos, which tend to have expansive territories, the Protemnodon appears to have been a homebody, remaining within a limited range near the limestone caves where fossilized remains were discovered. The study, co-authored by palaeo-ecologist Chris Laurikainen Gaete from the University of Wollongong and published in PLOS One, challenges the common assumption that larger herbivores require larger living spaces. The findings were based on an analysis of fossil teeth from the Mt Etna site in Queensland, which indicated that these giant kangaroos thrived in the local rainforest environment, suggesting stability and ample food resources. Co-author Dr. Scott Hocknull from the Queensland Museum noted that these kangaroos were likely well-adapted to their habitat, relying on the rainforest's vegetation while finding shelter from predators in the caves. This suggests that the Protemnodon population was content in its confined space for an extended period.

However, the restricted range of Protemnodon ultimately contributed to its extinction, as environmental changes around 280,000 years ago led to increased aridity and habitat loss. Dr. Isaac Kerr, a kangaroo palaeontology specialist not involved in the study, emphasized that while Protemnodon fossils are primarily found in southeastern Australia, it is believed that multiple species adapted to various environments across the continent. The research employed unique chemical signatures found in the fossils to assess the animals' range, utilizing strontium variations in the underlying geology to draw conclusions about their living patterns. This innovative methodology could enhance our understanding of megafauna extinction events and help explain why certain species survived while others, like the Protemnodon, did not. The researchers plan to apply similar techniques to study smaller kangaroo species, aiming to uncover the reasons behind their survival amid changing environmental conditions.

TruthLens AI Analysis

The article presents intriguing findings about the behavior of prehistoric giant kangaroos, specifically the Protemnodon species, and their surprisingly limited range despite their large size. This research offers insights into their lifestyle, suggesting they preferred staying close to their habitat rather than roaming vast territories.

Research Findings

The study conducted by Australian researchers reveals that Protemnodon, which existed between 5 million and 40,000 years ago, exhibited a unique behavior pattern. Contrary to expectations based on modern plant-eating mammals, these giant kangaroos were found to have a much smaller geographical range. Fossil teeth analysis indicated that they primarily lived around the limestone caves near Mt. Etna, suggesting a preference for a stable environment with abundant resources.

Implications for Understanding Prehistoric Life

The findings challenge the assumption that larger body size in animals correlates with broader territorial ranges. Instead, the Protemnodon appears to have thrived in a localized environment, indicating a stable ecosystem that allowed them to remain in one area for extended periods. This discovery can reshape our understanding of how prehistoric species adapted to their environments and how stability played a crucial role in their survival.

Public Perception and Potential Manipulation

The article aims to inform the public about the behavioral ecology of extinct species, potentially fostering interest in paleontology and prehistoric life. However, it could also serve to divert attention from current environmental issues by emphasizing stable ecosystems of the past without drawing parallels to present-day challenges. There is no evident manipulation in the language used, as the article presents factual information supported by research.

Comparative Analysis with Other News

When compared to other recent articles on environmental changes and extinct species, this piece stands out by focusing on a specific prehistoric animal rather than broader ecological themes. It does not appear to connect directly with current news narratives, although it does contribute to ongoing discussions about biodiversity and conservation.

Community Engagement

This research may resonate more with academic communities, environmentalists, and those with an interest in natural history. It could foster dialogue among these groups about the implications of stability in ecosystems and how these lessons can be applied to modern conservation efforts.

Economic and Political Effects

While the article itself may not directly impact stock markets or economic conditions, it can influence public interest in conservation-related ventures or educational programs. It might encourage investments in research or initiatives aimed at preserving current biodiversity, which could have long-term economic benefits.

Global Context and Relevance

In the context of today's environmental discussions, the article indirectly relates to ongoing debates about climate change and habitat destruction. By highlighting the importance of stable ecosystems in the past, it underscores the urgency for modern efforts to maintain biodiversity.

Use of Artificial Intelligence

It is possible that AI tools were employed to assist in data analysis or to structure the research findings. However, the language and narrative style suggest a human touch in crafting the article. The straightforward presentation of facts indicates a focus on clarity rather than manipulation.

In summary, the article is a reliable source of information regarding the behavior of ancient kangaroos, shedding light on their ecological preferences. There is a clear effort to educate the public on paleontological findings without evident manipulation. The implications of this research could encourage greater awareness of environmental stability and conservation, though its direct impact on current economic or political issues appears limited.

Unanalyzed Article Content

Source URL: https://www.theguardian.com/environment/2025/apr/24/giant-prehistoric-kangaroos-preferred-to-chill-at-home-and-didnt-like-to-go-out-much-scientists-say

Despite their immense size, species of prehistoric giant kangaroos from a site in Queensland were probably homebodies with a surprisingly small range compared to other kangaroos, according to new Australian research.

Protemnodon, which roamed the Australian continent between 5m and 40,000 years ago and is now extinct, was significantly larger than its modern relatives.Some species weighed up to 170kg, making them more than twice as heavy as the largest red kangaroo.

Given their size, researchers expected they might have an expansive territory, said University of Wollongong palaeo-ecologist Chris Laurikainen Gaete, the co-author of the studypublished in PLOS One.

That’s because in most modern plant-eating mammals, including kangaroos and other macropods, larger body size correlated with geographic range, he said. A small marsupial such as the pademelon, for example, occupies an area smaller than a kilometre squared, whereas the red kangaroo – the largest of all kinds – in outback Australia can hop long distances, sometimes further than 20km.

But analysis of fossil teeth found near Mt Etna, 30km north of Rockhampton in Queensland, revealed something quite different. These protemnodon kept to close quarters, living and dying near the caves where their remains were found.

Co-author Dr Scott Hocknull, a vertebrate palaeontologist and senior curator at the Queensland Museum, said the individuals from Mt Etna seemed to be “real homebodies” that stayed within “a tiny pocket” in and around the limestone caves.

“These gigantic kangaroos were just chilling at home, eating the rainforest leaves, because there were heaps of them around. That also means that the environment was quite stable. It meant that over hundreds of thousands of years, these animals decided that staying put was a good bet.”

The population at Mt Etna was “probably quite happy” for some time, Hocknull said. The rainforest probably provided a reliable source of food, while the caves offered protection from prehistoric predators, such as marsupial lions.

But their restricted range was a “bad bet” in the end, Hocknull said, because it pre-disposed them to a risk of extinction when a changing climate and increasing aridity disrupted the rainforest environment about 280,000 years ago.

Dr Isaac Kerr, who specialises in kangaroo palaeontology at Flinders University and was not involved with the study, said protemnodon fossils – found mainly in the south and east of the country – indicated there wereseveral speciesadapted to different environments.

“Probably they were all over the whole continent, including New Guinea,” he said. A site in Tasmania had one of the latest surviving species, dated to 41,000 years ago.

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Kerr said these megafauna kangaroosranged in sizebut were generally stockier than their modern counterparts, with shorter feet.

Protemnodon probably looked something like a wallaroo, he said, “squat and muscular but still quite large compared to a modern kangaroo”.

Mt Etna is one of Australia’s richest fossil sites, containing evidence of ancient Pleistocene rainforests andrecords covering periodsof past environmental change when rainforests gave way to open, arid environments.

The researchers’ next step was to apply similar techniques to fossils of smaller kangaroos such as tree kangaroos, pademelons and rock wallabies from Mt Etna, which still have living descendants, to understand how they survived the environmental changes while protemnodon died out.

The study compared the unique chemical signatures found in the local geology with those found in the fossilised teeth to establish the range of each animal, Gaete said.

“Strontium is an element that varies in the environment, specifically in underlying bedrocks – so a limestone will have a significantly different strontium signature compared to something like volcanic rock or basalt,” he said. These unique signatures made their way into soil and plants, and were reflected in the fossilised teeth of herbivores that ate those plants.

Laurikainen Gaete said the technique could be used to understand, on a site-by-site basis, why certain species of megafauna disappeared from particular places.

Hocknull said: “It fundamentally shifts how palaeontologists and ecologists look at the fossil record.”

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Source: The Guardian