Tag Archives: inhabitants

New Research Indicates Australia’s First Inhabitants Were Fossil Collectors

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In a recent study, Professor Mike Archer from the University of New South Wales and his team revisited the fossilized tibia (the lower leg bone) of the now-extinct giant stenurine kangaroo. These bones, discovered in Mammoth Cave in southwestern Australia around World War I, provided solid evidence that Indigenous Australians hunted large animals, a finding in which Professor Archer was involved. A 1980 study had concluded that distinctive notches in the fossilized bones indicated slaughter. However, Professor Archer is now ready to acknowledge that this initial conclusion was incorrect.

Giant animal unearthed from mammoth cave about 50,000 years ago: giant long-beaked echidna Malayanglossus hackettii, giant kangaroo Procoptodon brauneorum, giant diprotodont Zygomaturus trilobus, and possum (Thylacinus cynocephalus). Image credit: Peter Schouten.

“As a scientist, updating the record as new evidence emerges is both my duty and responsibility,” Professor Archer stated.

“In 1980, we interpreted those cuts as signs of slaughter based on the best conclusions we could reach with the tools available to us then.”

“With advancements in technology, we now understand that our original interpretation was incorrect.”

“After the 1960s, there was a significant debate about whether Aboriginal peoples coexisted with Australia’s prehistoric megafauna or contributed to their extinction.”

“Many believed the incisions in the bones were made by humans using tools, suggesting that the extinction of megafauna and the arrival of humans approximately 65,000 years ago were not coincidental.”

“For decades, the bones from Mammoth Cave were seen as the ‘smoking gun’ indicating that Indigenous Australians hunted giant animals, but with that evidence dispelled, the discussion on megafauna extinction is now reopened, and the role of humans is more ambiguous than ever.”

To reexamine the same dissected stenurine leg bone, Professor Archer and his co-authors utilized advanced 3D scanning technology to analyze the bone without causing any damage.

They also employed modern radiometric dating methods to accurately determine the age of the bones and their cut surfaces while conducting detailed microscopic examinations.

Their findings indicated that the cuts were made after the bone had dried and cracked, suggesting the bones were likely already fossilized when the incisions occurred.

Paleontologists also investigated a fossilized tooth given to archaeologist Kim Ackerman by a Wora man from the Mowanjum mission, who had collaborated with Indigenous communities in the Kimberley during the 1960s.

This tooth, belonging to the Zygomaturus trilobus, a species of giant marsupial related to wombats, was part of Australia’s Pleistocene megafauna.

The tooth was retrieved from the Kimberley in northwestern Australia, and its characteristics closely matched other fossils found in Mammoth Cave in southwestern Australia.

Dr. Kenny Trabouillon from the Western Australian Museum remarked, “The discovery of this tooth in the Kimberley, far from its likely origin in Mammoth Cave, implies it may have been transported or traded by humans across great distances.”

“This suggests that cultural appreciation and symbolic usage of fossils existed long before the advent of European science.”

“The First Peoples might have been the continent’s, and possibly the world’s, earliest paleontologists.”

Researchers haven’t entirely dismissed the possibility of Aboriginal people having hunted Australia’s megafauna.

However, without concrete evidence, we cannot definitively assert that Indigenous Australians caused its extinction.

“While these remain hypotheses, we need substantiated proof before concluding that predation by Indigenous peoples contributed to the extinction of now-vanished megafauna, especially considering the long history of Indigenous peoples respecting and sustainably utilizing Australia’s wildlife,” Professor Archer stated.

“If humans were truly responsible for the unsustainable hunting of Australia’s megafauna, we would expect to find much more evidence of such hunting in the fossil record. Instead, the only solid evidence we had until now was this single bone, which now shows strong indications that the mutilations occurred post-mortem.”

If humans were not solely accountable for the extinction of Australia’s ancient megafauna, then what was?

Researchers indicate that many megafauna species went extinct long before humans arrived, and while some coexisted with humans for millennia, their decline often aligned with significant climate changes.

“What we can ascertain is that the First Peoples were the first in Australia to exhibit a keen interest in and collect fossils, likely thousands of years before Europeans arrived on the continent,” the researchers affirmed.

Their paper was published in the journal Royal Society Open Science.

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Michael Archer et al. 2025. Australia’s first people: hunters of extinct megafauna or Australia’s first fossil collectors. R. Soc. Open Science 12(10):250078; doi: 10.1098/rsos.250078

Source: www.sci.news

The Tree-Dwelling Relatives of Tuatala: Inhabitants of the Solnhoven Islands 145 Million Years Ago.

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Solnhofen Archipelago refers to a collection of islands that thrived during the late Jurassic era in present-day Bavaria, Germany.

Life expressions of Sphenodraco scandentis in the ancient environment of the Solnhofen Archipelago. Image credit: Gabriel Ugueto.

The newly identified species Sphenodraco scandentis belongs to the earliest known clade of its sister group (lizards, snakes, and worm lizards), namely Rhynchocephalia.

Currently, this group is epitomized by a solitary extant species, the Tuatara (Sphenodon punctatus), although Rhynchocephalians were once as prevalent as modern lizards.

The fossil specimen of Sphenodraco scandentis is separated into two main slabs, as documented in literature, with previous assignments to Homoeosaurus maximiliani, along with a counterslab containing the majority of its skeletal remains.

These two segments were sold individually to museums in Frankfurt and London nearly a century ago.

“The breakthrough occurred while I was examining fossil reptiles at the Museum of Natural History in London,” remarked PhD candidate Victor Beccali from the Paleontology Museum in Munich.

“I observed a striking resemblance between the fossils in the museum’s collection and those I studied at the Senckenberg Museum of Natural History in Frankfurt.”

“It was revealed that they were not merely similar; they were two halves of the same fossil, likely split in the 1930s for a greater profit.”

Holotype of Sphenodraco scandentis. Left: Main slab featuring bone fragments and skeletal traces. Right: Counterslab showcasing most remains of the skeleton. Image credit: Beccali et al. , doi: 10.1093/zoolinnean/zlaf073.

According to Beccari and colleagues, comparisons with modern lizards, including the Tuatara, indicate that Sphenodraco scandentis shared elongated limbs, toes, and compact bodies, suggesting these creatures may have inhabited the treetops of Jurassic forests.

“The deeper I delve into the historical study of these animals, the more I realize that species definitions are not always straightforward,” stated Beccali.

“Today’s islands host hundreds of reptilian species, so it’s plausible that ancient islands did too.”

“This research highlights the vital role that museum collections play in enhancing our understanding of ancient biodiversity.”

“Many of these fossils were unearthed nearly two centuries ago, yet they still hold significant insights to offer.”

“The Solnhofen region provides pristine, complete skeletons for many Rhynchocephalians, though their skulls may be crushed or some skeletons remain embedded in rock,” explained Dr. Mark Jones, curator of Fossil Reptiles and Amphibians at the Museum of Natural History in London.

“Until recently, this meant that Solnhofen’s specimens weren’t contributing to our understanding as much as they should have.”

“Utilizing micro-X-ray CT, and in this case, UV imaging, has helped clarify anatomical features.”

“This recent study underscores the necessity of investigating all available samples.”

The study was published on July 2, 2025, in The Linnean Society’s Journal of Zoology.

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Victor Beccali et al. 2025. The importance of the appendix skeleton for tumors in the tree-bark thoracic cube and scaly pidosaurs from the late Jurassic in Germany. The Linnean Society’s Journal of Zoology 204 (3): ZLAF073; doi: 10.1093/zoolinnean/zlaf073

Source: www.sci.news

Scientists remain uncertain about the inhabitants of the massive sinkhole in Mexico

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The deepest blue hole in the world, also known as an ocean sinkhole, can be found off the coast of Mexico’s Yucatan Peninsula. It plunges to a depth of at least 420 meters (1,378 feet), remaining unexplored by researchers.

Local divers discovered the lake, named “Ta’am Dja” or “Deep Sea” in Mayan, over two decades ago. In 2021, scientists attempted to measure its depth using an echo sounder, estimating it to be 275 meters (902 feet). However, a later expedition in 2023 employed a device called a conductivity, temperature, and depth (CTD) profiler, revealing a depth of 420 meters (1,378 feet) without reaching the bottom.

https://c02.purpledshub.com/uploads/sites/41/2025/01/blue-zones.mp4
Aerial view of the Great Blue Hole

Blue holes are naturally formed vertical-walled caves on the ocean floor, typically found in coastal regions with soluble rock formations like limestone. These geological formations may reach only a few tens of meters in depth and could be interconnected with underwater cave systems.

Due to poor water circulation, blue holes lack oxygen in their depths, posing challenges for organisms. Some microorganisms thrive in these conditions by consuming sulfur-based compounds like hydrogen sulfide. Additionally, creatures such as foraminifera and nematodes have been discovered living in blue holes, prompting further exploration to unveil the mysteries of Ta’am Dja’s deep blue waters.

This article (by Preston Levy of Norwich) addresses the question, “What are Mexican Blue Holes?”

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Source: www.sciencefocus.com

The ancient inhabitants of Easter Island journeyed to South America

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The famous Moai statues of Easter Island

Tero Hakala/Shutterstock

DNA analysis of ancient ruins on Easter Island has revealed that the population was actually growing when Europeans arrived, rather than plummeting as some history books have reported.

The findings also indicate that there was contact between the inhabitants of this island and those of South America long before the arrival of Europeans. This island and its people are also known as Rapa Nui.

Located in the Pacific Ocean 3,500 km from South America, Rapa Nui is one of the most isolated inhabited islands on Earth. Polynesians first settled here around 1200 AD, when palm forests covered 164 square kilometers of the island.

By the time Europeans arrived in 1722, rats and excessive logging had almost completely destroyed the vegetation, and the island’s history has often been portrayed as an example of the unsustainable exploitation of ecosystems and their subsequent collapse after human population growth.

The researchers worked closely with representatives of the Rapa Nui community, and one of their aims was to verify that the people on display at the museum were in fact from the island, as efforts to repatriate remains are underway, led by modern residents.

The findings showed that 15 people who died in the past 500 years were from Rapa Nui.

Populations that are experiencing bottlenecks due to population decline will show signals in their DNA that indicate reduced genetic diversity, Moreno-Mayer said.

“We use statistical methods that allow us to reconstruct the genetic diversity of the Rapa Nui population over the past few thousand years,” he says, “and intriguingly, we find no evidence of the dramatic population decline around 1600 that would be predicted by collapse theory.”

Instead, the findings suggest that Rapa Nui’s population grew steadily until the 1860s, when slave traders abducted hundreds of islanders and many more died in a smallpox epidemic.

The study also identified regions of DNA in the ancient Rapa Nui genome that were of Native American origin, and the analysis suggests that mixing between these populations occurred around the 1300s.

“Our interpretation is that the ancestors of Rapa Nui first settled on the island and then returned to the Americas shortly thereafter,” Moreno-Mayer says.

Previous studies have also cast doubt on the idea of population decline. Carl Lipo The researcher, from New York’s Binghamton University, said it was
“fantastic” to see that a completely independent body of evidence points to the same conclusion his team reached in a paper published earlier this year using radiocarbon and archaeological evidence.

He said the research confirmed that the island was inhabited by people who lived resilient and successful lives before Europeans arrived.

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Source: www.newscientist.com