skeleton is real, but too damaged to be recognizable, and the outline, previously thought to be carbonized skin or flesh, is fake, which means there's no way to properly identify it now.
According to TFA quoting one of the authors, it was likely a preparation (beautification) and / or preservation attempt which went very wrong.
> Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock.
That’s not hard to believe if you watch restoration / preservation channels, like Baumgartner. Although obviously there’s no way to tell what whoever did it was thinking at such a remove.
> Although obviously there’s no way to tell what whoever did it was thinking at such a remove.
Well there are some hints. Hint 1: The specimen wasn't officially described scientifically until 1959. Hence it seems neither the person who found it, nor the geologist he turned it over to seemed to want to cause sensation with a fake find. Hint 2: Giorgio Dal Piaz died in 1962. This means that he was alive (age 87) to protest when it was described scientificially and did cause sensation, but chose not to (though it's possible he was frail and demented I suppose). Hint 3: The person that found the fossil was a museum employee, this makes carelessness less likely, but could go either way for deliberate fraud I suppose.
Nit just because it's interesting (to me at least): carbon dating is never useful on things this old. The halflife of carbon-14 is so short that by about 50k years you're pushing it to about its limit.
But yeah there's all kinds of decay chains and geology techniques used to date these things. It's a really cool mix of logical deduction and chemistry and cleverness.
Building on this, the general concept is radiometric dating, which can rely on any of numerous decay chains, with half-lives ranging from decades to 100s of billions of years.
Specific decay chains are effective clocks for differing lengths of time. Radiocarbon dating is often used on recent human or organic artefacts or remains, within the past 50,000 years or so as noted. It was uranium-lead decay which first demonstratively showed that the Earth was not "young", whether the few thousand years of theological textual analysis or the 30--300 million years that various geological estimates had suggested, but at least 1 billion years old, established by Ernest Rutherford in the early 20th centuries.
The present value of 4.54 +/- 0.05 billion years was arrived at by the 1950s, based on the ratios of lead to uranium within zircon crystals, the latter of which cannot form in the presence of lead, and hence, any lead present necessarily being the result of radioactive decay. The measurement process also demonstrated the extent to which modern industrial activity was creating pervasive lead contamination virtually everywhere, largely the result of leaded gasoline, one of Thomas Midgley's lethal legacies.
More generally, geochronology is based on numerous methods of which radiometric dating is but one, though a quite powerful one.
The atoms themselves are far older, as they originated from some nuclear synthesis event in a star somewhere else (generally).
Rocks on earth are rarely that old, as they’re composed from sedimentation (aka they get weathered then deposited), metamorphosed (compacted and modified by heat and pressure), cool from a lava flow (basalt, etc). [https://en.m.wikipedia.org/wiki/List_of_rock_types]
Each of those forms/types changes fundamental properties of the rocks which allows for dating.
Some rocks are literally only tens of years old, or even formed yesterday. Like basalt formed from lava from active volcanos.
> On Earth, it is relatively rare—5.2 ppm by volume in the atmosphere. Most terrestrial helium present today is created by the natural radioactive decay of heavy radioactive elements (thorium and uranium, although there are other examples), as the alpha particles emitted by such decays consist of helium-4 nuclei. This radiogenic helium is trapped with natural gas in concentrations as great as 7% by volume, from which it is extracted commercially by a low-temperature separation process called fractional distillation. Terrestrial helium is a non-renewable resource because once released into the atmosphere, it promptly escapes into space. Its supply is thought to be rapidly diminishing. However, some studies suggest that helium produced deep in the Earth by radioactive decay can collect in natural gas reserves in larger-than-expected quantities, in some cases having been released by volcanic activity.
Eh, no, not really, because the article makes clear that this fossil has the rare combination of having been found before modern dating techniques existed, as well as having been treated extra carefully because of its "unique" status, and therefore avoiding some of those dating techniques until recently.
> How could scientists have presumed the dark outline was carbonized soft tissue for so many decades? "This fossil was discovered in 1931 and back then fossils were treated very differently than today," said Rossi. "Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock."
If anything, I am constantly blown away by how accurately we actually can date things. For example, thanks to dendrochronology[0] we can now often accurately date the exact year prehistoric wooden constructions like buildings or bridges were made, up to almost 14,000 years into the past! And that range will only increase.
Summary: black carbon paint + organic binder was used to paint the fossil, as it was used in preparation of many early 1900 finds. Fossil is partially real, with large amount of paint. Scientists for decades put up weird theories about new species to explain it.
Science is hard, assumptions are easy, people have large imaginations &, most importantly, science rewards novel theories.
Everything in the science record improves by people asking simple questions, its the day-in-day-out drudgery plus sheer luck that gets real discoveries.
Could this be entirely accidental then? one scientist or another person painting it, perhaps a bit haphazardly. Later or someone else someone else interprets this as soft tissue and the mistake just compound.
There's a guy on youtube[0] that's convinced that every rock he sees is a fossil. His videos are a strange combination of absurd, disturbing, and relaxing.
If the preparation was poor quality but done in good faith, couldn't it be that the shape is actually somewhat accurate even though no fossil material remains?
> How could scientists have presumed the dark outline was carbonized soft tissue for so many decades? "This fossil was discovered in 1931 and back then fossils were treated very differently than today," said Rossi. "Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock.“
Combine that with the fact that part of the fossil is real (hind legs) and the extreme hesitancy to touch the sample due to its rarity explains how it got so far.
I’m sure this story will be a favorite of anti-evolution zealots for decades to come. They love stories like this where scientists were wrong about something (ignoring the fact that they corrected the record publicly) because it helps them convince people that science can’t be trusted.
They also tend to dismiss off hand the exact same science that is used to find the frauds.
So when science find the frauds, the methods are good. When science originally classifies, the methods are bad.
Unless, of course, we are talking about, yet another, ark discovery. Then the methods are simultaneously good and bad for a single instance.
One think you will notice after some time here is that scientific articles that show facts counter to their narrative get flagged quite quickly, and anti-science propaganda meant to fuel distrust tends to have a very weird upvote to comment ratio on HN these days.
The mods blame the sheer mass of these bot networks vs the amount of mods, but the mods also simultaneously and seemingly intentionally limit accounts that make attempts to dispel the obvious disinformation being pushed through this platform.
Been the same on Reddit for a long time too, there are definitely some weirdly automated things out there. I kind of suspect it’s one of hundreds of campaigns by Russia/China to weaken western society by promoting conspiracy in every possible system for those vulnerable to it.
This has been going on for 200+ years with young earthers insisting that fossils are fake constructs or were laid down in a single flood 5000 years ago.
Honestly, 90 might be a bit much - but especially in drugs I'd be happier with longer trials (5 years really seems a bit short to me - turns out we're always finding odd side effects 10-20 years later.)
43 comments
[ 3.4 ms ] story [ 115 ms ] thread> Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock.
That’s not hard to believe if you watch restoration / preservation channels, like Baumgartner. Although obviously there’s no way to tell what whoever did it was thinking at such a remove.
Well there are some hints. Hint 1: The specimen wasn't officially described scientifically until 1959. Hence it seems neither the person who found it, nor the geologist he turned it over to seemed to want to cause sensation with a fake find. Hint 2: Giorgio Dal Piaz died in 1962. This means that he was alive (age 87) to protest when it was described scientificially and did cause sensation, but chose not to (though it's possible he was frail and demented I suppose). Hint 3: The person that found the fossil was a museum employee, this makes carelessness less likely, but could go either way for deliberate fraud I suppose.
It does rather carry a pall over the idea we can accurately date anything, doesn't it?
And carbon dating.
And decay of uranium into lead.
They usually have multiple techniques that can be used together.
But yeah there's all kinds of decay chains and geology techniques used to date these things. It's a really cool mix of logical deduction and chemistry and cleverness.
Specific decay chains are effective clocks for differing lengths of time. Radiocarbon dating is often used on recent human or organic artefacts or remains, within the past 50,000 years or so as noted. It was uranium-lead decay which first demonstratively showed that the Earth was not "young", whether the few thousand years of theological textual analysis or the 30--300 million years that various geological estimates had suggested, but at least 1 billion years old, established by Ernest Rutherford in the early 20th centuries.
The present value of 4.54 +/- 0.05 billion years was arrived at by the 1950s, based on the ratios of lead to uranium within zircon crystals, the latter of which cannot form in the presence of lead, and hence, any lead present necessarily being the result of radioactive decay. The measurement process also demonstrated the extent to which modern industrial activity was creating pervasive lead contamination virtually everywhere, largely the result of leaded gasoline, one of Thomas Midgley's lethal legacies.
More generally, geochronology is based on numerous methods of which radiometric dating is but one, though a quite powerful one.
<https://en.wikipedia.org/wiki/Radiometric_dating>
<https://en.wikipedia.org/wiki/Age_of_Earth>
<https://en.wikipedia.org/wiki/Geochronology>
Rocks on earth are rarely that old, as they’re composed from sedimentation (aka they get weathered then deposited), metamorphosed (compacted and modified by heat and pressure), cool from a lava flow (basalt, etc). [https://en.m.wikipedia.org/wiki/List_of_rock_types]
Each of those forms/types changes fundamental properties of the rocks which allows for dating.
Some rocks are literally only tens of years old, or even formed yesterday. Like basalt formed from lava from active volcanos.
Of course, that is what an AI would say, eh?
> On Earth, it is relatively rare—5.2 ppm by volume in the atmosphere. Most terrestrial helium present today is created by the natural radioactive decay of heavy radioactive elements (thorium and uranium, although there are other examples), as the alpha particles emitted by such decays consist of helium-4 nuclei. This radiogenic helium is trapped with natural gas in concentrations as great as 7% by volume, from which it is extracted commercially by a low-temperature separation process called fractional distillation. Terrestrial helium is a non-renewable resource because once released into the atmosphere, it promptly escapes into space. Its supply is thought to be rapidly diminishing. However, some studies suggest that helium produced deep in the Earth by radioactive decay can collect in natural gas reserves in larger-than-expected quantities, in some cases having been released by volcanic activity.
There’s no need to cast broad suspicion on scientific methods.
> How could scientists have presumed the dark outline was carbonized soft tissue for so many decades? "This fossil was discovered in 1931 and back then fossils were treated very differently than today," said Rossi. "Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock."
If anything, I am constantly blown away by how accurately we actually can date things. For example, thanks to dendrochronology[0] we can now often accurately date the exact year prehistoric wooden constructions like buildings or bridges were made, up to almost 14,000 years into the past! And that range will only increase.
[0] https://en.wikipedia.org/wiki/Dendrochronology
> Conclusion: T. antiquus is a forgery [...]
> Part of the fossil, at least, appears to be genuine—the long bones of the hind limbs [...]
Science is hard, assumptions are easy, people have large imaginations &, most importantly, science rewards novel theories.
Everything in the science record improves by people asking simple questions, its the day-in-day-out drudgery plus sheer luck that gets real discoveries.
There's a guy on youtube[0] that's convinced that every rock he sees is a fossil. His videos are a strange combination of absurd, disturbing, and relaxing.
0- https://www.youtube.com/watch?v=zQnCueSlWLY&t=0s
> How could scientists have presumed the dark outline was carbonized soft tissue for so many decades? "This fossil was discovered in 1931 and back then fossils were treated very differently than today," said Rossi. "Application of paints, consolidates and lacquers on fossil bones was the norm, because that was the only way to protect the specimens from further deterioration. It was also sometimes to embellish specimens by making them sleek and shiny. Unfortunately, in the case of Tridentinosaurus, the mechanical preparation did most of the damage and then the application of a black paint created the illusion of a lizard-like animal impression on the surface of the rock.“
Combine that with the fact that part of the fossil is real (hind legs) and the extreme hesitancy to touch the sample due to its rarity explains how it got so far.
I’m sure this story will be a favorite of anti-evolution zealots for decades to come. They love stories like this where scientists were wrong about something (ignoring the fact that they corrected the record publicly) because it helps them convince people that science can’t be trusted.
So when science find the frauds, the methods are good. When science originally classifies, the methods are bad.
Unless, of course, we are talking about, yet another, ark discovery. Then the methods are simultaneously good and bad for a single instance.
One think you will notice after some time here is that scientific articles that show facts counter to their narrative get flagged quite quickly, and anti-science propaganda meant to fuel distrust tends to have a very weird upvote to comment ratio on HN these days.
The mods blame the sheer mass of these bot networks vs the amount of mods, but the mods also simultaneously and seemingly intentionally limit accounts that make attempts to dispel the obvious disinformation being pushed through this platform.
I've not noticed that, have you any examples?
I'm ok with that