Skeptophilia (skep-to-fil-i-a) (n.) - the love of logical thought, skepticism, and thinking critically. Being an exploration of the applications of skeptical thinking to the world at large, with periodic excursions into linguistics, music, politics, cryptozoology, and why people keep seeing the face of Jesus on grilled cheese sandwiches.

Tuesday, March 21, 2023

The strangest star in the galaxy

Ever heard of Eta Carinae?

If there was a contest for the weirdest known astronomical object in the Milky Way, Eta Carinae would certainly be in the top ten.  It's a binary star system in the constellation Carina, one member of which is a luminous blue variable, unusual in and of itself, but its behavior in the last hundred or so years (as seen from Earth; Eta Carinae is 7,500 light years away, so of course the actual events we're seeing took place 7,500 years ago) has been nothing short of bizarre.  It's estimated to have started out enormous, at about two hundred solar masses, but in a combination of explosions peaking in the 1843 "Great Eruption" it lost thirty solar masses' worth of material, which has been blown outward at 670 kilometers per second to form the odd Homunculus Nebula.

After the Great Eruption, during which it briefly rose to a magnitude of -0.8, making it the second-brightest star in the night sky, it faded below naked eye visibility, largely due to the ejected dust cloud that surrounded it.  But in the twentieth century it began to brighten again, and by 1940 was again visible to the naked eye -- and then its brightness mysteriously doubled again between 1998 and 1999.

Which is even more mind-blowing when you find out that the actual luminosity of the combined Eta Carinae binary is more than five million times greater than that of the Sun.

This comes up because the Hubble Space Telescope has provided astronomers the clearest images of Eta Carinae and the Homunculus Nebula they've yet had, and what they're learning is kind of mind-blowing. Here's one of the best images:

[Image is in the Public Domain, courtesy of the NASA Hubble Space Telescope]

There are a lot of features of these photographs that surprised researchers.  "We've discovered a large amount of warm gas that was ejected in the Great Eruption but hasn't yet collided with the other material surrounding Eta Carinae," said astronomer Nathan Smith of the University of Arizona, lead investigator of the study.  "Most of the emission is located where we expected to find an empty cavity.  This extra material is fast, and it 'ups the ante' in terms of the total energy of an already powerful stellar blast....  We had used Hubble for decades to study Eta Carinae in visible and infrared light, and we thought we had a pretty full account of its ejected debris.  But this new ultraviolet-light image looks astonishingly different, revealing gas we did not see in either visible-light or infrared images.  We're excited by the prospect that this type of ultraviolet magnesium emission may also expose previously hidden gas in other types of objects that eject material, such as protostars or other dying stars; and only Hubble can take these kinds of pictures."

One of the most curious things -- one which had not been observed before -- are the streaks clearly visible in the photograph.  These are beams of ultraviolet light radiating from the stars at the center striking and exciting visible light emission from the dust cloud, creating an effect sort of like sunbeams through clouds.

Keep in mind, though, how big this thing is.  The larger of the two stars in the system, Eta Carinae A, has a diameter about equal to the orbit of Jupiter.  So where you're sitting right now, if our Sun was replaced by Eta Carinae A, you would be inside the star.

The question most people have after learning about this behemoth is, "when will it explode?"  And not just an explosion like the Great Eruption, which was impressive enough, but a real explosion -- a supernova.  It's almost certain to end its life that way, and when it does, it's going to be (to put it in scientific terms) freakin' unreal.  Even at 7.500 light years away, it has the potential to be the brightest supernova we have any record of.  It will almost certainly outshine the Moon, meaning that in places where it's visible (mostly in the Southern Hemisphere) for a time you won't have a true dark night.

But when?  It's imminent -- in astronomical terms.  That means "probably some time in the next hundred thousand years."  It might have already happened -- meaning the light from the supernova is currently streaming toward us.  It might not happen for thousands of years.

But it's considered the most likely star to go supernova in our near region of the galaxy, so there's always hoping.

[Nota bene: we're in no danger at this distance.  There will be gamma rays from the explosion that will reach Earth, but they'll be pretty attenuated by the time they get here, and the vast majority of them will be blocked by our atmosphere.  So no worries that your friends and family might be at risk of turning into the Incredible Hulk, or anything.]

So that's our cool scientific research of the day.  Makes me kind of glad we're in a relatively quiet part of the Milky Way.  Eta Carinae, and the surrounding Carina Nebula (of which the Homunculus is just a small part), is a pretty rough neighborhood.  But if it decides to grace us with some celestial fireworks, it'll be nice to see -- from a safe distance.

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Monday, March 20, 2023

Grave matters

It's easy to scoff at the superstitious beliefs of the past.  I've certainly been known to do it myself.  But it bears keeping in mind that although, to more scientific minds, some of the rituals and practices seem kind of ridiculous, sometimes they had a strange underlying logic to them.

Take, for example, the strange case of JB55.  Archaeologists excavating a site near Griswold, Connecticut in 1990 found a nineteenth-century wooden coffin with brass tacks hammered into the surface that spelled out "JB55" -- according to the practice of the time, the initials of the deceased and the age at which (s)he died.  Inside were the bones of a man -- but they had been rearranged after death into a "skull-and-crossbones" orientation.


This seems like an odd thing to do, and raised the obvious question of why anyone would rearrange a dead person's remains.  There was speculation that it was part of some kind of magical ritual intended to prevent him from coming back from the dead; in the mid-1800s, the region around Griswold was known for rampant belief in vampirism.  The reason seems to have been an epidemic of tuberculosis, which (among other things) causes pale skin, swollen eyes, and coughing up blood; there are known cases where the bodies of disease victims were exhumed and either burned and reinterred, or else rearranged much as JB55's were.

The explanation in this specific case gained credence when an examination of JB55's bones showed tuberculosis lesions.  Further, an analysis of the Y DNA from the bones allowed them to identify the individual's last name as Barber -- and sure enough, there was a John Barber living in Griswold who would have been of the right age to be JB55.

It's amazing how widespread these sorts of practices are.  In 2018 a skeleton of a ten-year-old child was unearthed in Umbria, Italy.  The skeleton dated from the fifth century C.E., and she seems to have died during a terrible epidemic of malaria that hit the area during the last years of the Roman Empire.  Before burial, the child had a rock placed in her mouth -- thought to be part of a ritual to prevent her spirit from rising from the dead and spreading the disease.  In 2022, a skeleton was uncovered in Pién, Poland, dating from the seventeenth century -- it was of an adult woman, and had a sickle placed across her neck and a padlock on her left big toe.  The reason was probably similar to the aforementioned cases -- to keep her in her grave where she belonged.

The reason this comes up is a paper this week in Antiquity about another interesting burial -- this one in Sagalossos, in western Turkey.  Archaeologists found evidence of a funeral pyre dating to the second century C.E., but unlike the usual practice at the time -- in which the burned remains were taken elsewhere to be buried -- here, the pyre and the remains were simply covered up with a layer of lime and brick tiles.  Most interestingly, scattered over the surface of the tiles were dozens of bent iron nails.

Iron and iron-bearing minerals have been thought from antiquity to have magical properties; Neanderthals were using hematite to anoint the dead fifty thousand years ago.  Here, both the iron in the nails and the angles at which they were bent probably were thought to play a role in their power.

The authors write:

The placement of nails in proximity to the deceased's remains might suggest the first of these two hypotheses.  The fixing qualities of nails, however, may also have been used to pin the spirits of the restless dead (so-called revenants) to their final resting place, so that they could not return from the afterlife...  Aside from the application of nails to symbolically fix the spirit, heavy weights were also used in an attempt to immobilise the physical remains of a potential revenant.

I do have to wonder how the idea of revenants got started in the first place.  Surely all of them can't be from the symptoms of tuberculosis, like in JB55's case.  And since the number of people who have actually returned from the dead is, um, statistically insignificant, it's not like they had lots of data to work from. 

Perhaps much of it was simply fear.  Death is a big scary unknown, and most of us aren't eager to experience it; even the ultra-Christian types who are completely certain they're heading to an afterlife of eternal heavenly bliss look both ways before they cross the road.  But like many superstitions, these all seem so... specific.  How did someone become convinced that nails weren't enough, they had to be bent nails?  And that a padlock on the left big toe would keep the woman in Poland from rising from the dead, but that it wouldn't work if it had been around, say, her right thumb?

Curious stuff.  But I guess if you try something, and lo, the dead guy stays dead, you place that in the "Win" column and do it again next time. 

It's like the story of the guy in Ohio who had a friend who'd come to visit, and whenever he'd walk into the guy's house, he'd raise both hands, close his eyes, and say, "May this house be safe from tigers."

After doing this a few times, the guy said, "Dude.  Why do you say that every time?  This is Ohio.  There's not a tiger within a thousand miles of here."

And the friend gave him a knowing smile and said, "It works well, doesn't it?"

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Saturday, March 18, 2023

It's the end of the world, if you notice

I have commented more than once about my incredulity with regards to end-of-the-world predictions.  Despite the fact that to date, they have had a 100% failure rate, people of various stripes (usually of either the ultra-religious persuasion or the woo-woo conspiracy one) continue to say that not only is the world doomed, they know exactly when, how, and why.  (If you don't believe me, take a look at the Wikipedia page for apocalyptic predictions, which have occurred so often they had to break it down by century.)  

As far as why this occurs -- why repeated failure doesn't make the true believers say, "Well, I guess that claim was a bunch of bullshit, then" -- there are a variety of reasons.  One is a sort of specialized version of the backfire effect, which occurs when evidence against a claim you believe strongly leaves you believing it even more strongly.  Way back in 1954 psychologists Leon Festinger, Henry Riecken, and Stanley Schachter infiltrated a doomsday cult, and in fact Festinger was with the cult on the day they'd claimed the world was going to end.  When 11:30 PM rolled around and nothing much was happening, the leader of the cult went into seclusion.  A little after midnight she returned with the joyous news that the cult's devotion and prayers had averted the disaster, and god had decided to spare the world, solely because of their fidelity.

Hallelujah!  We better keep praying, then!

(Note bene: The whole incident, and the analysis of the phenomenon by Festinger et al., is the subject of the fascinating book When Prophecy Fails.)

Despite this, the repeated failure of an apocalyptic prophecy can cause your followers to lose faith eventually, as evangelical preacher Harold Camping found out.  So the people who believe this stuff often have to engage in some fancy footwork after the appointed day and hour arrive, and nothing happens other than the usual nonsense.

Take, for example, the much-publicized "Mayan apocalypse" on December 21, 2012 that allegedly was predicted by ancient Mayan texts (it wasn't) and was going to herald worldwide natural disasters (it didn't).  The True Believers mostly retreated in disarray when December 22 dawned, as well they should have.  My wife and I threw a "Welcoming In The Apocalypse" costume party on the evening of December 21 (I went as a zombie, which I felt was fitting given the theme), and I have to admit to some disappointment when the hour of midnight struck and we were all still there.  But it turns out that not all of the Mayan apocalyptoids disappeared after the prediction failed; one of them, one Nick Hinton, says actually the end of the world did happen, as advertised...

... but no one noticed.

Hinton's argument, such as it is, starts with a bit of puzzling over why you never hear people talking about the 2012 apocalypse any more.  (Apparently "it didn't happen" isn't a sufficient reason.)  Hinton finds this highly peculiar, and points out that this was the year CERN fired up the Large Hadron Collider and discovered the Higgs boson, and that this can't possibly be a coincidence.  He wonders if this event destroyed the universe and/or created a black hole, and then "sucked us in" without our being aware of it.

[Image licensed under the Creative Commons Lucas Taylor / CERN, CMS Higgs-event, CC BY-SA 3.0]

Me, I think I'd notice if I got sucked into a black hole.  They're kind of violent places, as I described a recent post about Sagittarius A* and the unpleasant process called "spaghettification."   But Hinton isn't nearly done with his explanation.  He writes:
There's the old cliché argument that "nothing has felt right" since 2012.  I agree with this...  [E]ver since then the world seems to descend more and more into chaos each day.  Time even feels faster.  There's some sort of calamity happening almost daily.  Mass shootings only stay in the headlines for like 12 hours now.  Did we all die and go to Hell?...  Like I've said, I think we live in a series of simulations.  Perhaps the universe was destroyed by CERN and our collective consciousness was moved into a parallel universe next door.  It would be *almost* identical.
Of course, this is a brilliant opportunity to bring out the Mandela effect, about which I've written before.  The idea of the Mandela effect is that people remember various stuff differently (such as whether Nelson Mandela died in prison, whether it's "Looney Tunes" or "Loony Tunes" and "The Berenstein Bears" or "The Berenstain Bears," and so forth), and the reason for this is not that people's memories in general suck, but that there are alternate universes where these different versions occur and people slip back and forth between them.

All of which makes me want to take Ockham's Razor and slit my wrists with it.

What I find intriguing about Hinton's explanation is not all the stuff about CERN, though, but his arguing that the prediction didn't fail because he was wrong, but that the world ended and seven-billion-plus people didn't even notice.  Having written here at Skeptophilia for over twelve years, I'm under no illusions about the general intelligence level of humanity, but for fuck's sake, we're not that unobservant.  And even if somehow CERN did create an alternate universe, why would it affect almost nothing except for things like the spelling of Saturday morning cartoon titles?

So this is taking the backfire effect and raising it to the level of performance art.  This is saying that it is more likely that the entire population of the Earth was unaware of a universe-ending catastrophe than it is that you're simply wrong.

Which is so hubristic that it's kind of impressive.

But I better wind this up, because I've got to prepare myself for the next end of the world, which (according to Messiah Foundation International, which I have to admit sounds pretty impressive) is going to occur in January of 2026.  This only gives us all a bit shy of three years to get ready, so I really should get cracking on my next novel.  And if that apocalypse doesn't pan out, evangelical Christian lunatic Kent Hovind says not to worry, the Rapture is happening in 2028, we're sure this time, cross our hearts and hope to be assumed bodily into heaven.

So many apocalypses, so little time.

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Friday, March 17, 2023

The heart of the world

One of the biggest mysteries in science lies literally beneath our feet; the structure and composition of the interior of the Earth.

We have direct access only to the barest fraction of it.  The deepest borehole ever created is the Kola Superdeep Borehole, on the Kola Peninsula in Russia near the border of Norway.  It's 12.26 kilometers deep, which is pretty impressive, but when you realize that the mean radius of the Earth is just under 6,400 kilometers, it kind of puts things in perspective.

What we know is that the crust is principally silicate rock -- lower-density felsic rocks (like granite) forming the majority of the continental crust, and denser mafic rocks (like basalt) comprising the thinner oceanic crust.  Beneath that is the semisolid mantle, which makes up two-thirds of the Earth's mass.  Inside that is the outer core, thought (primarily from estimates of density) to be made up of liquid iron and nickel, and within that the inner core, a solid ball of red-hot iron and nickel.

At least that's what we thought.  All of this was determined through inference from evidence like the relative speed of different kinds of seismic waves; despite what Jules Verne would have you believe, no one has been to the center of the Earth (nor is likely to).  But figuring all this out is important not just from the standpoint of adding to our knowledge of the planet we live on, but in comprehending phenomena like magnetic field reversals -- something that would have obvious impacts on our own lives, and which are still poorly understood at best.

We just got another piece of the puzzle in the form of a paper last week in Nature that suggests our picture of the Earth's inner core as a homogeneous ball of solid iron and nickel may not be right.  Using data from seismic waves, scientists at the Australian National University in Canberra have concluded that the inner core itself has two layers.  The exact difference between the two isn't certain -- as I said before, we're limited by what information we can get long-distance -- but the best guess is that it's a difference in crystal structure, probably caused by the immense pressures at the center.

[Image courtesy of Drew Whitehouse, Hrvoje Tkalčić, and Thanh-Son Phạm]

In general, whenever a wave crosses a boundary from one medium to another, it refracts (changes angle); this is why a straw leaning in a glass of water looks like it's bent.  If the angle is shallow enough, some of the wave's energy can also reflect off the interface.  When that happens to seismic waves inside the Earth, those reflected waves bounce around inside the core; when they finally make it back out and are measured by scientists on the Earth's surface, features such as the energy, wavelength, and angle can provide a lot of information about the materials it passed through on its journey.

The authors write:
Earth’s inner core (IC), which accounts for less than 1% of the Earth’s volume, is a time capsule of our planet’s history.  As the IC grows, the latent heat and light elements released by the solidification process drive the convection of the liquid outer core, which, in turn, maintains the geodynamo.  Although the geomagnetic field might have preceded the IC’s birth5, detectable changes in the IC’s structures with depth could signify shifts in the geomagnetic field’s operation, which could have profoundly influenced the Earth’s evolution and its eco-system.  Therefore, probing the innermost part of the IC is critical to further disentangling the time capsule and understanding Earth’s evolution in the distant past.

The discovery of the Earth's hitherto-unknown center could help us to understand one of the most fundamental questions in geology; the structure of the inside of the Earth.  We still have a very long way to go, of course.  As I said, even understanding how exactly the core generates the Earth's protective magnetic field is far from achieved.  But the new research gives us a deeper comprehension of the structure of the inner core -- the red-hot heart hidden beneath the deceptively tranquil surface of our home planet. 

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Thursday, March 16, 2023

The reanimators

An announcement a few weeks ago by microbiologist Jean-Michel Claverie of Aix-Marseille University that he and his team had successfully resuscitated a 48,500-year-old virus from the Siberian permafrost brought horrified comments like, "I read this book, and it didn't end well" and "wasn't this an episode of The X Files?  And didn't just about everyone die?"  It didn't help when Claverie's team mentioned that the particular virus they brought back to life belonged to a group called (I shit you not) "pandoraviruses," and the media started referring to them by the nickname "zombie viruses."

Claverie's pandoravirus [Image courtesy of Chantal Abergel and Jean-Michel Claverie]

The team hastened to reassure everyone that the virus they found is a parasite on amoebas, and poses no threat to humans.  This did little to calm everyone down, because (1) not that many laypeople understand viral host specificity, and (2) shows like The Last of Us, in which a parasitic fungus in insects jumps to human hosts and pretty much wipes out humanity, have a fuckload more resonance in people's minds than some dry scientific paper.

What's scary about Claverie's study, though, isn't what you might think.  First, the good news.  Not only is the virus they found harmless to humans, the team is made up of trained microbiologists who are working under highly controlled sterile conditions.  Despite what the "lab leak" proponents of the origins of COVID-19 would have you believe, the likelihood of an accidental release of a pathogen from a lab is extremely unlikely.  (The overwhelming consensus of scientists is that COVID is zoonotic in origin, and didn't come from a lab leak, accidental or deliberate.)  So the obvious "oh my god what are we doing?" reaction, stemming from a sense that we shouldn't "wake up" a frozen virus because it could get out and wreak havoc, is pretty well unfounded.

What worries me is the reason Claverie and his team are doing the research in the first place.

Permafrost covers almost a quarter of the land mass of the Northern Hemisphere.  A 2021 study found that every gram of Arctic permafrost soil contains between a hundred and a thousand different kinds of microbes, some of which -- like Claverie's pandoravirus -- have been frozen for millennia.  A three-degree Celsius increase in global average temperature could melt over thirty percent of the upper layers of Arctic soil.

So potentially, what Claverie's team did under controlled, isolated conditions could happen out in the open with nothing to keep it in check.

Concern over this isn't just hype.  In 2016, melting permafrost in Siberia thawed out the carcass of a reindeer that had died of anthrax.  Once thawed, the spores were still viable, and by the time the incident had been contained, dozens of people had been hospitalized, one had died, and over two thousand reindeer had been infected.  Anthrax isn't some prehistoric microbe that scientists know nothing about, which actually acted in our favor; once it was identified, doctors knew how to treat it and prevent its further spread.

But what if the thawing frost released something we haven't had exposure to for tens of thousands of years, and that was unknown to science?

"We really don’t know what’s buried up there," said Birgitta Evengård, a microbiologist at Umeå University in Sweden, which in a few words says something that is absolutely terrifying.

So the hysteria over Claverie's reawakening of the "zombie virus" focused on the wrong thing.  The reanimators we should be worried about aren't Claverie and his team; they're us.  There were already a myriad excellent reasons to curb fossil fuel use (hard) and try to rein in climate change, but this study just gave us another one.

As always, the problem isn't the scientists; the scientists are the ones trying to figure all this out in time to prevent a catastrophe.  (And, if I haven't made this point stridently enough already, the scientists have been trying to warn us about the effects of climate change for decades.)  The problem is the fact that politicians, and the voters who elect them, have steadfastly refused to do a damn thing about a problem that we could have addressed years ago and that has so many potential horrible outcomes you'd think any one of them would be sufficient justification for acting.  

So how about we stop worrying about the wrong thing and face the fact that we're the ones who need to change what we're doing?

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Wednesday, March 15, 2023

Life in the shadows

In Michael Ray Taylor's brilliant1999 book Dark Life, the author looks at some of the strangest forms of life on Earth -- extremophiles, organisms (mainly bacteria) that thrive in places where nothing else does.  Surrounding hydrothermal vents under crushing pressures and temperatures over 100 C, buried underground below the deepest mines, frozen in Antarctic ice, floating in boiling, acidic hot springs.  Taylor himself is a veteran spelunker and got interested in the topic after running into the aptly-named snottites -- biofilms found in caves that hang downward from the ceiling and are the consistency of, well, snot.

The brilliant colors of Grand Prismatic Spring in Yellowstone National Park are due, in part, to extremophilic bacteria [Image is in the Public Domain]

Taylor's contention -- that such bizarre creatures are so numerous that they outnumber all other life forms on Earth put together -- got a boost from a piece of research published in the Journal of Geomicrobiology.  Written by a team from the University of Toronto -- Garnet S. Lollar, Oliver Warr, Jon Telling, Magdalena R. Osburn, and Barbara Sherwood Lollar -- it describes the discovery, 7,900 meters underground, of a thriving ecosystem of microbes in a mine 350 kilometers north of Toronto.

The life forms are odd in a number of respects.  The first is that they're anaerobic -- they don't need oxygen to survive.  The second is that they metabolize sulfur, primarily in the form of iron sulfate, better known as pyrite or fool's gold.  It's a food chain completely unhooked from light -- for nearly every other organism on Earth, the energy they contain and utilize can ultimately be traced back to sunlight.  Here, if you follow the energy backwards, you arrive at the geothermal heat from the mantle of the Earth producing reduced (high energy) compounds that can support a food web, similar to what you see in deep-sea hydrothermal vents.

"It's a fascinating system where the organisms are literally eating fool's gold to survive," team member Barbara Sherwood Lollar said in an interview with NBC News.  "What we are finding is so exciting — like ‘being a kid again’ level exciting."  The ecosystem is in the Laurentian Shield, one of the oldest and most geologically-stable places on Earth, so it's likely that this thriving community deep underground has been there for a billion years or more.  "The number of systems we've looked at so far really is limited, but they probably had a single origin at some point in life’s four-billion-year history."  As far as their discovery, she added, "We see only what we look for.  If we don't look for something, we miss it."

And it's a lot to miss.  The current research springboards off a 2018 report sponsored by the Deep Carbon Observatory conducted by a team led by Cara Magnabosco, a geobiologist at the Swiss technical university ETH Zurich, which estimated that some 5 x 10^29 cells live in the deep Earth.

For those you who don't like scientific notation, that's five hundred thousand trillion trillion organisms.  Put succinctly, it's a really freakin' huge number.

Considering the (to us) inhospitable conditions a lot of these organisms live under, it raises hopes of finding life in other, perhaps unexpected, places in the universe.  Astronomers talk about the "Goldilocks zone," the region around a star that has temperatures where water is a liquid, and that to host life a planet would have to have a similar mass to Earth and be orbiting a star relatively similar to the Sun.  The University of Toronto research suggests that may be placing unnecessary and inaccurate strictures on where life can exist, and that we may have to rethink our definition of what we mean by "hospitable conditions."

"We're finding we really don't understand the limits to life," Sherwood Lollar said.

Which also raises the question of whether we'd recognize alien life if we saw it.  Star Trek may have been prescient; they expanded the boundaries of what we think of as life by featuring aliens that were gaseous, crystalline, thrived at searing temperatures, could tolerate the chill dark vacuum of space, or were composed of pure energy.  While some of these -- at least at first glance -- seem pretty far-fetched, what the current research suggests is that we shouldn't be too hasty to say, "Okay, that's out of the question."

"We've literally only scratched the surface of the deep biosphere," said Robert Hazen, mineralogist at the Carnegie Institution’s Geophysical Laboratory in Washington, and co-founder of Deep Carbon Observatory.  "Might there be entire domains that are not dependent on the DNA, RNA and protein basis of life as we know it?  Perhaps we just haven’t found them yet."

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Tuesday, March 14, 2023

Genes, lost and found

There's a famous anecdote about British biologist J. B. S. Haldane.  Haldane was a brilliant geneticist and evolutionary biology but was also notorious for being an outspoken atheist -- something that during his lifetime (1892-1964) was seriously frowned upon.  The result was that religious types frequently showed up at his talks, whether or not the topic was religion, simply to heckle him.

At one such presentation, there was a question-and-answer period at the end, and a woman stood up and asked, "Professor Haldane, I was wondering -- what have your studies of biology told you about the nature of God?"

Without missing a beat, Haldane said, "All I can say, ma'am, is that he must have an inordinate fondness for beetles."

There's some justification for the statement.  Beetles, insects of the order Coleoptera, are the most diverse order in Kingdom Animalia, with over four hundred thousand different species known.  (This accounts for twenty-five percent of known animal species, in a single order of insects.)  The common ancestor of all modern species of beetles was the subject of an extensive genetic study in 2018 by Zhang et al., which found that the first beetles lived in the early Permian Period, on the order of three hundred million years ago.  They survived the catastrophic bottleneck at the end of the Permian and went on to diversify more than any other animal group.

One striking-looking family in Coleoptera is Buprestidae, better known as "jewel beetles" because of their metallic, iridescent colors.  Most of them are wood-borers; a good many dig into dying or dead branches, but a few (like the notorious emerald ash borer, currently ripping its way through forests in the northern United States and Canada) are significant agricultural pests.

A few of them have colors that barely look real:

An Australian jewel beetle, Temognatha alternata [Image licensed under the Creative Commons John Hill at the English-language Wikipedia]

What's curious about this particular color pattern is that beetles apparently had a gene loss some time around the last common ancestor three hundred million years ago that knocked out the ability of the entire group to see in the blue region of the spectrum.  This kind of thing happens all the time; every species studied has pseudogenes, genetic relics left behind as non-functional copies of once-working genes that suffered mutations either to the promoter or coding regions.  However, it's odd that animals would have colors they themselves can't see, given that bright coloration is very often a signal to potential mates.

That's not the only reason for bright coloration, of course; there is also aposematic coloration (also known as warning coloration), in which flashy pigmentation is a signal that an animal is toxic or otherwise dangerous.  There, of course, it's not important to be seen by other members of your own species; all that counts is that you're visible to potential predators.  But jewel beetles aren't toxic, so their bright colors don't appear to be aposematic.

The puzzle was solved in a paper in Molecular Biology and Evolution that came out last week, in which a genetic study of jewel beetles found that unlike other beetles, they can see in the blue region of the spectrum -- and in fact, have unusually good vision in the orange and ultraviolet regions, too.  What appears to have happened is that a gene coding for a UV-sensitive protein in the eye was duplicated a couple of times (another common genetic phenomenon), and those additional copies of the gene were then free to accrue mutations and take off down their own separate evolutionary paths.  One of them gained mutations that altered the peak sensitivity of the protein into the blue region of the spectrum; the other gave their hosts the ability to see light in the orange region.

The result is that jewel beetles became tetrachromats; their eyes have acuity peaks in four different regions of the spectrum.  (Other than a few people --who themselves have an unusual mutation -- humans are trichromats, with peaks in the red, green, and blue regions.) 

What this shows is that lost genes can be recreated.  The gene loss that took out beetles' blue-light sensitivity was replaced by a duplication and subsequent mutation of a pre-existing gene.  It highlights the fundamental misunderstanding inherent in the creationists' mantra that "mutations can't create new information;" if that's not exactly what this is, there's something seriously amiss with their definition of the word "information."  (Of course, I'm sure any creationists in the studio audience -- not that there are likely to be many left -- would vehemently disagree with this.  But since willfully misunderstanding scientific research is kind of their raison d'être, that should come as no surprise to anyone.)

Anyhow, the jewel beetle study is a beautiful and elegant piece of research.  It showcases the deep link between genetics and evolution, and reminds me of the quote from Ukrainian-American biologist Theodosius Dobzhansky, which seems a fitting place to end: "Nothing in biology makes sense except in light of evolution."

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