Privileged Planet: New study (Introduction)
by David Turell 
, Wednesday, April 25, 2012, 15:17 (4383 days ago)
Svensmark's magnum opus is published. Supernova seem to control the speed of evolution. Too bad he didn't go back further. It might explain the Cambrian.-http://wattsupwiththat.com/2012/04/24/svensmarks-cosmic-jackpot-evidence-of-nearby-supernovae-affecting-life-on-earth/#more-61941
Privileged Planet: New study
DAVID: Svensmark's magnum opus is published. Supernova seem to control the speed of evolution. Too bad he didn't go back further. It might explain the Cambrian.-http://wattsupwiththat.com/2012/04/24/svensmarks-cosmic-jackpot-evidence-of-nearby-supe...-Last week it was 11-year solar cycles, and this week it's supernovae. For all we know, everybody is right. Or wrong. The following took my eye, as it illustrates all the problems we have been discussing under "How Reliable is Science?" and its triumphant conclusion might almost have been written by our very own Matt:-"A mark of a good hypothesis is that it looks better and better as time passes. With the triumph of plate tectonics, diehard opponents were left redfaced and blustering. In 1960 you'd not get a job in an American geology department if you believed in continental drift, but by 1970 you'd not get the job if you didn't. That's what a paradigm shift means in practice and it will happen sometime soon with cosmic rays in climate physics.-Plate tectonics was never much of a political issue, except in the Communist bloc. There, the immobility of continents was doctrinally imposed by the Soviet Academy of Sciences. An analogous diehard doctrine in climate physics went global two decades ago, when the Intergovernmental Panel on Climate Change was conceived to insist that natural causes of climate change are minor compared with human impacts.-Don't fret about the diehards. The glory of empirical science is this: no matter how many years, decades, or sometimes centuries it may take, in the end the story will come out right."- Just one tiny problem here. Who can tell us for sure that it's "the end", and that the story has "come out right"?
Privileged Planet: New study
by David Turell , Thursday, April 26, 2012, 18:23 (4382 days ago) @ dhw
DAVID: Svensmark's magnum opus is published. Supernova seem to control the speed of evolution. Too bad he didn't go back further. It might explain the Cambrian. > > http://wattsupwiththat.com/2012/04/24/svensmarks-cosmic-jackpot-evidence-of-nearby-supe... > Last week it was 11-year solar cycles, and this week it's supernovae. For all we know, everybody is right. Or wrong. -Solar cycles have a different influence than supernovae on the Earth. Theories are theories are theories, to mirror Gertrude Stein. All have their place the directionality inherent in the claim: where to look next or continue to look for confirmation. -> Just one tiny problem here. Who can tell us for sure that it's "the end", and that the story has "come out right"?-Matt will know. He believes in peer review. When the herd is braying go this way, it must be correct.
Privileged Planet: New study
by xeno6696 , Sonoran Desert, Tuesday, May 01, 2012, 03:39 (4377 days ago) @ dhw
DAVID: Svensmark's magnum opus is published. Supernova seem to control the speed of evolution. Too bad he didn't go back further. It might explain the Cambrian. > > http://wattsupwiththat.com/2012/04/24/svensmarks-cosmic-jackpot-evidence-of-nearby-supe... > Last week it was 11-year solar cycles, and this week it's supernovae. For all we know, everybody is right. Or wrong. The following took my eye, as it illustrates all the problems we have been discussing under "How Reliable is Science?" and its triumphant conclusion might almost have been written by our very own Matt: > > "A mark of a good hypothesis is that it looks better and better as time passes. With the triumph of plate tectonics, diehard opponents were left redfaced and blustering. In 1960 you'd not get a job in an American geology department if you believed in continental drift, but by 1970 you'd not get the job if you didn't. That's what a paradigm shift means in practice and it will happen sometime soon with cosmic rays in climate physics. > > Plate tectonics was never much of a political issue, except in the Communist bloc. There, the immobility of continents was doctrinally imposed by the Soviet Academy of Sciences. An analogous diehard doctrine in climate physics went global two decades ago, when the Intergovernmental Panel on Climate Change was conceived to insist that natural causes of climate change are minor compared with human impacts. > > Don't fret about the diehards. The glory of empirical science is this: no matter how many years, decades, or sometimes centuries it may take, in the end the story will come out right." > > > Just one tiny problem here. Who can tell us for sure that it's "the end", and that the story has "come out right"?-dhw,-YOU or I can't. -It's only history that plays THAT one out. You and I are left with ideas and theories and have to decide for ourselves which ideas our sound. -Which in the case of the general public is sad... but I've wanted to ask for some time why you do NOT consider yourself part of the masses?
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\"Why is it, Master, that ascetics fight with ascetics?\"
\"It is, brahmin, because of attachment to views, adherence to views, fixation on views, addiction to views, obsession with views, holding firmly to views that ascetics fight with ascetics.\"
Privileged Planet: New study
From the article on Svensmark : "Don't fret about the diehards. The glory of empirical science is this: no matter how many years, decades, or sometimes centuries it may take, in the end the story will come out right."-Dhw: Just one tiny problem here. Who can tell us for sure that it's "the end", and that the story has "come out right"?-MATT: YOU or I can't. It's only history that plays THAT one out. You and I are left with ideas and theories and have to decide for ourselves which ideas are sound.-Precisely. And as you and I are in no position to test the evidence or the soundness of the theories, and as history is one long succession of changing theories, I am advocating a degree of scepticism, in the sense of suspending judgement, at least until there is a general consensus among scientists themselves.-MATT: Which in the case of the general public is sad... but I've wanted to ask for some time why you do NOT consider yourself part of the masses?-This is a puzzling question. I don't know who you mean by "the masses". I don't consider myself part of the masses that believe in a god, I don't consider myself part of the masses that disbelieve in a god, I don't consider myself part of the masses that couldn't care less. I do consider myself part of the masses that have no answer to any of the fundamental questions we discuss on this forum, I do consider myself part of the masses that would love to know more about the universe we live in, but I also consider myself part of the masses that are bewildered by and sceptical of the string of different, often conflicting theories (both scientific and philosophical) purporting to explain the origin and nature of the universe and of life. I really don't understand your question, or why you ask it, although I feel uncomfortable about its possible insinuations. Perhaps you would explain it, and then tell us whether and why you do or don't consider yourself part of "the masses".
Privileged Planet: New study
by xeno6696 , Sonoran Desert, Tuesday, May 01, 2012, 17:16 (4377 days ago) @ dhw
From the article on Svensmark : "Don't fret about the diehards. The glory of empirical science is this: no matter how many years, decades, or sometimes centuries it may take, in the end the story will come out right." > > Dhw: Just one tiny problem here. Who can tell us for sure that it's "the end", and that the story has "come out right"? > > MATT: YOU or I can't. It's only history that plays THAT one out. You and I are left with ideas and theories and have to decide for ourselves which ideas are sound. > > Precisely. And as you and I are in no position to test the evidence or the soundness of the theories, and as history is one long succession of changing theories, I am advocating a degree of scepticism, in the sense of suspending judgement, at least until there is a general consensus among scientists themselves. > > MATT: Which in the case of the general public is sad... but I've wanted to ask for some time why you do NOT consider yourself part of the masses? > > This is a puzzling question. I don't know who you mean by "the masses". I don't consider myself part of the masses that believe in a god, I don't consider myself part of the masses that disbelieve in a god, I don't consider myself part of the masses that couldn't care less. I do consider myself part of the masses that have no answer to any of the fundamental questions we discuss on this forum, I do consider myself part of the masses that would love to know more about the universe we live in, but I also consider myself part of the masses that are bewildered by and sceptical of the string of different, often conflicting theories (both scientific and philosophical) purporting to explain the origin and nature of the universe and of life. I really don't understand your question, or why you ask it, although I feel uncomfortable about its possible insinuations. Perhaps you would explain it, and then tell us whether and why you do or don't consider yourself part of "the masses".-It appears I may have offended? -I tend to equate laymen with masses. You've said a couple times lately you considered yourself a layman.-Really, now?
--
\"Why is it, Master, that ascetics fight with ascetics?\"
\"It is, brahmin, because of attachment to views, adherence to views, fixation on views, addiction to views, obsession with views, holding firmly to views that ascetics fight with ascetics.\"
Privileged Planet: New study
by David Turell , Tuesday, May 01, 2012, 18:44 (4377 days ago) @ xeno6696
> > MATT: Which in the case of the general public is sad... but I've wanted to ask for some time why you do NOT consider yourself part of the masses? > > > > This is a puzzling question. I don't know who you mean by "the masses". Perhaps you would explain it, and then tell us whether and why you do or don't consider yourself part of "the masses". > > It appears I may have offended? > > I tend to equate laymen with masses. You've said a couple times lately you considered yourself a layman.-I shall referee. A layman for science is a non-scientist. Each of us here is an advanced person with special knowledge, but a layman for a field of education in which we have little knowledge. I am a layman when it comes to computers and especially software. You are a layman when asking a physician questions, as you have in the past. We must recognize that in English words have more than one meaning depending on the context. As in panentheism! :>))
Privileged Planet: New study
MATT (to dhw): I've wanted to ask for some time why you do NOT consider yourself part of the masses?-I asked Matt to explain what he meant, and he replied: "I tend to equate laymen with masses. You've said a couple times lately you considered yourself a layman."-Then I'm even more flummoxed by your question. If I consider myself a layman and you equate laymen with the masses, shouldn't your question be: Why DO you consider yourself part of the masses? Curiouser and curiouser, as Alice would say.-FYI: A layman is someone who does not have professional or specialized knowledge of a particular subject, and as I am not a scientist, I use the term when discussing scientific subjects. (I see David has also commented on this. Thank you.)-You asked if I was offended. Of course not ... you and I are old sparring partners. I said I felt uncomfortable about the possible insinuations, because "the masses" is often a pejorative term, and if someone considers himself to be separate from the masses, it could well be construed as meaning that he feels superior. I am painfully aware of my own ignorance, which would hardly make me feel superior. That was why I asked you to explain the question and to tell us whether and why you do or don't consider yourself part of "the masses" ... which of course you have not done (some matts are more slippery than others!). As your response is even less comprehensible than the original question, perhaps you'll try again, if you think it's worth pursuing.
Privileged Planet: New study
by David Turell , Saturday, May 11, 2013, 15:59 (4002 days ago) @ dhw
"The Arctic wasn't always frozen tundra. About 3.6 million years ago, the far north was blanketed in boreal forests, and summers were 8 degrees Celsius warmer than they are today, geologists report May 9 in Science." http://www.sciencenews.org/view/generic/id/350292/description/The_Arctic_was_once_warme... or colder the Earth is a very special planet that tolerates all sorts of variations in climate. Past CO2 levels have been at the 3,000 ppm level and we evolved. Tell Al Gore.
Privileged Planet: New study
by Balance_Maintained , U.S.A., Sunday, May 12, 2013, 06:08 (4001 days ago) @ David Turell
Gee... more evidence that the Earth's history does not conform to the standard scientific model/explanation. I'm flabergasted O_o.
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What is the purpose of living? How about, 'to reduce needless suffering. It seems to me to be a worthy purpose.
Privileged Planet: Sunburn protection
by David Turell , Friday, March 07, 2014, 01:38 (3702 days ago) @ Balance_Maintained
It is now known how the Earth's magnetosphere protects us from major sun flares:-http://www.newscientist.com/article/dn25176-earth-raises-a-plasma-shield-to-battle-solar-storms.html
Privileged Planet:Third book
by David Turell , Friday, March 07, 2014, 18:10 (3702 days ago) @ David Turell
Another book has appeared describing how lucky Earth is in order to allow our life. The other books are Priveleged Planet and Rare Earth, Now Lucky Planet:-http://www.the-scientist.com//?articles.view/articleNo/39288/title/Book-Excerpt-from-Lucky-Planet/
Privileged Planet:Third book
by David Turell , Friday, March 14, 2014, 14:45 (3695 days ago) @ David Turell
Another book has appeared describing how lucky Earth is in order to allow our life. The other books are Priveleged Planet and Rare Earth, Now Lucky Planet: > > http://www.the-scientist.com//?articles.view/articleNo/39288/title/Book-Excerpt-from-Lu... excerpt from the book ,making a much clearer point of how special this planet really is:-http://www.the-scientist.com//?articles.view/articleNo/39215/title/Is-Earth-Special-/
Privileged Planet: complete eclipses
by David Turell , Tuesday, June 27, 2017, 15:00 (2494 days ago) @ David Turell
The book Privileged Planet makes a big point about total eclipses. This article thinks it is all coincidence, but at this exact time when humans are actively studying astronomy, the eclipses are exactly perfect to help us understand the sun. They weren't in the past and won't be in the future:
https://www.livescience.com/59608-why-total-solar-eclipses-are-coincidences.html?utm_so...
"After all, that's what a total solar eclipse really is: a total coincidence.
"'The [diameter of the] moon is almost exactly 400 [times] smaller than the sun's diameter, and the sun is almost exact 400 times further away than the moon," said Mark Gallaway, an astronomer at the University of Hertfordshire in the United Kingdom. "The consequence of this is that the angular diameter, or the size we see, of the sun and the moon in the sky are almost exactly the same.”
" Such a nearly perfect match wasn’t always the case, however. Because the distance between the moon and the Earth is slowly changing, solar eclipses looked very different millions of years ago — and they will again, tens of millions of years in the future. "It's a beautiful coincidence — life has been on Earth for about 400 million years, and we're living in this little window of time where this is happening, which is pretty amazing," Gallaway told Live Science.
***
"'At the moment, the moon is slowly moving away from the Earth at about the rate your finger nails grow," Galloway said, "so in a few tens of millions of years, we will stop having eclipses like this."
"Solar eclipses would also have looked very different in the distant past, when the moon was much closer to Earth and appeared much larger, Gallaway said. (Though perhaps at that time, only dinosaurs would have been around to see it.) "The moon would have completely covered the sun [at totality of the eclipse], so we wouldn't get all these weird effects like Baily's beads and the diamond ring effect," he said. Baily's beads are points of light sometimes seen when the sun reappears from behind the moon. Sunlight flooding through lunar mountains and valleys causes the phenomenon. The diamond ring is a similar effect but on a much larger scale, occurring when light from the emerging sun flares out along one side of the moon's disk, Gallaway said.
***
"A total solar eclipse is unlike any other astronomical event — changes happen above you, around you and within you," Russo told Live Science in an email. "Totality occurs because of the coincidence in scale, allowing the moon to fully block the sun. But what makes totality so special is how immersive the experience is. It is otherworldly and awe-inspiring on a scale never seen before. You don't 'see' a total eclipse. You 'experience' it," Russo said."
Comment: A coincidence says the atheist scientist. The ID author of the book notes that human development is exactly the right point to study a moon, sun event that is perfectly sized for the time being. He says God is at work.
Privileged Planet: must have water
by David Turell , Monday, July 31, 2017, 18:29 (2460 days ago) @ David Turell
A new study suggests that a good supply of liquid water is a rare planetary attribute:
https://phys.org/news/2017-07-planets-hospitable-earth.html
"Scientists dealt a blow Monday to the quest for organisms inhabiting worlds besides Earth, saying our planet was unusual in its ability to host liquid water—the key ingredient for life.
"Jun Yang, of Peking University in China, and a team used climate models to simulate the evolution of icy planets.
"Without atmospheric greenhouse gases—a feature of Earth—the energy required to thaw an icy planet would be so high that it would transit from frozen to inferno without an intermediate, liveable phase, they found.
"We find that the stellar fluxes that are required to overcome a planet's initial snowball state are so large that they lead to significant water loss and preclude a habitable planet," the team wrote.
"Some icy bodies, they suggested, may therefore never pass through a habitable Earth-like state.
"Among these, Europa and Enceladus will likely morph from iceballs into fireballs by the time the Sun reaches it's super-hot red giant phase heat in billions of years from now, said the team.
"Earth was an example of an icy world that thawed just enough, some 600-800 million years ago, thanks to planet-warming atmospheric greenhouse gases emitted by volcanic eruptions during its snowball phase, the team said.
"This meant that less solar heat would have been required for the ice to melt, enabling our planet to achieve a temperate middle ground.
"Greenhouse gases, which are naturally present in the atmosphere but also released by humans burning coal, oil and gas, are what has kept our planet warm enough for humans, animals and plants to inhabit."
Comment: Our greenhouse gases are necessary for liquid water and for life. We are a very special planet; by design? We were once snowball Earth and then the gases accumulated.
Privileged Planet: Position in Milky Way
by David Turell , Monday, July 31, 2017, 18:47 (2460 days ago) @ David Turell
edited by David Turell, Monday, July 31, 2017, 19:02
Our sun is about half way out to the edge of the galaxy in a quiet area. Characteristics of the galaxy are described:
https://phys.org/news/2017-07-outer-galaxy.html
"The sun is located inside one of the spiral arms of the Milky Way galaxy, roughly two-thirds of the way from the galactic center to the outer regions. Because we are inside the galaxy, obscuration by dust and the confusion of sources along our lines-of-sight make mapping the galaxy a difficult task. Astronomers think that the galaxy is a symmetric spiral, and about 10 years ago, CfA astronomers Tom Dame and Pat Thaddeus, using millimeter observations of the gas carbon monoxide, discovered symmetric components to the spiral arms deep in the inner galaxy that lent support to this model.
" The galaxy is not perfectly flat. It has a slight warp that allows some distant structures, at least in the direction of the constellations of Scutum and Centaurus, to be seen more distinctly above much of the foreground confusion. In 2011 the same CfA astronomers were the first to discover a large-scale spiral feature within this distant warp which they called the "Outer Scutum–Centaurus Arm (OSC)." Subsequent studies placed the OSC at a distance from the galactic center of over forty thousand light-years; it appears to be a symmetric counterpart to a spiral arm on the opposite side, in the direction of Perseus.
"CfA astronomer Tom Dame has joined with a set of collaborators to probe the extent of massive star formation in the OSC; sadly, his colleague Pat Thaddeus passed away earlier this year. Using radio measurements of ionized gas, which traces the hot ultraviolet from massive young stars, as well as bright emission from masers associated with massive star formation, the scientists observed 140 candidate locations and discovered evidence for massive young stars in about sixty percent of them. The study shows that the OSC is forming new stars, some with as much as forty solar masses each. These stars and their associated ionized environments, at least as far as we know now, mark the outer boundary for massive star formation in the Milky Way."
Comment: Once again we are privileged to exist in a quiet area of the galaxy. See the illustration to locate the sun's position. The Milky Way is a very large spiral galaxy. This entry and the previous one about maintaining water, plus the special characteristics of Earth (tectonic plates , for example) make it probable that we are the only planet with life in this galaxy. But with a fine-tuned universe for life other giant spirals could well have other Earths. We will never know them.
Privileged Planet: must have water
by David Turell , Wednesday, August 02, 2017, 15:40 (2458 days ago) @ David Turell
Another view of how a planet can develop a stable atmosphere with greenhouse gases to maintain its water:
https://cosmosmagazine.com/space/the-goldilocks-zone-for-life-may-be-rarer-than-we-thought
"The results confounded predictions that the planets would eventually enter a period in which much of the ice would melt, transforming into bio-available liquid, sustained by a stable atmosphere that maintains densities and temperatures compatible with life.
"Yang and colleagues calculated that the target planets all had inactive carbonate–silicate cycles – that is, the geological process by which rocks cycle between carbonate and silicate stages, through, variously, weathering, sedimentation and volcanic activity.
"Carbonate–silicate geochemistry is a major cause of the release of carbon, and thus its contribution to the development of atmosphere.
"As a result, the target planets all have very thin atmospheres, and the scientists discovered this has serious implications for the evolution of Goldilocks zones.
"In particular, the flimsy layers of gas will never grow warm enough to trigger the melting of the ice without the input of very large amounts of heat from outside the planet’s own system – for instance, in the form of a solar flare or a brightening star.
"And that pretty much rules out any life-friendly results.
“'We find that the stellar fluxes that are required to overcome a planet’s initial snowball state are so large that they lead to significant water loss and preclude a habitable planet,” the scientists write.
"In this scenario, the models predicted two possible end-points, neither of them helpful.
The first was the busting of the “moist greenhouse limit”, which would see water vapour accumulating in the upper reaches of the atmosphere and then escaping into space.
"The second was breaking through the “runaway greenhouse limit”, in which atmospheric warming continues unchecked, resulting in all liquid boiling away.
“'We suggest that some icy planetary bodies may transition directly to a moist or runaway greenhouse without passing through a habitable Earth-like state,” the team concludes."
Comment: The key is the carbon-silicate cycle linked to volcanic activity as it is on Earth
Privileged Planet: our sun is different than most stars
by David Turell , Thursday, August 09, 2018, 00:32 (2087 days ago) @ David Turell
Seven to 20 percent are similar:
https://www.sciencenews.org/article/sun-peculiar-makeup-compared-solar-twins
" Many sunlike stars are eerie clones, but ours is an individual. A study of solar twins reveals that the sun’s chemical makeup is surprisingly different from that of its nearby peers, while those stars are almost identical to one another. Since a star and its planets are made from the same materials, that may mean the exoplanets orbiting those stars come in just a few flavors. It also could point to a new way to discover stars with solar systems more like ours.
***
"Bedell’s team measured the abundances of 30 elements to 2 percent precision, higher than previous studies had been able to achieve, and confirmed that some elements vary with a star’s age (SN: 10/1/16, p. 25). That was what they expected — younger stars probably formed from clouds of dust and gas that had been polluted with more heavy elements from supernova explosions.
"But the ratios of certain elements that are key to planet formation, such as carbon to oxygen or magnesium to silicon, were nearly identical across the stars in the survey. Stars and their planets form from the same original cloud of gas and dust, so the star’s chemistry represents what its planets are made of. The relative amounts of magnesium and silicon in a planet can determine everything from whether a planet has a rocky crust to if it has plate tectonics to what kind of minerals it forms.
***
“'Past studies have said that there is a lot of diversity from star to star, so there should be a lot of diversity among planets,” Bedell says. “We’re seeing a lot of the same.”
But not when it comes to the sun. The team found that the sun’s elements come in subtly different proportions. For example, the sun is missing about four Earth masses worth of rocks and metals — the very elements that the planets are made of. That result could be because of the solar system: The elements are missing from the sun because they’re locked up in the planets, Bedell says. There’s another, less savory possibility: The other stars might contain more rocky elements because they once had planets, and ate them.
"Only a minority — 7 to 20 percent — of the stars measured by Bedell’s team matched the sun. No planets have been found orbiting those stars. “Of course that doesn't mean that they don't have planets, just that we can't see them yet,” Bedell says. Searching for other stars that share this shortage of rock and metal elements could help astronomers find other solar systems like our own.
"The work “shows that we can do high precision abundance measurements, which are vital” for figuring out a planet’s composition based on its star, says exogeologist Cayman Unterborn of Arizona State University in Tempe, who was not involved in the study. He thinks there’s still room for exotic exoplanet compositions to exist, though — other stars that aren’t twins of the ones in this group could have different chemistries."
Comment: Our solar system is very different and our Earth, on that basis, seems very special.
Privileged Planet: another summary of evidence
by David Turell , Saturday, December 22, 2018, 19:29 (1951 days ago) @ David Turell
A good summary of reasons to consider Earth this way:
https://www.nationalreview.com/2018/12/apollo-8-astronauts-christmas-eve-message-book-o...
"Astronomers now know that Earth is a rare, life-friendly “oasis in the big vastness of space,” as Borman later reflected. In the past few decades they have discovered that life on our planet depends on many improbable “rare-earth” factors. Earth must orbit the sun at just the right distance, with just the right axial tilt, and with just the right-shaped orbit and right planetary neighbors. Life depends on Earth having a moon of the right size at the right distance. The solar system as a whole must also reside in a narrow life-friendly band of space within our galaxy, the “galactic habitable zone.”
"We’ve also come to appreciate that we inhabit a privileged platform for scientific discovery. Earth’s crust is endowed with the abundant mineral and energy resources required for advanced technology, including that necessary for sending astronauts to the moon. Our clear atmosphere and location far from the center of a large galaxy allow us to learn about the universe near and far.
"At a deeper level, physicists now know that the universe itself exhibits extreme fine-tuning. Even slight changes to the relative masses of fundamental particles or to the strengths of fundamental forces, or to the force driving the accelerating expansion of the universe or to its initial arrangement of mass and energy, would have rendered the universe incapable of sustaining life. In the 1960s, physicists had just begun to discover examples of such fine-tuning. Now they know of many more. This suggests “the common sense interpretation,” as Cambridge University astrophysicist Fred Hoyle put it, “that a super intellect has monkeyed with physics” to make life possible.
"Parallel developments in biology have reinforced this perspective. In the 1950s, Watson and Crick discovered that DNA contains digital information, which many biologists and computer scientists have likened to software code. Molecular biologists have since elucidated a complex information-processing system serviced by equally complex nano-machinery in even “simple” one-celled organisms. These discoveries have thwarted attempts to explain the origin of life by undirected processes. By 1980, Francis Crick would acknowledge that the origin of life appears “to be almost a miracle, so many are the conditions which would have had to have been satisfied to get it going.”
" In 1968, physicists had only just discovered in the mysterious “cosmic background radiation” the echo of the Big Bang. Though that evidence strongly implied that the universe had a beginning, other cosmological models remained viable. By 1992, more-detailed images of the radiation collected by a sophisticated satellite established the Big Bang beyond reasonable doubt, confirming the words read from space: “In the beginning . . .'”
Comment: It should be noted Fred Hoyle was an atheist most of his life. A 'super intellect' must exist.
Privileged Planet: another summary of evidence
QUOTES: "At a deeper level, physicists now know that the universe itself exhibits extreme fine-tuning. Even slight changes to the relative masses of fundamental particles or to the strengths of fundamental forces, or to the force driving the accelerating expansion of the universe or to its initial arrangement of mass and energy, would have rendered the universe incapable of sustaining life. In the 1960s, physicists had just begun to discover examples of such fine-tuning. Now they know of many more. This suggests “the common sense interpretation,” as Cambridge University astrophysicist Fred Hoyle put it, “that a super intellect has monkeyed with physics” to make life possible.
"Parallel developments in biology have reinforced this perspective. In the 1950s, Watson and Crick discovered that DNA contains digital information, which many biologists and computer scientists have likened to software code. Molecular biologists have since elucidated a complex information-processing system serviced by equally complex nano-machinery in even “simple” one-celled organisms. These discoveries have thwarted attempts to explain the origin of life by undirected processes. By 1980, Francis Crick would acknowledge that the origin of life appears “to be almost a miracle, so many are the conditions which would have had to have been satisfied to get it going.”
DAVID: It should be noted Fred Hoyle was an atheist most of his life. A 'super intellect' must exist.
Thank you for this excellent summary of the case for a designer. (As you can imagine, I’m particularly interested in the reference to “simple” one-celled organisms.) This is the field in which I see your own speculations as entirely logical, unlike your speculations concerning the “super intellect’s” purposes and methods. I have no answer to the design argument – just as I have no answer to the question of how a super intellect can simply be there, if all life’s lesser intellects require a designer.
Privileged Planet: continental drift
by David Turell , Monday, February 18, 2019, 15:22 (1893 days ago) @ dhw
edited by David Turell, Monday, February 18, 2019, 15:29
The movement of Earth's plates, with roving continents is a concept that is less than 55 years old! The following is a long history of the geologist's garbled thinking, but we wouldn't be here without continental drift and subduction:
https://aeon.co/essays/when-geology-left-solid-ground-how-mountains-came-to-be?utm_sour...
"A lone exception was the British geologist Arthur Holmes (1890-1965) who as early as 1929 proposed that convection cells in the mantle – like rolling wheels beneath the crust – could be the motor for both Wegener’s continents and the explanation for mountain-building. But even he declined to push the idea too hard, opting to present the most fully developed version of his theory in his geology textbook.
"...in the guise of newly declassified naval data that revealed for the first time the strange world of the abyssal ocean floor. Bathymetric charts and corresponding maps of the magnetic properties of deep-sea rocks provided the critical clues to the mechanism for moving the continents. That is, seafloor spreading, in which fresh volcanic ocean crust is continuously produced at submarine ridges, and then forced outward as successive batches of basaltic magma rise. But it took several years before the complementary process, subduction, was understood, and this, at last, provided an explanation for how mountains grow.
"When seafloor basalt is around 150 million years old, and hundreds of miles from its natal ridge, it has become about as dense as the underlying mantle, and sinks back into Earth’s interior at a slant, pulling the rest of the plate behind it like a blanket sliding off a bed. Holmes had been right – mantle convection was the key, but the convection cells were not deep subterranean rotors – they included the crust. (And to be fair to disciples of geosynclinal theory, the vertical pull of gravity is, in the end, responsible for horizontal plate motions.) The process of subduction recycles ocean crust and generates devastating earthquakes, but over longer timescales is a constructive phenomenon, since it sets the stage for mountain-building. Many subduction zones occur close to coastlines, as in the case of western South America, where part of the floor of the Pacific Ocean plunges eastward beneath the continent. In such a setting, if a subducting slab of ocean crust is towing a continent, an eventual head-on collision between landmasses is inevitable. That’s why Peach and Horne’s Scottish Caledonides, Willis’s Appalachians and Mount Everest itself are there.
***
"Many of the great mountain belts in the world, like the Andes and McConnell’s Rockies, haven’t involved actual continent-on-continent pile-ups. In the case of the Canadian Rockies, it seems that a series of smaller unsubductable factors such as Hawaiian-type islands or orphaned continental fragments might have careened into western North America and raised the mountains. The Colorado Rockies, somewhat younger, are strange because they formed far inland from the plate boundary and don’t seem to have involved a collision at all. Instead, the cause of crustal shortening might have been subduction of a still-buoyant ocean plate that refused to go quietly into the mantle, raising welts in the continent above.
***
"In the past decade or so, we have gained an appreciation for how mountain-building is not in fact driven purely by tectonics but by the subtle interplay between tectonic processes and the external agents of erosion even as mountains are forming. Some of these insights have come from a new generation of scale models that, together with computational ones, allow us to watch mountains growing in real time. Among the most elegant ideas to emerge is ‘critical taper theory’, which posits that the outer part of a growing mountain belt – where shelf sediments are shoved up onto the adjacent continent – can be approximated by a wedge of sand being pushed by a bulldozer blade.
***
"Fortunately, nature will always be messier, subtler, richer – and far more interesting than our cartoonish depictions of it. How wonderful to know that we live on a planet that is not shrivelling in its old age, but is vibrantly alive and self-rejuvenating, stirring its interior, reworking its surface, recycling its crust, and raising new mountains."
Comment: We now know Life needs a vibrant living changing planet. Old theories die hard (Thomas Kuhn).
Privileged Planet: red giant contributions
by David Turell , Tuesday, December 10, 2019, 18:48 (1598 days ago) @ David Turell
The Earth is far more seeded with elements than planets further out from our sun:
https://phys.org/news/2019-12-stardust-red-giants.html
"Some of the Earth's building material was stardust from red giants, researchers from ETH Zurich have established. They have also explained why the Earth contains more of this stardust than the asteroids or the planet Mars, which are farther from the sun.
***
"'The variable proportions of these isotopes act like a fingerprint," Schönbächler says.
"'Stardust has really extreme, unique fingerprints—and because it was spread unevenly through the protoplanetary disc, each planet and each asteroid got its own fingerprint when it was formed."
***
"They argue that stardust consisted mainly of material that was produced in red giant stars. These are aging stars that expand because they have exhausted the fuel in their core. Our sun, too, will become a red giant 4 or 5 billion years from now.
"In these stars, heavy elements such as molybdenum and palladium were produced by what is known as the slow neutron capture process. "Palladium is slightly more volatile than the other elements measured. As a result, less of it condensed into dust around these stars, and therefore there is less palladium from stardust in the meteorites we studied," Ek says.
"The ETH researchers also have a plausible explanation for another stardust puzzle: the higher abundance of material from red giants on Earth compared to Mars or Vesta or other asteroids further out in the solar system. This outer region saw an accumulation of material from supernova explosions.
"'When the planets formed, temperatures closer to the sun were very high," Schönbächler explains. This caused unstable grains of dust, for instance, those with an icy crust, to evaporate. The interstellar material contained more of this kind of dust that was destroyed close to the sun, whereas stardust from red giants was less prone to destruction and hence concentrated there. It is conceivable that dust originating in supernova explosions also evaporates more easily, since it is somewhat smaller. "This allows us to explain why the Earth has the largest enrichment of stardust from red giant stars compared to other bodies in the solar system," Schönbächler says."
Comment: Still more evidence on how this planet was carefully prepared for us. Obviously we were the final goal.
Privileged Planet:Earth itself helped get high oxygen levels
by David Turell , Tuesday, December 10, 2019, 21:51 (1598 days ago) @ David Turell
edited by David Turell, Tuesday, December 10, 2019, 22:00
A new study thinks it was mainly the photosynthetic bugs encouraged by what was available on Earth:
https://www.newscientist.com/article/2226874-why-is-earth-so-rich-in-oxygen-the-answer-...
"It may have been unexpectedly easy for the air to become rich in oxygen. A new simulation of the rise of oxygen suggests it was driven by the planet itself, and needed little help from living organisms.
***
"Oxygen levels then rose twice more: once between 800 and 540 million years ago, and again 450-400 million years ago.
***
"Scientists have tried to explain the oxidation events by linking them to major evolutionary shifts or tectonic activity, says Simon Poulton of the University of Leeds. For instance, the final rise has been linked to the spread of land plants.
"Alcott and Poulton believe there is no need to invoke any such dramatic events, other than the initial evolution of photosynthetic bacteria. With Benjamin Mills, they have shown that the behaviour of the planet is enough to explain the stepwise rises in oxygen levels.
"The key is that Earth’s mantle has been gradually cooling since the planet formed, and as it cools it releases fewer volcanic gases like sulphur dioxide, which react with oxygen and remove it from the air. When the team modelled how this shift affected the cycling of oxygen around the planet, they observed three sharp increases in oxygen that corresponded to the known oxidation events.
"The initial Great Oxidation Event came about because the oxygen from bacteria overwhelmed the volcanic gases in the air. Levels then held steady for millions of years, because any extra oxygen reacted with minerals on land.
"In the model, the second rise happened because the extra oxygen changed the nature of phosphorus-containing materials, making them more likely to be buried in sediments. Phosphorus is a vital nutrient, so this change meant fewer organisms that would otherwise have taken in oxygen, allowing more oxygen to escape into the air and into surface layers of the sea. The same process led to a third sharp rise in oxygen, when it reached the deep ocean."
Comment: Studies continue to show how this planet prepared for life to start. Planned by God!? Another site explains the research done:
https://phys.org/news/2019-12-life-oxygen-debate.html
"In a new study, Leeds researchers modified a well-established conceptual model of marine biogeochemistry so that it could be run over the whole of Earth history, and found that it produced the three oxygenation events all by itself.
Their findings suggest that beyond early photosynthetic microbes and the initiation of plate tectonics—both of which were established by around three billion years ago—it was simply a matter of time before oxygen would reach the necessary level to support complex life.
***
"The first "Great Oxidation Event" occurred during the Paleoproterozoic era—roughly 2.4 billion years ago. The subsequent wholesale oxygenation events occurred in the Neoproterozoic era around 800 million years ago and finally in the Paleozoic Era roughly 450 million years ago, when atmospheric oxygen rose to present day levels.
"Large animals with high energy demands require high levels of oxygen, and evolved soon after the last of these steps, ultimately evolving into dinosaurs and mammals.
"Currently, the two prevailing theories suggest the drivers of these oxygenation events were either major steps in biological revolutions—where the evolution of progressively more complex lifeforms essentially "bioengineered" oxygenation to higher levels—or tectonic revolutions—where oxygen rose due to shifts in the style of volcanism or make-up of the crust."
Comment: Clarifies the concepts. Lots of oxygen allows for evolutionary advances as genomes are changed.
Privileged Planet: magnetic field protects life early on
by David Turell , Wednesday, December 11, 2019, 19:25 (1597 days ago) @ David Turell
The field was up and running early so life could survive:
https://www.nature.com/articles/d41586-019-03807-7?utm_source=Nature+Briefing&utm_c...
"Magnetic minerals in ancient Greenlandic rocks suggest that Earth’s magnetic field arose at least 3.7 billion years ago. The finding pushes back the time of the magnetic field’s birth to about 200 million years earlier than the commonly accepted estimate — around the time life first appeared on Earth.
"Scientists think that having a magnetic field makes Earth more hospitable to life. The field, which is generated by liquid iron sloshing about in the planet’s core, shields Earth from energetic particles flowing from the Sun. It helps the planet hold on to its atmosphere and maintain liquid water on its surface.
***
"Nichols led two expeditions to western Greenland in the summers of 2018 and 2019. She was targeting a set of ancient rocks in the Isua region, north of the capital city Nuuk, that researchers have long studied in search of clues to early life. The Isua rocks have inspired fierce debates, including whether they contain fossils of complex organisms from 3.7 billion years ago.
"Geological forces have squeezed and heated the rocks so much over the past few billion years that most scientists thought the rocks had lost most of their magnetism. But Nichols and her team travelled to the northernmost part of Isua to study rocks that had been least affected by this squeezing and heating.
"Iron minerals in those rocks yielded information on the direction of Earth’s magnetic field when the minerals formed. Because the rocks are 3.7 billion years old, the magnetic signal must be, too, Nichols said.
"Her team ran various tests to try to confirm that the signal was real and not some sort of weak magnetism introduced later as the rocks were heated and squeezed."
Comment: Finding not yet fully confirmed, but the evidence continues that the Earth was fully designed for life from its beginning.
Privileged Planet: bacteria break down bedrock
by David Turell , Tuesday, December 17, 2019, 19:41 (1591 days ago) @ David Turell
The Earth started as a rocky planet, but to have life soil is needed. Bacteria were there first to start the job, and are still doing it:
https://www.sciencedaily.com/releases/2019/12/191216151447.htm
"Research published this week by University of Wisconsin-Madison scientists shows how bacteria can degrade solid bedrock, jump-starting a long process of alteration that creates the mineral portion of soil.
"Soil, which the aphorism describes as "that thin layer on the planet that stands between us and starvation," is a complex mishmash of minerals and organics.
"The problem is this, says senior author Eric Roden, a professor of geoscience at UW-Madison: "The general picture of soil shows solid bedrock a few meters below the surface, then a fractured, crumbly layer popularly called 'subsoil.' At the top is the rich, biologically active layer called soil. Chemical analysis links the minerals in soil to bedrock, but how does this extreme transformation take place?"
***
"Scientists have wondered for decades whether and how microorganisms could engage in the initial breakdown, but only now have they explained the essential trick that bacteria use to "eat" the upper surface of bedrock, says Roden.
"The process revolves around oxidation, familiar as the cause of rust in iron. Oxidation moves electrons, which supply energy to the bacteria, says Roden. "What we've developed is a picture of how bacteria slowly 'munch' rocks to extract energy without taking the minerals into their cells."
"In general, microbes ingest their "food" into their cells before they "eat" it, but they cannot ingest intact rock. So the diverse group of bacteria that Roden's group identified in the lab use proteins on their outer surface to move the electrons.
***
"...she inoculated the samples with material from the drill hole, which carried a natural stew of bacteria. She used a sterile fluid for her comparison samples.
After about two-and-a-half years in the dark, at room temperature, electron micrographs showed a radical change in surface texture -- but only if bacteria were present. "The rate of oxidation, weathering, was slow, but without the bacteria, it was zero," says Napieralski. "Although there is some chemical weathering in the critical zone, it was so slow that we did not see it during the experiment."
"'In my opinion, this type of metabolism has been going on basically forever, but unknown to us," says Roden. "This discovery opens up a whole other way of thinking about the oxidative weathering of ferrous silicate rock. We have danced around this for years. Rocks were dissolving, and microbes were involved. I kept saying, 'What about the microbial oxidation of rock?' and my colleagues said, 'Show me.'"
***
"Although the study focused on the dark, stable temperatures found at the top of bedrock, iron-oxidizing bacteria may also play a role in weathering higher up in the soil, Napieralski says. "External electron transfer is a way to cope with the difficulty of eating iron. One big thing in the paper is demonstrating that the organisms grew and coupled the oxidation of iron to the generation of ATP, the 'energy molecule' in all known types of life."
"A full understanding of life requires an accounting of energy, Roden says. "What we have found is that the cells make direct contact with an otherwise insoluble mineral, and they pull electrons from the mineral. They are getting energy from eating rock and along the way supplying nutrients for plants -- for life on Earth."
Comment: No wonder bacteria came first and are still here. They are the workhorses in evolution of a livable Earth as God's agents. Lichens do the job on the surface.
Privileged Planet: early Earth a water world
by David Turell , Tuesday, March 03, 2020, 20:21 (1514 days ago) @ David Turell
New research suggests the early Earth ws totally covered with water:
https://www.theguardian.com/science/2020/mar/02/earth-may-have-been-a-water-world-3bn-y...
"Scientists have found evidence that Earth was covered by a global ocean that turned the planet into a “water world” more than 3bn years ago.
"Telltale chemical signatures were spotted in an ancient chunk of ocean crust which point to a planet once devoid of continents, the largest landmasses on Earth.
***
"Their work centred on a geological site called the Panorama district in north-western Australia’s outback, where a 3.2bn-year-old slab of ocean floor has been turned on its side. Locked inside the ancient crust are chemical clues about the seawater that covered Earth at the time.
"The scientists focused on different types of oxygen that seawater had carried into the crust. In particular, they analysed the relative amounts of two isotopes, oxygen-16 and the ever-so-slightly-heavier oxygen-18, in more than 100 samples of the stone.
"They found that seawater contained more oxygen-18 when the crust was formed 3.2bn years ago. The most likely explanation, they believe, is that Earth had no continents at the time, because when these form, the clays they contain absorb the ocean’s heavy oxygen isotopes.
“'Without continents above the ocean, the oxygen value would be distinct from today, which is exactly what we found,” Johnson said. “And it’s different in a way that’s most easily explained without land to get rained on and without soil formation.”
"The findings do not mean Earth was entirely landless at the time. The scientists suspect that small “microcontinents” may have poked out of the ocean here and there. But they do not think the planet hosted vast soil-rich continents like those that dominate Earth today."
Comment: An interesting aspect of the history of our early Earth
Privileged Planet: early Earth a water world new study
by David Turell , Friday, March 13, 2020, 15:06 (1504 days ago) @ David Turell
What is a surprise is water, nitrogen and carbon arrived late:
https://www.sciencedaily.com/releases/2020/03/200312112658.htm
"Previously, many scientists believed that these elements were already present when the Earth began to form. However, geological investigations have now shown that most of the water in fact was only delivered to Earth when its formation was almost complete.
***
"It is a generally accepted fact that volatile elements such as water originate from asteroids, the 'planetary building blocks' that formed in the outer solar system. However, there is ongoing discussion among experts as to when precisely they came to Earth. 'We have now been able to narrow down the timeframe much more precisely', said first author Dr. Mario Fischer-Gödde
***
"Professor Dr. Carsten Münker added: 'If we still find traces of the rare platinum metals in the Earth's mantle, we can assume that they were only added after the formation of the core was completed. They were certainly added during later collisions of the Earth with asteroids or smaller protoplanets, so called planetesimals.'
***
"'Our findings suggest that water and other volatile elements such as carbon and nitrogen did indeed arrive on Earth very late, during the "late veneer" phase', Fischer-Gödde concluded. This result is surprising because the scientific community had previously assumed that water-bearing planetary building blocks were already delivered to Earth during the early stages of its formation."
Comment: Just more information as to how the Earth was put together to make it so magical.
Privileged Planet: the core and the magnetic field
by David Turell , Sunday, March 15, 2020, 20:40 (1502 days ago) @ David Turell
Theories still compete to some degree, but it is obvious there was a protective magnetic shield early on, because we have evidence of very early life, that needed such protection:
https://www.sciencedaily.com/releases/2020/03/200315102257.htm
"A trio of studies are the latest developments in a paradigm shift that could change how Earth history is understood. They support an assertion by a geophysicist that a once-liquid portion of the lower mantle, rather than the core, could have exceeded the thresholds needed to create Earth's magnetic field during its early history.
"In a study appearing March 15 in the journal Earth and Planetary Science Letters, Scripps Oceanography researchers Dave Stegman, Leah Ziegler, and Nicolas Blanc provide new estimates for the thermodynamics of magnetic field generation within the liquid portion of the early Earth's mantle and show how long that field was available.
"The paper provides a "door-opening opportunity" to resolve inconsistencies in the narrative of the planet's early days. Significantly, it coincides with two new studies from UCLA and Arizona State University geophysicists that expand on Stegman's concept and apply it in new ways.
"'Currently we have no grand unifying theory for how Earth has evolved thermally," Stegman said. "We don't have this conceptual framework for understanding the planet's evolution. This is one viable hypothesis."
***
"'Ziegler and Stegman first proposed the idea of a silicate dynamo for the early Earth," said UCLA geophysicist Lars Stixrude. The idea was met with skepticism because their early results "showed that a silicate dynamo was only possible if the electrical conductivity of silicate liquid was remarkably high, much higher than had been measured in silicate liquids at low pressure and temperature."
"A team led by Stixrude used quantum-mechanical computations to predict the conductivity of silicate liquid at basal magma ocean conditions for the first time.
"According to Stixrude, "we found very large values of the electrical conductivity, large enough to sustain a silicate dynamo."
***
"If Stegman's premise is correct, it would mean the mantle could have provided the young planet's first magnetic shield against cosmic radiation. It could also underpin studies of how tectonics evolved on the planet later in history.
"'If the magnetic field was generated in the molten lower mantle above the core, then Earth had protection from the very beginning and that might have made life on Earth possible sooner," Stegman said.
"'Ultimately, our papers are complementary because they demonstrate that basal magma oceans are important to the evolution of terrestrial planets," said O'Rourke. "Earth's basal magma ocean has solidified but was key to the longevity of our magnetic field.'"
Comment: this study covers the earliest time of the Earth's existence in how a magnetic field was produced. Now the liquid iron-nickel core convection currents is thought to be the present provider. Special development of a special planet that supports life. By design.
Privileged Planet: plate tectonics earlier start
by David Turell , Thursday, April 23, 2020, 00:04 (1464 days ago) @ David Turell
As early as 3.2 billion years ago:
https://www.sciencenews.org/article/earth-plate-tectonics-may-have-started-earlier-than...
"Modern plate tectonics may have gotten under way as early as 3.2 billion years ago, about 400 million years earlier than scientists thought. That, in turn, suggests that the movement of large pieces of Earth’s crust could have played a role in making the planet more hospitable to life.
"Geologist Alec Brenner of Harvard University and his colleagues measured the magnetic orientations of iron-bearing minerals in the Honeyeater Basalt, a layer of rock that formed between 3.19 billion and 3.18 billion years ago. The basalt is part of the East Pilbara Craton, an ancient bit of continent in Western Australia that includes rocks as old as 3.5 billion years.
"This craton, the researchers found, was on the move between 3.35 billion and 3.18 billion years ago, drifting around the planet at a rate of at least 2.5 centimeters per year. That’s a speed comparable to modern plate motions, the team reports April 22 in Science Advances.
***
"Plate tectonics is generally thought to have become a well-established global process on Earth no earlier than around 2.8 billion years ago. Before that, Earth’s interior was considered to be too hot for cold, rigid plates to form at the surface, or for deep subduction to occur, in which one crustal plate dives beneath another.
"An earlier start to plate tectonics would have implications for the evolution of life on Earth, Brenner told reporters. Whether the process was in operation when the first single-celled organisms emerged, currently thought to be at least 3.45 billion years ago, isn’t clear, he said.
"But it is clear that plate tectonics is currently closely tied to the biosphere, he added. It promotes chemical reactions between once-buried rocks and the atmosphere that can modulate the planet’s climate over millions to billions of years. “So if [plate tectonics] happened on the early Earth, these processes were likely playing a part in the evolution of life,” Brenner said. (my bold)
"Active, modern-style plate tectonics is the most likely explanation for the data, the researchers say. But they acknowledge other possible explanations can’t yet be ruled out, including an early, episodic, fit-and-start style of plate tectonics. "
Comment: Note my bold. It all fits into my thought that God evolved the Earth to prepare for His early start to life.
Privileged Planet: plate tectonics earlier start
by David Turell , Thursday, May 28, 2020, 00:55 (1429 days ago) @ David Turell
Even older than the last study presented:
https://phys.org/news/2020-05-earlier-birth-date-tectonic-plates.html
"Yale geophysicists reported that Earth's ever-shifting, underground network of tectonic plates was firmly in place more than 4 billion years ago—at least a billion years earlier than scientists generally thought.
***
"In the new study, Korenaga and Yale graduate student Meng Guo found evidence of continental growth starting as early as 4.4 billion years ago. They devised a geochemical simulation of the early Earth based on the element argon—an inert gas that land masses emit into the atmosphere. Argon is too heavy to escape Earth's gravity, so it remains in the atmosphere like a geochemical ledger.
"'Because of the peculiar characteristics of argon, we can deduce what has happened to the solid Earth by studying this atmospheric argon," Korenaga said. "This makes it an excellent bookkeeper of ancient events."
"Most of the argon in Earth's atmosphere is 40Ar—a product of the radioactive decay of 40K (potassium), which is found in the crust and mantle of continents. The researchers said their model looked at the atmospheric argon that has gradually accumulated over the history of the planet to determine the age of continental growth.
"Part of the challenge in creating their simulation, the researchers said, was incorporating the effects of a geological process called "crustal recycling." This refers to the cycle by which continental crust builds up, then is eroded into sediments, and eventually carried back underground by tectonic plate movements—until the cycle renews itself.
"The simulation thus had to account for argon gas emissions that were not part of continental growth.
"'The making of continental crust is not a one-way process," Korenaga said."
Comment: Same as last one. God had to prepare the Earth very early for life to begin when it did. The earliest evidence is 3.8 byo
Privileged Planet: plate tectonics same since start
by David Turell , Friday, June 26, 2020, 20:11 (1399 days ago) @ David Turell
Analysis of plate rifts composition in the deep ocean shows subduction rate has been the same over time:
https://phys.org/news/2020-06-geochemists-mystery-earth-crust.html
"The researchers provided fresh evidence that, while most of the Earth's crust is relatively new, a small percentage is actually made up of ancient chunks that had sunk long ago back into the mantle then later resurfaced. They also found, based on the amount of that "recycled" crust, that the planet has been churning out crust consistently since its formation 4.5 billion years ago—a picture that contradicts prevailing theories.
***
"'Like salmon returning to their spawning grounds, some oceanic crust returns to its breeding ground, the volcanic ridges where fresh crust is born," said co-author Munir Humayun, a MagLab geochemist and professor at Florida State's Department of Earth, Ocean and Atmospheric Science (EOAS). "We used a new technique to show that this process is essentially a closed loop, and that recycled crust is distributed unevenly along ridges."
***
"The Earth's oceanic crust is formed when mantle rock melts near fissures between tectonic plates along undersea volcanic ridges, yielding basalt. As new crust is made, it pushes the older crust away from the ridge toward continents, like a super slow conveyer belt. Eventually, it reaches areas called subduction zones, where it is forced under another plate and swallowed back into the Earth.
***
"Early on, the team discovered that the relative proportions of germanium and silicon were lower in melts of recycled crust than in the "virgin" basalt emerging from melted mantle rock. So they developed a new technique that used that ratio to identify a distinct chemical fingerprint for subducted crust.
***
"Digging deeper into the patterns they found, the scientists unearthed more secrets. Based on the amounts of enriched basalts detected on global mid-ocean ridges, the team was able to calculate that about 5 to 6 percent of the Earth's mantle is made of recycled crust, a figure that sheds new light on the planet's history as a crust factory. Scientists had known the Earth cranks out crust at the rate of a few inches a year. But has it done so consistently throughout its entire history?
"Their analysis, Humayun said, indicates that, "The rates of crust formation can't have been radically different from what they are today, which is not what anybody expected.'"
Comment: Certainly looks as if God designed the perfect mechanism for keeping Earth's crust perfect for us as it needs to be. Mechanical things are easy to make perfectly.
Unfortunately the mechanisms of life are not.
Privileged Planet: making the moon
by David Turell , Monday, July 13, 2020, 22:52 (1382 days ago) @ David Turell
When Earth was very young, a smaller planet collided with it and knocked off what became the one moon we have and need:
https://phys.org/news/2020-07-younger-age-earth-moon.html
"The moon formed a little later than previously assumed. When a Mars-sized protoplanet was destroyed in a collision with the young Earth, a new body was created from the debris ejected during this collision, which became the moon. Planetary geophysicists at the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt; DLR), led by Maxime Maurice, together with researchers at the University of Münster, have used a new numerical model to reconstruct the time at which the event occurred—4.425 billion years ago. The previous assumptions about the formation of the moon were based on an age of 4.51 billion years—that, is 85 million years earlier than the new calculations reveal. The scientists have reported their findings in Science Advances.
"Four and a half billion years ago, the solar system was still chaotic. Earth was still growing to its present size, collecting matter in the form of what are referred to as planetesimals. These had previously formed in the disc of dust and gas orbiting the early sun. The young Earth consolidated, becoming ever hotter inside. Increasingly, large parts of the rocky mantle melted and formed a magma ocean. It is at this time that Earth gained the natural satellite that continues to orbit around it to this day. A massive cosmic collision between Earth and a protoplanet ejected rock from the young Earth. Eventually, this debris agglomerated to form a new planetary body—the moon.
***
"It was not only Earth that had an ocean of magma in its early youth. Energy gained from accretion also led to the formation of a magma ocean on the moon. The moon melted almost completely and, similarly to Earth, was covered by a magma ocean over 1000 kilometers deep. This magma ocean quickly began to solidify and formed a crust of floating, lightweight crystals at the surface—its 'interface' with the cold space. But under this insulating crust, which slowed down the further cooling and solidification of the magma ocean, the moon remained molten for a long time. Until now, scientists were unable to determine how long it took for the magma ocean to crystallize completely, which is why they could not conclude when the moon originally formed.
***
"This finding is significant because it allowed the authors to link the formation of different types of rock on the moon to a certain stage in the evolution of its magma ocean. "By comparing the measured composition of the moon's rocks with the predicted composition of the magma ocean from our model, we were able to trace the evolution of the ocean back to its starting point, the time at which the moon was formed," explains Sabrina Schwinger.
"The results of the study show that the moon was formed 4.425 ± 0.025 billion years ago. The moon's exact age is in remarkable agreement with an age previously determined for the formation of Earth's metallic core with the uranium-lead method, the point at which the formation of planet Earth was completed. "This is the first time that the age of the moon can be directly linked to an event that occurred at the very end of the Earth's formation, namely the formation of the core," says Thorsten Kleine from the Institute of Planetology at the University of Münster."
Comment: Many entries in the past have described how important the moon is to have life on Earth. Not hard to realize this, like Chixculub, demonstrates the hand of God in action.
Privileged Planet: factors controlling climate
by David Turell , Thursday, July 23, 2020, 19:39 (1372 days ago) @ David Turell
Worth downloading and quick skimming to see moving figures:
https://www.quantamagazine.org/how-earths-climate-changes-naturally-and-why-things-are-...
"The sun has been dimming slightly for the last half-century while the Earth heats up, so global warming cannot be blamed on the sun.
***
"Ilopango triggered a roughly 2 degree Celsius drop that lasted 20 years. More recently, the eruption of Pinatubo in the Philippines in 1991 cooled the global climate by 0.6 degrees Celsius for 15 months.
"Volcanic sulfur in the stratosphere can be disruptive, but in the grand scale of Earth’s history it’s tiny and temporary.
***
"...the El Niño–Southern Oscillation, involves circulation changes in the tropical Pacific Ocean on a time frame of two to seven years that strongly influence rainfall in North America. The North Atlantic Oscillation and the Indian Ocean Dipole also produce strong regional effects. Both of these interact with the El Niño–Southern Oscillation.
***
"Earth’s orbit wobbles as the sun, the moon and other planets change their relative positions. These cyclical wobbles, called Milankovitch cycles, cause the amount of sunlight to vary at middle latitudes by up to 25% and cause the climate to oscillate.
***
'Though the sun’s brightness fluctuates on shorter timescales, it brightens overall by 0.009% per million years, and it has brightened by 48% since the birth of the solar system 4.5 billion years ago.
"Clement conditions in the second half of Earth’s existence, despite a brightening sun, do not create a paradox: Earth’s weathering thermostat counteracts the effects of the extra sunlight, stabilizing Earth’s temperature.
***
"The main control knob for Earth’s climate through deep time has been the level of carbon dioxide in the atmosphere, since carbon dioxide is a long-lasting greenhouse gas that blocks heat that tries to rise off the planet.
"Each year, the burning of fossil fuels emits about 100 times more carbon dioxide than volcanoes emit — too much too fast for oceans and weathering to neutralize it, which is why our climate is warming and our oceans are acidifying.
***
"Earlier, in the Jurassic and Cretaceous periods, dinosaurs roamed Antarctica because enhanced volcanic activity, in the absence of those mountain chains, sustained carbon dioxide levels around 1,000 parts per million, compared to 415 ppm today. The average temperature of this ice-free world was 5 to 9 degrees Celsius warmer than now, and sea levels were around 250 feet higher.
***
"The rearrangement of land masses on Earth’s crust can slowly shift the weathering thermostat to a new setting.
***
"The Earth Impact Database recognizes 190 craters with confirmed impact on Earth so far. None had any discernable effect on Earth’s climate except for the Chicxulub impact, which vaporized part of Mexico 66 million years ago, killing off the dinosaurs. Computer modeling suggests that Chicxulub blasted enough dust and sulfur into the upper atmosphere to dim sunlight and cool Earth by more than 20 degrees Celsius, while also acidifying the oceans.
***
"Occasionally, the evolution of new kinds of life has reset Earth’s thermostat. Photosynthetic cyanobacteria that arose some 3 billion years ago, for instance, began terraforming the planet by emitting oxygen. As they proliferated, oxygen eventually rose in the atmosphere 2.4 billion years ago, while methane and carbon dioxide levels plummeted. This plunged Earth into a series of “snowball” climates for 200 million years.
***
"In the end-Permian event 252 million years ago, which wiped out 81% of marine species, underground magma ignited Siberian coal, drove up atmospheric carbon dioxide to 8,000 parts per million and raised the temperature by between 5 and 9 degrees Celsius. The more minor Paleocene-Eocene Thermal Maximum event 56 million years ago cooked methane in North Atlantic oil deposits and funneled it into the sky, warming the planet by 5 degrees Celsius and acidifying the ocean"
Comment: A complex of activities evolved the Earth which made it comfortable for us today.
Privileged Planet: factors controlling climate
DAVID: Worth downloading and quick skimming to see moving figures:
https://www.quantamagazine.org/how-earths-climate-changes-naturally-and-why-things-are-...
The heading continues: why things are...different now.
QUOTES "The main control knob for Earth’s climate through deep time has been the level of carbon dioxide in the atmosphere, since carbon dioxide is a long-lasting greenhouse gas that blocks heat that tries to rise off the planet."
"Each year, the burning of fossil fuels emits about 100 times more carbon dioxide than volcanoes emit — too much too fast for oceans and weathering to neutralize it, which is why our climate is warming and our oceans are acidifying."
DAVID: A complex of activities evolved the Earth which made it comfortable for us today.
May I respectfully suggest that this is NOT the message at all. The article lays great emphasis on the role carbon dioxide plays in our climate, and it traces the link way back into the history of Earth’s disastrous climate changes, all of which were previously caused “naturally”. The article points out that today’s climate change is man-made, and it is proceeding too fast for Nature to neutralize it. The list of past catastrophes provides a warning to us of an approaching catastrophe. The warming of our climate and the acidifying of the oceans will NOT make the Earth comfortable for us, and the implication would therefore seem to be that we should take action now to prevent a catastrophe on the level of those described.
Privileged Planet: factors controlling climate
by David Turell , Friday, July 24, 2020, 18:59 (1371 days ago) @ dhw
DAVID: Worth downloading and quick skimming to see moving figures:
https://www.quantamagazine.org/how-earths-climate-changes-naturally-and-why-things-are-...dhw: The heading continues: why things are...different now.
QUOTES "The main control knob for Earth’s climate through deep time has been the level of carbon dioxide in the atmosphere, since carbon dioxide is a long-lasting greenhouse gas that blocks heat that tries to rise off the planet."
"Each year, the burning of fossil fuels emits about 100 times more carbon dioxide than volcanoes emit — too much too fast for oceans and weathering to neutralize it, which is why our climate is warming and our oceans are acidifying."
DAVID: A complex of activities evolved the Earth which made it comfortable for us today.
dhw: May I respectfully suggest that this is NOT the message at all. The article lays great emphasis on the role carbon dioxide plays in our climate, and it traces the link way back into the history of Earth’s disastrous climate changes, all of which were previously caused “naturally”. The article points out that today’s climate change is man-made, and it is proceeding too fast for Nature to neutralize it. The list of past catastrophes provides a warning to us of an approaching catastrophe. The warming of our climate and the acidifying of the oceans will NOT make the Earth comfortable for us, and the implication would therefore seem to be that we should take action now to prevent a catastrophe on the level of those described.
You have always been a catastrophe fan. The Earth is currently cooling again a bit due to a solar minimum of sun spots. I follow "Watts up with That" climate website which takes a clear view of the hysteria. My comment is still true. The Earth today is quite hospitable for us and has been for eons. The local high temperatures which are recorded are not total eEarth climate measurements. Satellite temps do not show a rise.
Privileged Planet: factors controlling climate
DAVID: A complex of activities evolved the Earth which made it comfortable for us today.
dhw: May I respectfully suggest that this is NOT the message at all. The article lays great emphasis on the role carbon dioxide plays in our climate, and it traces the link way back into the history of Earth’s disastrous climate changes, all of which were previously caused “naturally”. The article points out that today’s climate change is man-made, and it is proceeding too fast for Nature to neutralize it. The list of past catastrophes provides a warning to us of an approaching catastrophe. The warming of our climate and the acidifying of the oceans will NOT make the Earth comfortable for us, and the implication would therefore seem to be that we should take action now to prevent a catastrophe on the level of those described.
DAVID: You have always been a catastrophe fan. The Earth is currently cooling again a bit due to a solar minimum of sun spots. I follow "Watts up with That" climate website which takes a clear view of the hysteria. My comment is still true. The Earth today is quite hospitable for us and has been for eons. The local high temperatures which are recorded are not total eEarth climate measurements. Satellite temps do not show a rise.
Sorry, I didn’t mean to start a debate on climate change. I was merely pointing out that the article was warning us of impending catastrophe, not telling us how comfortable we are.
Privileged Planet: factors controlling climate
by David Turell , Saturday, July 25, 2020, 15:51 (1370 days ago) @ dhw
DAVID: A complex of activities evolved the Earth which made it comfortable for us today.
dhw: May I respectfully suggest that this is NOT the message at all. The article lays great emphasis on the role carbon dioxide plays in our climate, and it traces the link way back into the history of Earth’s disastrous climate changes, all of which were previously caused “naturally”. The article points out that today’s climate change is man-made, and it is proceeding too fast for Nature to neutralize it. The list of past catastrophes provides a warning to us of an approaching catastrophe. The warming of our climate and the acidifying of the oceans will NOT make the Earth comfortable for us, and the implication would therefore seem to be that we should take action now to prevent a catastrophe on the level of those described.
DAVID: You have always been a catastrophe fan. The Earth is currently cooling again a bit due to a solar minimum of sun spots. I follow "Watts up with That" climate website which takes a clear view of the hysteria. My comment is still true. The Earth today is quite hospitable for us and has been for eons. The local high temperatures which are recorded are not total eEarth climate measurements. Satellite temps do not show a rise.
dhw: Sorry, I didn’t mean to start a debate on climate change. I was merely pointing out that the article was warning us of impending catastrophe, not telling us how comfortable we are.
I thought the information was of interest. I ignore the warnings, as not reasonable.
Privileged Planet: Earth always wet?
by David Turell , Thursday, August 27, 2020, 21:08 (1337 days ago) @ David Turell
This study says so:
https://www.sciencedaily.com/releases/2020/08/200827141334.htm
"A new study finds that Earth's water may have come from materials that were present in the inner solar system at the time the planet formed -- instead of far-reaching comets or asteroids delivering such water. The findings published Aug. 28 in Science suggest that Earth may have always been wet.
"Researchers from the Centre de Recherches Petrographiques et Geochimiques (CRPG, CNRS/Universite de Lorraine) in Nancy, France, including one who is now a postdoctoral fellow at Washington University in St. Louis, determined that a type of meteorite called an enstatite chondrite contains sufficient hydrogen to deliver at least three times the amount of water contained in the Earth's oceans, and probably much more.
"Enstatite chondrites are entirely composed of material from the inner solar system -- essentially the same stuff that made up the Earth originally.
"'Our discovery shows that the Earth's building blocks might have significantly contributed to the Earth's water," said lead author Laurette Piani, a researcher at CPRG. "Hydrogen-bearing material was present in the inner solar system at the time of the rocky planet formation, even though the temperatures were too high for water to condense."
"The findings from this study are surprising because the Earth's building blocks are often presumed to be dry. They come from inner zones of the solar system where temperatures would have been too high for water to condense and come together with other solids during planet formation.
"The meteorites provide a clue that water didn't have to come from far away.
"'The most interesting part of the discovery for me is that enstatite chondrites, which were believed to be almost 'dry,' contain an unexpectedly high abundance of water," said Lionel Vacher, a postdoctoral researcher in physics in Arts & Sciences at Washington University in St. Louis."
Comment: Water is vital for life. Considering God in charge, it could well have been a part of the early planning
Privileged Planet: definite contents and oceans
by David Turell , Thursday, October 01, 2020, 05:24 (1302 days ago) @ David Turell
A new finding shows why the land and seas are not more mixed:
https://cosmosmagazine.com/earth/earth-sciences/how-planetary-forces-shape-earths-surfa...
"Airy was aware the shape of the Earth is very similar to a spinning fluid ball, distorted by the forces of rotation so that it bulges slightly at the equator and flattens at the poles. He concluded the interior of the Earth must be fluid-like.
"His measurements of the force of gravity in mine shafts showed the deep interior of the Earth must be much denser than the shallow parts.
"Airy then made an extraordinary leap of scientific thinking. He proposed that the outer part of the Earth, which he called the crust, must be floating on underlying “fluid”.
"An analogy might be an iceberg floating in water — to rise above the surface, the iceberg must have deep icy roots.
"Applying the same principle to the Earth, Airy proposed the Earth’s crust also had iceberg-like roots, and the higher the surface elevation, the deeper these roots must be, creating thicker crust.
"The continents define large continuous areas of land separated by oceans. The Earth’s crust is much thicker beneath the continents compared to the oceans. Simon Lamb, Author provided
Airy’s idea provided a fundamental explanation for continents and oceans. They were regions of thick and thin crust respectively. High mountain ranges, such as the Himalaya or Andes, were underlain by even thicker crust.
***
"We found a surprising result – there seems to be little relation between the average elevations of the continents and the thickness of the underlying crust, except that the crust is much thicker than beneath the oceans. Most of the land area is within a few hundred metres of sea level, yet the thickness of the crust varies by more than 20km.
"So why don’t we see the differences in crustal thickness below a continent reflected in its shape above? Our research shows the underlying thick tectonic plate is acting as an anchor, keeping the elevations relatively low even though the buoyant crust wants to rise higher.
"We used measurements of the thickness of the tectonic plates, recently determined from the speed of seismic waves. The base of the continental plates reaches up to 250km deep, but most is between 100km and 200km deep.
"We also worked out the densities of the different layers from variations in the strength of gravity. It was clear that the dense roots of the plates were capable of pulling down the surface of the Earth in exactly the way needed to explain the actual elevations.
***
"But why is there so much land close to sea level? The answer is erosion. Over geological time, major rivers wear away the landscape, carrying rock fragments to the sea. In this way, rivers will always reduce the continents to an elevation close to sea level."
Comment: A rocky planet with an iron-nickel core with floating crust arranged as designed is also a perfect place for life to thrive. Sounds designed to me. Thick under the continents and thin under the oceans.
Privileged Planet: radioactive elements must be present
by David Turell , Tuesday, November 10, 2020, 19:18 (1262 days ago) @ David Turell
New study on why radioactive elements must be present and contribute to plate tectonics:
https://phys.org/news/2020-11-radioactive-elements-crucial-habitability-rocky.html
"The amount of long-lived radioactive elements incorporated into a rocky planet as it forms may be a crucial factor in determining its future habitability, according to a new study by an interdisciplinary team of scientists at UC Santa Cruz.
"That's because internal heating from the radioactive decay of the heavy elements thorium and uranium drives plate tectonics and may be necessary for the planet to generate a magnetic field. Earth's magnetic field protects the planet from solar winds and cosmic rays.
"Convection in Earth's molten metallic core creates an internal dynamo (the "geodynamo") that generates the planet's magnetic field. Earth's supply of radioactive elements provides more than enough internal heating to generate a persistent geodynamo, according to Francis Nimmo, professor of Earth and planetary sciences at UC Santa Cruz and first author of a paper on the new findings, published November 10 in Astrophysical Journal Letters.
***
"What they found is that if the radiogenic heating is more than the Earth's, the planet can't permanently sustain a dynamo, as Earth has done. That happens because most of the thorium and uranium end up in the mantle, and too much heat in the mantle acts as an insulator, preventing the molten core from losing heat fast enough to generate the convective motions that produce the magnetic field.
"With more radiogenic internal heating, the planet also has much more volcanic activity, which could produce frequent mass extinction events. On the other hand, too little radioactive heat results in no volcanism and a geologically "dead" planet.
"'Just by changing this one variable, you sweep through these different scenarios, from geologically dead to Earth-like to extremely volcanic without a dynamo," Nimmo said, adding that these findings warrant more detailed studies.
"A planetary dynamo has been tied to habitability in several ways, according to Natalie Batalha, a professor of astronomy and astrophysics whose Astrobiology Initiative at UC Santa Cruz sparked the interdisciplinary collaboration that led to this paper.
"'It has long been speculated that internal heating drives plate tectonics, which creates carbon cycling and geological activity like volcanism, which produces an atmosphere," Batalha explained. "And the ability to retain an atmosphere is related to the magnetic field, which is also driven by internal heating."
"Coauthor Joel Primack, a professor emeritus of physics, explained that stellar winds, which are fast-moving flows of material ejected from stars, can steadily erode a planet's atmosphere if it has no magnetic field.
"The lack of a magnetic field is apparently part of the reason, along with its lower gravity, why Mars has a very thin atmosphere," he said. "It used to have a thicker atmosphere, and for a while it had surface water. Without the protection of a magnetic field, much more radiation gets through and the surface of the planet also becomes less habitable."
"Primack noted that the heavy elements crucial to radiogenic heating are created during mergers of neutron stars, which are extremely rare events. The creation of these so-called r-process elements during neutron-star mergers has been a focus of research by coauthor Enrico Ramirez-Ruiz, professor of astronomy and astrophysics.
***
"The importance and variability of radiogenic heating opens up many new questions for astrobiologists, Batalha said.
"'It's a complex story, because both extremes have implications for habitability. You need enough radiogenic heating to sustain plate tectonics but not so much that you shut down the magnetic dynamo," she said. "Ultimately, we're looking for the most likely abodes of life. The abundance of uranium and thorium appear to be key factors, possibly even another dimension for defining a Goldilocks planet.'"
Comment: This is not a new discovery, but covered years ago in the book, Privileged Planet, and makes another confirmation of the author's theory, adding to the huge number of necessary fine tuning attributes.
Privileged Planet: early toxic atmosphere removed
by David Turell , Wednesday, November 25, 2020, 23:05 (1247 days ago) @ David Turell
It required lots of water:
https://www.newscientist.com/article/2260767-earths-early-atmosphere-may-have-been-toxi...
"When Earth was young, its surface was probably covered in a magma ocean, and the gases rising from that seething sea may have provided it with an atmosphere nearly identical to the toxic one present on Venus today.
Earth’s early magma ocean was probably created by a collision with a Mars-sized object that melted much of the young planet and created the moon. As the magma ocean cooled, some compounds would have condensed out of the molten mix and formed an atmosphere.
***
"They found that this was a dense atmosphere full of carbon dioxide and with relatively little nitrogen, similar to the atmosphere on Venus today. Mars’s atmosphere has nearly the same composition, although it is much thinner.
"The fact that Earth is larger than Mars – meaning it has enough gravity to hold onto its atmosphere – and cooler than Venus allowed liquid water to remain on its surface, extracting carbon dioxide from the atmosphere and preventing the planet from going through the runaway greenhouse effect that Venus experienced to become a sweltering hellscape."
Comment: The fact our Earth surface is two-thirds water is the key. We don't look like Venus or Mars.
Privileged Planet: do tectonic plates relate to glaciers
by David Turell , Thursday, December 24, 2020, 01:40 (1218 days ago) @ David Turell
A new theory:
https://www.sciencemag.org/news/2020/12/slowdown-plate-tectonics-may-have-led-earth-s-i...
"On seafloor trenches around the world, slabs of old ocean crust fall in slow motion into the mantle, while fresh slabs are built at midocean ridges, where magma emerges at the seams between separating tectonic plates. The engine is relentless—but maybe not so steady: Beginning about 15 million years ago, in the late Miocene epoch, ocean crust production declined by one-third over 10 million years to a slow pace that pretty much continues to today, says Colleen Dalton, a geophysicist at Brown University who presented the work this month at a virtual meeting of the American Geophysical Union. “It’s a global phenomenon.”
***
"The lag was also widespread: Dalton found crust production slowed down or stayed steady at 15 of Earth’s 16 ocean ridges. And its effect on the climate may have been stark, Conrad says. “If you dramatically slow down plate tectonics in such a short time, you can put out a lot less carbon dioxide (CO2) gas from volcanism.” The slowdown corresponds to a 10°C drop in temperatures in the late Miocene, when ice sheets began to grow across Antarctica after a long hiatus.
***
"It appears the deceleration came in two waves, DeMets says: first between 12 million and 13 million years ago in the Pacific and then 7 million years ago in the Atlantic and Indian oceans.
"Maybe the subducting slabs stopped tugging as hard on the moving sea floor during this time, Dalton speculates, because they grew thinner or less dense. Or maybe the subduction zones, typically as long as the midocean ridges, shrunk in length, reducing their pull. Another possibility is that the zones changed their orientation, causing the subducting slabs to meet more resistance as they dove into the mantle, which has a kind of natural grain, like wood. Or a slab could have broken off entirely, changing the flow of heat inside the mantle and altering the glide of the tectonic plates overhead, Conrad says. “Even if you change one plate, it affects all the plates.”
"By taking volcanic CO2 emissions tied to today’s ocean crust production and adjusting them for late Miocene speeds, the team found a drop in atmospheric CO2 that could plausibly explain the global cooling at the time. But Dalton says other explanations are possible—for example, ancient volcanic rocks, uplifted out of the ocean to form fresh mountain peaks in places like Indonesia, might have started to soak up more CO2. Both mechanisms likely explain some of the drop, says Nicholas Swanson-Hysell, a paleogeographer at the University of California, Berkeley. “But which is more important?”
"Beyond lowering CO2, the crustal slowdown would have reshaped Earth’s surface. With less seafloor volcanism, the midocean ridges would have been smaller, increasing the capacity of the oceans. Sea levels would have fallen by 22 meters, Dalton calculates, exposing vast new stretches of land. And as the volcanoes went quiet, the planet itself would have grown 5% less efficient at shedding its internal heat, losing some 1.5 terawatts of output—roughly equal to the production of 1500 nuclear power plants. That decline in heat flow wouldn’t have made much difference to atmospheric temperatures, but Dalton says it calls into question reconstructions of Earth’s cooling history that assume constant heat loss across the ages.
"Although there’s much to be teased out, it’s clear that, when viewed over relatively short geological time spans, there’s nothing constant about plate tectonics, says Karin Sigloch, a geophysicist at the University of Oxford. “Variation should always be expected.'”
Comment: There are so many cycles on our Earth, and they all relate to the fact that life is here. Our evolved over 4.5 billion years which is part of the evidence aht God prefers to evolv ev all his creations.
Privileged Planet: plants control carbon cycle
by David Turell , Sunday, January 24, 2021, 15:53 (1187 days ago) @ David Turell
Photosynthesis plays a huge role now and in our history:
http://cshl.nautil.us/article/657/how-to-bury-carbon-let-plants-do-the-dirty-work?mc_ci...
"Forty-nine million years ago, a small aquatic fern called Azolla wrested control of Earth’s climate. At the time, the landlocked Arctic Ocean developed a surface layer of freshwater, which allowed the ferns to grow unchecked in a wide-open environment. Billions of tons of plants died and sank to the bottom of the ocean, taking with them the carbon they had sucked from the air when they were alive.
"The consequences were extreme. Geologic evidence indicates that atmospheric carbon dioxide levels plummeted more than 80 percent over 800,000 years, sharply ratcheting down Earth’s thermostat. Prior to the inferred “Azolla Event,” most of the globe was lush and tropical. Afterward, the Arctic cooled by nearly 40 degrees Fahrenheit, the poles froze, and our planet entered a lurching cycle of ice ages that continue to this day.
"The Azolla Event was an environmental catastrophe for life in the Eocene epoch. Today, though, it is a source of inspiration—even optimism—in dealing with human-driven climate change. For years, some researchers have promoted the idea of geoengineering, using technology to offset the effects of carbon emissions. Such schemes are commonly dismissed as pie in the sky, but the Azolla Event suggests otherwise. After all, if a bunch of dumb ferns could naturally perform carbon sequestration on such a tremendous scale, why couldn’t clever humans deliberately do the same thing?
“'It’s clear that plants have been able to contribute to really big geological events in the Earth's history,” says Rob Martienssen, a plant geneticist at Cold Spring Harbor Laboratory in Long Island. “Being able to harness that power and speed it up seems like a realistic goal to me.'”
Comment: The article goes on to discuss humans using plants to control CO2 on Earth and maintain balances within tight limits. It has been designed to run by itself until humans arrived to upset the balances. But it should be noted the range of CO2 concentrations, both high and low are way beyond anything currently happening.
Privileged Planet: a must see video one byo plate tectonics
by David Turell , Friday, February 05, 2021, 00:05 (1176 days ago) @ David Turell
Going back a billion years!:
https://cosmosmagazine.com/earth/earth-sciences/tectonic-timelapse/?utm_source=Cosmos+-...
All discovered since 1960 when the theory was finally accepted
https://cosmosmagazine.com/earth/earth-sciences/tectonic-timelapse/?utm_source=Cosmos+-...
Privileged Planet: a time with no tectonics
by David Turell , Sunday, February 14, 2021, 19:07 (1166 days ago) @ David Turell
They had to develop at some point:
https://phys.org/news/2021-02-europium-crystals-earth-middle-ages.html
"Prior research has suggested that approximately 1.8 to 0.8 billion years ago, the Earth went through a quiet period when the evolution of life slowed down quite dramatically. In this new effort, the researchers suggest that the reason for the slowdown was an absence of tectonic activity.
"The work involved studying samples of the chemical element europium embedded in zircon crystals. Prior research has suggested that the amount of europium found in such crystals can be used to reveal the thickness of Earth's crust at the time of the formation of the crystal. The more europium in the crystal, the more pressure there was being exerted from above, suggesting thicker crust. The researchers studied samples of the crystals collected from multiple places across the globe.
"They found evidence that suggested that during Earth's middle period, the crust was thinner, more even than it is now. So much so that there were no mountains at all. Instead, the planet was covered by oceans and flat land masses. Such conditions suggest tectonic activity must have slowed dramatically or stopped altogether for approximately 1 billion years. The researchers further note that tectonic activity that pushes mountains skyward and the subsequent erosion, would have enriched the environment in the oceans, making the evolution of life possible. Without such cycles, evolution would have slowed dramatically, which prior research has shown occurred during Earth's middle period.
"The researchers were not able to explain why tectonic activity ceased, or why it happened for such a long period, but suggest it might have been due to the formation of the Nuna-Rodina supercontinent, which could have wrought changes on the thermal structure of the mantle below."
Comment: Another piece of evidence showing the importance of plate tectonics to having life survive.
Privileged Planet: Atlantic circulation is lessening
by David Turell , Monday, March 01, 2021, 19:55 (1151 days ago) @ David Turell
It is diminishing the Atlantic Gulf Stream:
https://www.theguardian.com/environment/2021/feb/25/atlantic-ocean-circulation-at-weake...
"The Atlantic Ocean circulation that underpins the Gulf Stream, the weather system that brings warm and mild weather to Europe, is at its weakest in more than a millennium, and climate breakdown is the probable cause, according to new data.
"Further weakening of the Atlantic Meridional Overturning Circulation (AMOC) could result in more storms battering the UK, more intense winters and an increase in damaging heatwaves and droughts across Europe.
"Scientists predict that the AMOC will weaken further if global heating continues, and could reduce by about 34% to 45% by the end of this century, which could bring us close to a “tipping point” at which the system could become irrevocably unstable. A weakened Gulf Stream would also raise sea levels on the Atlantic coast of the US, with potentially disastrous consequences.
***
"Dr Levke Caesar, of Maynooth University in Ireland, and the lead author of the paper, said sea level rises on the east coast of the US were another potential consequence. “The northward surface flow of the AMOC leads to a deflection of water masses to the right, away from the US east coast. This is due to Earth’s rotation that diverts moving objects such as currents to the right in the northern hemisphere and to the left in the southern hemisphere,” she said. “As the current slows down, this effect weakens and more water can pile up at the US east coast, leading to an enhanced sea level rise.'”
Comment: The Guardian is a total climate alarmist paper. I will search for skeptical comment for balance.
Privileged Planet: subduction started very early
by David Turell , Wednesday, March 31, 2021, 23:59 (1121 days ago) @ David Turell
New research with Australian ancient rocks:
https://cosmosmagazine.com/earth-sciences/ancient-rocks-carry-secrets-of-earths-first-c...
"A new study of the famous iron-red rocks in Western Australia’s arid Pilbara region has revealed that the formation of Earth’s first continents occurred in a different way than originally thought.
"The research, published in the journal Nature, sought to understand how the granite that made up the Earth’s earliest continents at the end of the Archaean eon (some 2.5 billion years ago) was formed. Critically, the researchers wanted to find where the water required for the granite’s formation came from.
"To understand what early history Earth may have been like, the researchers tested the variation of oxygen isotope composition of zircon and compared this with the geochemistry of the rocks from Pilbara.
"They found that the type of granite present could not have come from the sky.
"The study proposes that rather than coming from above, the water came from hydrated near-surface basalt rocks that were circulated into the Earth’s mantle through the process of overturn of the crust.
"If this is correct, it means that rock formation processes in Earth’s early history were incredibly different from today.
"Under these strange conditions, this mantle water may have been instrumental in forming the continents during Earth’s early years."
Comment: Now we know subduction started very early to make this planet just perfect for life. God doesn't always waste time. Sometimes He seems to but that is a humanizing complaint about Him. His timing is obviously what He prefers since He is always in total control. And that easily explains shy God gave us a big brain much earlier than its full use finally happened. Why deny that God knows what He is doing.
Privileged Planet: we have fine tuned amount of carbon
by David Turell , Tuesday, April 06, 2021, 21:08 (1115 days ago) @ David Turell
Just analyzed:
https://www.sciencedaily.com/releases/2021/04/210402141742.htm
"The first study, led by U-M researcher Jie (Jackie) Li and published in Science Advances, finds that most of the carbon on Earth was likely delivered from the interstellar medium, the material that exists in space between stars in a galaxy. This likely happened well after the protoplanetary disk, the cloud of dust and gas that circled our young sun and contained the building blocks of the planets, formed and warmed up.
"Carbon was also likely sequestered into solids within one million years of the sun's birth -- which means that carbon, the backbone of life on earth, survived an interstellar journey to our planet.
***
"A planet's carbon must exist in the right proportion to support life as we know it. Too much carbon, and the Earth's atmosphere would be like Venus, trapping heat from the sun and maintaining a temperature of about 880 degrees Fahrenheit. Too little carbon, and Earth would resemble Mars: an inhospitable place unable to support water-based life, with temperatures around minus 60.
"In a second study by the same group of authors, but led by Hirschmann of the University of Minnesota, the researchers looked at how carbon is processed when the small precursors of planets, known as planetesimals, retain carbon during their early formation. By examining the metallic cores of these bodies, now preserved as iron meteorites, they found that during this key step of planetary origin, much of the carbon must be lost as the planetesimals melt, form cores and lose gas. This upends previous thinking, Hirschmann says.
"'Most models have the carbon and other life-essential materials such as water and nitrogen going from the nebula into primitive rocky bodies, and these are then delivered to growing planets such as Earth or Mars," said Hirschmann, professor of earth and environmental sciences. "But this skips a key step, in which the planetesimals lose much of their carbon before they accrete to the planets."
***
"'The planet needs carbon to regulate its climate and allow life to exist, but it's a very delicate thing," Bergin said. "You don't want to have too little, but you don't want to have too much.'"
Comment: More fine tuning to add many factors that are just perfect for life to start and remain.
Privileged Planet: carbon cycle bacterial contribution
by David Turell , Friday, April 23, 2021, 16:21 (1098 days ago) @ David Turell
Based on very new analysis in hot spring:
https://www.sciencemag.org/news/2021/04/microbes-are-siphoning-massive-amounts-carbon-e...
"A few kilometers below our feet lies a hidden world of microbes whose chemical reactions are shaping the long-term habitability of the planet. A new study suggests some of these microbes are siphoning off massive amounts of carbon as it enters Earth, using it to fuel their own sunless ecosystems. The carbon, prevented from being buried even deeper in Earth, will eventually escape back into the atmosphere—where it could help warm the planet. Researchers say the microbes represent an overlooked factor in efforts to balance Earth’s deep carbon cycle.
***
"Warming from human emissions of carbon dioxide (CO2) will be the deciding factor for surface temperatures in the coming centuries. But there is also a deeper carbon cycle, one that plays out over hundreds of millions of years. Slabs of ocean crust dive into Earth’s mantle at subduction zones, taking carbon down with them for long-term storage in the mantle. Some of this carbon, dissolved in rising blobs of magma and gasses, gets re-emitted at volcanoes. But much of what goes down doesn’t come back up, and researchers still don’t fully understand why.
"Scientists found some of that missing carbon in 2017, when they examined gasses and fluids bubbling up from more than 20 hot springs in Costa Rica. The springs were 40 to 120 kilometers above the subduction zone where the Cocos Plate dives beneath Central America. Scientists found that a portion of the CO2 that goes down with the descending plate is turned into rock and never reaches the deep mantle or the atmosphere. But they also saw hints that more CO2 was being siphoned off the plate than rock formation alone could explain.
***
"These microbes could be sequestering 2% to 22% of the carbon previously thought to reach the deep mantle, the researchers report today in Nature Geoscience. By keeping carbon close to the surface, where it is likely to eventually percolate up and re-enter the atmosphere, the microbes may be helping warm the planet over the long term, although this would require additional research to confirm.
"Two percent may not have much of an effect on the deep carbon cycle, says Oliver Plümper, an expert in rock-fluid interactions at Utrecht University who was not involved in the study. But 22% would be “quite exciting.” He says this calculation constitutes an important piece to the puzzle of the deep carbon cycle, and it could impact projections of how stable Earth’s climate will remain in the long term—and how long the planet is likely to be habitable.
"The researchers also found evidence for a second group of microbes that live off the organic leftovers of the carbon-sequestering bacteria. “There’s a whole world happening underneath Costa Rica,” says Karen Lloyd, co-author and microbiologist at the University of Tennessee, Knoxville. The researchers suspect similar activity is taking place in other subduction zones all over the world."
Comment: ninety-nine percent of evolved organisms might be gone, but bacteria are still here because they are important for Earth's continuing warm life-friendly climate. So logical it means a designing mind must be running things. The 99% were not needed and necessarily discarded. Life started with Archaea bacteria and remain to help out in whatever process needs them. dhw can't see the clever planning mind running the show.
Privileged Planet: earliest land
by David Turell , Monday, April 26, 2021, 19:38 (1095 days ago) @ David Turell
Probably before we had thought:
https://www.newscientist.com/article/2275696-earths-land-may-have-formed-500-million-ye...
"Earth’s continental crust may have emerged 500 million years earlier than scientists had previously estimated. Pinning down when our planet’s land emerged could help us understand the conditions in which primitive life began.
***
"The big question is: when did continental crusts start forming?
"To try to answer that, Desiree Roerdink at the University of Bergen in Norway and her colleagues analysed 30 ancient rock samples from six sites in Australia, South Africa and India. These contained barite, which can form in hydrothermal vents – fissures in the ocean floor where warm, mineral-rich waters react with seawater.
“'Barites don’t really change, their chemistry contains a fingerprint of the environment in which they formed,” says Roerdink, who presented this work at a meeting of the European Geosciences Union on 26 April.
"She and her team used the ratios of strontium isotopes in the deposits to infer when weathered continental rock began entering the oceans. They found that the weathering began about 3.7 billion years ago.
"When Earth formed 4.5 billion years ago, it was a hellish landscape of molten rock. Eventually, the planet’s outer layer cooled enough to start forming a solid crust covered by a global ocean.
"That kicked off a new geological aeon around 4 billion years ago, known as the Archaean, which is when scientists believe life first emerged. There is strong evidence for microbial activity at least 3.5 billion years ago, but precisely when and how life began is far from clear."
Comment: That puts real land at 3.7 billion years ago with life shortly after. Not much time for chance appearance of something so complex.
Privileged Planet: carbon cycle bacterial contribution
by David Turell , Monday, April 26, 2021, 20:24 (1095 days ago) @ David Turell
An other take on this Costa Rica study with more about how the bacteria do their job metabolically:
https://phys.org/news/2021-04-microbes-massive-amounts-carbon.html
"'Subduction zones are fascinating environments—they produce volcanic mountains and serve as portals for carbon moving between the interior and exterior of Earth," said Maarten de Moor, associate professor at the National University of Costa Rica and coauthor of the study.
"Normally this process is thought to occur outside the reach of life because of the extremely high pressures and temperatures involved. Although life almost certainly does not exist at the extreme conditions where Earth's mantle mixes with the crust to form lava, in recent decades scientists have learned that microbes extend far deeper into Earth's crust than previously thought.
"This opens the possibility for discovering previously unknown types of biological interactions occurring with deep plate tectonic processes.
"An interdisciplinary and international team of scientists has shown that a vast microbial ecosystem primarily eats the carbon, sulfur, and iron chemicals produced during the subduction of the oceanic plate beneath Costa Rica. The team obtained these results by sampling the deep subsurface microbial communities that are brought to the surface in natural hot springs, in work funded by the Deep Carbon Observatory and the Alfred P. Sloan Foundation.
"The team found that this microbial ecosystem sequesters a large amount of carbon produced during subduction that would otherwise escape to the atmosphere. The process results in an estimated decrease of up to 22 percent in the amount of carbon being transported to the mantle.
"'This work shows that carbon may be siphoned off to feed a large ecosystem that exists largely without input from the sun's energy. This means that biology might affect carbon fluxes in and out of the earth's mantle, which forces scientists to change how they think about the deep carbon cycle over geologic time scales," said Peter Barry, assistant scientist at the Woods Hole Oceanographic Institution and a coauthor of the study.
"The team found that these microbes—called chemolithoautotrophs—sequester so much carbon because of their unique diet, which allows them to make energy without sunlight.
"Chemolithoautotrophs are microbes that use chemical energy to build their bodies. So they're like trees, but instead of using sunlight they use chemicals," said Lloyd, a co-corresponding author of the study. "These microbes use chemicals from the subduction zone to form the base of an ecosystem that is large and filled with diverse primary and secondary producers. It's like a vast forest, but underground." (my bold)
"This new study suggests that the known qualitative relationship between geology and biology may have significant quantitative implications for our understanding of how carbon has changed through deep time. "We already know of many ways in which biology has influenced the habitability of our planet, leading to the rise in atmospheric oxygen, for example," said Donato Giovannelli, a professor at the University of Naples Federico II and co-corresponding author of the study. "Now our ongoing work is revealing another exciting way in which life and our planet coevolved.'"
Comment: Extremophile bacteria are just as important as more common bacterial types. Bacteria survived for good reason.
Privileged Planet: evolving this planet is not simple
by David Turell , Monday, May 10, 2021, 23:51 (1081 days ago) @ David Turell
This new study tells how lucky we are:
https://phys.org/news/2021-05-planets-elements-essential-life.html
"Planets like Earth that orbit within a solar system's Goldilocks zone, with conditions supporting liquid water and a rich atmosphere, are more likely to harbor life. As it turns out, how that planet came together also determines whether it captured and retained certain volatile elements and compounds, including nitrogen, carbon and water, that give rise to life.
"In a study published in Nature Geoscience, Rice graduate student and lead author Damanveer Grewal and Professor Rajdeep Dasgupta show the competition between the time it takes for material to accrete into a protoplanet and the time the protoplanet takes to separate into its distinct layers—a metallic core, a shell of silicate mantle and an atmospheric envelope in a process called planetary differentiation—is critical in determining what volatile elements the rocky planet retains.
"Using nitrogen as proxy for volatiles, the researchers showed most of the nitrogen escapes into the atmosphere of protoplanets during differentiation. This nitrogen is subsequently lost to space as the protoplanet either cools down or collides with other protoplanets or cosmic bodies during the next stage of its growth.
"This process depletes nitrogen in the atmosphere and mantle of rocky planets, but if the metallic core retains enough, it could still be a significant source of nitrogen during the formation of Earth-like planets.
***
"'We realized that fractionation of nitrogen between all these reservoirs is very sensitive to the size of the body," Grewal said. "Using this idea, we could calculate how nitrogen would have separated between different reservoirs of protoplanetary bodies through time to finally build a habitable planet like Earth."
"Their theory suggests that feedstock materials for Earth grew quickly to around moon- and Mars-sized planetary embryos before they completed the process of differentiating into the familiar metal-silicate-gas vapor arrangement.
"In general, they estimate the embryos formed within 1-2 million years of the beginning of the solar system, far sooner than the time it took for them to completely differentiate. If the rate of differentiation was faster than the rate of accretion for these embryos, the rocky planets forming from them could not have accreted enough nitrogen, and likely other volatiles, critical to developing conditions that support life.
"'Our calculations show that forming an Earth-size planet via planetary embryos that grew extremely quickly before undergoing metal-silicate differentiation sets a unique pathway to satisfy Earth's nitrogen budget," said Dasgupta, the principal investigator of CLEVER Planets, a NASA-funded collaborative project exploring how life-essential elements might have come together on rocky planets in our solar system or on distant, rocky exoplanets.
"'This work shows there's much greater affinity of nitrogen toward core-forming metallic liquid than previously thought," he said."
Comment: Pure luck or pure design.
Privileged Planet: earliest date for plate tectonics start
by David Turell , Friday, May 14, 2021, 21:11 (1077 days ago) @ David Turell
Studying zircons:
https://phys.org/news/2021-05-earth-oldest-minerals-date-onset.html
"Scientists led by Michael Ackerson, a research geologist at the Smithsonian's National Museum of Natural History, provide new evidence that modern plate tectonics, a defining feature of Earth and its unique ability to support life, emerged roughly 3.6 billion years ago.
"Earth is the only planet known to host complex life and that ability is partly predicated on another feature that makes the planet unique: plate tectonics. No other planetary bodies known to science have Earth's dynamic crust, which is split into continental plates that move, fracture and collide with each other over eons. Plate tectonics afford a connection between the chemical reactor of Earth's interior and its surface that has engineered the habitable planet people enjoy today, from the oxygen in the atmosphere to the concentrations of climate-regulating carbon dioxide. But when and how plate tectonics got started has remained mysterious, buried beneath billions of years of geologic time.
***
"A zircon's age can be determined with a high degree of precision because each one contains uranium. Uranium's famously radioactive nature and well-quantified rate of decay allow scientists to reverse engineer how long the mineral has existed.
"The aluminum content of each zircon was also of interest to the research team. Tests on modern zircons show that high-aluminum zircons can only be produced in a limited number of ways, which allows researchers to use the presence of aluminum to infer what may have been going on, geologically speaking, at the time the zircon formed.
"After analyzing the results of the hundreds of useful zircons from among the thousands tested, Ackerson and his co-authors deciphered a marked increase in aluminum concentrations roughly 3.6 billion years ago.
***
"Prior research on the 4 billion-year-old Acasta Gneiss in northern Canada also suggests that Earth's crust was thickening and causing rock to melt deeper within the planet.
"'The results from the Acasta Gneiss give us more confidence in our interpretation of the Jack Hills zircons," Ackerson said. "Today these locations are separated by thousands of miles, but they're telling us a pretty consistent story, which is that around 3.6 billion years ago something globally significant was happening.'"
Comment: Plate tectonics support life. Life may have appeared as early as 3.8 billion years ago. This means life and supporting tectonics arrived simultaneously. Sure looks like a designed plan, doesn't it?.
Privileged Planet: frantic search for others
by David Turell , Wednesday, June 23, 2021, 20:15 (1037 days ago) @ David Turell
There-must-be-life-out-there research is frantically proceeding just like the origin-of-life research folks are constantly trying to achieve success, to no avail:
https://www.sciencedaily.com/releases/2021/06/210623113820.htm
"A new analysis of known exoplanets has revealed that Earth-like conditions on potentially habitable planets may be much rarer than previously thought. The work focuses on the conditions required for oxygen-based photosynthesis to develop on a planet, which would enable complex biospheres of the type found on Earth.
"The number of confirmed planets in our own Milky Way galaxy now numbers into the thousands. However planets that are both Earth-like and in the habitable zone -- the region around a star where the temperature is just right for liquid water to exist on the surface -- are much less common.
"At the moment, only a handful of such rocky and potentially habitable exoplanets are known. However the new research indicates that none of these has the theoretical conditions to sustain an Earth-like biosphere by means of 'oxygenic' photosynthesis -- the mechanism plants on Earth use to convert light and carbon dioxide into oxygen and nutrients.
"Only one of those planets comes close to receiving the stellar radiation necessary to sustain a large biosphere: Kepler-442b, a rocky planet about twice the mass of the Earth, orbiting a moderately hot star around 1,200 light years away.
***
"By calculating the amount of photosynthetically active radiation (PAR) that a planet receives from its star, the team discovered that stars around half the temperature of our Sun cannot sustain Earth-like biospheres because they do not provide enough energy in the correct wavelength range. Oxygenic photosynthesis would still be possible, but such planets could not sustain a rich biosphere.
"Planets around even cooler stars known as red dwarfs, which smoulder at roughly a third of our Sun's temperature, could not receive enough energy to even activate photosynthesis. Stars that are hotter than our Sun are much brighter, and emit up to ten times more radiation in the necessary range for effective photosynthesis than red dwarfs, however generally do not live long enough for complex life to evolve.
***
"'This study puts strong constraints on the parameter space for complex life, so unfortunately it appears that the "sweet spot" for hosting a rich Earth-like biosphere is not so wide.'"
Comment: The Earth is very, very special, but hope springs eternal that we inhabit something that is not so special. Why?
Privileged Planet: a geological cycle of 27.5 million years
by David Turell , Sunday, June 27, 2021, 14:16 (1033 days ago) @ David Turell
A new study of the Earth's surface:
https://scitechdaily.com/the-earth-has-a-pulse-27-5-million-year-cycle-of-geological-ac...
"Geologic activity on Earth appears to follow a 27.5-million-year cycle, giving the planet a “pulse,” according to a new study published in the journal Geoscience Frontiers.
“'Many geologists believe that geological events are random over time. But our study provides statistical evidence for a common cycle, suggesting that these geologic events are correlated and not random,” said Michael Rampino, a geologist and professor in New York University’s Department of Biology, as well as the study’s lead author.
"Over the past five decades, researchers have proposed cycles of major geological events — including volcanic activity and mass extinctions on land and sea — ranging from roughly 26 to 36 million years. But early work on these correlations in the geological record was hampered by limitations in the age-dating of geologic events, which prevented scientists from conducting quantitative investigations.
"However, there have been significant improvements in radio-isotopic dating techniques and changes in the geologic timescale, leading to new data on the timing of past events. Using the latest age-dating data available, Rampino and his colleagues compiled updated records of major geological events over the last 260 million years and conducted new analyses.
***
"They found that these global geologic events are generally clustered at 10 different timepoints over the 260 million years, grouped in peaks or pulses of roughly 27.5 million years apart. The most recent cluster of geological events was approximately 7 million years ago, suggesting that the next pulse of major geological activity is more than 20 million years in the future.
"The researchers posit that these pulses may be a function of cycles of activity in the Earth’s interior — geophysical processes related to the dynamics of plate tectonics and climate. However, similar cycles in the Earth’s orbit in space might also be pacing these events.
“'Whatever the origins of these cyclical episodes, our findings support the case for a largely periodic, coordinated, and intermittently catastrophic geologic record, which is a departure from the views held by many geologists,” explained Rampino.'
Comment: another of God's mysterious processes to be studied and understood.
Privileged Planet: we are still very special
by David Turell , Saturday, July 03, 2021, 15:15 (1027 days ago) @ David Turell
Most exoplanets do not look habitable:
https://www.universetoday.com/151637/most-exoplanets-wont-receive-enough-radiation-to-s...
"To date, astronomers have confirmed the existence of 4,422 extrasolar planets in 3,280 star systems, with an additional 7,445 candidates awaiting confirmation. Of these, only a small fraction (165) have been terrestrial (aka. rocky) in nature and comparable in size to Earth – i.e., not “Super-Earths.” And even less have been found that are orbiting within their parent star’s circumsolar habitable zone (HZ).
"In the coming years, this is likely to change when next-generation instruments (like James Webb) are able to observe smaller planets that orbit closer to their stars (which is where Earth-like planets are more likely to reside). However, according to a new study by researchers from the University of Napoli and the Italian National Institute of Astrophysics (INAF), Earth-like biospheres may be very rare for exoplanets.
***
"Led by astrophysics Prof. Giovanni Covone of the University of Napoli, the team focused on whether or not exoplanets discovered so far get enough Photosynthetically Active Radiation (PAR) to allow for the development of complex biospheres.
***
"Specifically, photosynthetic organisms relied on solar radiation that ranges from 400 to 700 nanometers on the electromagnetic spectrum to carry out “oxygenic photosynthesis” – which corresponds roughly to the range of light that the human eye can perceive – aka. visible light. This is of significant concern to astrobiologists since Sun-like stars (G-type yellow dwarfs) are rare, with an estimated 4.1 billion in the Milky Way galaxy (between 1% and 4%).
"It is main sequence M-type red dwarfs that make up the majority of stars in our Universe, accounting for roughly 75% in our galaxy alone. Compared to Sun-like stars, red dwarfs are cooler and less luminous and are known for their elevated flare activity and producing a significant amount of radiation in the ultraviolet band. In addition, based on the current census of rocky exoplanets, red dwarfs are considered to be the most likely place to find Earth-like planets.
***
“'Since red dwarfs are by far the most common type of star in our galaxy, this result indicates that Earth-like conditions on other planets may be much less common than we might hope. This study puts strong constraints on the parameter space for complex life, so unfortunately it appears that the “sweet spot” for hosting a rich Earth-like biosphere is not so wide.”
***
"These findings are reminiscent of previous research conducted by Manasvi Lingam and Abraham Loeb, a postdoctoral researcher and the Frank B. Baird Jr. Professor of Science at Harvard University (respectively). In a 2019 study, titled “Photosynthesis on habitable planets around low-mass stars,” they demonstrated how planets that orbit red dwarf stars may not recieve enough photons to support photosynthesis."
Comment: For life fine-tuning is one requirement, but a special Earth orbiting a special star is just as important. It doesn't answer dhw's strange concern as to why God made the universe so huge and filled with so many weird processes if He only wanted humans. His same concern applies to why the bush of evolved life is so big. My view is God knew what had to be created to achieve His goals. dhw somehow knows better.
Privileged Planet: axis tilt crucial
by David Turell , Thursday, July 08, 2021, 23:21 (1022 days ago) @ David Turell
Issue reconfirmed:
https://phys.org/news/2021-07-goldilocks-planets-tilt-complex-life.html
"Planets which are tilted on their axis, like Earth, are more capable of evolving complex life.
***
"Oxygen plays a critical role in respiration, the chemical process which drives the metabolisms of most complex living things. Some basic life forms produce oxygen in small quantities, but for more complex life forms, such as plants and animals, oxygen is critical. Early Earth had little oxygen even though basic life forms existed.
***
"The researchers found that increasing day length, higher surface pressure, and the emergence of continents all influence ocean circulation patterns and associated nutrient transport in ways that may increase oxygen production. They believe that these relationships may have contributed to Earth's oxygenation by favoring oxygen transfer to the atmosphere as Earth's rotation has slowed, its continents have grown, and surface pressure has increased through time.
"'The most interesting result came when we modeled 'orbital obliquity—in other words, how the planet tilts as it circles around its star," explained Megan Barnett, a University of Chicago graduate student involved with the study. She continued, "Greater tilting increased photosynthetic oxygen production in the ocean in our model, in part by increasing the efficiency with which biological ingredients are recycled. The effect was similar to doubling the amount of nutrients that sustain life."
***
"'The first biological production of oxygen on Earth and its first appreciable accumulation in the atmosphere and oceans are milestones in the history of life on Earth. Studies of Earth teach us that oxygen may be one of our most important biosignatures in the search for life on distant exoplanets. By building from the lessons learned from Earth via numerical simulations, Olson and colleagues have explored a critical range of planetary possibilities wider than those observed over Earth history. Importantly, this work reveals how key factors, including a planet's seasonality, could increase or decrease the possibility of finding oxygen derived from life outside our solar system. These results are certain to help guide our searches for that life.'"
Comment: These findings reinforce how special the Earth is, and it may well be only exact copies will have life. Can our planet's specialness be the result of a series of natural accidents? Very doubtful.
Privileged Planet: Milky Way black hole is unusually small
by David Turell , Sunday, August 08, 2021, 18:28 (991 days ago) @ David Turell
Our Milky Way is an unusual galaxy with a smaller Black hole than most others:
https://www.realclearscience.com/blog/2021/08/05/the_milky_ways_supermassive_black_hole...
"At the center of the Milky Way exists a supermassive black hole four million times more massive than our sun. We haven't actually seen it, but we know it's there through numerous pieces of evidence. One, there's an extremely bright and compact radio signal coming from that location. Two, astronomers have observed dozens of stars dancing around it at high speeds. And three, in 2018, scientists detected clumps of gas nearby moving at about 30% the speed of light, consistent with hot gas orbiting a black hole.
"So this black hole is there and it's big – supermassive, in fact! But as dense as the Milky Way's central black hole is, it's positively puny compared to other galactic supermassive black holes. Our neighboring galaxy Andromeda's supermassive black hole is 230 million solar masses! Making that ~58x mass difference even more remarkable is the fact that Andromeda only has between 2.5 and ten times more stars than the Milky Way, so its black hole much bigger in proportion. Farther away, Quasar 3C 273, the brightest quasar in Earth's sky, is 886 million solar masses!
***
"Falcke knows a lot about supermassive black holes. He's been studying the Milky Way's galactic black hole for almost his entire career, and recently held a leading role with the Event Horizon Telescope project, which in 2019 produced the first direct image of a black hole.
"In his book, Falcke described how small the Milky Way's black hole is compared to a quasar. More than 750,000 of these supermassive black holes are known to exist.
"'Quasars gobble up approximately one sun per year..." he wrote. Our black hole consumes ten million times less mass. "Our Galactic Center would thus be a black hole on a starvation diet–though fasting would be a strange analogy, since ten million times less mass would still be three moons per year that it was devouring."
"The largest black hole spotted to date is called TON 618. At 66 billion solar masses, it is 15,300 times more massive than our black hole.
"Some physicists think that a few black holes could tip the scales at over a trillion solar masses, large enough to distort the very shape of their host galaxies!"
Comment: since our very unusual planet is in this galaxy, it may have had very special conditions designed in it to protect the life-bearing Earth. Keep studying and we might find the reason.
Privileged Planet: magnetic field cycles over time
by David Turell , Wednesday, August 18, 2021, 18:39 (981 days ago) @ David Turell
It has had weak and strong periods over time:
https://phys.org/news/2021-08-evidence-million-year-earth-magnetic-field.html
"The findings of a new study by the University of Liverpool provides further evidence of an approximately 200 million-year long cycle in the strength of the Earth's magnetic field.
"Researchers performed thermal and microwave (a technique which is unique to the University of Liverpool) paleomagnetic analysis on rock samples from ancient lava flows in Eastern Scotland to measure the strength of the geomagnetic field during key time periods with almost no pre-existing, reliable data. The study also analyzed the reliability of all of the measurements from samples from 200 to 500 million years ago, collected over the last ~80 years.
"They found that between 332 and 416 million years ago, the strength of the geomagnetic field preserved in these rocks was less than quarter of what it is today, and similar to a previously identified period of low magnetic field strength that started around 120 million years ago. The researchers have coined this period "the Mid-Palaeozoic Dipole low (MPDL)."
"...the study supports the theory that the strength of the earth's magnetic field is cyclical, and weakens every 200 million years, an idea proposed by a previous study lead by Liverpool in 2012. One of the limitations at the time was the lack of reliable field strength data available prior to 300 million years ago, so this new study fills in an important time gap.
"The Earth's magnetic field shields the planet from huge blasts of deadly solar radiation. It is not completely stable in strength and direction, both over time and space, and has the ability to completely flip or reverse itself with substantial implications.
***
"A weak field also has implications for life on our planet. A recent study has suggested that the Devonian-Carboniferous mass extinction is linked to elevated UV-B levels, around the same as the weakest field measurements from the MPDL.
***
"'Our findings, when considered alongside the existing datasets, supports the existence of an approximately 200-million-year long cycle in the strength of the Earth's magnetic field related to deep Earth processes. As almost all of our evidence for processes within the Earth's interior is being constantly destroyed by plate tectonics, the preservation of this signal for deep inside the Earth is exceedingly valuable as one of the few constraints we have.'"
Comment: The implication is obvious. We need a strong magnetic filed to protect us. The evidence of past weak and strong cycles has us wondering about the possible appearance of a weak cycle. Since the Earth evolved to this life-supporting state, I think God has arranged for it to stay that way.
Privileged Planet: current magma movements
by David Turell , Wednesday, September 15, 2021, 22:45 (953 days ago) @ David Turell
The process of Earth evolution is alive and well:
https://www.quantamagazine.org/a-massive-subterranean-tree-is-moving-magma-to-earths-su...
"Réunion, a French island in the western Indian Ocean, is like a marshmallow hovering above the business end of a blowtorch. It sits above one of Earth’s mantle plumes — a tower of superheated rock that ascends from the deep mantle and flambés the bases of tectonic plates, the jigsaw pieces that make up the ever-changing face of the world. The plume’s effects are hard to miss: One of the island’s two massive volcanoes, the aptly named Piton de la Fournaise or “peak of the furnace,” is one of the most hyperactive volcanoes on the planet.
***
"In 2012, a team of geophysicists and seismologists set out to map the plume, deploying a giant network of seismometers across the vast depths of the Indian Ocean seafloor. Nearly a decade later, the team has revealed that the mantle is stranger than expected. The team reported in June in Nature Geoscience that the plume isn’t a simple column. Instead, a titanic mantle plume “tree” rises from the fringes of the planet’s molten heart, with superheated branchlike structures appearing to grow diagonally out of it. As these branches approach the crust, they seem to sprout smaller, vertically rising branches — super hot plumes that underlie known volcanic hot spots at the surface.
"The discovery of this massive structure beneath Réunion nearly coincides with another recent discovery, reported in November, that found additional structures in the plumes under Africa. Taken together, the two findings represent a significant scientific advance: They suggest that plumes can be more idiosyncratic, and can have more elaborate backstories, than traditional models presumed.
***
"Over the following decades, geophysicists concluded that plumes are around 200 degrees Celsius hotter than the ambient mantle. When plumes reach the base of tectonic plates, their heat melts their surroundings, making plenty of magma. The plumes also carry mantle material up from Earth’s depths. This material melts at the lower pressures found away from the core, feeding additional magma into the crust. The combined supply of hot magma neatly explains a great number of Earth’s intraplate volcanoes.
***
"If the team’s theoretical model is correct, it bolsters two long-held trains of thought. The first, said Goes, is that Earth’s plumes are “not as simple as just making an upwelling in a box of syrup in a laboratory.” Nature is complex, and in oft-surprising ways.
"The second is that these giant blobs have played, and will continue to play, a pivotal role in the planet’s tumultuous history.
***
"And yet, for all the chaos they cause, they are a key part of the unceasing cycle of plate tectonics, one that erratically buries and erupts carbon and water and has, miraculously, resulted in a habitable planet with a breathable atmosphere and expansive oceans — a paradise made by abyssal behemoths. “Knowing how a planet manages to do this for billions of years to basically allow human existence is important,” said Rychert."
Comment: The last paragraph is the key point. The fine tuning is not just confined to the universe's attributes but also the active processes on Earth which allow the Earth to host us.
Privileged Planet: built in cosmic ray protections
by David Turell , Thursday, October 07, 2021, 19:44 (931 days ago) @ David Turell
The latest solar research:
https://nautil.us/issue/107/the-edge/the-safety-belt-of-our-solar-system
"What might count as our solar system’s boundary? There is no definite point at which light from our sun completely fades, or where its gravity stops being felt, so neither of those could mark it. But the heliosphere can. It “moves through the galaxy, keeping our home safe,” McComas says. The sun’s solar wind, an outflow of ionized gas, or plasma, pushes out against the galactic material between stars, also called the “interstellar medium.” The interstellar medium in our very local region is a mixture of plasma, helium, and neutral hydrogen. It is formed by warm, partially ionized clouds found in the Local Bubble, a large cavity filled with plasma that was likely produced by multiple supernova explosions, along with interstellar dust and other stellar winds. The barrier separating us from this occupies a region far beyond the orbit of Pluto, one you can define and measure.
***
"These particles, coming toward us from all directions, some of them bouncing off of the inside of the heliosphere, clue scientists in on how the sun’s solar wind interacts with interstellar space as our solar system drifts around the galaxy. Weighing a little more than the average American, IBEX has been orbiting Earth for more than a decade, observing the solar system’s edge with enough success to have earned McComas the chance to probe the barrier further, with IMAP.
***
"Early results from IBEX made the cover of Science in 2009. The satellite captured a mysterious ribbon structure projected over an “all-sky” map flattened to two dimensions. “The IBEX results are truly remarkable, with emissions not resembling any of the current theories or models of this never-before-seen region,” McComas said at the time. “We expected to see small, gradual spatial variations at the interstellar boundary, some 10 billion miles away. However, IBEX is showing us a very narrow ribbon that is two to three times brighter than anything else in the sky.” The neutral atoms IBEX was collecting, in other words, were not coming from all directions in more or less equal amounts. It’s a big hint to scientists that the way our sun’s magnetic fields interact with the galaxy’s magnetic field is much more complicated than they supposed.
***
"What seems to be happening, McComas explained, is that a fraction of the charged particles that were part of the solar wind, and are now neutralized, are propagating radially out, past the heliopause into the local interstellar medium. They become trapped and gyrate around the magnetic field draped across the heliosphere. Eventually, the energetic neutral atoms reneutralize and radiate back in, toward the heliosphere. This series of charge exchanges could explain the ribbon, which originates a few hundred astronomical units beyond the heliopause. (One astronomical unit, the distance between Earth and the sun, is 93 million miles.)"
Comment: Our sun's particle atmosphere appears to protect us from all the wild rays in the universe as we/the Milky Way moves through the universe's interstellar space.
Privileged Planet: length of day helps life survive
by David Turell , Wednesday, November 03, 2021, 22:20 (904 days ago) @ David Turell
On early Earth days were much shorter and lengthened to help life develop:
https://www.nationalgeographic.com/science/article/how-earths-tides-may-be-linked-to-th...
"Judith Klatt had been studying microbes called cyanobacteria for years, and she was initially skeptical when some colleagues came to her with an idea: Could the length of a day on early Earth have mattered to the rise of life as we know it?
"Day length has increased dramatically over Earth’s history. More than three billion years ago, entire days may have been just six hours long. And around 2.4 to 2.2 billion years ago, geological records indicate that the amount of oxygen in the atmosphere shot up while the volume of carbon dioxide shrank. That rapid increase in oxygen is generally credited to the proliferation of marine cyanobacteria, some of which absorb energy from sunlight and produce oxygen.
***
"Klatt, a microbiologist at the Max Planck Institute for Marine Microbiology in Germany, and her collaborators at the University of Michigan set out to investigate whether longer days could have let ancient cyanobacteria thrive, setting the stage for an explosion of early animals and, ultimately, the life-forms that exist today.
"To investigate that pattern, the team turned to a unique ecosystem on the bottom of Lake Huron called Middle Island Sinkhole. They paired oxygen concentration measurements in the cyanobacteria-rich sinkhole and experiments in the lab with computer models of Earth’s rotation.
***
“'What they’ve shown is that biology cares whether the day-night cycle is 24 hours or 12 hours,” says Christopher Spalding, a planetary scientist at Princeton who was not involved in the research. “So I think that first-order finding is worth looking more at.”
"Our current roughly 24-hour day is the result of Earth’s spin slowing down over its 4.5 billion years, and much of that change can be linked to the tides.
***
"The water in the 75-foot-deep sinkhole has high concentrations of sulfur and not much oxygen. Scientists think those conditions could be similar to the ancient ocean billions of years ago. By studying that environment, Klatt’s team can get an approximate idea for how similar ancient ecosystems could have behaved.
***
"While short days have cyanobacteria constantly switching on and off, longer days let them photosynthesize for longer stretches of time, building up oxygen concentrations around them until some is driven out and up into the atmosphere. Indeed, Klatt’s laboratory experiments showed that when samples of the lakebed microbes were exposed to longer periods of daylight, they contributed more oxygen to the atmosphere.
"The spin-rate model Klatt used predicts that days lengthened steadily between 3.5 and 2.25 billion years ago. Once Earth, the moon, and the tides reached the resonance state at 21-hour days, they stabilized there until around 550 million years ago, when Earth’s spin began to slow down again. Settling into that long, stable day length would have been key for letting cyanobacteria hit their stride, optimizing their biological processes for a 21-hour day rather than continually adjusting to changing day length."
Comment: Yet another way the Earth evolved to be a perfect planet for life. Perhaps as God guided it.
Privileged Planet: when continents appeared
by David Turell , Tuesday, November 09, 2021, 15:24 (898 days ago) @ David Turell
Three billion years ago:
https://sciencex.com/news/2021-11-ahoy-continents-bobbed-surface-billion.html
"Our research, published in Proceedings of the National Academy of Sciences, estimates the age of rocks from the most ancient continental fragments (called cratons) in India, Australia and South Africa. The sand that created these rocks would once have formed some of the world's first beaches.
"We conclude that the first large continents were making their way above sea level around 3 billion years ago—much earlier than the 2.5 billion years estimated by previous research.
***
"The Singhbhum craton, an ancient piece of continental crust that makes up the eastern parts of the Indian subcontinent, contains several formations of ancient sandstone. These layers were originally formed from sand deposited in beaches, estuaries and rivers, which was then buried and compressed into rock.
"We determined the age of these deposits by studying microscopic grains of a mineral called zircon, which is preserved within these sandstones. This mineral contains tiny amounts of uranium, which very slowly turns into lead via radioactive decay. This allows us to estimate the age of these zircon grains, using a technique called uranium-lead dating, which is well suited to dating very old rocks.
"The zircon grains reveal that the Singhbhum sandstones were deposited around 3 billion years ago, making them some of the oldest beach deposits in the world. This also suggests a continental landmass had emerged in what is now India by at least 3 billion years ago.
***
"How did rocky continents manage to rise above the oceans? A unique feature of continents is their thick, buoyant crust, which allows them to float on top of Earth's mantle, just like a cork in water. Like icebergs, the top of continents with thick crust (typically more than 45km thick) sticks out above the water, whereas continental blocks with crusts thinner than about 40km remain submerged.
***
"Because granites are one of the least dense types of rock, the ancient crust of the Singhbhum Craton would have become progressively more buoyant as it grew thicker. We calculate that by around 3 billion years ago, the continental crust of the Singhbhum Craton had grown to be about 50km thick, making it buoyant enough to begin rising above sea level.
"The rise of continents had a profound influence on the climate, atmosphere and oceans of the early Earth. And the erosion of these continents would have provided chemical nutrients to coastal environments in which early photosynthetic life was flourishing, leading to a boom in oxygen production and ultimately helping to create the oxygen-rich atmosphere in which we thrive today.
"Erosion of the early continents would have also helped in sequestering carbon dioxide from the atmosphere, leading to global cooling of the early Earth. Indeed, the earliest glacial deposits also happen to appear in the geological record around 3 billion years ago, shortly after the first continents emerged from the oceans."
Comment: The Earth evolved into its present state over time. Humans evolved over time. God obviously prefers to evolve His desired creations.
Privileged Planet: Earth densest planet
by David Turell , Thursday, November 11, 2021, 15:26 (896 days ago) @ David Turell
Doesn't fit the solar system pattern:
https://bigthink.com/starts-with-a-bang/earth-densest-planet/
"When solar systems first form, the heaviest elements sink preferentially towards the central protostar, while lighter elements are easily blown away. Based on their atomic composition and ratios alone, Mercury ought to be the densest planet. But Earth is even denser, owing to a combination of its composition and gravitational compression.
***
"In the innermost part of the Solar System is the planet Mercury, which has only a negligible atmosphere and is made largely of rocky and metallic material. As we travel farther away from the Sun, atmospheres become common, as do greater proportions of lighter elements. If we were to look at each planet’s composition in terms of the atoms that make it up, Mercury would have the highest percentage of heavier elements, trailed by Venus and Earth, with Mars even farther behind.
"You might think that would make Mercury the densest planet, but that’s not true at all. If you measure each planet’s mass and divide it by its volume, it turns out that Earth, not Mercury, is the densest world in our Solar System.
***
"In terms of density, Earth is the record-holder in our Solar System; no other world exceeds our own planet’s density.
***
"Inside the Earth’s core, the cumulative gravitational force of everything surrounding it exerts a crushing pressure on the planet’s interior: about 3,600,000 times the pressure we experience at sea level and significantly less than any pressure experienced in Mercury’s interior. At these extreme pressures, atoms themselves start to change, as they become compressed to only a fraction of their normal, zero-pressure size. This factor, known as gravitational compression, is the key piece of the puzzle to understanding Earth’s remarkable density.
"As it turns out — and this was worked out all the way back in the 1950s — a planet can’t be much bigger than Earth and still remain a rocky planet. Beyond a radius of 10,000 kilometers (and Earth is already pushing up against that with a radius exceeding 6,000 kilometers), a planet will actually start to contract as you add more and more mass. As the mass of your planet grows, the sizes of the central atoms shrinks faster than the additionally added atoms grow the overall size of the planet."
Comment: Siegel does not go past this fact of density, but I can. It gives us a liquid nickel-iron core which results in a protective magnetic shield, and floating continents with subduction, all supporting factors for life here. This planet is singularly special. All by God's plan!?
Privileged Planet: the magical Gulf stream
by David Turell , Sunday, November 14, 2021, 14:32 (893 days ago) @ David Turell
Its description is part of an article on the Earth's water:
http://oceans.nautil.us/feature/740/the-power-of-the-waves
"The process of thermohaline warming was first described in the 1850s by the American hydrographer Matthew Fontaine Maury, who characterized the oceans as a vast and efficient boiler house (the term derives from thermo (heat) and haline (salt), the two factors that influence the density of seawater). As Maury outlined in his landmark study The Physical Geography of the Sea (1855), “the furnace is the torrid zone, the Mexican Gulf and Caribbean Sea are the caldrons; the Gulf Stream is the conducting pipe” distributing tropical warmth towards Britain and western Europe. “It is the influence of this stream upon climate that makes Erin the “Emerald Isle of the Sea,” and that clothes the shores of Albion in evergreen robes, while in the same latitude, on this side, the coasts of Labrador are fast bound in fetters of ice,” he wrote: “There is a river in the ocean; in the severest droughts it never fails, and in the mightiest floods it never overflows. Its banks and bottoms are of cold water, while its current is of warm. The Gulf of Mexico is its fountain, and its mouth is in the Arctic Seas. It is the Gulf Stream. There is in the world no other such majestic flow of waters.”
"Maury’s rhapsodic description captures the vastness of the Gulf Stream phenomenon, while hinting at its widespread influence on Earth’s weather and climate. Such thermohaline currents are the engines of Earth’s weather, due to seawater’s efficiency at storing and transporting solar heat. Water covers 70 per cent of the planet’s total area, with around 97 per cent of that water contained in the oceans; most of the remainder is locked up in ice sheets and glaciers, and less than 0.001 per cent is ever present in the atmosphere: enough for only ten days’ rain. Thermohaline circulation transports a massive current of water around the globe, from northern oceans to southern oceans and back again. These currents—driven by differences in water density—slowly turn seawater over in the ocean, from top to bottom, like a vast conveyor belt, sending warm surface water downwards and forcing cold, dense, nutrient-rich water upwards. Cold seawater in the polar regions forms sea ice, as a consequence of which the surrounding water becomes saltier, since when sea ice forms, the salt is left behind. As the polar water grows saltier, its density increases, and it starts to sink. Surface water is then pulled in to replace the sinking water, which in turn grows cold and salty enough to sink, too. This movement is what initiates the deep-ocean currents that drive the global conveyer belt, with water always seeking an equilibrium; when cold, dense water sinks, sending warmer water welling up from below to balance out the loss at the surface.
"This results in an intermixing of the solar energy collected by the top layer of ocean and the nutrient-filled sediment of decayed plant and animal matter found at the bottom. Without the great conveyor belt stirring them up, along with the wind-driven upwelling that occurs near coastal regions, most of these nutrients would remain sequestered at the sea floor, leaving the oceans unable to support its dazzling array of life forms."
Comment: this is part of the perfect designed balance on Earth that supports life.
Privileged Planet: phosphorus from cosmic dust
by David Turell , Thursday, November 25, 2021, 15:58 (882 days ago) @ David Turell
Phosphorus is a vital part of living biochemistry and especially in genome DNA and RNA:
https://www.universetoday.com/153416/did-cosmic-dust-deliver-the-phosphorus-needed-for-...
"Without phosphorus, there’s no life. It’s a necessary part of DNA, RNA, and other biological molecules like ATP, which helps cells transport energy. But any phosphorus that was present when Earth formed would’ve been sequestered in the center of the molten planet.
"When Earth formed, phosphorus was part of the materials that coalesced into the planet. But one of Phosphorus’ properties means that much of the initial element is gathered in the Earth’s core, rather than the Earth’s crust. Phosphorus is a siderophile element, meaning it likes to dissolve in iron. Since so much of Earth’s iron sank to form the planet’s core, it took much of the phosphorus with it.
"Because of that, no phosphorus was available for life when Earth formed, and it had to come from somewhere else. It also had to arrive on Earth over a long period of time. Previously, scientists hypothesized that meteorites and comets might be the source. But a new study suggests that phosphorus might come from cosmic dust.
***
"Each year, thousands of tons of cosmic dust reach the Earth’s surface. Most cosmic dust is tiny particles only a few hundred micrometres in size. A lot of it is silicate minerals, the most common type of minerals on Earth, including quartz, olivine, and feldspar. Some cosmic dust includes carbonaceous material, sulphides, metals, and other minerals and compounds, including phosphorus. Almost any object in space—but especially asteroids and comets— can produce it through processes like volcanism and outgassing, or by impacts.
"Before phosphorus is useful to living things, it must be in the form of phosphates or metal phosphites. In the paper, the authors show that cosmic dust can go through a series of chemical reactions as it travels through the atmosphere, eventually stabilizing and settling to the Earth’s surface.
***
"Not all of the phosphorus that enters Earth’s atmosphere becomes biologically useful phosphorus. The researchers estimate that about 11% forms metal phosphites which become meteoric smoke and eventually settle to the Earth’s surface.
***
"If they’re correct, their results have important implications in our understanding of the history of life on Earth. Firstly, initial phosphorus was sequestered in the Earth’s core, unavailable for life. Their model shows how cosmic dust could be a continuous source of biologically-available phosphorus."
Comment: we are here, so the phosphorous must be provided. All part of fine-tuning.
Privileged Planet: heliosphere protection
by David Turell , Tuesday, December 07, 2021, 15:42 (870 days ago) @ David Turell
Produced by the Sun:
https://www.sciencealert.com/astronomers-have-discovered-why-the-solar-system-might-be-...
"The Solar System exists in a bubble.
"Wind and radiation from the Sun stream outwards, pushing out into interstellar space. This creates a boundary of solar influence, within which the objects in the Solar System are sheltered from powerful cosmic radiation.
"It's called the heliosphere, and understanding how it works is an important part of understanding our Solar System, and perhaps even how we, and all life on Earth, are able to be here.
"'How is this relevant for society? The bubble that surrounds us, produced by the Sun, offers protection from galactic cosmic rays, and the shape of it can affect how those rays get into the heliosphere," says astrophysicist James Drake of the University of Maryland.
***
"With data from these probes, scientists determined last year that the heliosphere could be shaped a bit like a weird cosmic croissant. Now, they have figured out how: neutral hydrogen particles streaming into the Solar System from interstellar space likely play a crucial role in sculpting the shape of the heliosphere.
***
"The team performed computational modeling, focusing on neutral hydrogen atoms – those that carry no charge. We know these stream through the Universe, but not what effect they could have on the heliosphere. When the researchers took the neutral atoms out of their model, suddenly the solar jets became stable. Then they put them back.
"'When I put them back in, things start bending, the center axis starts wiggling, and that means that something inside the heliospheric jets is becoming very unstable," Opher says.
"According to the team's analysis, this occurs because of the interaction of the neutral hydrogen with the ionized matter in the heliosheath – the outer region of the heliosphere. This generates a Rayleigh-Taylor instability, or an instability that occurs at the interface between two fluids of different densities when the lighter fluid pushes into the heavier one. In turn, this produces large-scale turbulence in the tails of the heliosphere.
"It's a clear and elegant explanation for the shape of the heliosphere, and one that could have implications for our understanding of the way galactic cosmic rays enter the Solar System. In turn, this could help us to better understand the radiation environment of the Solar System, outside Earth's protective magnetic field and atmosphere.
"'The Universe is not quiet. Our BU model doesn't try to cut out the chaos, which has allowed me to pinpoint the cause [of the heliosphere's instability]…. The neutral hydrogen particles," Opher says."
Comment: another reason there is life on our privileged planet. The universe is a dangerous place for living organisms. dhw wonders why God made the universe this way. Perhaps it has to be and one day we will fully understand.
Privileged Planet: vital iron
by David Turell , Monday, December 13, 2021, 14:51 (864 days ago) @ David Turell
A new study:
https://www.sciencedaily.com/releases/2021/12/211206215955.htm
"Iron is an essential nutrient that almost all life requires to grow and thrive. Iron's importance goes all the way back to the formation of the planet Earth, where the amount of iron in the Earth's rocky mantle was 'set' by the conditions under which the planet formed and went on to have major ramifications for how life developed. Now, scientists at the University of Oxford have uncovered the likely mechanisms by which iron influenced the development of complex life forms, which can also be used to understand how likely (or unlikely) advanced life forms might be on other planets.
***
"'The initial amount of iron in Earth's rocks is 'set' by the conditions of planetary accretion, during which the Earth's metallic core segregated from its rocky mantle,' says co-author Jon Wade, Associate Professor of Planetary Materials at the Department of Earth Sciences, University of Oxford. 'Too little iron in the rocky portion of the planet, like the planet Mercury, and life is unlikely. Too much, like Mars, and water may be difficult to keep on the surface for times relevant to the evolution of complex life.'
"Initially, iron conditions on Earth would have been optimal to ensure surface retention of water. Iron would have also been soluble in sea water, making it easily available to give simple life forms a jumpstart in development. However, oxygen levels on Earth began to rise approximately 2.4 billion years ago (referred to as the 'Great Oxygenation Event'). An increase in oxygen created a reaction with iron, which led to it becoming insoluble. Gigatons of iron dropped out of sea water, where it was much less available to developing life forms."
Comment: another part of the development of the Earth by evolutionary processes.
Privileged Planet: our sun less common
by David Turell , Tuesday, January 04, 2022, 15:25 (842 days ago) @ David Turell
Red dwarfs much more common:
https://www.sciencealert.com/why-the-heck-aren-t-we-orbiting-a-red-dwarf-star
"On the grand cosmic scale, our little corner of the Universe isn't all that special – this idea lies at the heart of the Copernican principle. Yet there's one major aspect about our planet that's peculiar indeed: Our Sun is a yellow dwarf.
"Because our home star is what we know most intimately, it would be tempting to assume that yellow and white dwarf stars (FGK dwarfs) are common elsewhere in the cosmos. However, they're far from the most multitudinous stars in the galaxy; that particular feather belongs in the cap of another type of star – red dwarf (M dwarfs).
"Not only do red dwarfs make up as much as 75 percent of all stars in the Milky Way, they are much cooler and longer-lived than stars like the Sun. Much, much longer lived.
"We expect our Sun to live around 10 billion years; red dwarf stars are expected to live trillions. So long, in fact, that none have yet reached the end of their main sequence lifespan during the entire 13.4 billion years since the Big Bang.
"Since red dwarfs are so abundant, and so stable, and since we shouldn't automatically consider ourselves to be cosmically special, the fact we're not orbiting a red dwarf should therefore be somewhat surprising. And yet, here we are, orbiting a not-so-common yellow dwarf.
"Red dwarf stars are an attractive prospect for the search for extraterrestrial life. They don't burn as hot as Sun-like stars, which means any exoplanets orbiting them need to be closer to reach habitable temperatures. In turn, this could make any such exoplanets easier to find and study, since they orbit their stars more frequently than Earth does the Sun.
"Indeed, astronomers have found quite a few rocky exoplanets – like Earth, Venus and Mars – orbiting red dwarf stars in this habitable zone. And some of them are even relatively close. It's tantalizing stuff, and it certainly seems like red dwarf stars ought to host life at least somewhere, which is why astrobiologists are looking."
Comment: Looking but will they find evidence of life? This is an other example of our Earth's specialness.
Privileged Planet: new seismic findings
by David Turell , Wednesday, January 05, 2022, 15:27 (841 days ago) @ David Turell
Ultra-low velocity zones control plate tectonics which are required for life to appear:
https://www.sciencealert.com/possible-chemical-leftovers-from-earth-s-birth-are-still-l...
"Chemical leftovers from the very earliest days of our planet could still be present near Earth's core, according to new research, and the discovery could improve our understanding of plate tectonics phenomena happening today.
"The team behind the study compares these leftovers to clumps of flour at the bottom of a bowl of batter – elements that haven't been properly mixed over the course of billions of years, which show up as anomalies on seismic wave readings.
"We know that seismic waves slow to a crawl near the core of the Earth, going through what are known as ultra-low velocity zones (ULVZs). The big question is what are these zones made out of – and scientists now think they might have found the answer.
***
"'We found that this type of ultra-low velocity zone can be explained by chemical heterogeneities created at the very beginning of the Earth's history and that they are still not well mixed after 4.5 billion years of mantle convection."
***
"The mantle and the ULVZs at the bottom of it can drive the movement of tectonic plates close to the surface, which means the new research doesn't just teach us more about the birth of the Earth, but also more about how it's behaving today.
"'Of all of the features we know about in the deep mantle, ultra-low velocity zones represent what are probably the most extreme," says geologist Michael Thorne from the University of Utah.
"'Indeed, these are some of the most extreme features found anywhere in the planet.'"
Comment: We know the Earth is very special and this is another evidence of its design for life.
Privileged Planet: when did large amounts of oxygen appear
by David Turell , Thursday, January 06, 2022, 19:16 (840 days ago) @ David Turell
Mainly in the Great oxygenation event:
https://www.sciencedaily.com/releases/2022/01/220105151338.htm
"Evidence arguing for a "whiff of oxygen" before the Earth's Great Oxygenation Event 2.3 billion years ago are chemical signatures that were probably introduced at a much later time, according to research published in Science Advances.
"The result rewinds previous research findings that atmospheric oxygen existed prior to the so-called Great Oxygenation Event-known to researchers as "GOE"- and has the potential to rewrite what is known of the planet's past.
***
"Additional analysis conducted as part of the study reconfirms that Earth's atmosphere featured exceedingly low oxygen levels prior to 2.3 billion years ago.
"'We used new tools to investigate the origins of the signals of trace oxygen," said Jena Johnson, an assistant professor of earth and environmental sciences at the University of Michigan and co-author of the study. "We found that a series of changes after the sediments were deposited on the seafloor were likely responsible for the chemical evidence of oxygen."
***
"'Our new, high-resolution data clearly indicates that the sedimentary context of chemical signals has to be carefully considered in all ancient records," said Johnson.
"In addition to providing an alternate explanation for oxygen proxies that were found in the Mount McRae Shale, the team confirmed that the level of atmospheric oxygen at the time before the Great Oxygenation Event was very low, calling it "negligible" in the approximate period 150 million years before the abrupt change.
"The findings call into question the early existence of cyanobacteria, instead supporting other hypotheses that oxygen-generating photosynthesis evolved only shortly before the Great Oxygenation Event."
Comment: If life appeared 3.8 by ago, its chemical processes did not need oxygen. It is obvious more complex life forms were allowed to appear as more oxygen became available. And an obvious drive toward complexity existed, I propose designed by god.
Privileged Planet: plant bloom advanced Earth's evolution
by David Turell , Saturday, January 08, 2022, 16:03 (838 days ago) @ David Turell
The flowering plant bloom sudden appearance bothered Darwin as did the Cambrian Explosion:
https://www.sciencealert.com/flower-power-fueled-a-massive-boost-in-biodiversity-after-...
"Following the time of the dinosaurs, it might well be that the evolution of flowering plants drove the explosion in the diversity of life on Earth, according to a 2021 paper.
"Most of the plants we now eat, drink, wear, and build with are of the flowering variety. They're called angiosperms, which roughly translates from Greek as 'seed vessels'.
"More than a million species of modern insects owe their livelihoods to angiosperms, as pollinators such as bees and wasps, as leaf-eaters such as beetles, locusts, and bugs, or feeding on nectar such as butterflies," says Pennsylvania State University paleobotanist Peter Wilf.
"'And these insects are eaten by spiders, lizards, birds, and mammals."
Hundreds of millions of years ago, it's been suggested that most species on Earth lived in the oceans – which makes sense given these watery places cover over 70 percent of our planet's surface. But today, most of life's diversity is found on land.
***
"This was around the time when many of the plant families we know today arose according to molecular timelines, which included a massive increase in fruit and seed size – a driver for the evolution of more fruit-eating animals. (my bold so dhw can see math at work)
"'Flowering plants might have been around for some time, but they began to appear more commonly in the Cretaceous, in the last 70 million years of the age of dinosaurs," says Benton.
"'But it seems that dinosaurs didn't choose to eat them, and continued chomping ferns and conifers such as pines. However, it was only after the dinosaurs had gone that angiosperms really took off on evolutionary terms."
"The team has called this event the Angiosperm Terrestrial Revolution, and suspects we've overlooked it previously because it was punctured by the dramatic extinction event that knocked non-avian dinosaurs out of the picture.
***
"Firstly, as flowering plants spread into different habitats, evolution twisted them into a dazzling array of new forms. These new varieties of structures, chemicals, and reproductive strategies created new opportunities for the other life evolving around them.
"'The angiosperms became hugely diverse themselves, but they also created enormous numbers of niches for other plants and animals, so you get tens more species on each hectare of Earth's surface than you would if angiosperms had not become established when they did," says Benton.
"In turn, the increase in productivity means these plants were producing and trading more energy.
"'They can also capture much more of the Sun's energy than conifers and their relatives, and this extra energy passes through the whole ecosystem," says evolutionary biologist Hervé Sauquet from Sydney's Royal Botanic Gardens.
***
"Finally, as the flowering invaders increased in abundance, they also started influencing their local climate. Higher rates of transpiration mean the plants draw more water from the soil and pass it into the atmosphere, altering the climate and water cycles.
"This allowed angiosperms to increase the extent of wet tropic environments and therefore expand the suitable habitats of many other species, from frogs to fungi and even for the other plants that preceded them like ferns. It was a win-win situation.
"'On the other hand, conifer forests, based around the pine family, for example, contain fewer species of other plants or animals, and they probably were never as species-rich," notes Sauquet.
"Benton and colleagues suggest differences in genetics enabled angiosperms to diversify so much more than other plants. Despite past genome duplications (a trait common in all plants that can result in more chromosomes), they have relatively small genomes with fewer chromosomes. The mechanisms that reduce their genomes may be what lets flowering plants create new genotypes so easily.
"Angiosperms show considerably higher reinvention and trait flexibility – the ability to rapidly evolve physiologically – than gymnosperms like conifers, the researchers explain.
"This may have allowed flowering plants to usher in a whole new regime of life on Earth. Ultimately, it became our regime."
Comment: lots of lessons here. dhw note how one step leads to another so all results are related, and ecosystems evolve with important consequences.
Privileged Planet: new estimates of u-v ozone protection
by David Turell , Sunday, January 09, 2022, 14:42 (837 days ago) @ David Turell
Very early it seems protection was not good, according to new estimates:
https://www.sciencealert.com/conditions-on-ancient-earth-were-probably-more-hostile-tha...
"...researchers now think that we've underestimated the levels of ultraviolet (UV) radiation from the Sun that reached the surface of Earth – and that these levels could have been up to 10 times higher than previously thought during certain periods.
"The focus of the research is on the last 2.4 billion years of history, since the Great Oxidation Event (GOE) when oxygen levels in the atmosphere and oceans first started rising from virtually nothing. Not only do the new findings teach us more about Earth's history, they could improve our understanding of the atmospheres on other planets too.
"We know that UV radiation can have disastrous effects if life is exposed to too much," says astrophysicist Gregory Cooke, from the University of Leeds in the UK. "For example, it can cause skin cancer in humans. Some organisms have effective defense mechanisms, and many can repair some of the damage UV radiation causes."
"'Whilst elevated amounts of UV radiation would not prevent life's emergence or evolution, it could have acted as a selection pressure, with organisms better able to cope with greater amounts of UV radiation receiving an advantage."
"The researchers think that greater levels of UV radiation could have hit Earth because of a weaker ozone layer, which absorbs the radiation. The amount of ozone in our atmosphere depends on a number of factors and chemical reactions, but oxygen levels play a major role in the formation of ozone.
Previously, it was thought that atmospheric oxygen levels of around 1 percent of today's levels would produce enough ozone to keep harmful UV radiation away. Now, using advanced computer climate simulations, the team suggests that the key oxygen level might be more like 5-10 percent.
***
"Around 400 million years ago, oxygen levels in the atmosphere got up to modern-day standards, and more complex life forms began to evolve, leading to the wide biodiversity in evidence across the planet today."
Comment: this tells us why life developed only in the deep oceans and reached land much later.
Privileged Planet: oxygen's role in planetary development
by David Turell , Monday, January 10, 2022, 18:53 (836 days ago) @ David Turell
More oxygen allows for easier melting of rock:
https://www.sciencenews.org/article/exoplanets-oxygen-rocks-melt-geological-active
"Laboratory experiments show that rocks exposed to higher concentrations of oxygen melt at lower temperatures than rocks exposed to lower amounts. The finding suggests that oxygen-rich rocky exoplanets could have a thick layer of soupy mantle, possibly giving rise to a geologically active world, researchers report in the Nov. 9 Proceedings of the National Academy of Sciences.
"A gooey interior is thought to have profound effects on a rocky planet. Molten rock deep within a planet is the magma that powers geologic activity on the surface, like what happens on Earth (SN: 7/31/13). During volcanic eruptions, volatiles such as water vapor and carbon dioxide can fizzle out of the magmatic ooze, setting up atmospheres that are potentially friendly to life (SN: 9/3/19). But the factors that drive mantle melting on Earth aren’t well-understood, and scientists have tended to focus on the role of metals, such as iron.
***
"Just as salt lowers the melting temperature of ice, oxygen similarly makes it easier for rocks to melt, the researchers conclude. Lin hypothesizes that oxygen can break up long chains of silicon and oxygen atoms in solid rock, coaxing them to form smaller bits. These fragments are more mobile and can flow more easily compared to the longer, tangly groups."
Comment: More evidence of how God evolved a planet for life. First photosynthesis, lots of O2, then floating continents on magma with all the results of subduction processes and cycles, all shown to support life.
Privileged Planet: new plate tectonic theory
by David Turell , Saturday, January 22, 2022, 15:48 (824 days ago) @ David Turell
Heat is not enough to move plates, but gravity has a role:
https://www.sciencedaily.com/releases/2022/01/220121165552.htm
"The new analysis provides an alternative to the hypothesis that the movement of tectonic plates is related to convection currents in the Earth's mantle. Convection involves buoyant rise of heated fluids, which Hofmeister and her colleagues argue does not apply to solid rocks. They argue that force, not heat, moves large objects. The new research is published in a special paper of the Geological Society of America, as part of a forthcoming collection assembled in honor of geologist Warren B. Hamilton.
"Earth's internal workings are popularly modeled as dissipating heat generated by internal radioactivity and from leftover energy created during collisions when our planet formed. But even mantle convection proponents recognize that that amount of internal heat-energy is insufficient to drive large-scale tectonics. And there are other problems with using convection to explain observed plate motions.
"Instead, Earth's plates might be shifting because the sun exerts such a strong gravitational pull on the moon that it has caused the moon's orbit around Earth to become elongated.
"Over time, the position of the barycenter -- the center of mass between the orbiting bodies of the Earth and the moon -- has moved closer to Earth's surface and now oscillates 600 km per month relative to the geocenter, Hofmeister said. This sets up internal stresses, as the Earth continues to spin.
"'Because the oscillating barycenter lies ~4600 km from the geocenter, Earth's tangential orbital acceleration and solar pull are imbalanced except at the barycenter," Hofmeister said. "The planet's warm, thick and strong interior layers can withstand these stresses, but its thin, cold, brittle lithosphere responds by fracturing."
"Daily spin flattens the Earth from a perfect spherical shape, which contributes to this brittle failure of the lithosphere. These two independent stresses create the mosaic of plates observed in the outer shell, the authors suggest. The variety of plate motions comes from the changes in size and direction of the imbalanced gravitational forces with time."
Comment: It is not one or the other at work but both as I see it. The Earth is made to be the perfect place for life to be started. God prepared for us in a great planetary design.
Privileged Planet: a new source of our water
by David Turell , Tuesday, January 25, 2022, 19:59 (821 days ago) @ David Turell
A special mineral containing lots of water:
https://phys.org/news/2022-01-probes-planet-turbulent-oceans.html
"Besides being the all-important substance for the origin of life as we know it, surface water is important for stabilizing a planet's climate over long periods of time, allowing evolution to happen. Even small amounts of water deep below the surface are known to dramatically increase rock plasticity, which is essential for plate tectonics—a process that shapes the continents and oceans, and drives earthquakes and volcanism. But despite its huge importance for the evolution of rocky planets like ours, we don't know where the Earth's water originated.
"'Some scientists thought our water was seeded by comets, but this source seems to be very limited—the isotope composition of water in comets is quite different from that on Earth," says Professor Artem R. Oganov of Skoltech, who co-authored the study.
"If the water did not come from above, it must have come from below, from deep within the mantle or even the core of the Earth. But how could it survive the violent first 30 million years or so in the Earth's history, when the planet was very hot and was ceaselessly bombarded by asteroids and even underwent a catastrophic collision with a Mars-sized planet? These processes must have evaporated part of the Earth and what remained was molten at least several hundred kilometers down, removing the water. Until now, scientists did not know a stable compound that could lock up hydrogen and oxygen atoms within the planet's interior long enough and then release them as water.
"Oganov teamed up with a group of scientists lead by Professor Xiao Dong of Nankai University, China, and together they used Oganov's crystal structure prediction method USPEX to discover a compound that fits the bill: magnesium hydrosilicate, with the formula Mg2SiO5H2, which is over 11% water by weight and is stable at pressures of more than 2 million atmospheres and at extremely high temperatures. Such pressures exist in the Earth's core. But everyone knows the core is a metal ball—mostly iron—so the elements making up magnesium hydrosilicate are simply not available there, right?
"'Wrong. There was no core at the time. In the beginning of its existence, the Earth had a more or less evenly distributed composition, and it took the iron roughly 30 million years from when the planet formed to seep down to its center, pushing the silicates up into what we now call the mantle," Oganov explains.
"This means that for 30 million years, part of the Earth's water was safely stored away in the form of hydrosilicates at the depths of the present-day core. During that time the Earth withstood the heaviest phase of asteroid bombardment. By the time the core formed, the hydrosilicates had been pushed into lower-pressure areas, where they became unstable and decomposed. This produced the magnesium oxide and magnesium silicate that make up the mantle today, and water, which started on its 100-million-year-long journey to the surface.
"'In the meantime, the Earth was being pummeled by asteroids and even a protoplanet, but water was safe, because it had not yet made its way to the surface," Oganov adds.
"The researchers say their study shows how faulty human intuitions can sometimes be. Nobody had thought about silicates at core pressures, because the constituent atoms were supposedly not to be found there. And even then, people would not have expected a hydrosilicate to be stable at core conditions, because the extreme temperatures and pressures were believed to "squeeze" the water out of the mineral. Yet accurate modeling based on quantum mechanics proved otherwise.
"'It's also a story about how a material that existed for a brief moment on the planetary timescale had a massive impact on the Earth's evolution," the materials scientist goes on. "This runs counter to the usual geological mindset, but come to think of it, an evolutionary biologist, for whom much of what we see today has evolved out of now-extinct species, would hardly be surprised, would they?'"
Comment: A clear-thinking God can evolve anything. Not dhw's muddled-headed form, who didn't do it the right humanized way.
Privileged Planet: the faint sun paradox
by David Turell , Friday, January 28, 2022, 23:32 (818 days ago) @ David Turell
Early sun at 70% of current output makes for frozen Earth. Yet life appeared and survived. Why?:
https://www.quantamagazine.org/the-sun-was-dimmer-when-earth-formed-how-did-life-emerge...
"... If you could travel back in time to the dawn of the solar system 4.5 billion years ago, you’d find a star that was about 30% dimmer than it is now. Over the subsequent eons, it has shone more and more brilliantly — a function of the nuclear fusion process that takes place in the cores of stars like our own.
"That original faint sun should have led to disaster here on Earth. If our modern Earth were placed under that sun, temperatures would average about −7 degrees Celsius — too cold for liquid water to flow. “The planet should have been completely frozen,” said Toby Tyrrell, an earth system scientist. “It shouldn’t have been possible for life to develop.”
"And yet it did. We know that our planet had liquid water on its surface as early as 4.4 billion years ago, and maybe even earlier, as water vapor condensed out of the atmosphere. Single-celled life seems to have sprung up shortly thereafter.
***
"The American astronomers Carl Sagan and George Mullen made a more substantial attempt to resolve the paradox in 1972, performing the first detailed analysis of the faint young sun problem. They suggested that a thicker atmosphere on the early Earth might have been able to trap more heat, keeping the planet warm enough to support liquid water.
***
"Kasting and his colleagues explored carbon dioxide’s possible effects in 1981, noting that volcanoes could have released enough of it to overcome the faint young sun problem. Even if Earth did manage to freeze over — which appears to have happened on at least three occasions — volcanoes poking their noses through the ice might reverse the process. “The resultant large greenhouse effect should melt the ice cover in a geologically short period of time,”
***
"At the dawn of the Hadean, an object at least the size of Mars, and perhaps twice as big, barreled into the young proto-Earth. The collision formed the moon and essentially reset the timeline of our planet to zero. It also likely sent temperatures on Earth soaring, with a vast magma ocean encompassing the planet.
"That magma ocean could have cooled in just a few tens of millions of years, allowing a more recognizable planet to take shape. Evidence for this comes from tiny crystals called zircons.
“'Zircons are the oldest known terrestrial solids on our planet today,” said Dustin Trail, an earth scientist who published work on their properties in 2018. “They have ages that extend back 4.4 billion years.” Studying the ratio of different forms of oxygen in some of these zircons shows that they may have interacted with water as far back as 4.38 billion years ago, pointing to the presence of liquid water and perhaps oceans on our planet almost immediately after the magma ocean phase.
***
" 4.1 billion years ago — some of the first evidence of life appears. In 2015, Elizabeth Bell, a geoscientist at the University of California, Los Angeles, and colleagues found carbon from biological sources inside zircons.
***
"We don’t have reliable measurements of atmospheric carbon dioxide from that long ago. But as far back as we can look, we see that there was a lot of it. In January 2020, Owen Lehmer,.. and colleagues published work analyzing the composition of meteorites from 2.7 billion years ago. They found that as the meteorites passed through our atmosphere, they preserved a record of the atmospheric composition. The researchers showed that it may have been 70% carbon dioxide or more, compared to just 0.04% today.
“'It’s really quite abundant in the atmosphere at that time,” said Lehmer. “Adding a bunch of carbon dioxide is certainly in line with keeping the young Earth warm and preventing a giant snowball.”
***
"Other recent work has suggested the faint young sun may not have been a problem at all, but a savior. Had the sun possessed between 92% and 95% of its present luminosity 4.5 billion years ago, Earth might have become too hot, resulting in a “steam Earth,” with water vapor unable to condense out of the atmosphere.
***
"In December 2020, Tyrrell calculated that Earth’s continuing habitability is mostly due to chance...“Earth’s success was not an inevitable outcome but rather was contingent,” he wrote. “It could have gone either way.”
Comment: So many factors, so much chance. But perhaps we are here under God's guidance. Be sure to see the explanatory illustration.
Privileged Planet: how certain elements surface
by David Turell , Monday, January 31, 2022, 20:19 (815 days ago) @ David Turell
A Goldilocks zone is found:
https://phys.org/news/2022-01-scientists-geological-goldilocks-zone-formation.html
"The team, including researchers from Cardiff University, has discovered a 'Goldilocks zone' at the base of the Earth's crust where the temperate is just right at around 1000°C for metals to be transported to shallower levels near the surface, where they can be mined.
"The metals in question—most notably copper, cobalt, tellurium and platinum—are highly-sought after due to their use in electrical wiring and technologies such as battery storage devices, solar panels and fuel cells.
***
"The metals are primarily stored in the Earth's mantle—a thick layer of rock that sits between the Earth's core and crust—at depths of more than 25km, making them inaccessible for exploitation.
"Yet in certain parts of the world, nature can bring these metals to the surface through the flow of liquid rock, known as magma, that originates in the Earth's mantle and rises upwards into the crust.
"However, up until now the journey of metals to their final deposition site has been uncertain.
"In the new study, the team identified a temperature dependant zone, located at the base of the Earth's crust, which acts like a valve and intermittently allows the metals to pass upwards to reach the upper crust.
"Co-author of the study Dr. Iain McDonald said: "When magmas reach the base of the crust the critical metals often get trapped here and cannot reach the surface if the temperature is either too hot or too cold.
"'As with Goldilocks, we have discovered that if the temperature is 'just right' at around 1000°C, then metals like copper, gold and tellurium can escape the trap and rise up towards the surface to form ore deposits.'"
Comment: it seems everything on Earth was designed just right for us to use.
Privileged Planet: water here before Earth formed
by David Turell , Thursday, February 03, 2022, 22:41 (812 days ago) @ David Turell
Latest isotope studies on meteorites:
https://www.sciencealert.com/new-study-finds-earth-s-water-was-around-in-the-solar-syst...
"Our planet is the only one known to have life, and the only one on which liquid water can be found in abundance (moons are another story). There are giant question marks over where and how it came from, but new research suggests that it was here in the Solar System before Earth even formed.
"According to a team led by geochemist Jérôme Aléon of the French National Museum of Natural History, isotopes of water in a meteorite from the birth of the Solar System match isotopes of water found on Earth today.
"'The initial isotopic composition of water in the Solar System is of paramount importance to understanding the origin of water on planetary bodies but remains unknown, despite numerous studies," the researchers write in their paper.
"'Here we use the isotopic composition of hydrogen in calcium-aluminium-rich inclusions (CAIs) from primitive meteorites, the oldest Solar System rocks, to establish the hydrogen isotopic composition of water at the onset of Solar System formation."
***
"The whole accretion process usually heats and squeezes those primordial materials into forms that erase traces of its origins. This has made analysis of its water content a challenge.
"Yet there are occasional rock samples that make it to Earth's surface that display few signs of overbaking, providing researchers with a prime opportunity.
"The Efremovka meteorite, found in Kazakhstan in 1962, has elements that have been dated back to 4.57 billion years ago. It was this meteorite, and its ancient inclusions rich in calcium and aluminium, that Aléon and colleagues analyzed, using a new technique developed just for this purpose.
"'...they examined the ratio of the isotopes of hydrogen in the meteorite.
"These ratios, fascinatingly, can be used to identify the signature of water. Isotopes are variants of an element with different numbers of neutrons; deuterium – also known as heavy hydrogen – has one proton and one neutron. Protium, or light hydrogen, has one proton and no neutrons.
"Because hydrogen is one of the components of water, the ratio of these two isotopes in rocks can tell us about the water that rock was exposed to. For example, protium is the dominant hydrogen isotope here on Earth. On Mars, deuterium is the dominant isotope, which tells us that something might be stripping the lighter protium.
"The minerals and ratios in the Efremovka meteorite revealed that, in the first 200,000 years of our Solar System's history, before the planetesimals (that's planet seeds) formed, two large gas reservoirs existed. One of these reservoirs contained the solar gas from which the matter in the Solar System ended up condensing.
"The other, the team found, was rich in water. This water probably came from a massive influx of interstellar material that fell in towards the inner Solar System at the time of the protostellar envelope collapse.
"And, fascinatingly, that water is very similar to Earth's water in its isotopic composition. This suggests that water was present in the early Solar System from its very inception – before Earth was even a twinkle in the protoplanetary disk.
""The ubiquitous hydrogen isotopic composition observed in large, early-formed telluric planetesimals … was reached in the first few 100,000 years of the Solar System owing to a massive influx of interstellar matter infalling directly in the inner Solar System, rather than being produced in a more evolved protoplanetary disk," the researchers write."
Comment: how many chance contingencies are discovered before one recognizes a designer at work evolving a perfect Earth for us?
Privileged Planet: two giant mountain ranges
by David Turell , Saturday, February 05, 2022, 15:11 (810 days ago) @ David Turell
Their erosion provided many physiochemical resources to provide necessary substrates for evolution to proceed:
https://www.sciencedirect.com/science/article/abs/pii/S0012821X22000279
Abstract
"We use the distribution of low-Lu and low-Lu/Dy zircons, derived from the eroded roots of mountains, where trace amounts of zircon compete with abundant garnets for heavy rare earth elements, to identify periods of extensive high mountain (supermountain) formation. The data reveal that Earth has two, and they correlate with periods when the average metamorphic pressure of orogenic belts exceeded 1.2 GPa, the pressure at which metamorphic garnet becomes abundant. The first supermountains formed at 2.0-1.8 Ga, during the assembly of Nuna, and the second at 650-500 Ma, during the amalgamation of Gondwana. The 650-500 Ma event has been previously recognized and named the Transgondwanan Supermountain, but the 2.0-1.8 Ga Nuna Supermountains have not. Our data also show that mountain building was limited during the Boring Billion, between 1.8 and 0.8 Ga. (my bold)
"Mountain building results in high rates of erosion and sedimentation, and the two periods of supermountain formation are associated with voluminous sedimentation, whereas sediment production during the Boring Billion was more limited. Enhanced erosion would have increased the supply of bio-limiting nutrients such as phosphorous to the oceans, potentially increasing primary productivity and the flow of energy through ecosystems. Enhanced carbon production and sedimentation, both driven by supermountain erosion, are also expected to lead to increases in atmospheric oxygen. During Transgondwanan Supermountain erosion, increasing oxygen and nutrient levels may be connected to the proliferation of chlorophyte algae after 650 Ma and the emergence of large, animal-like organisms 75 Myr later. Targeted research of Nuna-aged sediments is needed to evaluate whether rapid erosion of supermountains is linked to geochemical and biotic events, such as the disappearance of banded iron formations at 1.85 Ga, the emergence of the first macroscopic organisms (Grypania) at 1.9 Ga, and the radiation of early eukaryotes, which become visible in the fossil record at 1.65 Ga."
Comment: Lots of physicochemical preparation to allow the design of complex animals. The Boring Billion, between 1.8 and 0.8 Ga. refers to the time little new evolution of new forms happened. All before the Cambrian period.
Privileged Planet: solving Earth's core mystery
by David Turell , Wednesday, February 09, 2022, 19:29 (806 days ago) @ David Turell
We know there is lots of iron, but seismic activity is still not fully explained:
https://www.sciencenews.org/article/earth-inner-core-superionic-matter-weird-solid-liquid
"Computer simulations described in two studies suggest that the material in Earth’s inner core, which includes iron and other, lighter elements, may be in a “superionic” state. That means that while the iron stays put, as in a solid, the lighter elements flow like a liquid.
"The research gives a potential peek at the inner workings of an enigmatic, inaccessible realm of the planet. According to conventional scientific wisdom, Earth’s core consists of a liquid outer core surrounding a solid inner core. But beyond knowing that the inner core is rich in iron, scientists don’t know exactly which other elements are present, and in what quantities.
***
"Seismic waves stirred up by earthquakes can plow through the inner core, providing clues to what’s inside. But measurements of these waves have left researchers puzzled. The velocity of one type of wave, called a shear wave, is lower than expected for solid iron or for many types of iron alloys — mixtures of iron with other materials. “That is a mystery about the inner core,” says geophysicist Yu He of the Chinese Academy of Sciences in Guiyang.
***
"In a superionic material, some of the atoms arrange neatly, as in a solid, while others are liquid-like free spirits that slip right through the solid lattice. In the simulation, the researchers found, the lighter elements moved about while the iron stayed in place.
"That superionic status slowed shear waves, the researchers report February 9 in Nature, suggesting the weird phase of matter could explain the unexpected shear wave velocity measured in the inner core.
"Shear waves, also known as secondary or S waves, jiggle the Earth perpendicular to their direction of travel, like the undulations that move along a jump rope that’s wiggled up and down. Other waves, called primary or P waves, compress and expand the Earth in a direction parallel to their travel, like an accordion being squeezed.
***
"In a study published in August 2021 in Earth and Planetary Science Letters, a simulation of iron, silicon and hydrogen atoms reproduced the inner core’s known characteristics. In the simulation, the material was also superionic: the iron and silicon stayed in position while the hydrogen flowed like a liquid.
***
"Another puzzle of Earth’s heart is the fact that the inner core’s structure seems to change over time. This has previously been interpreted as evidence that the inner core rotates at a different rate than the rest of the Earth. But He and colleagues suggest that it could instead result from the motions of liquid-like light elements swirling inside the inner core and changing the distribution of elements over time. “This paper sort of offers an explanation for both of these phenomena” — the slow shear wave velocity and the shifting structure — says Tkalčić, who was not involved with either new study.
"One thing missing is laboratory experiments showing how these combinations of elements behave under inner core conditions, says geophysicist Daniele Antonangeli of Sorbonne University in Paris, who was not involved with the new research. Such tests could help confirm whether the simulations are correct."
Comment: So our Earth is still mysterious, but it works and life here is richly provided for.
Privileged Planet: what meteorites bring
by David Turell , Friday, February 11, 2022, 20:36 (804 days ago) @ David Turell
Analysis of an asteroid shows mainly carbonaceous chondrite:
https://phys.org/news/2022-02-asteroids-sample-earth-reveals-solar.html
"The solar system is full of asteroids: chunks of rock much smaller than a planet. By looking at asteroids through telescopes and analyzing the spectrum of light they reflect, we can classify most of them into three groups: C-type (which contain a lot of carbon), M-type (which contain a lot of metals), and S-type (which contain a lot of silica).
"When an asteroid's orbit brings it into a collision with Earth, depending on how big it is, we might see it as a meteor (a shooting star) streaking across the sky as it burns up in the atmosphere. If some of the asteroid survives to reach the ground, we might find the remaining piece of rock later: these are called meteorites.
"Most of the asteroids we see orbiting the sun are the dark-colored C-types. Based on their spectrum, C-types seem very similar in makeup to a kind of meteorite called carbonaceous chondrites. These meteorites are rich in organic and volatile compounds such as amino acids, and may have been the source of the seed proteins for making life on Earth.
"However, while around 75 percent of asteroids are C-types, only 5 percent of meteorites are carbonaceous chondrites. Until now this has been a conundrum: if C-types are so common, why aren't we seeing their remains as meteorites on Earth?
***
"The Ryugu samples (and presumably meteorites from other C-type asteroids) are too fragile to survive entering Earth's atmosphere. If they arrived traveling at more than 15 kilometers per second, which is typical for meteors, they would shatter and burn up long before reaching the ground.
"But the Ryugu samples are even more intriguing than that. The material resembles a rare subclass of carbonaceous chondrite called CI, where C is carbonaceous and the I refers to the Ivuna meteorite found in Tanzania in 1938.
"These meteorites are part of the chondrite clan, but they have very few of the defining particles called chondrules, round grains of predominantly olivine apparently crystallized from molten droplets. The CI meteorites are dark, uniform, and fine grained.
These meteorites are unique in being made up of the same elements as the sun, and in the same proportions (besides the elements that are normally gases). We think this is because CI chondrites formed in the cloud of dust and gas that eventually collapsed to form the sun and the rest of the solar system.
"But unlike rocks on Earth, where 4.5 billion years of geological processing have changed the proportions of elements we see in the crust, CI chondrites are largely pristine samples of the planetary building blocks of our solar system.
"What are the chances, then, of the first C-type asteroid we visit being so similar to one of the rarest kinds of meteorite?
"It is likely the rarity of these CI meteorites on Earth is indeed related to their fragility. They would have a hard time surviving the trip through the atmosphere, and if they did reach the surface the first rainstorm would turn them into puddles of mud."
Comment: Perhaps when our Earth did not have its current atmosphere the meteorites got here and did supply amino acid compounds. Current analyses of meteorites found here do not show that. Life requires formed amino acids, all left-handed, and that issue plagues origin of life studies.
Privileged Planet: our sun is special
by David Turell , Sunday, February 13, 2022, 15:00 (802 days ago) @ David Turell
From an astrophysicist:
https://bigthink.com/13-8/average-star/
"You hear it all the time. Whenever someone wants to invoke the vast reaches of space and time, they will make some claim about we humans finding ourselves on a rock “orbiting an average star.” That whole “average star” meme works great if you want to make it seem like we are nothing special at all in the Universe. But from a stellar census point of view, it’s just not true.
"The Sun, our happy fusion parent, is simply not average. Understanding why opens the door to some of the most interesting astrophysics in the Universe: the story of star formation.
"Stars are giant balls of hydrogen gas (with some helium and tiny amounts of heavier elements). When I say “giant,” I am not kidding. The Sun contains about a billion, billion, billion tons of stuff. This means that every star is at war with its own gravity, which is endlessly trying to squeeze it into nothingness (like a black hole). The release of energy via thermonuclear reactions in the core provide the outward push that holds back the inward crush of gravity. But how does any star get into this kind of balance? Somehow, all that gas has to be collected in one place to get stars started. Tracking that story is how we can see that the Sun is not average at all.
***
"Over the course of the next million years or so, the cloudlet will begin to shrink. Gas from the outer edges rains down onto the inner core, building up the densities there and creating the seed that will soon become a star. The temperatures in the core also build up as stuff at the very center gets squeezed hard by all the material packing in above it. Once the temperatures at the center rise above a few million degrees, nuclear reactions turn on and a star is, literally, born.
"This story of star formation is straight-forward, and it is one we understand very well. What’s not included in the story, however, is this: What size star emerges at the end? There are stars in the sky that have 100 times the mass of our Sun. There are also stars with a tenth of our Sun’s mass. What kind of star, on average, should we expect to pop out of this star formation story?
"The answer can be found just by counting up stars of different mass. From this, we get something called the initial mass function (IMF — but not like the bank), which tells us how likely it is for star formation to produce a one solar-mass star like the Sun compared with, say, a ten solar-mass star (the kind that go supernova). Wherever the initial mass function peaks, that is going to be the true “average star” in the Universe.
"So, what’s the answer? Where does the IMF peak? Not at ten solar masses. Not at one solar mass (like the Sun). Instead, the initial mass function tops out at around one half the mass of the Sun. The most common kind of star to emerge from the star formation process is much smaller than the Sun. These stars, called “M-dwarfs,” are not just less massive; they are also smaller, with radii about half that of the Sun. They are cooler, too, with surface temperatures about 3,600° Kelvin compared to the Sun’s nearly 5600° K. Finally, they are much less bright, shining only 0.05 times as much light into space as the Sun.
"All these facts are more than mere astronomical trivia. Because these smaller stars are much more numerous, there will be more of them close to us than stars like our Sun. And since we are very interested in finding planets with life in the Universe, the commonality and nearness of these M stars means that they are the places that we will be doing most of our life-hunting. But can life form using the meager energy from such dim, cold stars?"
Comment: I've not quoted all the star-formation theory early in this article. What we see is our special planet has a special star, more evidence of fine tuning tp prepare for our arrival.
Privileged Planet: water here before Earth formed
by David Turell , Thursday, February 17, 2022, 16:20 (798 days ago) @ David Turell
Another article:
https://www.sciencealert.com/moon-rocks-may-reveal-the-true-source-of-earth-s-water-and...
"...it's commonly accepted that one potential mechanism for water delivery was bombardment from water-bearing asteroids and comets when Earth as we know it today was much younger.
"But a new analysis of rocks collected from the Moon and brought to Earth during the Apollo era suggests that this might not actually be the case.
"Rather, according to a team of researchers at Lawrence Livermore National Laboratory, the likeliest explanation is that Earth formed with its water. In other words, it was here all along.
"'Earth was either born with the water we have, or we were hit by something that was basically pure H2O, with not much else in it," explains cosmochemist Greg Brennecka of LLNL.
***
"...the Moon is a great place to study Earth's history. The Moon formed when two massive objects – one roughly the size of Mars, the other a little smaller than our own world – smacked together and reformed into blobs that would become Earth and its Moon.
***
"To understand the history of the Earth-Moon system prior to the giant impact, the team looked at three lunar samples that crystallized 4.3 to 4.35 billion years ago, examining two isotopes: volatile and radioactive isotope rubidium-87 (87Rb), and the isotope it decays into, strontium-87 (87Sr).
"The latter especially is thought to be a good proxy for understanding the long-term volatile budget of the Moon, and relative abundances of moderately volatile elements, such as rubidium, reflect the behavior of more volatile species, like water.
"Interestingly, the team's analysis revealed that there was very little 87Sr in the Earth-Moon system, even prior to the giant impact. This suggests that both proto-Earth and the impactor, Theia, were strongly depleted in volatile elements, suggesting that volatile depletion was not a result of the giant impact after all.
"This means that the different volatile distributions on Earth and the Moon were inherited from Earth and Theia, which could explain why Earth is wetter. It also suggests that both bodies probably formed in the same general region of the Solar System, rather than Theia forming farther out and migrating in, and that the impact couldn't have happened earlier than 4.45 million years ago.
***
"'There were only a few types of materials that could have combined to make the Earth and Moon, and they were not exotic," explains cosmochemist Lars Borg of LLNL.
"'They were likely both just large bodies that formed in approximately the same area that happened to run into one another a little more than 100 million years after the Solar System formed…but lucky for us, they did just that.'"
Comment: the previous article used a meteorite to propose early water and this article uses the moon, so lots of early water confirmed. The article says 'luck' and I say God.
Privileged Planet: what is the core really like?
by David Turell , Wednesday, February 23, 2022, 22:55 (792 days ago) @ David Turell
Early seismic studies bring new ideas:
https://www.livescience.com/earth-core-superionic?utm_source=SmartBrief&utm_medium=...
"Earth's inner core may be filled with a weird substance that is neither solid nor liquid, according to a new study.
"For more than half a century, scientists believed that Earth's deepest recesses consist of a molten outer core surrounding a densely compressed ball of solid iron alloy. But new research, published Feb. 9 in the journal Nature, offers a rare insight into the inner structure of the planet — and it's far weirder than previously thought.
"New computer simulations suggest that Earth's hot and highly pressurized inner core could exist in a "superionic state" — a whirling mix of hydrogen, oxygen and carbon molecules, continuously sloshing through a grid-like lattice of iron.
"We find that hydrogen, oxygen and carbon in hexagonal close-packed iron transform to a superionic state under the inner core conditions, showing high diffusion coefficients like a liquid," the researchers wrote in their paper. "This suggests that the inner core can be in a superionic state rather than a normal solid state."
"The planet's core is subject to bone-crushing pressures and scorching temperatures as hot as the surface of the sun, and its contents have long been a subject of speculation among scientists and science fiction authors alike. Since the 1950s, advances in the study of earthquake-generated seismic waves — which travel through the core — have enabled researchers to make more refined guesses as to what's inside the heart of the planet, but even today the picture is far from clear.
"A 2021 study of how a type of seismic wave called a shear (or "s") wave moved through our planet's interior revealed that Earth's inner core isn't solid iron, as was once believed, but is instead composed of various states of a "mushy" material, Live Science previously reported, consisting of an iron alloy of iron atoms and lighter elements, such as oxygen or carbon.
"Accessing the core by probe is impossible, so for the new study, the researchers turned instead to a simulation — compiling seismic data and feeding it into an advanced computer program designed to recreate the effects of the core's extreme pressures and temperatures on an assortment of likely core elements: such as iron, hydrogen, oxygen and carbon. In a regular solid, atoms arrange themselves into repeating grids, but the core simulations suggest instead that in Earth's core, atoms would be transformed into a superionic alloy — a framework of iron atoms around which the other elements, driven by powerful convection currents, are able to freely swim.
"'It is quite abnormal," study first author Yu He, a geophysicist at the Chinese Academy of Sciences, said in a statement. "The solidification of iron at the inner core boundary does not change the mobility of these light elements, and the convection of light elements is continuous in the inner core,"
"If the simulation lines up with reality, the constant swilling of the mushy superionic materials could help to explain why the inner core's structure seems to change so much over time, and even how the powerful convection currents responsible for creating Earth's magnetic field are generated. But first, the model will have to be proven."
Comment: we all know the iron makes our protective magnetic field, but what the rest means is an unknown. We know the Earth coalesced from the sun's planetary disc and its contents are well accepted, so placing these elements in the core is a reasonable supposition.
Privileged Planet: cooling a hot Hadean early Earth
by David Turell , Saturday, March 05, 2022, 14:52 (782 days ago) @ David Turell
A wild but possible theory:
https://www.sciencealert.com/weird-long-lost-rocks-could-explain-why-planet-earth-is-no...
"Early Earth is often described as 'Hadean' for good reason. Arising from the ashes of a collision that gave us our Moon, the primordial eon was characterized by hellish heat trapped beneath a thick blanket of carbon dioxide and water vapor.
"Strangely those conditions should have been inhospitable for far longer than they were. By around 4 billion years ago – following just a few hundred million years or so of cooling – our planet was already starting to look remarkably habitable.
"Any explanation of Earth's dramatic transformation would have to take into account the rapid loss of its greenhouse gases, allowing the planet to cool and its water vapor to condense into oceans.
The only problem is that this period in our planet's history left few traces of its geology behind. Scabs of crystallized mineral bobbing about on magma oceans would have long since sunk into the abyss, taking evidence of the planet's surface conditions with them.
"So any hypotheses we come up with to solve the mystery of the missing gas have to rely on mostly circumstantial forms of evidence.
"Two researchers from Yale University recently ran the numbers on a rather speculative scenario involving 'weird' rocks that no longer exist on Earth's surface, soaking up all that CO2. And the idea seems to check out.
"'Somehow, a massive amount of atmospheric carbon had to be removed," says planetary scientist Yoshinori Miyazaki, who is now working at the California Institute of Technology.
"'Because there is no rock record preserved from the early Earth, we set out to build a theoretical model for the very early Earth from scratch."
***
"Amid the scant bits of mineral evidence we do have from the Hadean are signs that it already harbored oceans after just a few hundred million years of cooling.
"By the eon's end around 4 billion years ago, the carbon cycle seems to have stabilized temperatures to the point life could exist rather happily.
"One possibility is that the carbon in the atmosphere could have dissolved into the oceans, transforming into solid carbonates, which could have sunk and become embedded in the mantle's currents.
"It's a nice idea, but to even give it half a thought it pays to know if the numbers add up.
***
"The results suggest it could … if a certain kind of rock was exposed on our planet's surface.
"'These rocks would have been enriched in a mineral called pyroxene, and they likely had a dark greenish color," says Miyazaki.
"'More importantly, they were extremely enriched in magnesium, with a concentration level seldom observed in present-day rocks."
"A rapidly churning crust of wet, molten rock packed with pyroxene could account for a rapid loss of all that carbon dioxide in a stabilizing process that would take millions, rather than billions of years.
"And then, following a cooling that gave us a regenerating crust consisting of a handful of slowly moving plates, all of that magnesium-rich rock would be left far beneath our feet.
"As the crust rapidly turned over, water-logged minerals would have quickly dehydrated, filling the oceans to levels we see today.
"The scenario is an intriguing one, not least because such a phenomenon would have helped kick-start life in other ways.
"'As an added bonus, these 'weird' rocks on the early Earth would readily react with seawater to generate a large flux of hydrogen, which is widely believed to be essential for the creation of biomolecules," says Korenaga.
"It's the kind of science that's just begging for hard evidence, which lies buried both deep in time and far under the surface.
"No doubt Earth's 'hellish' period will keep its mysteries a little longer. But bit by bit we're coming to an understanding of why our planet became the paradise we see today. (my bold)
Comment: a huge number of contingencies, suggesting either luck or design. Take your pick.
Privileged Planet: cycling early life
by David Turell , Thursday, March 10, 2022, 14:46 (777 days ago) @ David Turell
Where Cambrian corpses went and more:
https://www.sciencealert.com/the-first-explosion-of-life-on-earth-left-traces-deep-unde...
"The Cambrian Explosion – around 541 million years ago – was when life and organisms really got going on planet Earth. Now new research has revealed how that explosion of life has left behind traces deep within Earth's mantle.
***
"The new study looked at rare, diamond-filled volcanic rocks called kimberlites. When they're pushed up to the surface, they tell us what's happening deep in the mantle, and researchers measured the carbon composition in 144 samples taken from 60 locations around the world.
"A prevailing view among geologists is that carbon trapped inside diamonds doesn't vary considerably over grand timescales of hundreds of millions of years.
"Yet here the researchers found a shift in the ratio of specific carbon isotopes around 250 million years ago, about the time that sediment from the Cambrian Explosion would've been folded into the mantle. It's a shift potentially caused by the immense changes in the carbon cycle during a time when the biosphere was increasing in mass and diversity.
"'These observations demonstrate that biogeochemical processes at Earth's surface have a profound influence on the deep mantle, revealing an integral link between the deep and shallow carbon cycles," write the researchers.
"This link between the cycling of carbon close to the surface and deeper underground hasn't been easy to measure – and indeed it has changed significantly throughout the billions of years that Earth has been around, rather than staying fixed.
"It does seem clear though that dead creatures trapped in sediment found their way into the mantle through plate tectonics. Their carbon remains mixed with other material before eventually reaching the surface again through events like volcanic eruptions.
"The link was confirmed by further observations of strontium and hafnium in the samples. They matched the carbon pattern, narrowing down the number of possibilities for how these rock compositions were altered.
"'This means that the signature for carbon cannot be explained by other processes such as degassing, because otherwise the isotopes of strontium and hafnium would not be correlated with those of carbon," says geochemist Andrea Giuliani from ETH Zurich in Switzerland.
"Technically, what we're dealing with here is sedimentary subduction flux, and these carbon cycle details are important in terms of being aware of what's happening on our planet – especially as the effects of the climate crisis continue to be felt.
"New studies continue to reveal more about how carbon is taken from and released back into the atmosphere, especially through the continuous recycling of the tectonic plates that make up the surface of the planet.
"Scientists know that relatively speaking, only small amounts of sediment ever get pushed deep into the mantle through subduction zones, which means that traces of the Cambrian Explosion must have taken a direct route to the depths of the mantle.
"'This confirms that the subducted rock material in Earth's mantle is not distributed homogeneously, but moves along specific trajectories," says Giuliani.
"'Earth is really a complex overall system. And we now want to understand this system in more detail.'"
Comment: our Earth is still evolving as this carbon cycle shows.
Privileged Planet: another oxygenation theory
by David Turell , Monday, March 14, 2022, 18:47 (773 days ago) @ David Turell
A look at ocean floor possibilities:
https://www.sciencedaily.com/releases/2022/03/220314095704.htm
"For the first 2 billion years of Earth's history, there was barely any oxygen in the air. While some microbes were photosynthesizing by the latter part of this period, oxygen had not yet accumulated at levels that would impact the global biosphere.
"But somewhere around 2.3 billion years ago, this stable, low-oxygen equilibrium shifted, and oxygen began building up in the atmosphere, eventually reaching the life-sustaining levels we breathe today. This rapid infusion is known as the Great Oxygenation Event, or GOE. What triggered the event and pulled the planet out of its low-oxygen funk is one of the great mysteries of science.
"A new hypothesis, proposed by MIT scientists, suggests that oxygen finally started accumulating in the atmosphere thanks to interactions between certain marine microbes and minerals in ocean sediments. These interactions helped prevent oxygen from being consumed, setting off a self-amplifying process where more and more oxygen was made available to accumulate in the atmosphere.
***
"the team searched through the scientific literature and identified a group of microbes that partially oxidizes organic matter in the deep ocean today. These microbes belong to the bacterial group SAR202, and their partial oxidation is carried out through an enzyme, Baeyer-Villiger monooxygenase, or BVMO.
"The team carried out a phylogenetic analysis to see how far back the microbe, and the gene for the enzyme, could be traced. They found that the bacteria did indeed have ancestors dating back before the GOE, and that the gene for the enzyme could be traced across various microbial species, as far back as pre-GOE times.
"What's more, they found that the gene's diversification, or the number of species that acquired the gene, increased significantly during times when the atmosphere experienced spikes in oxygenation, including once during the GOE's Paleoproterozoic, and again in the Neoproterozoic.
"'We found some temporal correlations between diversification of POOM-producing genes, and the oxygen levels in the atmosphere," Shang says. "That supports our overall theory."
"To confirm this hypothesis will require far more follow-up, from experiments in the lab to surveys in the field, and everything in between. With their new study, the team has introduced a new suspect in the age-old case of what oxygenated Earth's atmosphere.
"'Proposing a novel method, and showing evidence for its plausibility, is the first but important step," Fournier says. "We've identified this as a theory worthy of study.'"
Comment: Well, it happened, but we are left with a wait-and-see attitude about adding a new plausible theory to a proof.
Privileged Planet: in a unique solar system
by David Turell , Tuesday, March 15, 2022, 14:54 (772 days ago) @ David Turell
Our solar system is like no other:
https://www.realclearscience.com/blog/2022/03/14/four_reasons_why_our_solar_system_is_r...
"To us, our solar system, situated in the suburbs of the Milky Way, seems normal, almost mundane. It's home after all, the only one we've ever known. But when astronomers began gazing earnestly at our stellar neighbors a few decades ago, they soon realized that, in many respects, our solar system contrasted sharply with others out there. In fact, it's downright strange. Here are four reasons why.
"1. Lots of Planets. Eight planets might not seem like much. One could number them off on two hands. But based on astronomers' observations thus far, such a count seems exceedingly rare. "Only one other known system, Kepler-90, contains as many planets as the solar system, according to The Extrasolar Planets Encyclopaedia," Harry Baker wrote for Space.com. Researchers at the Niels Bohr Institute estimated that only 1% of all solar systems in the Milky Way have the same number of planets as our solar system or more.
"2. Only One Sun. While the solar system is brimming with planets, it only has one lonely sun. More than half of all known stars exist in multiple-sun systems, so our sun is slightly out of the ordinary in this respect.
"3. Yellow Dwarf in the System. Our sun is what's called a G-type main-sequence star, more commonly known as a yellow dwarf. Each second, it fuses approximately 600 million tons of hydrogen into helium, sending out life-sustaining energy in the process. And it will continue to do so for another 5.4 billion years. The vast majority of stars, however are much smaller and cooler red dwarfs. About 85% of all stars in the Milky Way are red dwarfs.
"4. What's Up With Jupiter? Jupiter is the juggernaut of our solar system, with a mass more than two and a half times that of all the other planets combined. The simple fact that our solar system hosts a gas giant of this size sets us apart, says astrophysicist Sean Raymond. Just 10-15% of Sun-like stars have one. Moreover, he writes, most gas giants in other solar systems have tight, eccentric orbits around their stars, while Jupiter's is wide and nearly circular. "Only about one in a hundred stars like the Sun has a Jupiter like ours," he wrote.
"So feel free to revel in our weirdness, Pat Brennan wrote for NASA, as we have yet to spot a solar system quite like ours. But keep in mind that this may be biased by the ways we're looking."
Comment: Seems like 'finetuning' can be applied to our solar system
Privileged Planet: rare as an icy planet
by David Turell , Friday, March 18, 2022, 15:30 (769 days ago) @ David Turell
New computer simulation research:
https://astronomy.com/news/2022/03/icy-earth-like-worlds-may-be-rare?utm_source=acs&...
"How many of these planets boast a climate like our own, with two poles covered in ice and a relatively ice-free middle?
"To find out, a team of researchers from the University of Washington and the University of Bern computationally modeled hundreds of thousands of hypothetical exoplanets. They discovered that our fortunate ice situation isn’t that common, and is due mostly to Earth’s relatively moderate axial tilt.
***
"Wilhelm and her co-authors created a model that examined hypothetical exoplanets orbiting their stars at distances habitable for humans. They ran this model using three types of stars: G-types, like our Sun, and F- and K-types, which are relatively similar in size and heat to our Sun.
"For each exoplanet, the researchers varied factors such as its axial tilt (planets with a large axial tilt tend to wobble more, for example), the shape of its orbit, its mass, and the size and heat of its star. Altogether, they created about 270,000 variations based on these possible combinations and each encompassed a 1-million-year-long timespan.
"They found that about 90 percent of the planets orbiting within their star’s habitable zone would be ice-free.
“'The length of the seasons turned out to be the primary factor,” says Rory Barnes, an astronomer at the Virtual Planetary Laboratory and a co-author on the study. The longer the year, for example, the more ice is melted during the summer. Shorter seasons seemed to help ice persist throughout the year.
"If an Earth-like exoplanet was icy, the researchers found it was twice as likely to have an ice belt around its equator than it was to have its poles covered in ice, like on Earth. “We found that ice belts were a lot more common than we thought, but it depends on the spectrum of the star,” Wilhelm says, adding that these belts occurred most often around G- and K-type stars.
"This occurred more often when the axial tilt was more than that of Earth’s 23.5 degrees — a relatively moderate tilt. This is likely because the tilt creates seasonal extremes that make polar climates more variable than equatorial regions, Wilhelm says.
"Barnes says that these ice belts are likely more common in exoplanets in the habitable zone due to the process of planet formation. The initial axial tilt of many planets when they form are closer to 90 degrees, he says, so the low tilt of our own planet is comparatively rare: “The Earth does have some unique properties which are potentially relevant for why life arose here.”
***
"Ice caps like those on Earth only showed up in 3 to 4 percent of cases, the researchers report. These mostly occurred when the axial tilt was equal to or less than that of Earth, and around F-type stars were three times more common than ice belts.
"Just the same, Earth’s current polar ice caps haven’t always been characteristic of our planet. The fact that we have ice caps at all now seems like a bit of an anomaly, Barnes say. He notes that they didn’t look at carbon dioxide cycling between the atmosphere and the interior of the planet as part of their models — something that might explain this.
"When you look at the model more closely, “it turns out that for most of the past several hundred million years, the Earth has not had polar caps,” he says. “So in that sense … we happen to be living in this time period where we do have polar caps.”
"This finding wasn’t expected, Barnes says. But overall, their models reveal the kinds of things astronomers might expect to encounter on real Earth-like planets as we build more powerful telescopes."
Comment: as usual we seem like an odd ball. Computer simulations don't produce fact but probabilities. It appears our ice caps are not necessary for life here.
Privileged Planet: Milky Way found to be much older
by David Turell , Wednesday, March 23, 2022, 21:14 (764 days ago) @ David Turell
New study adds to its age with an earlier start:
https://phys.org/news/2022-03-gaia-mission-milky-older.html
"Using data from ESA's Gaia mission, astronomers have shown that a part of the Milky Way known as the 'thick disc' began forming 13 billion years ago, around 2 billion years earlier than expected, and just 0.8 billion years after the Big Bang. (my Bold)
***
"They chose to look at sub giant stars. In these stars, energy has stopped being generated in the star's core and has moved into a shell around the core. The star itself is transforming into a red giant star. Because the sub giant phase is a relatively brief evolutionary phase in a star's life, it permits its age to be determined with great accuracy, but it's still a tricky calculation.
***
"Together, the brightness and metallicity allow astronomers to extract the star's age from the computer models. Before Gaia, astronomers were routinely working with uncertainties of 20-40 percent, which could result in the determined ages being imprecise by a billion years or more.
"Gaia's EDR3 data release changes this. "With Gaia's brightness data, we are able to determine the age of a sub giant star to a few percent," says Maosheng. Armed with precise ages for a quarter of a million sub giant stars spread throughout the galaxy, Maosheng and Hans-Walter began the analysis.
***
"Our galaxy is made of different components. Broadly, these can be split into the halo and the disc. The halo is the spherical region surrounding the disc, and has traditionally been thought to be the oldest component of the galaxy. The disc is composed of two parts: the thin disc and the thick disc. The thin disc contains most of the stars that we see as the misty band of light in the night sky that we call the Milky Way. The thick disc is more than double the height of the thin disc but smaller in radius, containing only a few percent of the Milky Way's stars in the solar neighborhood.
"By identifying sub giant stars in these different regions, the researchers were able to build a timeline of the Milky Way's formation—and that's when they got a surprise.
***
"The stellar ages clearly revealed that the formation of the Milky Way fell into two distinct phases. In the first phase, starting just 0.8 billion years after the Big Bang, the thick disc began forming stars. The inner parts of the halo may also have begun to come together at this stage, but the process rapidly accelerated to completion about two billion years later when a dwarf galaxy known as Gaia-Sausage-Enceladus merged with the Milky Way. It filled the halo with stars and, as clearly revealed by the new work, triggered the nascent thick disc to form the majority of its stars. The thin disc of stars which holds the Sun, was formed during the subsequent, second phase of the galaxy's formation.
"The analysis also shows that after the star-forming burst triggered by the merger with Gaia-Sausage-Enceladus, the thick disc continued to form stars until the gas was used up at around 6 billion years after the Big Bang. During this time, the metallicity of the thick disk grew by more than a factor of 10. But remarkably, the researchers see a very tight stellar age—metallicity relation, which indicates that throughout that period, the gas forming the stars was well-mixed across the whole disk. This implies that the early Milky Way's disk regions must have been formed from highly turbulent gas that effectively spread the metals far and wide."
Comment: think about God's approach: first a Big Bang to make a universe and quickly a proper galaxy to house our privileged planet. Quickly establishing what He intended. That other god that appears here, has to experiment, changes his mind, changes course. likes to be entertained by free-for-alls, and generally thinks about creating just for his own enjoyment. Which God do you think is most reasonable to envision?
Privileged Planet: important inner core
by David Turell , Friday, April 01, 2022, 15:31 (755 days ago) @ David Turell
The iron core current movements make the vital magnetic field:
https://www.sciencemagazinedigital.org/sciencemagazine/01_april_2022/MobilePagedArticle...
"Earth’s magnetic field, nearly as old as the planet itself, protects life from damaging space radiation. But 565 million years ago, the field was sputtering, dropping to 10% of today’s strength, according to a recent discovery. Then, almost miraculously, over the course of just a few tens of millions of years, it regained its strength—just in time for the sudden profusion of complex multicellular life known as the Cambrian explosion.
"What could have caused the rapid revival? Increasingly, scientists believe it was the birth of Earth’s inner core, a sphere of solid iron that sits within the molten outer core, where churning metal generates the planet’s magnetic field. Once the inner core was born, possibly 4 billion years after the planet itself, its treelike growth—accreting a few millimeters per year at its surface—would have turbocharged motions in the outer core, reviving the faltering magnetic field and renewing the protective shield for life. “The inner core regenerated Earth’s magnetic field at a really interesting time in evolution,” says John Tarduno, a geophysicist at the University of Rochester. “What would have happened if it didn’t form?”
"Just why and how the inner core was born at that moment is one of many lingering puzzles about the Pluto-size orb 5000 kilo meters underfoot. “The inner core is a planet within a planet,” says Hrvoje Tkalčic´, a seismologist at Australian National University (ANU)—with its own topography, its own spin rate, its own structure. “It’s beneath our feet and yet we still don’t understand some big questions,” Tkalčic´ says.
***
"ALL THIS COMPLEXITY appears to be geologically recent. Scientists once placed the inner core’s birth back near the planet’s formation. But a decade ago, researchers found, using diamond anvils at outer core conditions, that iron conducts heat at least twice as fast as previously thought. Cooling drives the growth of the inner core, so the rapid heat loss combined with the inner core’s current size meant it was unlikely to have formed more than 1 billion years ago, and more than likely came even later. “There’s no way around a relatively recent appearance of the inner core,” says Bruce Buffett, a geodynamicist at UC Berkeley.
"Tarduno realized rocks from the time might record the dramatic magnetic field changes expected at the inner core’s birth. Until recently, the paleomagnetic data from 600 million to 1 billion years ago were sparse. So Tarduno went searching for rocks of the right age containing tiny, needle-shaped crystals of the mineral titanomagnetite, which record the magnetic field’s strength at the time of their crystallization. In a 565-million-year-old volcanic formation on the north bank of the St. Lawrence River in Quebec, his team found the crystals—and convincing evidence that the magnetic field of the time was one-tenth the present day strength, they reported in 2019. The fragility of the field at the time has since been confirmed by multiple studies.
"It was probably a sign that rapid heat loss from the outer core was weakening the convective motions that generate the magnetic field, says Peter Driscoll, a geodynamicist at the Carnegie Institution for Science. “The dynamo could have been close to dying,” he says. Its death could have left Earth’s developing life—which mostly lived in the ocean as microbes and protojellyfish—exposed to far more radiation from solar flares. In Earth’s atmosphere, where oxygen levels were rising, the increased radiation could have ionized some of this oxygen, allowing it to escape to space and depleting a valuable resource for life, Tarduno says. “The potential for loss was gaining.”
"Just 30 million years later, the tide had turned in favor of life. Tarduno’s team went to quarries and roadcuts in the Wichita Mountains of Oklahoma and harvested 532-million-year-old volcanic rocks. After analyzing the field strength frozen in the tiny magnetic needles, they found that its intensity had already jumped to 70% of present values, they reported at the AGU meeting. “That kind of nails it now,” Tarduno says. He credits the growth of the inner core for the field jump, which he says is “the true signature of inner core nucleation.”
"Around the same time, life experienced its own revolution: the Cambrian explosion, the rapid diversification of life that gave rise to most animal groups and eventually led to the first land animals, protomillipedes that ventured onto land some 425 million years ago.
"It just may be that the clement world they found owes much to the inner iron planet we’ll never see, 5000 kilometers below."
Comment: our lives and all of previous life depends on that iron core properly producing the protective magnetic field. Why did the sudden potential loss get turned around? Serendipity? Perhaps the designer stepped in. So much required contingency by chance? And note the field strengthened right in time for the Cambrian Explosion. Another lucky coincidence? The one skipped area is all of the supporting research studies, and may not download for use without my subscription.
Privileged Planet: our solar system rare
by David Turell , Thursday, April 21, 2022, 19:34 (735 days ago) @ David Turell
Now that we see other systems, we can analyze the differences:
https://salvomag.com/article/salvo60/sun-in-a-million
"Thanks to the discovery of several hundred rocky exoplanets (planets outside our solar system), we can now observe just how unusual Earth and its rocky neighbors must be—especially when we see the great distance at which they orbit the Sun. Of the 169 detected and confirmed rocky planets orbiting nuclear burning stars (other than the Sun), all orbit closely. More than 90 percent orbit their host stars 10 times more closely than Earth orbits the Sun.
"Given how closely these rocky exoplanets orbit their stars, astronomers anticipated they would be significantly denser than our solar system's rocky planets. After all, their light elements would have been vaporized by the heat in proximity to their star. Surprisingly, they are less dense, on average, than all rocky planets in our neighborhood, at only 4.472 grams/cubic centimeter.4 By comparison, Mercury, Venus, and Earth possess an average density of 5.395 grams/cubic centimeter. Clearly, our solar system's rocky planets depart from those observed in exoplanetary systems. The big question is, why?
"To begin answering that question, we must start with the Sun. Astronomers observe that its relative abundance of elements is unlike that of any other known star. Multiple studies establish a correlation between the Sun's unique abundance of elements and its unique configuration of rocky planets.
"One research team compared elemental abundances of 21 stars most closely resembling the Sun. They found that the Sun has a 20 percent lower ratio of refractory elements (those with high boiling points) to volatile elements (those with low boiling points). A follow-up study of 79 Sun-like stars affirmed this finding.
"Analysis of primitive solar system meteorites tells us that lithium was relatively abundant in the gas cloud out of which the Sun and its planets formed. Yet the amount of lithium on the Sun's surface today is far below that of the primordial solar system—roughly 170 times below. Given the Sun's relative youth—just 4.567 billion years old—this finding is shockingly unexpected and yet essential for life's existence.
***
"What do these atypical features tell us? The Sun's anomalous elemental composition, together with its mass and age, serves to keep the Sun's flaring activity at an extremely—and uniquely—low level.10 These solar features also help account for the Sun's exceptionally low levels of short ultraviolet and x-ray radiation, at present. If not for these extremely low levels and intensities of flares and short ultraviolet and x-ray radiation, global high-technology civilization on our planet would be impossible.
***
"The early collision between proto-Earth and the Sun's fifth rocky planet, Theia, guaranteed that Earth would gain enough mass and density and lose enough gas and water to become a potential home for advanced life. This early collision also produced a large Moon, which played a key role in preventing Earth from losing all its atmosphere and hydrosphere.
"Meanwhile, Earth's orbital distance from the Sun is barely sufficient to prevent Earth from becoming tidally locked to the Sun and, thus, ending up with a long rotation rate like that of Mercury or Venus. Earth's companion rocky planets also play important roles in stabilizing the orbital architecture of Earth as well as those of all the other solar system planets, including the gas giants.
"These discoveries of the Sun's anomalous elements and rocky planets add to the weight of evidence for the rarity of Earth, the Sun, and our planetary system. This multiplied rarity adds significant weight to the case for divine intervention in the formation of a habitat for humans and for global, advanced civilization to thrive, at least for a time, here on Earth. "
Comment: no point adding to Hugh Ross' closing just above.
Privileged Planet: comparing suns
by David Turell , Friday, April 22, 2022, 18:39 (734 days ago) @ David Turell
Our is best so far, examining other planetary systems:
https://www.sciencenews.org/article/orange-dwarf-stars-radiation-goldilocks-habitable-p...
"If you’re an aspiring life-form, you might want to steer clear of planets around orange dwarf stars.
"Some astronomers have called these orange suns “Goldilocks stars” (SN: 11/18/09). They are dimmer and age more slowly than yellow sunlike stars, thus offering an orbiting planet a more stable climate. But they are brighter and age faster than red dwarfs, which often spew large flares. However, new observations show that orange dwarfs emit lots of ultraviolet light long after birth, potentially endangering planetary atmospheres, researchers report in a paper submitted March 29 at arXiv.org.
***
"As yellow sunlike stars age, they spin more slowly, causing them to be less active and emit less UV radiation. But for orange dwarfs, this steady spin-down stalls when the stars are roughly a billion years old, astronomer Jason Lee Curtis at Columbia University and colleagues reported in 2019.
“'[Orange] stars are just much more active for a longer time than we thought they were,” Richey-Yowell says. That means these possibly not-so-Goldilocks stars probably maintain high levels of UV light for more than a billion years.
"And that puts any potential life-forms inhabiting orbiting planets on notice. Far-ultraviolet light — whose photons, or particles of light, have much more energy than the UV photons that give you vitamin D — tears molecules in a planet’s atmosphere apart. That leaves behind individual atoms and electrically charged atoms and groups of atoms known as ions. Then the star’s wind — its outflow of particles — can carry the ions away, stripping the planet of its air.
"But not all hope is lost for aspiring life-forms that have an orange dwarf sun. Prolonged exposure to far-ultraviolet light can stress planets but doesn’t necessarily doom them to be barren, says Ed Guinan, an astronomer at Villanova University in Pennsylvania who was not involved in the new work. “As long as the planet has a strong magnetic field, you’re more or less OK,” he says.
"Though far-ultraviolet light splits water and other molecules in a planet’s atmosphere, the star’s wind can’t remove the resulting ions if a magnetic field as strong as Earth’s protects them. “That’s why the Earth survived” as a life-bearing world, Guinan says. In contrast, Venus might never have had a magnetic field, and Mars lost its magnetic field early on and most of its air soon after.
“'If the planet doesn’t have a magnetic field or has a weak one,” Guinan says, “the game is over.'”
Comment: more proof of our uniqueness. Our magnetic field is just right for u-v protection. In view of dhw's weird take on the universe's size question of 'why so big' if only a proper life-supporting Earth was needed, my answer is don't second guess God with your tiny human brain. God knows exactly what is needed to create what He wants/needs to create.
Privileged Planet: early crust activity
by David Turell , Saturday, April 23, 2022, 20:36 (733 days ago) @ David Turell
Using ancient zircons:
https://www.sciencealert.com/the-oldest-geochemical-evidence-of-plate-tectonics-on-eart...
"Tiny crystals of zircon dated to 3.8 billion years ago contain the earliest geochemical evidence yet for plate tectonic activity here on Earth.
"Isotopes and trace elements preserved in the crystals show evidence that they formed under subduction conditions – when the edge of one tectonic plate slips beneath the edge of the adjacent plate, creating specific conditions. This provides new constraints on when plate tectonics emerged on Earth.
***
"Understanding the geology of early Earth is something of a challenge. The crust of our world has been pretty dynamic over its 4.6-billion-year history, and the only direct record of the Hadean eon – between 4.6 and 4 billion years ago – can be found in crystals of the mineral zircon.
"These crystals seem to survive the ravages of time but rarely: just 12 locations on Earth have yielded the ancient grains, three or fewer in most locations.
"Recently, however, a team of geologists unearthed an amazing treasure. A chronological series of 33 microscopic zircon crystals, dating from 4.15 to 3.3 billion years ago, was found in an ancient block of Earth's crust found in the Barberton Greenstone Belt in South Africa.
"The series provided a rare opportunity to probe the changing conditions of early Earth, from the Hadean through the Eoarchaeon era, which ran from 4 to 3.6 billion years ago.
***
"A team of scientists led by geologist Nadja Drabon of Harvard University studied the Greenstone Belt zircons to reconstruct a timeline of the conditions under which they formed. They found that from about 3.8 billion years ago onwards, the crystals had hafnium and trace element signatures similar to modern rocks formed in subduction zones – at the edges of tectonic plates.
"This suggests that plate tectonics were active at the time those crystals formed, the researchers said.
"'When I say plate tectonics, I'm specifically referring to an arc setting, when one plate goes under another and you have all that volcanism – think of the Andes, for example, and the Ring of Fire," Drabon said.
"At 3.8 billion years [ago] there is a dramatic shift where the crust is destabilized, we have new rocks forming and we see geochemical signatures becoming more and more similar to what we see in modern plate tectonics."
"Fascinatingly, zircon crystals older than that 3.8 billion-year cut-off were not formed in a subduction zone setting, but likely crystallized in a Hadean "protocrust" that formed from remelted mantle material, before the mantle was depleted of basaltic melt elements by tectonic processes.
"The team then compared their findings to zircon crystals dating to around the same time from around the world to make sure they weren't just observing a localized phenomenon. These other zircons showed similar transitions.
"It's difficult to know exactly if the tiny grains all point to the evolution of our world towards plate tectonics, but the results definitely suggest that a global change was occurring.
"'We see evidence for a significant change on the Earth around 3.8 to 3.6 billion years ago and evolution toward plate tectonics is one clear possibility," Drabon said.
"'The record we have for the earliest Earth is really limited, but just seeing a similar transition in so many different places makes it really feasible that it might have been a global change in crustal processes. Some kind of reorganization was happening on Earth.'"
Comment: all that early plate tectonics led to an Earth prepared for allowing life. And that life started about 3.6-3.8 bya. Note how God uses evolutionary processes to achieve His goals.
Privileged Planet: giant internal magnetic waves found
by David Turell , Wednesday, May 25, 2022, 13:52 (701 days ago) @ David Turell
Another part of our magnetic protective shield:
https://www.sciencealert.com/giant-magnetic-waves-have-been-discovered-oscillating-arou...
"scientists studying satellite data of Earth have identified something inside Earth we've never seen before: a new type of magnetic wave that sweeps around the surface of our planet's core, every seven years.
"This discovery could offer insight into how Earth's magnetic field is generated, and provide clues of our planet's thermal history and evolution – that is, the gradual cooling of the planetary interior.
***
"'We combined satellite measurements from Swarm, and also from the earlier German Champ mission and Danish Ørsted mission, with a computer model of the geodynamo to explain what the ground-based data had thrown up – and this led to our discovery."
"Earth's magnetic field is the subject of much fascination for scientists. Research to date suggests that the invisible structure forms a protective 'bubble' around our planet, keeping harmful radiation out and the atmosphere in, thus allowing life to thrive.
"But the magnetic field isn't static. It fluctuates in strength, size, and shape, has features we don't understand, and is gradually weakening over time.
"The reason that activity inside our planet is important is because that's where the magnetic field comes from. It's generated by a dynamo – a rotating, convecting, and electrically conducting fluid that converts kinetic energy into magnetic energy, spinning a magnetic field out into space around the planet.
"That fluid is (mostly) the molten iron inside Earth's outer core.
***
"These waves, known as magneto-Coriolis waves, are huge magnetic columns aligned along Earth's rotational axis, strongest at the equator.
"They sweep around the boundary between the core and the mantle with an amplitude of around 3 kilometers (1.86 miles) per year, and move westward at a rate of up to 1,500 kilometers (932 miles) per year.
"'Their existence suggests that other magneto-Coriolis waves might exist with different oscillation periods, which we are unable to detect to date, due to a lack of data.
"'Magnetic waves are likely to be triggered by disturbances deep within the Earth's fluid core, possibly related to buoyancy plumes," Gillet says.
"'Our research suggests that other such waves are likely to exist, probably with longer periods – but their discovery relies on more research.'"
Comment: the magnetic field is our important protection from nasty rays outside Earth, that would kill all life
Privileged Planet: the important evolution of mud
by David Turell , Monday, June 20, 2022, 05:04 (675 days ago) @ David Turell
Involved with the appearnce of plants on land:
https://knowablemagazine.org/article/living-world/2020/origin-mud?utm_source=email&...
"Magnify this effect globally, and the impacts would have been substantial — not just on coastal life but on the landscape of the entire planet. Before plants, rivers would have stripped continents of silt and clay — key constituents of mud — and sent these sediments to the seafloor. This would have left continents full of barren rock, and seas with smothered fish.
"Once plants arrived on land, things began to change. Mud clung to vegetation along riverbanks and stuck around rather than shuttling straight to the seafloor. Davies, now at the UK’s University of Cambridge, and his colleagues have found that the expansion of land plants between about 458 million and 359 million years ago coincides with a more than tenfold increase in mud on land — and a significant shift in the ways that rivers flowed. The arrival of first plants and then mud “fundamentally changed the way the world operates,” he says.
"Life evolved tools to cope with the new muckiness and new river shapes, resulting in a diversification of life and landscapes that persists to this day. Plants are responsible for much of this change, but mud contributed too, by adding a cohesiveness to the continents — unlike sand, wet mud sticks together.
***
"Before plants arrived on land, mud was around — it was just mostly sent to the seafloor by rivers. Once plants showed up, they not only held sediments in place but their roots also physically broke down rock and released chemicals that further crumbled it. In these ways, plants accelerated what geologists refer to as the “continental mud factory.”
***
'Those gravelly Alaskan rivers have many channels that braid across sand banks, continually slumping and forming more channels as they periodically overflow — like rivulets at the edge of a beach. Without anything anchoring these riverbanks in place, they continuously collapse to form new channels. But the arrival of plants kept that erosion at bay — and mud added to the riverbanks’ cohesion — so rivers were less likely to slump into these braided forms. Instead, they developed a single channel that meandered through the landscape in a cohesive “S” shape, like parts of the Mississippi and Amazon rivers do today. In this sense, the arrival of plants “is one of the best natural experiments in landscapes that has ever happened on Earth,” Perron says.
***
"To get through mud, an animal such as a worm creates cracks to shuffle through by contracting its body, extending it, squeezing water out of the way and moving forward. This is mechanically different from traveling through sand, which requires an animal to excavate material out of the way, Shillito says. So early land worms and insects would have had to evolve body parts equipped to deal with muckier movements.
"And those movements, in turn, could have helped shape the mud itself, says Lidya Tarhan, a paleobiologist at Yale University. “The act of digging and excavating those burrows and keeping them clear can move around sediments and change the distribution of sediments and also affect the chemistry,” she says. For example, some invertebrates ingest sediments to extract nutrition, and chemical reactions in their guts can form fine particles that come out in their feces as mud.
***
"Modern rivers that people have deforested show how the absence of vegetation can destabilize riverbanks and cause them to become less cohesive. Along California’s Sacramento River, for example, areas that farmers cleared for cropland are far more susceptible to erosion than areas that remain forested. Conservationists have worked to stabilize the river by planting more than a million seedlings along its banks.
"Understanding the interplay of plants and mud in river flow can inform efforts to restore eroding rivers back to a more stable state. “If you don’t understand what’s driving the river into one state or another, it’s hard to do that well,” says Paola, who coauthored an article about restoring river deltas in the 2011 Annual Review of Marine Science. And since so much of life revolves around rivers today, it’s important to do that well.
"But this has always been true. Life has always congregated around rivers, from the very first emergence of plants and animals onto land. That’s why the early accumulations of mud alongside rivers — and how mud influenced their flow — is nothing to throw dirt on."
Comment: what is key to understanding this evolved process on Earth, is that this is the way God works. Everything is evolved from a beginning: the universe from the Big Bang, the Earth from its beginining, and life from its beginning. dhw has never understood this pattern in God's works, and complains about how God evolved humans, instead of direct creation.
Privileged Planet: the role of iron
by David Turell , Monday, June 20, 2022, 15:53 (675 days ago) @ David Turell
A large role in climate:
https://knowablemagazine.org/article/physical-world/2019/ocean-iron-fertilization?utm_s...
"Proposed in 1990 by the late oceanographer John Martin, the hypothesis suggests that flurries of dust — swept from cold, dry landscapes played a crucial role in the last major ice age. When this dust landed in the iron-starved Southern Ocean, Martin argued, the iron within it would have fertilized massive blooms of diatoms and other phytoplankton. Single-celled algae with intricate silica shells, diatoms photosynthesize, pulling carbon from the atmosphere and transforming it to sugar to fuel their growth. Going a step further, Martin proposed that using iron to trigger diatom blooms might help combat global warming.
***
"Although it’s now well-established that an uptick in iron fertilization occurred in the Southern Ocean during the last major ice age, for example, scientists still argue about how much it reduced carbon dioxide levels in the atmosphere. And while Martin’s hypothesis inspired 13 large iron fertilization experiments that boosted algae growth, only two demonstrated removal of carbon to the deep sea; the others were ambiguous or failed to show an impact, says Ken Buesseler, a marine radiochemist at the Woods Hole Oceanographic Institution in Massachusetts.
***
"Three billion years ago the ocean was chock-full of iron, ancient mineral deposits show. Iron was plentiful when life first evolved, and the metal was incorporated into a long list of essential cellular functions. Animals need iron to transport oxygen in their blood and to break down sugar and other nutrients for energy. Plants need iron to transfer electrons during photosynthesis and to make chlorophyll. Phytoplankton need it to “fix” nitrogen into a usable form.
"Despite being the fourth most abundant element in the Earth’s crust, iron is vanishingly scarce in the modern ocean. It started disappearing from the seas more than 2.4 billion years ago, when cyanobacteria evolved and started to breathe in carbon dioxide and exhale oxygen. When this happened, dissolved iron rapidly linked up with the newly plentiful oxygen atoms, forming iron oxides such as hematite, a common mineral that contains a form of the element known as iron(III). Most phytoplankton and other living organisms can’t use iron in this state. They require a different form, iron(II), which more readily dissolves and is absorbed by cells.
"Hematite has another downside: It sinks. Over billions of years, layer upon layer fell to the sea floor, forming iron ore deposits hundreds to thousands of feet deep. Meanwhile, iron in the waters above diminished to barely detectable levels — an average liter of seawater contains roughly 35 grams of salt, but only on the order of a billionth of a gram of iron.
***
"Winds blowing off the Sahara are one of the most important sources of iron dust in the ocean, supplying more than 70 percent of dissolved iron to the Atlantic, another group has found. But there are several other paths by which iron(II) makes its way to the oceans, including rivers, hydrothermal vents, volcanoes and glacial outwash plains
***
"Shoenfelt Troein fed the iron(II)–rich, glacial sediment to a common species of diatom, Phaeodactylum tricornutum, and the diatoms reproduced 2.5 times as fast as they did on weathered sediment, the team reported in Science Advances in 2017. This would translate into a roughly fivefold increase in carbon uptake compared with the non-glacial sediment, the team calculated.
"When the team looked at marine sediment cores from several glacial and interglacial periods spanning 140,000 years, Winckler, Shoenfelt Troein and colleagues found that dust from the glacial periods contained 15 to 20 times more iron(II) than did dust from the current interglacial period. That suggests that the potency of glacial sediment led to a self-reinforcing cycle, in which higher rates of iron fertilization in the oceans reduced carbon in the air, leading to colder temperatures, which in turn, grew glaciers, the team reported in the Proceedings of the National Academy of Sciences in 2018. It also suggests that not all iron is equal when it comes to fertilization, and that freshly mined, fine-ground iron might be more effective than other forms, Winckler says.
***
"They’ve found that most naturally produced iron dust blows off the Sahara and other deserts, but large amounts are also released in plumes of hot dissolved minerals from hydrothermal vents. Volcanoes, which can spew thousands of kilograms of iron into the atmosphere in a single eruption, are another important source. Although the evidence is circumstantial, iron fertilization from volcanic ash may have contributed to the brief hiatus in carbon buildup in the atmosphere after the 1991 eruption of the Philippines’ Mt. Pinatubo, says Emerson.
***
"in June 2019, Schmittner and colleagues...calculating that cooler temperatures and iron fertilization were responsible for most of the decrease, and ocean circulation and sea ice had “close to zero” impact, he says. Iron fertilization alone accounted for a 25 to 35 ppm decrease in atmospheric carbon during that period, “a larger effect than we expected,” he says."
Comment: Iron played a huge role in climate c hange on the early Earth. But it is obvious how much role it plays today is not known.
Privileged Planet: microplankton and the carbon cycle
by David Turell , Tuesday, June 21, 2022, 23:31 (674 days ago) @ David Turell
A new finding:
https://www.scientificamerican.com/article/marine-microbe-lures-prey-into-custom-slime-...
"Study lead author Michaela Larsson, a marine biologist at the University of Technology Sydney, and her colleagues were studying marine mixoplankton in the laboratory when they noticed the creatures twisting and turning as they exuded mucus. The researchers found that beyond photosynthesizing in the daytime, these organisms also form a carbon-rich “mucosphere” around themselves at night—then use chemical cues to lure other microbes into it. The mixoplankton then eat the microbes and shed the mucus package, which sinks to the ocean floor and deposits a rich store of carbon.
"The study “is evidence that our thinking around how carbon is cycled in the ocean must be revised to include the sophisticated behaviors of microbes,” Larsson says. Identifying P. balticum DNA in a global marine microbe data set shows the organisms' prevalence across the ocean, suggesting they contribute considerably to the planetary carbon cycle. The authors estimate these plankton could sequester up to 0.15 gigaton of carbon every year—about 0.5 percent of the world's annual carbon emissions.
"According to Aditee Mitra, a marine systems modeler at Cardiff University in Wales, who was not involved in the research, the paper “is yet another indication of how little we know about [ocean] organisms that collectively have generated around half of the oxygen in Earth's atmosphere and continue to play a pivotal role in planetary biogeochemical cycling.”
"Since the study's publication, scientists have observed that other mixoplankton species can form and release mucospheres. Researchers are also investigating how microbe behaviors might vary in different marine conditions. “Discovering this microbial behavior and evaluating the broader implications for ocean biogeochemical cycling really are just the beginning,” Larsson says."
Comment: it is amazing how carefully this planet has a variety of cycles ahtd support all the aspects of being able to host life. Either it is a series of necessary chance contingencies or it is deliberate design. I'll stick with design as more logical.
Privileged Planet: magnetic field history findings
by David Turell , Tuesday, July 26, 2022, 17:26 (639 days ago) @ David Turell
We would not be here without it:
https://phys.org/news/2022-07-earth-mars-like-fate-ancient-clues.html
"Approximately 1,800 miles beneath our feet, swirling liquid iron in the Earth's outer core generates our planet's protective magnetic field. This magnetic field is invisible but is vital for life on Earth's surface because it shields the planet from solar wind—streams of radiation from the sun.
"About 565 million years ago, however, the magnetic field's strength decreased to 10 percent of its strength today. Then, mysteriously, the field bounced back, regaining its strength just before the Cambrian explosion of multicellular life on Earth.
"What caused the magnetic field to bounce back?
***
"Earth's magnetic field is generated in its outer core, where swirling liquid iron causes electric currents, driving a phenomenon called the geodynamo that produces the magnetic field.
***
"550 million years ago: the time at which the magnetic field began to renew rapidly after a near collapse 15 million years before that. The researchers attribute the rapid renewal of the magnetic field to the formation of a solid inner core that recharged the molten outer core and restored the magnetic field's strength.
"450 million years ago: the time at which the growing inner core's structure changed, marking the boundary between the innermost and outermost inner core. These changes in the inner core coincide with changes around the same time in the structure of the overlying mantel, due to plate tectonics on the surface.
***
"Researchers believe that Mars, for example, once had a magnetic field, but the field dissipated, leaving the planet vulnerable to solar wind and the surface without oceans. While it is unclear whether the absence of a magnetic field would have caused Earth to meet the same fate, "Earth certainly would've lost much more water if Earth's magnetic field had not been regenerated," Tarduno says. "The planet would be much drier and very different than the planet today."
"In terms of planetary evolution, then, the research emphasizes the importance of a magnetic shield and a mechanism to sustain it, he says.
"'This research really highlights the need to have something like a growing inner core that sustains a magnetic field over the entire lifetime—many billions of years—of a planet.'"
Comment: it is fascinating how carefully the magnetic field was developed. For early life deep in oceans, its lower levels were not a problem, but for land life it had to be protectively stronger. Only a designed plan could have produced this evolutionary scenario.
Privileged Planet: water helped make continents
by David Turell , Wednesday, July 27, 2022, 16:56 (638 days ago) @ David Turell
A new analysis:
https://phys.org/news/2022-07-earth-ancient-key-continents.html
"Although we understand the modern deep-water cycle, we know very little about how it worked when Earth was still a very young planet," Dr. Hartnady said.
"Multiple lines of geological evidence show that water was transported to great depths within Earth all the way back to 3.5 billion years ago, although it is not well understood how exactly it got there."
Researchers used sophisticated modeling to show that primitive high-magnesium volcanic rocks—that erupted onto the ocean floor in the early Earth—would have soaked up much more seawater than more modern lavas.
"This water, which is locked into particular crystals within the rock, would have been released as the rocks were buried and began to 'sweat.' In modern lavas, this sweating happens at a temperature of about 500 degrees Celsius," Dr. Hartnady said.
"Our findings indicate that much of the seawater initially bound within the ancient primitive lavas would have been released at much higher temperatures, greater than 700 degrees Celsius.
"Importantly, this means that the water was transported much deeper into the early Earth than previously thought. Its release would have caused surrounding rocks to melt, ultimately to form the continents." (my bold)
"Dr. Hartnady said this research helped to explain the inner workings of the planet from more than 2.5 billion years ago."
Comment: more information showing how the Earth evolved. Water with its amazing properties was a key to geologic processes as well as vital to life.
Privileged Planet: how moon formed
by David Turell , Friday, August 12, 2022, 16:33 (622 days ago) @ David Turell
By getting some of Earth material in a massive collision:
https://www.sciencenewslab.com/space/the-moon-stole-something-from-deep-inside-earth-eo...
Earth and its Moon are unique in the Solar System. Earth is the only planet with just one moon, and that Moon is pretty influential. In fact, without the Moon, life on Earth may not have emerged, some research suggests. (my bold)
"Couple that with a size ratio unlike any other planet-moon system we’ve seen – the Moon is a little over one-quarter the size of Earth – scientists, naturally, are interested in where the Moon even came from. (my bold)
"Isotopes of the noble gasses helium and neon trapped in lunar meteorites recovered from Antarctica match up with those found in the solar wind, without ever having been exposed to it. This, together with a signature argon isotope concentration, suggests that those gasses were inherited from Earth, when the two bodies were one, long ago.
“'Finding solar gasses, for the first time, in basaltic materials from the Moon that are unrelated to any exposure on the lunar surface was such an exciting result,” said cosmochemist Patrizia Will, formerly of ETH Zurich in Switzerland, now at Washington University in St. Louis.
"Directly studying the composition of the Moon is a complicated business. We haven’t been there since 1972, and collected samples are scarce.
"The Moon, however, does occasionally come to us, in the form of meteorites that are thrown in our direction when something large slams into the surface.
"A bunch of these lunar meteorites, or lunaites, have been recovered; there are several hundred that we know of, found all around the world.
***
"The team found the isotope ratios of the neon were very similar to isotope ratios of neon in Earth’s mantle plumes, deep upwellings of hot molten that sample reservoirs of material deep inside Earth that are likely undisturbed since the planet formed, 4.5 billion years ago. This similarity suggests that the gasses came from Earth, the researchers concluded."
Comment: Note my bold in the first paragraph: the moon is vital to life formation on the Earth. And the second bold tells us how unusual the moon is. More contingencies in the course of allowing us to being here. Chance or design? I pick design
Privileged Planet: how continents were formed
by David Turell , Friday, August 12, 2022, 18:54 (622 days ago) @ David Turell
From meteorites:
https://www.sciencealert.com/the-continents-were-created-on-early-earth-by-giant-meteor...
"To date, Earth is the only planet we know of that has continents.
"Exactly how they formed and evolved is unclear, but we do know – because the edges of continents thousands of miles apart match up – that, at one time long ago, Earth's landmass was concentrated in one big supercontinent.
"Since that's not what the planet looks like today, something must have triggered that supercontinent to break apart. Now, we have new evidence to suggest that giant meteorite impacts played a significant role.
"The smoking gun consists of crystals of the mineral zircon, excavated from a craton in Western Australia, a piece of Earth's crust that has remained stable for over a billion years.
"Known as the Pilbara Craton, it is the best-preserved chunk of crust on the planet… and the zircon crystals within it contain evidence of ancient meteorite impacts before the continents broke apart.
"Studying the composition of oxygen isotopes in these zircon crystals revealed a 'top-down' process starting with the melting of rocks near the surface and progressing deeper, consistent with the geological effect of giant meteorite impacts," explained geologist Tim Johnson of Curtin University in Australia.
"'Our research provides the first solid evidence that the processes that ultimately formed the continents began with giant meteorite impacts, similar to those responsible for the extinction of the dinosaurs, but which occurred billions of years earlier.'"
***
"However, many meteorites have pelted Earth in eons past, in numbers much higher than the number of continents. It's only the largest impacts that could generate enough heat to create the cratons, which appear to be twice as thick as their surrounding lithosphere.
"These findings are consistent with previously proposed models for the formation of cratons around the world – but constitute, the researchers said, the strongest evidence yet for the theory.
Comment: having continents and oceans prepared the Earth for life. All naturally appearing contingencies or design? I'll stick with a designer.
Privileged Planet: how continents were formed
by David Turell , Tuesday, September 20, 2022, 16:09 (583 days ago) @ David Turell
A new finding:
https://www.sciencealert.com/earths-first-continents-sank-into-the-planet-before-rising...
"A new examination of some of the oldest rocks in the world suggests that the first continents on Earth were unstable, and sank back into the mantle before making their way out again and reforming.
"This could explain some of the more puzzling characteristics of cratons, extremely old and stable parts of the lithosphere (the crust and uppermost mantle) that have survived continental changes over eons and record Earth's ancient history.
"The new findings could help us understand Earth's changing geology over its 4.5-billion-year lifespan.
"'The rocks in the core of the continents, called cratons, are more than three billion years old," explains geologist Fabio Capitanio of the Monash University School of Earth, Atmosphere and Environment in Australia.
"'They formed in the early Earth and hold the secret to how continents and the planet changed over time."
"We don't really know how the continents formed. No other planet in the Solar System has anything like them, so it seems clear that there must be a specific set of circumstances.
"There are several lines of evidence that suggest the continents may have formed from the interior out, around cratonic cores. But the formation mechanism of the cratons themselves is hotly debated.
"Cratons, of which around 35 are currently known, are buoyant and rigid compared to other parts of the lithosphere, which has given them their stability. But their composition is unusual compared to the more recent lithosphere, made up of a strangely diverse mix of materials, minerals with a range of ages, compositions, and sources.
"This heterogeneity, or diversity, is suggestive of recycling and reworking, previous research has found.
***
"Given that continents are thought to be very important for the emergence and ongoing existence of life on Earth, figuring out how they formed has implications, not just for our own planet, but for the search for habitable worlds outside the Solar System. (my bold)
"'Our work is important in two ways," Capitanio says.
"'First, cratons are where important metals and other minerals are stored/found. And second, they tell us how the planets formed and changed in the past, including how the continents came to be and how they supported life, and how the atmosphere formed and changed as a result of the planets' tectonics.'"
Comment: more evidence God evolved the Earth over time. Note the bold. Land animals must have continents.
Privileged Planet: nitrogen cycle
by David Turell , Tuesday, September 20, 2022, 17:53 (583 days ago) @ David Turell
Import to soil ecosystems:
https://phys.org/news/2022-09-intricacies-nitrogen.html
"Underlying nitrogen's impacts, helpful and harmful alike, is what's known as the nitrogen cycle. That's the collective name for the chemical processes that nature's biological and geological systems use to break down nitrogen compounds and shuttle the products through the environment.
***
"At the risk of oversimplifying an entire scientific field, chemistry is concerned with how atoms are exchanged and rearranged when different molecular participants are involved. Some of the most intriguing interactions are those that are essential for life, those that improve our quality of life or those that help scientists better understand how life on this planet works.
"The nitrogen cycle's reactions can check all three boxes, as evidenced by those highlighted in the Warren team's papers.
"'These two reports provide fundamental new insights into molecules that are important parts of the biogeochemical nitrogen cycle. That cycle is critical for ecosystems to work and be healthy," Warren said. "What we're doing is peering into molecules in new ways to better understand their connection to that cycle." (my bold)
"In particular, the team's JACS paper illuminates a new pathway that nature may use to convert nitric oxide into nitrous oxide, which are both important molecules in their own rights.
***
"Under the right conditions, nitrous oxide can also be a good electron acceptor, but oxygen provides a steadfast standard in this arena. That's why chemists refer to such electron acceptor compounds as oxidants, oxidizers and oxidizing agents. Oxidizers famously cause metal to rust, but they are also critical to many important biological and industrial reactions.
"But oxygen wasn't a readily available commodity in the Earth's atmosphere until the planet was a couple of billion years old. That's when the first microbes started emitting it, with plants later following suit through photosynthesis.
"'Nature was doing oxidation chemistry before the Great Oxidation Event, before photosynthesis kicked off," Warren said. "That means both nitric oxide and related nitrogen compounds were probably important oxidants in primordial life, before the Earth had a lot of oxygen.
"'It turns out that nature has evolved enzymes that can do that oxidation chemistry with these compounds," he said. "This paper provides new insights on how nature uses them today and perhaps even before oxygen was abundant."
"The team's Nature Chemistry paper focused on a different part of the nitrogen cycle, one that starts with a compound known as nitrite, a negatively charged molecule consisting of a nitrogen atom bound to two oxygen atoms.
"Nitrite shows up in a lot of places, many of which reflect the duality of nitrogen. Nitrite is in fertilizers that help plants grow. It's also in the runoff that pollutes aquatic ecosystems.
"Nitrite is found naturally in healthy levels in fruits and vegetables.
***
"Soil microbes have enzymes that convert nitrite to nitric oxide in a highly choreographed set of chemical interactions that happen at the same time."
Comment: nitrogen played a role in the development of life as part of the evolution of Earth into today's form
Privileged Planet: much of our water present at start
by David Turell , Saturday, December 17, 2022, 15:14 (495 days ago) @ David Turell
Latest study using deuterium analysis:
https://www.sciencealert.com/scientists-have-figured-out-just-how-old-our-water-is-and-...
"A research article in GeoScienceWorld Elements shows that other young solar systems have abundant water. In solar systems like ours, water is along for the ride as the young star grows and planets form. The evidence is in Earth's heavy water content, and it shows that our planet's water is 4.5 billion years old.
***
"The formation of a solar system starts with a giant molecular cloud. The cloud is mostly hydrogen, water's main component. Next are helium, oxygen, and carbon, in order of abundance.
"The cloud also contains tiny grains of silicate dust and carbonaceous dust. The research article takes us through the history of water in our Solar System, and this is where it starts.
"Out here in the cold reaches of a molecular cloud, when oxygen encounters a dust grain, it freezes and adheres to the surface.
"But water isn't water until hydrogen and oxygen combine, and the lighter hydrogen molecules in the cloud hop around on the frozen dust grains until they encounter oxygen.
"When that happens, they react and form water ice – two types of water: regular water and heavy water containing deuterium.
***
"100 K is bitterly cold in Earthly terms, only -173 degrees Celsius. But in chemical terms, it's enough to trigger sublimation, and the ice changes phase into water vapor. The sublimation occurs in a hot corino region, a warm envelope surrounding the cloud's center.
"Though they also contain complex organic molecules, water becomes the most abundant molecule in corinos.
"Water is abundant at this point, though it's all vapor. "… a typical hot corino contains about 10,000 times the water in the Earth's oceans," the authors write.
"That's step two in the process outlined by the authors, and they call it the protostar phase.
***
"But now, the water molecules in that icy mantle contain the history of the water in the Solar System. "Thus, dust grains are the guardians of water inheritance," the authors write.
"That's step three in the process.
"In step four, the Solar System begins to take shape and resemble a more fully-formed system. All the things we're accustomed to, like planets, asteroids, and comets, start forming and taking up their orbits. And what do they originate from? Those tiny dust grains and their twice-frozen water molecules.
***
"Water from the first synthesis is 4.5 billion years old, and the question becomes, "How much of that ancient water reached Earth?"
"To find that out, the authors observed the only two things they could: the amount of water overall and the amount of deuterated water.
"As the authors put it, "… namely, the ratio of heavy over normal water, HDO/H2O."
***
"So they know that Earth's heavy water abundance, the HDO/H2O ratio, is about ten times greater than in the Universe and at the beginning of the Solar System.
'"'Heavy over normal' water on Earth is about ten times larger than the elemental D/H ratio in the Universe and consequently at the birth of the Solar System, in what is called the solar nebula," the authors explain.
"The results of all this work show that between 1 and 50 percent of Earth's water came from the initial phase of the Solar System's birth. That's a wide range, but it's still a significant piece of knowledge."
Comment: note my bold. Why should the Earth have so much extra Deuterium? Was our water supply especially directed? Huge explanatory article.
Privileged Planet: life transformed early Earth
by David Turell , Monday, January 16, 2023, 18:22 (465 days ago) @ David Turell
I have constantly made the point the Earth evolved from a barren rocky beginning to arrive at a point humans could be supported:
https://aeon.co/essays/we-will-never-be-able-to-live-on-another-planet-heres-why?utm_so...
" we need a planet that spent billions of years evolving with us. We depend completely on the billions of other living organisms that make up Earth’s biosphere. Without them, we cannot survive. Astronomical observations and Earth’s geological record are clear: the only planet that can support us is the one we evolved with. There is no plan B. There is no planet B. Our future is here, and it doesn’t have to mean we’re doomed.
[Imagine] "we have landed on a perfect twin of the Archean Earth, the aeon during which life first emerged on our home world. This new planet is certainly habitable: lifeforms are floating around the green, iron-rich oceans, breathing out methane that is giving the sky that unsettling hazy, orange colour. This planet sure is habitable – just not to us. It has a thriving biosphere with plenty of life, but not life like ours. In fact, we would have been unable to survive on Earth for around 90 per cent of its history; the oxygen-rich atmosphere that we depend on is a recent feature of our planet.
"The earliest part of our planet’s history, known as the Hadean aeon, begins with the formation of the Earth... the early Hadean would have been a terrible place with molten lava oceans and an atmosphere of vaporised rock. Next came the Archean aeon, beginning 4 billion years ago, when the first life on Earth flourished. But, as we just saw, the Archean would be no home for a human. The world where our earliest ancestors thrived would kill us in an instant. After the Archean came the Proterozoic, 2.5 billion years ago. In this aeon, there was land, and a more familiar blue ocean and sky. What’s more, oxygen finally began to accumulate in the atmosphere. But let’s not get too excited: the level of oxygen was less than 10 per cent of what we have today. The air would still have been impossible for us to breathe. This time also experienced global glaciation events known as snowball Earths, where ice covered the globe from poles to equator for millions of years at a time. Earth has spent more of its time fully frozen than the length of time that we humans have existed.
"Earth’s current aeon, the Phanerozoic, began only around 541 million years ago with the Cambrian explosion – a period of time when life rapidly diversified. A plethora of life including the first land plants, dinosaurs and the first flowering plants all appeared during this aeon. It is only within this aeon that our atmosphere became one that we can actually breathe....From the point of view of our planet, the changes leading to these mass extinctions are relatively minor. However, for lifeforms at the time, such changes shattered their world and very often led to their complete extinction.
***
" No, we call this planet our home thanks to its billion-year-old relationship with life. Just as people are shaped not only by their genetics, but by their culture and relationships with others, planets are shaped by the living organisms that emerge and thrive on them. Over time, Earth has been dramatically transformed by life into a world where we, humans, can prosper. The relationship works both ways: while life shapes its planet, the planet shapes its life. Present-day Earth is our life-support system, and we cannot live without it.
"Looking at Earth’s long history, we find that we would have been incapable of living on our planet for most of its existence. Anatomically modern humans emerged less than 400,000 years ago; we have been around for less than 0.01 per cent of the Earth’s story. The only reason we find Earth habitable now is because of the vast and diverse biosphere that has for hundreds of millions of years evolved with and shaped our planet into the home we know today. Our continued survival depends on the continuation of Earth’s present state without any nasty bumps along the way. We are complex lifeforms with complex needs. We are entirely dependent on other organisms for all our food and the very air we breathe. The collapse of Earth’s ecosystems is the collapse of our life-support systems.
***
"Earth is the home we know and love not because it is Earth-sized and temperate. No, we call this planet our home thanks to its billion-year-old relationship with life. Just as people are shaped not only by their genetics, but by their culture and relationships with others, planets are shaped by the living organisms that emerge and thrive on them. Over time, Earth has been dramatically transformed by life into a world where we, humans, can prosper. The relationship works both ways: while life shapes its planet, the planet shapes its life. Present-day Earth is our life-support system, and we cannot live without it." (my bold)
Comment: this supports my statement that the Earth had to evolve to allow our appearance. So dhw's 'humans plus food' derisive comment is an incomplete assessment of God's work. The evolution of a giant bush of life evolved the Earth to a point that humans could be supported. I've known this all along. I should have presented this view earlier and there would have been less misunderstood discussion.
Privileged Planet: inner core rotation?
by David Turell , Monday, January 23, 2023, 18:30 (458 days ago) @ David Turell
Does it rotate or not? A change in rotation is suggested by curent findings:
https://www.sciencenews.org/article/earth-inner-core-reverse-rotation
"Earth’s inner core may have temporarily stopped rotating relative to the mantle and surface, researchers report in the January 23 Nature Geoscience. Now, the direction of the inner core’s rotation may be reversing — part of what could be a roughly 70-year-long cycle that may influence the length of Earth’s days and its magnetic field — though some researchers are skeptical.
“"We see strong evidence that the inner core has been rotating faster than the surface, [but] by around 2009 it nearly stopped,” says geophysicist Xiaodong Song of Peking University in Beijing. “Now it is gradually mov[ing] in the opposite direction.”
"Such a profound turnaround might sound bizarre, but Earth is volatile (SN: 1/13/21). Bore through the ever-shifting crust and you’ll enter the titanic mantle, where behemoth masses of rock flow viscously over spans of millions of years, sometimes upwelling to excoriate the overlying crust (SN: 1/11/17, SN: 3/2/17, SN: 2/4/21). Delve deeper and you’ll reach Earth’s liquid outer core. Here, circulating currents of molten metals conjure our planet’s magnetic field (SN: 9/4/15). And at the heart of that melt, you’ll find a revolving, solid metal ball about 70 percent as wide as the moon.
"This is the inner core (SN: 1/28/19). Studies have suggested that this solid heart may rotate within the liquid outer core, compelled by the outer core’s magnetic torque. Researchers have also argued the mantle’s immense gravitational pull may apply an erratic brake on the inner core’s rotation, causing it to oscillate.
***
"Future observations will probably help disentangle the discrepancies between these studies, Vidale says. For now, he’s unruffled by the purported chthonic standstill. “In all likelihood, it’s irrelevant to life on the surface, but we don’t actually know what’s happening,” he says. “It’s incumbent on us to figure it out.'”
Comment: as long as it doesn't disturb us on the surface, but we need to understand it.
Privileged Planet: fairly constant temperature range
by David Turell , Saturday, January 28, 2023, 17:05 (453 days ago) @ David Turell
Allows liquid water to persist:
https://www.sciencemagazinedigital.org/sciencemagazine/library/item/27_january_2023/407...
"For billions of years, Earth’s surface climate has varied in temperature within a relatively narrow range, allowing liquid water to persist and ensuring the habitability of our rocky planet. The breakdown of rocks during weathering is thought to be central in keeping the planet warm enough, and not too cold, by providing a stabilizing feedback in the carbon cycle. Brantley et al. (1) reconcile measurements from the laboratory with those made across landscapes in soils and rivers to quantify the overall temperature dependence of this important feedback mechanism. They find that this process only works to stabilize temperatures when minerals are supplied quickly enough by erosion and if rainfall can quench the thirst of the weathering reactions. Thus, the role of weathering in steering Earth’s climate is likely to have changed as the continents shifted and collided.
"Carbon dioxide (CO2) is a greenhouse gas that plays a major role in controlling the temperature at Earth’s surface. Every year, volcanoes release ∼0.1 petagrams of carbon (PgC) per year as CO2 from the interior of the planet.... this volcanic leak of carbon quickly adds up over Earth’s long history: In just a million years, volcanoes would release enough carbon to almost triple the atmosphere and ocean carbon stores. Left unchecked, this buildup of CO2 would lead to runaway warming.
"Instead, CO2 is removed from the atmosphere when specific minerals in rocks are chemically broken down or weathered. The carbonic acid formed by mixing CO2 with rainwater can dissolve silicate minerals. The weathering reactions remove CO2 from the atmosphere and create bicarbonate, a dissolved form of carbon, which is flushed from soils into rivers and onward to the ocean. There, the weathering products are used to make new carbonate minerals that lock up the carbon. Altogether, the net impact of silicate weathering is the removal of CO2 from the atmosphere.
***
"Brantley et al. used a thermodynamic framework to assess the temperature dependence of silicate weathering rates. Using calculations grounded in the Arrhenius equation that describes the relationship between reaction rate and temperature, they combined the numerous laboratory assessments with global soil profiles and river catchments. All of these datasets show an increase of silicate weathering with temperature, although the field rates increase more with temperature than those from experiments in the lab. This can be explained by an array of processes that happen in landscapes, including physical mechanisms such as fracturing, the formation of new minerals during weathering, and the role of microorganisms. Notably, Brantley et al. show that many locations around the world have a weak link between temperature and silicate weathering because either there is not enough mineral supplied to weather or they do not have enough water.
"A convergent theme of the study of Brantley et al. and prior work is that only if minerals are supplied fast enough can the silicate weathering thermostat work. Where erosion is low, the temperature sensitivity is muted or apparently nonexistent. Chemical weathering models and proxies of CO2, climate, weathering, and erosion also provide support for these conclusions. For example, recent work has suggested that global erosion could have doubled over the past 10 million to 15 million years and made Earth’s surface a more sensitive thermostat by supplying minerals and making reactions more sensitive to temperature and water supply, which affects climate and atmospheric CO2.
***
"The temperature dependence of silicate mineral weathering provides a persistent thermostat to guide Earth’s long-term climate. However, changes in patterns of erosion, water supply, and organic carbon cycling have likely changed the thermostat’s settings as the continents have drifted and collided over millions of years. Geochemical approaches in the laboratory, in the field, and in silico are crucial to further untangling the dynamics of the carbon cycle on Earth and other rocky planets."
Comment: by luck or by design the Earth's silicate weathering and the carbon cycle have kept the Earth's temperature range very moderate.
Privileged Planet: source of volatile elements
by David Turell , Sunday, January 29, 2023, 19:43 (452 days ago) @ David Turell
Beyond Jupiter:
https://phys.org/news/2023-01-meteorites-reveal-earth-volatile-chemicals.html
"Meteorites have told Imperial researchers the likely far-flung origin of Earth's volatile chemicals, some of which form the building blocks of life.
"They found that around half the Earth's inventory of the volatile element zinc came from asteroids originating in the outer solar system—the part beyond the asteroid belt that includes the planets Jupiter, Saturn, and Uranus. This material is also expected to have supplied other important volatiles such as water.
"Volatiles are elements or compounds that change from solid or liquid state into vapor at relatively low temperatures. They include the six most common elements found in living organisms, as well as water. As such, the addition of this material will have been important for the emergence of life on Earth.
***
"To carry out the study, the researchers examined 18 meteorites of varying origins—eleven from the inner solar system, known as non-carbonaceous meteorites, and seven from the outer solar system, known as carbonaceous meteorites.
"For each meteorite they measured the relative abundances of the five different forms—or isotopes—of zinc. They then compared each isotopic fingerprint with Earth samples to estimate how much each of these materials contributed to the Earth's zinc inventory. The results suggest that while the Earth only incorporated about ten percent of its mass from carbonaceous bodies, this material supplied about half of Earth's zinc.
"The researchers say that material with a high concentration of zinc and other volatile constituents is also likely to be relatively abundant in water, giving clues about the origin of Earth's water.
"First author on the paper Rayssa Martins, Ph.D. candidate at the Department of Earth Science and Engineering, said, "We've long known that some carbonaceous material was added to the Earth, but our findings suggest that this material played a key role in establishing our budget of volatile elements, some of which are essential for life to flourish.'"
Comment: either contingent forces brought all the materials we need or it was designed.
Privileged Planet: life makes soil from rock
by David Turell , Thursday, February 02, 2023, 16:06 (448 days ago) @ David Turell
A study of how the microorganisms do it:
https://phys.org/news/2023-02-microbes-earth-rock-to-life.html
"The name "critical zone" may give off 1980s action thriller vibes, but it's the term scientists use to refer to the area of Earth's land surface responsible for sustaining life. A relatively small portion of the planetary structure, it spans from the bedrock below groundwater all the way up to the lower atmosphere.
"'Think of it as Earth's skin," said Jon Chorover, head of the Department of Environmental Science in the University of Arizona College of Agriculture and Life Sciences. "It's sometimes termed the zone where rock meets life."
***
"Their findings, according to Chorover, provide a "smoking gun" link between the activities of carbon-consuming microbes and the transformation of rock to life-sustaining soil in the critical zone.
***
"'Minerals, microorganisms and organics are among the most important components in Earth's surface," Fang said. "They interact with each other constantly to provide all terrestrial life with nutrients, energy and suitable living environments."
"These minerals in the critical zone are continuously attacked by microorganisms, organic acids and water, Fang explained. As the minerals break down, microbes in the soil consume the new organic matter and transform it into material that feeds plants and other microorganisms, while releasing carbon dioxide.
"Previous studies suggest that microbial decomposition of soil organic matter can be fueled when more "fresh" organics—such as plant matter—are introduced to the soil system. This process is called the "priming effect" by soil scientists. However, the relationship between mineral weathering and microbial priming remains unclear.
"'Our study shows, for the first time, how these essential soil processes are coupled, and these two processes continuously influence soil formation, CO2 emission and global climate," Fang said. "The linkages may even be associated with long-term elemental cycling and rapid turnover of soil carbon and nutrients on Earth."
"While it is easy to perceive the success of plants and microorganisms as lucky environmental circumstance, Chorover said this study proves even the smallest parts of the critical zone have a substantial role to play.
"'It shows that life is not simply a passive passenger on the trajectory of critical zone evolution, but actually an active engineer in determining the direction and path of how the Earth's skin evolves," Chorover said." ( my bold)
Comment: a rocky Earth without life became a fertilely soiled Earth with life doing it. My bold notes God works through evolutionary processes.
Privileged Planet: outer solar system supplied our water
by David Turell , Saturday, February 04, 2023, 16:15 (446 days ago) @ David Turell
And we have lots of it:
https://www.universetoday.com/159863/the-outer-solar-system-supplied-a-surprising-amoun...
'In a recent study published in Science, a team of researchers at Imperial College London examined 18 meteorites containing the volatile element zinc to help determine their origin, as it has been long hypothesized that Earth’s volatiles materials, including water, were derived from asteroids closer to our home planet. However, their results potentially indicate a much different origin story.
“'Our data show that about half of Earth’s zinc inventory was delivered by material from the outer Solar System, beyond the orbit of Jupiter,” Dr. Mark Rehkämper, a professor in the Department of Earth Science and Engineering at Imperial, and a co-author on the study, said in a statement. “Based on current models of early Solar System development, this was completely unexpected.”
"Approximately 4.5 billions years ago, our solar system formed from the collapsed cloud of interstellar gas and dust, whose collapse has been hypothesized to come from the supernova explosion of a nearby star. Upon its collapse, the cloud formed a swirling and spinning disk of material, a solar nebula. Over time, the gravity and pressure at the center of the nebula eventually forced hydrogen and helium atoms to fuse, which birthed our Sun. The remaining material in the nebula formed the planets and moons we see today, with the rocky planets comprising the inner part and the much larger gas planets forming in the outer parts.
"Since the Earth formed in this inner part of the nebula, the long-standing hypothesis has been the majority of the Earth-forming materials also came from the inner portion, as well, so this most recent research could help reshape our understanding of both the formation and evolution of our own solar system.
“'This contribution of outer Solar System material played a vital role in establishing the Earth’s inventory of volatile chemicals.,” Dr. Rehkämper said in a statement. “It looks as though without the contribution of outer Solar System material, the Earth would have a much lower amount of volatiles than we know it today – making it drier and potentially unable to nourish and sustain life.”
"For the study, the researchers examined 18 meteorites that originated from a variety of locales through our solar system, with 11 of the 18 coming from the inner solar system, and are known as non-carbonaceous meteorites. The remaining 7 of the 18 coming from the outer solar system and are known as carbonaceous meteorites.
"The researchers discovered that while carbonaceous bodies accounted for only about 10 percent of Earth’s entire mass, this same material is responsible for about 50 percent of Earth’s zinc supply. The researchers say the high amount of zinc, along with other volatiles, could also contain a high amount of water, which could provide clues about the Earth’s water supply, as well.
“'We’ve long known that some carbonaceous material was added to the Earth, but our findings suggest that this material played a key role in establishing our budget of volatile elements, some of which are essential for life to flourish,” Rayssa Martins, who is a PhD Candidate in the Department of Earth Science and Engineering, and lead author of the study, said in a statement."
Comment: this discovery has been previously mentioned here but the clarity of this report makes it worth repeating.
Privileged Planet: moon causes magnetosphere tides
by David Turell , Monday, February 06, 2023, 17:19 (444 days ago) @ David Turell
The magnetic field around Earth has moon caused tides:
https://www.livescience.com/plasmasphere-moon-tidal-force?utm_term=C3CFD69C-A485-4C10-9...
"In the study, published Jan. 26 in the journal Nature Physics(opens in new tab), scientists used more than 40 years of data collected by satellites to track the minute changes in the shape of the plasmasphere, the inner region of Earth's magnetosphere, which shields our planet from solar storms and other types of high-energy particles.
"The plasmasphere is a roughly doughnut-shaped blob of cool plasma that sits on top of Earth's magnetic field lines, just above the ionosphere, the electrically charged part of the upper atmosphere. The plasma, or ionized gas, in the plasmasphere is denser than the plasma in the outer regions of the magnetosphere, which causes it to sink to the bottom of the magnetosphere. The boundary between this dense sunken plasma and the rest of the magnetosphere is known as the plasmapause.
"'Given its cold, dense plasma properties, the plasmasphere can be regarded as a 'plasma ocean,' and the plasmapause represents the 'surface' of this ocean," the researchers wrote in the paper. The moon's gravitational pull can distort this "ocean," causing its surface to rise and fall like the ocean tides.
***
"The satellite crossings occurred between 1977 and 2015, and during this period, there were four complete solar cycles. This information allowed the team to factor in the role of solar activity on Earth's magnetosphere. Once the sun's influence was accounted for, it started to become clear that fluctuations in the shape of the plasmapause followed daily and monthly patterns that were very similar to the ocean's tides, indicating that the moon was the most likely cause of the plasma tides.
"The researchers are unsure exactly how the moon causes the plasma tides, but their current best guess is that the moon's gravity causes perturbations in Earth's electromagnetic field. But further research is needed to tell for sure."
Comment: the Earth is a planet with just one moon that exerts all sorts of beneficial effects on us. Not by chance.
Privileged Planet: great oxidation event came earlier
by David Turell , Sunday, February 12, 2023, 16:34 (438 days ago) @ David Turell
A totally different discovery about oxygen:
https://www.discovermagazine.com/planet-earth/earths-first-stable-dose-of-oxygen-nearly...
"The world was an unrecognizable place more than 2.45 billion years ago. But for most of the tiny organisms that lived on the planet at the time, things were just fine; at least, until the cyanobacteria started to proliferate.
"As a result, these photosynthetic bacteria began to produce oxygen — so much of it that the tiny microbes sparked the "Great Oxidation Event" that infused the gas into our atmosphere.
“'You could argue that that’s the biggest poisoning event of Earth’s history,” says Simon Poulton, a biogeochemist at the University of Leeds in the U.K.
"The event proved fatal for the planet's countless species of anaerobic bacteria, capable of metabolizing their food without oxygen, resulting in a mass extinction. But the infusion of oxygen was essential for humans and a great numbers of animals alive today.
“'We’re talking about probably the most significant environmental event in the history of our planet,” adds Poulton.
***
"The Great Oxidation Event began around 2.45 billion years ago during the Paleoproterozoic era. Previously, researchers had believed that this period lasted only about 113 million years, ending 2.32 billion years ago.
"This period was chaotic, characterized by several glaciations where the whole planet was frozen over in what is sometimes referred to as “Snowball Earth,” says Poulton. “If you went back in a time machine and landed in one of those glaciations, you would be unbearably cold.”
"The strong glaciation periods likely came about due to rising oxygen levels, Poulton says. But once the oceans were covered in ice, the productivity of the cyanobacteria in the oceans would have dropped again, meaning less oxygen. Eventually, the buildup of greenhouse gases in the atmosphere from volcanic activity melted much of the ice. These intermittent periods after glaciations were likely even warmer than our world is today.
"Poulton and his colleagues began working on ancient rocks in the Transvaal Supergroup in South Africa. These rocks date back to the period when researchers believed that the Great Oxidation Event stopped and beyond. They measured multiple types of sulfur isotopes from cores drilled into the rocks.
“'What we got was really cool and a little bit surprising,” he says. The sulfur isotopes showed several fluctuations that suggested the atmosphere was far from stable until roughly 2.22 billion years ago. This meant the Great Oxidation Event may have lasted for 100 million years more than previously believed.
***
"Once said and done, the amount of oxygen became relatively stable afterwards, though it still took a long time for more complex lifeforms to evolve. It wasn’t until the end of the Precambrian period — around 541 million years ago — that the Earth experienced a second major rise in oxygen levels, after a long era Poulton and other geologists call “the boring billion,” when life evolved at a much slower pace." (my bold)
Comment: The Cambrian Explosion gap coincides with increasing oxygen (in my bold), an event noted here long ago. Extremophile survival managed to maintain life through this glacial period until more advanced life could begin, using oxygen as a dangerous fuel, requiring the development of special protective anti-oxygen mechanisms.
Privileged Planet: Internal temperature extremely hot
by David Turell , Saturday, February 18, 2023, 19:25 (432 days ago) @ David Turell
Geothermal energy exists and is difficult o handle for practical uses:
https://mail.google.com/mail/u/0/#inbox/FMfcgzGrcjLbSNvRGltPDRjNvTbfHvKp
"All planets in the solar system, including Pluto, formed from the same ball of hot plasma as the sun. The major difference between our Sun and the planets is that it’s larger. And because the Sun is larger, its gravitational pressure can sustain nuclear fusion. Smaller clumps of matter, like our Earth, can’t do that. So, they cool, and before you know you have people driving around in pick-up trucks with bumper stickers complaining about the government.
"But it takes a long time for a planet to cool. Therefore, Earth is really still a ball of this hot plasma, just that it now has a crust on the outside where it’s already cooled. But when you dig, it gets warmer. And the deeper down you go, the warmer it gets.
"Scientists believe that the temperature at the Earth’s core doesn’t just come from this initial heat of the plasma, but comes partly from radioactive decay. But no one knows exactly, because no one’s been there, probably because the centre of earth is about as uncool as is gets.
"The temperature at the core of earth is an estimated five to seven thousand degrees Celsius, that’s about the same as the surface of the sun and my office in the summer. But we don’t need thousands of degrees. A few hundred degrees Celsius are sufficient to boil water and drive turbines with it. Such temperatures can be found in a few kilometres’ depth in most places on Earth.
"Just how deep you have to dig for that depends strongly on the location. In some places one doesn’t have to dig at all because steaming hot water bubbles out of the ground. On the Azores, they make stew by lowering it down into a hole and cooking directly with geothermal heat. In Reykjavik they heat the sidewalks in the winter with geothermal heat. But in most places it isn’t that easy.
"Geoscientists estimate that the total energy reserves in the upper 10 kilometres of Earth’s crust are about 10 to the 27 Joule. The total global energy consumption per year is at present about 5 times 10 to the 20 Joule. This means if energy demand remained stable, geothermal energy would last several hundred million years.
"You may suspect that it isn’t terribly realistic that we exploit all this energy and you’d be right. But a somewhat more realistic evaluation comes from the US Department of Energy. They refer to geothermal energy as “America’s untapped energy giant” and estimate that the generation of electric energy from geothermal sources in US has the potential to increase from presently about 3 point five Gigawatts to more than sixty gigawatts by 2050. Then it would provide 8 point 5 percent of the total US electricity which is a refreshing change from securing energy supply by invading other countries.
"And this is only for using geothermal energy for electricity generation. ‘Estimates are even more impressive if you include direct use, that is heating with geothermal heat. Researchers from the National Renewable Energy Laboratory claim that every house in the US could be heated from geothermal sources for millennia."
Comment: This is taken from a video presentation discussing the use of geothermal energy and describing the tremendous problems that have appeared. The portion I've presented tells us a great deal about our Earth. This attribute is not special to the Earth.
Privileged Planet: Inner inner core
by David Turell , Wednesday, February 22, 2023, 15:23 (428 days ago) @ David Turell
New seismic study, we have an iron core inside the inner core:
https://www.sciencealert.com/after-a-20-year-search-scientists-have-finally-found-earth...
"A new analysis of Earth's innards suggests the presence of an inner core within the inner core – a dense ball of iron at the very center of our planet.
"This could reveal some previously unknown details about the history of Earth's formation and evolution, suggesting a significant global event early in our planet's history.
"Earth's interior structure consists of a series of concentric layers, from the crust to the core. At the very center, with a radius of about 1,227 kilometers (762 miles) is the inner core – the densest part of our planet, a solid ball mostly composed of iron and nickel, comprising less than 1 percent of Earth's volume.
"This inner core is like a time capsule of Earth's history.
"As the inner core grows, the solidification process releases heat and light that drives convection in the outer liquid core – the engine that powers the dynamo that converts kinetic energy into magnetic energy and maintains Earth's global magnetic field. That magnetic field is thought to keep harmful radiation out, and the atmosphere in, allowing life to thrive.
"Changes in the inner core could thus trigger changes in the dynamo, which in turn could have implications for Earth's habitability over time.
***
"'This study uses the ever-growing global seismograph network to produce global stacks for some significant seismic events individually," they write in their paper.
"'This study reports a previously unobserved and unutilized class of seismological observations of reverberating waves through the bulk of the Earth along its diameter up to five times … To our knowledge, reverberations from more than two passages are hitherto unreported in the seismological literature."
***
"By stacking the data – adding a collection of seismic signals together into a single trace – Phạm and Tkalčić were able to amplify the signal from several major seismic events, thus breaking this record. For the first time, they identified three-, four-, and five-fold seismic reverberations, which in turn allowed a more detailed probe of the inner core than previously achieved.
"The different travel times of pairs of waves inferred the presence of the innermost inner core no wider than 650 kilometers (404 miles) across, made of dense iron. This structure could be the result of a fundamental change in the growth of the inner core at some point in Earth's past."
Comment: it is like pealing an onion. The finding gives an even clearer picture of how our protective magnetic field is generated.
Privileged Planet: plate tectonics add water
by David Turell , Saturday, April 01, 2023, 16:55 (390 days ago) @ David Turell
We are the only planet with plate tectonics, probably because of all our water on tehv surface and deep:
https://bigthink.com/starts-with-a-bang/earth-plate-tectonics/?utm_campaign=swab&ut...
"The crust and upper mantle form the lithosphere: fragmented into a series of plates.
"These plates collide, spread apart, uplift, and subduct, creating diverse surface features.
"From mountain formation to volcanic island chains to oceanic spreading, plate tectonics affect Earth globally.
"Continental drift creates and breaks apart supercontinents many times throughout history.
"But is Earth unique? No other known planet possesses plate tectonics.
"Mars is a single-plate planet, enabling Olympus Mons to form
"With an unmoving uniplate and a hotspot beneath it, Olympus Mons is the largest planetary volcano.
"Mercury lost most of its mantle early on, having cooled to form a solid, one-plate planet.
"But Venus, almost the size and mass of Earth with comparable internal heat, also has only one plate.
"Although it’s still volcanically active, Venus’s surface deforms, but doesn’t flow.
"Earth owes its tectonic uniqueness to large surface oceans, with hints found elsewhere.
"Europa, Jupiter’s ice-covered moon, exhibits evidence for ice-plate tectonics.
"Subduction and subsurface liquid upwelling occur there, with similar activity possible on Pluto.
"Internal heat plus water’s lubricating effects, combined, likely enable Earth’s flowing, sliding plates.
"The Earth’s crust is thinnest over the ocean and thickest over mountains and plateaus, as the principle of buoyancy dictates and as gravitational experiments confirm. It is likely the combined effects of Earth’s internal heat as well as the large amounts of liquid water on and within Earth’s surface that allow the lithosphere, the uppermost portion of the mantle plus the crust, to fragment into plates that slide over one another, collide, and spread apart."
Comment: Covered before. Tectonics made the Earth hospitable for life to appear. Evidence that God prefers to evolve goals
Privileged Planet: how our planet cleans itself
by David Turell , Saturday, April 08, 2023, 02:58 (383 days ago) @ David Turell
By way of hydroxyide formation:
https://phys.org/news/2023-04-scientists-earth-atmosphere.html
"...new research published in Proceedings of the National Academy of Sciences, a research team that includes Sergey Nizkorodov, a University of California, Irvine professor of chemistry, report that a strong electric field that exists at the surface between airborne water droplets and the surrounding air can create OH by a previously unknown mechanism.
"It's a finding that stands to reshape how scientists understand how the air clears itself of things like human-emitted pollutants and greenhouse gases, which OH can react with and eliminate. "You need OH to oxidize hydrocarbons, otherwise they would build up in the atmosphere indefinitely," said Nizkorodov.
"'OH is a key player in the story of atmospheric chemistry. It initiates the reactions that break down airborne pollutants and helps to remove noxious chemicals such as sulfur dioxide and nitric oxide, which are poisonous gases, from the atmosphere," said Christian George, an atmospheric chemist at the University of Lyon in France and lead author of the new study. "Thus, having a full understanding of its sources and sinks is key to understanding and mitigating air pollution."
"Before, researchers assumed that sunlight was the chief driver of OH formation.
"'The conventional wisdom is that you have to make OH by photochemistry or redox chemistry. You have to have sunlight or metals acting as catalysts," Nizkorodov said. "What this paper says in essence is you don't need any of this. In the pure water itself, OH can be created spontaneously by the special conditions on the surface of the droplets."
***
"What they saw is that OH production rates in darkness mirror those and even exceed rates from drivers like sunlight exposure. "Enough of OH will be created to compete with other known OH sources," said Nizkorodov. "At night, when there is no photochemistry, OH is still produced and it is produced at a higher rate than would otherwise happen."
"The findings, Nizkorodov reported, alter understanding of the sources of OH, something that will change how other researchers build computer models that attempt to forecast how air pollution happens.
"'It could change air pollution models quite significantly," Nizkorodov said. "OH is an important oxidant inside water droplets and the main assumption in the models is that OH comes from the air, it's not produced in the droplet directly.'"
Comment: in more than one way this is a priveleged planet. All of these favorable Earthly characteristics are not by chance
Privileged Planet: contribution of amazing ancient moss
by David Turell , Tuesday, May 09, 2023, 23:17 (352 days ago) @ David Turell
edited by David Turell, Tuesday, May 09, 2023, 23:35
A very ancient plant improves our soils:
https://www.sciencealert.com/we-were-gobsmacked-giant-study-reveals-why-moss-is-vital-f...
"Sampling mosses from over a hundred sites across eight different ecosystems, Eldridge and colleagues estimated populations of the plant cover a staggering 9.4 million square kilometers in the types of environments surveyed. This is comparable to the size of China or Canada.
"Ancestors of all today's living plants, these ancient organisms are more simplistic in their structure than their more modern descendents, with sprigs full of tiny leaves, typically just one cell thick. But that doesn't make them any less mighty.
"'Mosses don't have the plumbing that an ordinary plant has, called a xylem and a phloem, which water moves through," says Eldridge.
"'But moss survives by picking up water from the atmosphere. And some mosses, like the ones in the dry parts of Australia, curl when they get dry, but they don't die – they live in suspended animation forever. We've taken mosses out of a packet after 100 years, squirted them with water and watched them come to life. Their cells don't disintegrate like ordinary plants do."
"The researchers compared soils with and without moss in each of their studied areas and found greater movement of nutrients in mossy soils, increasing the cycling of everything from nitrogen and phosphorus to organic matter. Moss also acts as a storage pool for nutrients, including carbon, currently keeping about 6.43 billion metric tons of this vital but currently problematic element out of our oversaturated atmosphere.
***
"What's more, the team found mosses seem to keep a lid on potential pathogens. The surveys counted fewer potential plant pathogens in soils where moss lived, and incredibly antibiotic resistant genes were less abundant in the microbiomes of mossy habitats compared to unvegetated areas.
"'We posit that increases in soil carbon beneath mosses might reduce microbial competition and their need to produce antibiotic resistant genes," Eldridge and colleagues hypothesize in their paper.
"Moss's shallow tangles of roots help hold the soil together, providing a stable surface for a succession of plant growth that leads to more complex ecosystems. Moss also helps maintain surface microclimates.
"High densities of mat and turf mosses like Sphagnum, Hylocomium, and Ptilium, contribute the most to soil biodiversity and ecosystems, particularly in areas where trees don't grow, like deserts and tundra.
"And after major disturbances such as volcanic eruptions, moss is one of the earliest organism to return, following cyanobacteria and algae.
"'What we show in our research is that where you have mosses you have a greater level of soil health, such as more carbon and more nitrogen," concludes Eldridge.
"'Mosses may well provide the perfect vehicle to kick start the recovery of severely degraded urban and natural area soils.'"
Comment: we have a most favored planet and each component has an important reason. Not by c hance.
Privileged Planet: the role of iron rich rocks
by David Turell , Sunday, June 11, 2023, 19:05 (319 days ago) @ David Turell
A very new approach to studying Earth's surface:
https://www.sciencedaily.com/releases/2023/05/230525140951.htm
"Visually striking layers of burnt orange, yellow, silver, brown and blue-tinged black are characteristic of banded iron formations, sedimentary rocks that may have prompted some of the largest volcanic eruptions in Earth's history, according to new research from Rice University.
"The rocks contain iron oxides that sank to the bottom of oceans long ago, forming dense layers that eventually turned to stone. The study published this week in Nature Geoscience suggests the iron-rich layers could connect ancient changes at Earth's surface -- like the emergence of photosynthetic life -- to planetary processes like volcanism and plate tectonics.
***
"Banded iron formations are chemical sediments precipitated directly from ancient seawater rich in dissolved iron. Metabolic actions of microorganisms, including photosynthesis, are thought to have facilitated the precipitation of the minerals, which formed layer upon layer over time along with chert (microcrystalline silicon dioxide). The largest deposits formed as oxygen accumulated in Earth's atmosphere about 2.5 billion years ago.
"'These rocks formed in the ancient oceans, and we know that those oceans were later closed up laterally by plate tectonic processes," Keller explained.
***
"'Just like the Pacific Ocean is being closed today -- it's subducting under Japan and under South America -- ancient ocean basins were destroyed tectonically," he said. "These rocks either had to get pushed up onto continents and be preserved -- and we do see some preserved, that's where the ones we're looking at today come from -- or subducted into the mantle."
***
"'We looked at the depositional ages of banded iron formations and the ages of large basaltic eruption events called large igneous provinces, and we found that there's a correlation," Keller said. "Many of the igneous events -- which were so massive that the 10 or 15 largest may have been enough to resurface the entire planet -- were preceded by banded iron formation deposition at intervals of roughly 241 million years, give or take 15 million. It's a strong correlation with a mechanism that makes sense."
"The study showed that there was a plausible length of time for banded iron formations to first be drawn deep into the lower mantle and to then influence heat flow to drive a plume toward Earth's surface thousands of kilometers above.
***
"'If what's happening in the early oceans, after microorganisms chemically change surface environments, ultimately creates an enormous outpouring of lava somewhere else on Earth 250 million years later, that means these processes are related and 'talking' to each other," Keller said. "It also means it's possible for related processes to have length scales that are far greater than people expected. To be able to infer this, we've had to draw on data from many different fields across mineralogy, geochemistry, geophysics and sedimentology.'"
Comment: A highly theoretical study to explain why the Earth is like it is. Iron is plentiful on the surface and humans have used it for several thousand years.
Privileged Planet: shorter days in the past
by David Turell , Monday, June 12, 2023, 20:33 (318 days ago) @ David Turell
New measurements:
https://phys.org/news/2023-06-billion-years-earth-history-days.html
"Although we take the 24-hour day for granted, in Earth's deep past, days were even shorter.
"Day length was shorter because the moon was closer. "Over time, the moon has stolen Earth's rotational energy to boost it into a higher orbit farther from Earth," said Ross Mitchell, geophysicist at the Institute of Geology and Geophysics of the Chinese Academy of Sciences and lead author of a new study published in Nature Geoscience.
"'Most models of Earth's rotation predict that day length was consistently shorter and shorter going back in time," said Uwe Kirscher, co-author of the study and a research fellow now at Curtin University in Australia.
"But a slow and steady change in day length going back in time is not what Mitchell and Kirscher found.
***
"Cyclostratigraphy is a geologic method that uses rhythmic sedimentary layering to detect astronomical "Milankovitch" cycles that reflect how changes in Earth's orbit and rotation affect climate.
"'Two Milankovitch cycles, precession and obliquity, are related to the wobble and tilt of Earth's rotation axis in space. The faster rotation of early Earth can therefore be detected in shorter precession and obliquity cycles in the past," explained Kirscher.
"Mitchell and Kirscher took advantage of a recent proliferation of Milankovitch records, with over half of the data for ancient times generated in the past seven years.
***
"Solar atmospheric tides are not as strong as lunar oceanic tides, but this would not always have been the case. When Earth was rotating faster in the past, the tug of the moon would have been much weaker. Unlike the pull of the moon, the sun's tide instead pushes Earth. So while the moon slows Earth's rotation down, the sun speeds it up.
"'Because of this, if in the past these two opposite forces were to have become been equal to each other, such a tidal resonance would have caused Earth's day length to stop changing and to have remained constant for some time," said Kirscher.
"And that's exactly what the new data compilation showed.
***
"Earth's day length appears to have stopped its long-term increase and flatlined at about 19 hours roughly between two to one billion years ago—"the billion years," Mitchell noted, "commonly referred to as the 'boring' billion."
"The timing of the stalling intriguingly lies between the two largest rises in oxygen. Timothy Lyons of the University California, Riverside, who was not involved in the study, said, "It's fascinating to think that the evolution of the Earth's rotation could have affected the evolving composition of the atmosphere."
"The new study thus supports the idea that Earth's rise to modern oxygen levels had to wait for longer days for photosynthetic bacteria to generate more oxygen each day."
comment: everything adjusted over time to bring us to the present ideal state of the planet.
Privileged Planet: became a watery planet quickly
by David Turell , Wednesday, June 14, 2023, 17:40 (316 days ago) @ David Turell
According to new simulations:
https://phys.org/news/2023-06-earth-faster-thought.html
"Up until now, researchers believed that it took more than 100 million years for the Earth to form. And it was also common belief that water was delivered by lucky collisions with water-rich asteroids like comets.
"However, a new study from the University of Copenhagen suggests that it might not have happened entirely by chance.
"'We show that the Earth formed by the very fast accumulation of small millimeter-sized pebbles. In this mechanism, the Earth was formed in just a few million years. Based on our findings, it appears that the presence of water on Earth is a byproduct of its formation," says Martin Bizzarro, who is a Professor at Globe Institute and one of the researchers behind the new study.
"The results of the research not only show that the Earth was created much faster than previously thought, but that the presence of water is a predicted outcome of its formation process. This is important knowledge because it tells us something about planets outside our own solar system.
***
"...the researchers behind the new study suggests a new theory of how Earth was created.
"'There was a disk around the young sun where the planets were growing. The disk was filled with small dust particles. Once a planet reaches a certain size, it sorts of act like a vacuum cleaner, sucking up all that dust very quickly. And that makes it grow to the size of Earth in just a few million years," says Ph.D. student Isaac Onyett, who is the corresponding author of the study.
"This vacuuming of small dust particles not only played a vital role in Earth's formation but made sure that water was delivered to our planet.
"'The disk also contains many icy particles. As the vacuum cleaner effect draws in the dust, it also captures a portion of the ice. This process contributes to the presence of water during Earth's formation, rather than relying on a chance event delivering water 100 million years later," says Isaac Onyett.
***
"The researchers used silicon isotopes as a tool to understand the mechanisms and timescales of planet formation. By analyzing the isotopic composition of more than 60 different meteorites and planetary bodies, the researchers were able to establish genetic relationships between rocky planets like Earth and Mars and other celestial objects. This approach allowed the researchers to of the type of building blocks that assembled to form Earth, and the process by which they came together."
Comment: from my viewpoint I see the hand of God guiding Earth to a fast beginning.
Privileged Planet: life before plate tectonics
by David Turell , Saturday, June 17, 2023, 15:22 (313 days ago) @ David Turell
Dating plate tectonics dates it after life started:
https://www.universetoday.com/161952/did-life-need-plate-tectonics-to-emerge/
"It’s widely accepted that Earth’s plate tectonics are a key factor in life’s emergence. Plate tectonics allows heat to move from the mantle to the crust and plays a critical role in cycling nutrients. They’re also a key part of the carbon cycle that moderates Earth’s temperature.
"But new research suggests that there was no plate tectonic activity when life appeared sometime around 3.9 billion years ago. Does this have implications for our search for habitable worlds?
***
"In new research, scientists examined zircons from between 3.9 to 3.4 billion years ago. The results are in a paper titled “Hadaean to Palaeoarchaean stagnant-lid tectonics revealed by zircon magnetism”.
“'We found there wasn’t plate tectonics when life is first thought to originate, and that there wasn’t plate tectonics for hundreds of millions of years after,” says Tarduno. “Our data suggests that when we’re looking for exoplanets that harbour life, the planets do not necessarily need to have plate tectonics.”
"Zircons contain magnetic particles, and as the zircons solidified, the particles are affected by Earth’s magnetic fields at the time, and the magnetic fields change in strength over time and over different parts of the Eart as the magnetic poles wander. So, the zircons that scientists study retain evidence of Earth’s ancient magnetic fields.
***
"Scientists can date zircons through radiometric dating. The tiny rocks contain trace amounts of the radioactive elements uranium and thorium. Since scientists know the rate of decay for these elements and their decay chains, they can measure and compare the amounts of the elements and what they decay into to determine the zircons’ ages.
"Once they know the ages of the zircons, and the orientation of their magnetic particles, a picture of Earth’s ancient magnetic fields emerges.
"Earth’s geodynamo generates its magnetic field, but its strength and direction change with latitude and time. So if the geodynamo is consistent over time, then zircons that formed at different latitudes will have different magnetic properties, whereas zircons from the same latitude will have similar properties.
***
These results pose another question: how did the early Earth shed heat?
"The answer might be what’s known as stagnant lid tectonics. In stagnant lid tectonics, Earth sheds heat through cracks in the planet’s solid cap.
"With no plate tectonics, the heat still has to escape somehow. In stagnant lid tectonics, there are no continents drifting around, with ocean ridges venting the planet’s internal heat. Instead, there’s a single, monolithic lid that remains in place. Magma plumes rise up at different locations under the lid, cracking it and releasing heat. Stagnant lid tectonics don’t release heat as efficiently as plate tectonics, but they can still form continents.
“'Early Earth was not a planet where everything was dead on the surface,” Tarduno says. “Things were still happening on Earth’s surface; our research indicates they just weren’t happening through plate tectonics. We had at least enough geochemical cycling provided by the stagnant lid processes to produce conditions suitable for the origin of life.”
***
"Plate tectonics are also important for cycling nutrients and carbon. Carbon is released at mid-ocean ridges and sequestered through subduction when plates meet. Plate tectonics have helped Earth maintain its Goldilocks climate for billions of years. But it may not have always been this way.
***
"This study shows that it’s not necessary, at least for the first billion years or so. Stagnant lid tectonics may have been enough. In fact, the similarity between the zircons also indicates that deep subduction was unlikely, meaning the poles didn’t wander, with all the rapid surface changes that can accompany that phenomenon. That could’ve helped provide the stability early life may have relied on. “The lack of large, rapid changes in environmental conditions induced by true polar wander likely fostered survival of nascent life on our planet,” the authors explain.
"This isn’t the first research showing that plate tectonics may not have been active in Earth’s earliest days. Earth likely had at least one magma ocean phase, and some research shows that the crust may have formed into one more-or-less complete crust before tectonics began. A 2020 paper showed that the end of the Archaean, about 2.5 billion years ago, “marks the period in which plate tectonics became the dominant tectonic regime on Earth.”
"There’s more. A 2011 study based on diamonds on the subcontinental mantle showed that modern plate tectonics started 3 billion years ago. And a 2005 research article based on ophiolites—chunks of oceanic plate thrust up at the edge of continental plates—suggested that modern subductive plate tectonics began in the Neoproterozoic, between 1 billion to 538.8 million years ago.
"It’s not surprising that there are different estimates for the appearance of plate tectonics. Earth’s history is deeply concealed, and in many cases, totally erased. Different studies have regarded different pieces of evidence as pivotal, and there’s no way to figure it all out except to keep studying it.
Comment: this shows early life did not need plate tectonics but it supported later more complex life.
Privileged Planet: hot period forty million years ago
by David Turell , Sunday, September 03, 2023, 17:06 (235 days ago) @ David Turell
Related to clay formation:
https://phys.org/news/2023-09-clay-formation-prolonged-global-event.html
"Global warming is not solely a modern-day occurrence but has been a prominent feature of Earth's geological history for millennia. One such event occurred approximately 40 million years ago, lasting ~400,000 years, known as the Middle Eocene Climatic Optimum (MECO).
"This event is considered unusually long when compared to climatic perturbations earlier in the Eocene, such as the Paleocene-Eocene Thermal Maximum approximately 56 million years ago, which lasted ~200,000 years. New research published in Nature Geoscience suggests the MECO may have been impacted by changes to rock weathering, specifically the weathering of silicate minerals, such as quartz, feldspar, mica, pyroxene and clays.
***
"Chemical weathering of silicate rocks helps to counterbalance rising atmospheric carbon dioxide levels, as this gas dissolves in rainwater and the acidic product then weathers rocks, with new minerals formed and often producing calcium carbonate that is then stored on the seafloor. Therefore, drawing carbon dioxide out of the atmosphere helps to reduce the effects of greenhouse forcing and so decreases the planet's temperature.
"Dr. Alexander Krause from University College London, U.K., and colleagues conducted analyses on carbonate rock cores obtained from the seabed from ocean drilling projects in the equatorial and southern Atlantic Ocean and equatorial Pacific Ocean. They measured lithium isotope ratios (the relative abundances of the same element but with different atomic masses, 6Li and 7Li, herein referred to as δ7Li), which is considered an indicator of silicate weathering.
***
"...the result is dissolution of carbonate outpacing sedimentation. The suggestion by Dr. Krause and colleagues is that more clay formation on land would retain calcium and magnesium, which are attracted to clays in soils, thus reducing the calcium reaching the ocean to form carbonates on the seafloor.
"The weathering regime for this scenario is plotted on a Dellinger boomerang to determine changes in weathering intensity. Prior to the MECO, erosion was relatively low on high-latitude floodplains being exposed as sea level decline, as well as small pockets in the tropics where near-surface air temperatures likely reached more than 30°C, leading to global net dissolution of secondary minerals.
"However, with time an increased hydrological cycle and volcanic activity incising bedrock with lava flows would have changed this to a pattern of primary mineral erosion, with formation of secondary clays. These clays harvested calcium and magnesium, disrupting the transport of the former to the ocean and the carbonate-silicate cycle (terrestrial silicate rock dissolution and marine carbonate formation). Finally, a tipping point would have been reached so that the cycle once again reversed, where clay dissolution outweighed clay formation. (my bold)
"Consequently, a global increase in atmospheric carbon dioxide and surface temperatures alongside the erosion would likely have sustained the MECO for longer and Dr. Krause's modeling suggests that this weathering regime from ~40 million years ago is not too dissimilar to that experienced today."
Comment: an example of the constant cycling of major systems on Earth. Our current environmental warming is simply part of the constant slow change. It is a reminder of the long term affects weathering and erosion. The Earth is constantly evolving. Our presence is a major factor.
Privileged Planet: how plants changed it
by David Turell , Wednesday, September 13, 2023, 17:12 (225 days ago) @ David Turell
An enormous review:
https://www.livescience.com/planet-earth/plants/once-again-innovation-and-proliferation...
"Plants are so ubiquitous on land that it's hard to imagine their absence, but for almost 90% of Earth's history, there was no life on land, or at the very least no plants. Land plants emerged a little more than 400 million years ago, which compared with the 4-billion-year history of life on Earth, is comparatively recent.
"This evolutionary leap allowed them to become (arguably) only the second group of organisms to radically change the world, a full 2 billion years after the first, cyanobacteria, oxygenated the planet. Their world-changing predecessors precipitated a Great Oxidation Event that was likely the biggest environmental disaster in history — but also set the stage for all multicellular life on Earth. Land plants did not have quite this big an impact, but theirs was greater than any other group of organisms in the intervening two billion years.
"For reasons I'll explore below, plants' evolutionary innovations are, in some ways, best understood through their connection to their cyanobacterial predecessors, and to the next group of world-changing organisms to evolve — humans. That connection lies in Life's Formula, the five elements that make up all living things: hydrogen, oxygen, carbon, nitrogen and phosphorus.
***
"As with the cyanobacterial revolution that oxygenated the planet, the evolutionary innovations that allowed plants to complete the slow march landward revolved around access to the elements in Life's Formula. A first, and critically important, step was to bring the photosynthetic machinery from the ocean with them. The chloroplasts in plant leaves — the place where photosynthesis occurs — have their own DNA. It's the DNA of photosynthetic ocean bacteria that, long ago, merged into plant cells. Chloroplasts are thus an example of endosymbiosis — an organism within an organism. As a result of this endosymbiosis, the chemical reaction of plant photosynthesis is the same as cyanobacteria photosynthesis. It uses the same machinery. That is why land plants pump out oxygen during photosynthesis in the same way cyanobacteria do.
***
"Because land plants inherited their photosynthetic machinery from their ocean-dwelling, single-celled ancestors, they use the same hyper-efficient, water-reliant photosynthesis. They split water using the energy from sunlight, capture CO2, and produce sugars to build their cells (and oxygen, by evolutionary accident). But every moment they open their leaves tiny pores to let CO2 diffuse in from the air they lose scarce water out through the same conduit. This is a scarcity ocean-dwellers don't have to deal with.
***
"By colonizing the continents and moving to the source of the elements whose availability constrained their ocean-dwelling ancestors, land plants set themselves up to become the second great world-changers.
***
"Land plants made three key innovations. First, they found a new way to capture sunlight and thus carbon. In this case the innovation wasn't a new biochemical reaction but the movement of this reaction to a new place. Second, they evolved a way to withstand water scarcity on land by building root networks and partnering with fungi (among other things). Finally, they became miners, digging for critical rock derived nutrients that were, and remain, scarce in the ocean. Their innovations in getting water and nutrients allowed their wild proliferation. (my bold)
***
"Eventually, plants' innovations pulled enough CO2 out of the air that the greenhouse effect began to weaken. The pan-tropical Earth, which had supported great forests across most of its land, began to cool. It is unclear how long the process took before Earth chilled enough to have ice ages.
***
"The process driven by plants was slow: a drip, drip, drip out of the bank account of CO2 in the air and a transfer of that carbon below ground. Some of that carbon was gradually compressed, concentrated, and turned into coal. Then, 300 million years after those tropical trees succumbed to environmental changes of their own making, the next world-changing organism, humans, discovered that carbon-rich bank account.
"We began burning this stored carbon at a rate never before seen in the history of our planet. We used the energy that burning produced to build dams and capture water, allowing us and our crops to stay hydrated on land. We used that energy to industrially fix nitrogen and mine phosphorus to fertilize our now-irrigated farms. And we too, are changing the world, even faster than our predecessors. But like them, our success, and environmental peril, is tied inextricably linked to the elements in Life's Formula."
Comment: all living organisms modify our Earth. The environment we have now has ice at both poles. We humans arrived long after a very tropical Earth moderated. dhw's obsession with 'humans and their food' is shown by this very long article to be a false premise. All of that food development as a giant bush of life, was actually a process of evolving the Earth through time. Very long read filled with many biochemical insights.
Privileged Planet: our rocks are different
by David Turell , Thursday, October 19, 2023, 17:12 (189 days ago) @ David Turell
We have rocks not all like the other planets in this solar system:
https://www.nationalgeographic.com/science/article/earth-geology-rare-rocks-solar-syste...
"In fact, our planet is something of a geological oddball given what we know about our solar system neighbors. Granite isn’t the only rock that’s ordinary on Earth but rare on other worlds. These missing rocks can add up to entire missing landscapes: beyond Earth, you’d have a tough time finding anything like the limestone columns of Hạ Long Bay, a stratovolcano like Mt. Fuji, or even quartz sand dunes.
"Scientists discuss the ordinary rocks found on Earth’s surface that are special, rare, or nonexistent elsewhere in the solar system—based on our current knowledge.
***
"Igneous rocks, which form from magma (which is called lava when it erupts on the surface), aren’t anything special in our solar system. The surfaces of the moon, Mars, Mercury, Venus, and even Jupiter’s angry little moon Io are all overwhelmingly volcanic. But ordinary magma doesn’t usually make granite—it has to be recycled first.
"Fresh from the interior of a planet, magma usually forms a blackish rock called basalt—not granite, says planetary geoscientist Harry McSween of the University of Tennessee. Granite, which usually forms from magmas that cooled and partially re-melted over and over—the minerals like quartz in granite melt easily, so they liquefy and separate from the leftover solid as rocks start to melt. The resulting recycled magmas form many different types of granite and granite-like rocks, which make up most of the Earth's continental crust.
***
“'Earth, with plate tectonics and water, has this easy way of making granite all the time,” says planetary scientist Matthew Siegler of the Planetary Science Institute in Tucson, Arizona, who helped spot the granite on the moon. “But none of the other planets have that.”
***
"Sedimentary rocks like sandstones form when preexisting rocks break down into bits that pile up and stick together to form a new rock. Pressure helps this process along, but it’s not enough on its own—“you need water to help cement together the different particles that are coming together,” says Mars geologist Kirsten Siebach of Rice University.
***
"Of course, the Earth’s plate tectonics and water are not the only things to set it apart. Our home planet is the only one to host life—and the rocks here show it.
"Take limestone, a chalky rock rich in minerals called carbonates. Limestone is common on Earth because life produces it en masse: the rock forms when shells and skeletons of ocean creatures, especially from coral reefs, pile up on the seafloor as the organisms die. When these remains cement together, they form enormous blocks of limestone.
"Life speeds up limestone formation so much that “even geologists sometimes think that limestone can only form with life,” says Siebach. But lifeless processes can make carbonate-rich rocks like limestone, too. The key ingredients are a bit of shallow, warm water that’s not too acidic and some carbon dioxide — both of which existed on Mars in the past.
***
"Marble would be very strange to find in space, and not only because it starts off as limestone. It’s a metamorphic rock, which means it becomes something new under extreme heat and pressure without melting.
"On Earth, metamorphism usually happens slowly and deep underground. The heat and pressure at depth transform rocks and minerals, which is how graphite becomes diamond and limestone becomes marble. But on other worlds, it’s more typical to find metamorphic rocks forged in the split-second shock of a meteoroid impact.
“'The rocks are exposed to very high pressures and high temperatures, but only fleetingly,” McSween says.
***
"Ultimately, if we could drill deep enough, we’d actually find metamorphic rocks on every planet, says McSween. But the Earth is special. Thanks to plate tectonics, rocks from the deep interior and the surface trade places all the time, substantially expanding our planet’s unusual geological repertoire.
"On Earth, there’s an efficient way “to get those rocks up to the surface and cycle surface rocks down to be metamorphosed,” McSween says. “And we really don't have any process that does that on other planets.'”
Comment: The Earth with its abundant water, floating continental plates on its surface, massive volcanic activity and active subduction evolved to this point over time with the help of living matter. Formed by natural chance contingencies or purposeful design? Very difficult to ignore design.
Privileged Planet: deep plate studies
by David Turell , Sunday, October 29, 2023, 18:59 (179 days ago) @ David Turell
A deeper analysis using garnets:
https://www.sciencedaily.com/releases/2023/10/231027110729.htm
"Examining how plates move in Earth's mantle and how mountains form is no easy feat. Certain rocks that have sunk deep into Earth's interior and then returned from there can deliver answers.
"Geoscientists analyze rocks in mountain belts to reconstruct how they once moved downwards into the depths and then returned to the surface. This history of burial and exhumation sheds light on the mechanisms of plate tectonics and mountain building. Certain rocks that sink far down into Earth's interior together with plates are transformed into different types under the enormous pressure that prevails there. During this UHP metamorphosis (UHP: Ultra High Pressure), silica (SiO2) in the rock, for example, becomes coesite, which is also referred to as the UHP polymorph of SiO2.
***
"The research team analyzed whiteschist from the Dora Maira Massif in the Western Alps, Italy. "Whiteschists are rocks that formed as a result of the UHP metamorphosis of a hydrothermally altered granite during the formation of the Alps," explains Duretz. "What is special about them is the large amount of coesite. The coesite crystals in the whiteschist are several hundred micrometers in size, which makes them ideal for our experiments." The piece of whiteschist from the Dora Maira Massif contained pink garnets in a silvery-white matrix composed of quartz and other minerals.
***
"According to Duretz, the previous assumption that UHP rock reaches a depth of 120 kilometers seems less probable in view of this rapid decompression because the ascent from such a depth would take place over a long period of time, which does not equate with the high decompression rate, he says. "We rather presume that our whiteschist lay at a depth of only 60 to 80 kilometers," says the geoscientist. And the processes underway in Earth's interior could also be quite different than assumed in the past. That rock units move continuously upwards over great distances, from a depth of 120 kilometers to the surface, also seems less probable than previously thought. "Our hypothesis is that rapid tectonic processes took place instead, which led to minimal vertical plate displacements." We can imagine it like this, he says: The plates suddenly jerked upwards a little bit in Earth's interior -- and as a result the pressure surrounding the UHP rock decreased in a relatively short time."
Comment: We are on a perfect planet for life. Contingencies or serendipity? Or God.
Privileged Planet: core movements
by David Turell , Sunday, January 07, 2024, 16:19 (109 days ago) @ David Turell
Makes the life-saving magnetic field:
https://www.popularmechanics.com/science/environment/a46191284/why-earths-core-mysterio...
"Few things are more vital to our existence—yet less understood—than the Earth’s inner core. Surrounded by a cocoon of liquid metal (aka the outer core), this solid mass of nickel and iron at the planet’s heart is what creates the Earth’s magnetic field, which protects all life from harmful solar radiation. Despite this essential, life-sustaining function, the inner core remains a huge mystery for geologists eager to understand the deep workings of the world.
***
"Their study, published this month in the journal Nature Communications, argues that this “Inner Core Wobble” (ICW) occurs every 8.5 years and implies that the static tilt of the core is 0.17 degrees different from the rotation axis of the mantle. The team came to this conclusion by studying polar motion (PM) and length-of-day changes (ΔLOD).
“'This implies a potential eastward differential rotation angle of the inner core of less than 1 degree and misalignment in the symmetry axes of the lower mantle/core-mantle boundary layer with the upper mantle,” Wuhan University research and study co-author Hao Ding said in an interview with Phys.org. “These deviations offer valuable constraints for the 3D density model of the mantle and question assumptions in the liquidity-core oblate, highlighting potential deviations from a perfectly spherical form calculated using traditional theories.”
"In another study from 2018, Ding first discovered evidence of the 8.5-year harmonious signal while studying the subtle movement of Earth’s poles over time. The core’s tilt, as compared to the mantle, goes against the typical hypothesis that the tilt of those two layers are in sync. Ding also thinks that the origin of this “signal” could explain why the Earth’s magnetic field changes over time.
***
"While this theory explains some of the mysterious oddities surrounding the Earth’s inner core, it’s only one theory among several. As Vice notes, one idea points the finger instead at the push-and-pull forces between the Earth’s magnetic field and its gravitational field. Another focuses on the irregular shape of the core itself."
Comment: without the magnetic field we would be open to various killing rays from the universe. Our Earth's core is designed to produce the field.
Privileged Planet: enough oxygen
by David Turell , Thursday, January 18, 2024, 20:02 (98 days ago) @ David Turell
More than 18% is enough for technology:
https://bigthink.com/13-8/oxygen-bottleneck/?utm_campaign=weeklynewsletter&utm_sour...
"The paper was called “The Oxygen Bottleneck for Technospheres” and its idea was simple: To make advanced technology, you need to be able to raise the temperature of the stuff you use to make that technology. Think about metallurgy. If you want to build something like a radio telescope, you’ll need to extract a bunch of iron, nickel, copper, and other raw materials from the ground and then you’ll need to heat them. The heat is required so that the metals melt and can be mixed to make alloys or be fashioned into the shapes you need (like struts or wires). Getting high temperatures may also be important for other things beyond metallurgy, as even the ability to cook food has been implicated in the development of human intelligence (nutrients are more available in cooked food).
***
"Combustion is basically an exothermic chemical reaction that requires a fuel and an oxidizer. The “exo” here means that once a spark is applied, combustion reactions begin giving off heat. The reactions continue until either the fuel or the oxidizer are exhausted...The main point of it all was that oxygen turns out to be the best all-around oxidizer. (Other elements like fluorine actually give off more energy in combustion, but they tend to be so reactive that they corrode everything they touch.)
"It was this simple fact, drawn from the famous periodic table you slept through in high school, that led us to conclude that only planets with oxygen in their atmosphere could host technological civilizations. The next question is how much oxygen an atmosphere needs. Drawing on experiments carried out across disciplines as varied as combustion engineering to biogeochemistry, we found that an atmosphere with anything less than 18% oxygen would not allow open-air combustion. Remarkably, for most of our planet’s 4.5-billion-year history, Earth’s oxygen levels have been way, way below 18%. In fact, only over the past 500 million years or so has the atmosphere held enough oxygen for anything to freely burn in the open air.
"Why does any of this matter? Imagine a young and intelligent species on an alien world with an atmosphere that’s just 1% oxygen. Those clever tool-using creatures would never get the chance to watch a tree burn after being hit by lightning and get the idea of using fire for their own purposes. They would never have the chance to learn how fire could be used to cook food, clear land, or, most importantly, melt metals. The poverty of oxygen in their air would likely box these creatures in forever, limiting their development. This is what Prof. Balbi and I meant by the “oxygen bottleneck.” Widespread technological development requires simple and easy access to high temperatures and open-air combustion is the simplest and easiest way for that to happen (would volcanic vents, for example, be so prevalent to allow industries to evolve?). That’s why oxygen-rich atmospheres matter. Planets with them may be the only ones that host intelligence and civilizations.
"The “oxygen bottleneck” may leave aliens stuck with primitive technology on LinkedIn
What are the planetary prerequisites for the evolution of an intelligent, technological species? If humanity is going to search the galaxy for exoplanets with signatures of technological intelligence — and we’re starting to do just that — what kinds of planets should we focus on: Planets with a mix of oceans and land? With plate tectonics? Magnetic fields? In other words, what kinds of planets are conducive to the development of a world-spanning technological civilization?
"But how many of these sorts of high-oxygen planets does the galaxy hold? If the numbers are really small, then we might end up being oxygen-rich but companion-poor."
Comment: we can live in much less than 18% oxygen, as in Tibet. But we need oxygen-driven technology. The paper makes a great point. Most of this technology is at sea level.
Privileged Planet: another review
by David Turell , Saturday, February 03, 2024, 04:12 (82 days ago) @ David Turell
In the habitable zone:
https://www.universetoday.com/165380/the-galactic-habitable-zone/
"Our planet sits in the Habitable Zone of our Sun, the special place where water can be liquid on the surface of a world. But that’s not the only thing special about us: we also sit in the Galactic Habitable Zone, the region within the Milky Way where the rate of star formation is just right.
"The Earth was born with all the ingredients necessary for life – something that most other planets lack. Water as a solvent. Carbon, with its ability to form long chains and bind to many other atoms, a scaffold. Oxygen, easily radicalized and transformable from element to element, to provide the chain reactions necessary to store and harvest energy. And more: hydrogen, phosphorous, nitrogen. Some elements fused in the hearts of stars, other only created in more violent processes like the deaths of the most massive stars or the collisions of exotic white dwarfs.
"And with that, a steady, long-lived Sun, free of the overwhelming solar flares that could drown the system in deadly radiation, providing over 10 billion years of life-giving warmth. Larger stars burn too bright and too fast, their enormous gravitational weight accelerating the fusion reactions in their cores to a frenetic pace, forcing the stars to burn themselves out in only a few million years. And on the other end of the spectrum sit the smaller red dwarf stars, some capable of living for 10 trillion years or more. But that longevity does not come without a cost. With their smaller sizes, their fusion cores are not very far from their surfaces, and any changes or fluctuations in energy result in massive flares that consume half their faces – and irradiate their systems.
"And on top of it all, our neighborhood in the galaxy, on a small branch of a great spiral arm situated about 25,000 light-years from the center, seems tuned for life: a Galactic Habitable Zone.
Too close to the center and any emerging life must contend with an onslaught of deadly radiation from countless stellar deaths and explosions, a byproduct of the cramped conditions of the core. Yes, stars come and go, quickly building up a lot of the heavy elements needed for life, but stars can be hundreds of times closer together in the core. The Earth has already suffered some extinction events likely triggered by nearby supernovae, and in that environment we simply wouldn’t stand a chance. Explosions would rip away our protective ozone layer, exposing surface life to deadly solar UV radiation, or just rip away our atmosphere altogether.
"And beyond our position, at greater galactic radii, we find a deserted wasteland. Yes, stars appear and live their lives in those outskirts, but they are too far and too lonely to effectively spread their elemental ash to create a life-supporting mixture. There simply isn’t enough density of stars to support sufficient levels of mixing and recycling of elements, meaning that it’s difficult to even build a planet out there in the first place.
"And so it seems that life would almost inevitably arise here, on this world, around this Sun, in this region of the Milky Way galaxy. There’s little else that we could conceivably call home."
Comment: it is obvious unless the conditions were exactly like this we wouldn't be here. Serendipity or planning?
Privileged Planet: a reminder of the moon's contribution
by David Turell , Thursday, February 08, 2024, 19:38 (77 days ago) @ David Turell
From a book review:
https://www.sciencenews.org/article/moon-book-life-earth-human-history
"Boyle recognizes that the moon’s impact on humankind is far more vast and multifaceted. After all, the moon helped shape Earth into the home we know, she writes in her new book, Our Moon. At the outset, Boyle promises to convince readers of the moon’s extensive influences, both biological and spiritual. Over nearly 300 pages, she delivers.
***
"Boyle incorporates new research on how the moon formed 4.5 billion years ago, pointing to geologic evidence that may still be entombed deep within Earth’s mantle (SN: 11/1/23). And contrary to what Apollo photos suggest, the moon’s surface sparkles with technicolor hues, astronauts reported. “The Moon was not gray, but a landscape flecked with color,” Boyle writes. “Analysis of the Moon rocks has since found volcanic glass in every color of the spectrum.”
"And then there are the ways the moon has influenced life on Earth. The tides pulled our ocean-confined ancestors out of the water. Extremes between high and low tides in the distant past kept beaching marine life; those that could breathe in air or developed limbs for walking became the earliest landlubbers. Acting as a mini counterweight to the Earth’s own heft, the moon has kept our planet’s axis from lurching all over the place, thereby preventing extreme climate swings over millennia. The moon also inspired the first religions, and its study spawned the first science.
***
"That masterful weaving is on display when Boyle recounts the moon’s role in keeping track of time. “Time confers power to whoever commands it,” she writes, and it remains “the simplest and most predictable way to seize that command.” Stone Age Scots, Mesopotamians and Native Americans understood the power of the lunar cycles, and they erected monuments to track the moon’s trek across the sky. But around 45 B.C., Julius Caesar designed a calendar that banished the moon from its timekeeping duties. Now, society mostly looks to the sun as our daily metronome.
"Today, we’re at another juncture where the moon might further drop from its standing of reverence and communion. Soon, astronauts will return there, with the United States, China and other countries scoping out landing sites (SN: 11/16/22). Instead of being endeavors for the benefit of all humankind, these explorations will probably be a nationalistic race for scientific real estate, Boyle warns. Our heavenly neighbor is also being eyed as a mining outpost, a junkyard, a waystation for deep space travel or a settlement destination. The moon, she worries, may fall into the ravenous maw of capitalism.
"Still, the moon is more than just another target for humankind’s material ambitions. Our Moon reminds us that our “silvery sister” has given us our habitable climate, sciences and cultures. These gifts are more than enough; they are priceless."
Comment: the single moon is our necessary partner. It is much better than multiple moons pulling our oceans in several directions.
Privileged Planet: how quantum effects of CO2 warm us
by David Turell , Thursday, February 15, 2024, 16:55 (70 days ago) @ David Turell
A new study shows how CO2 captures heat:
https://www.sciencealert.com/quantum-phenomenon-explains-tiny-molecules-huge-impact-on-...
"The reason why CO2 is so good at trapping heat essentially boils down to the way the three-atom molecule vibrates as it absorbs infrared radiation from the Sun.
"It is remarkable," Harvard University planetary scientist Robin Wordsworth and colleagues write in their new preprint, "that an apparently accidental quantum resonance in an otherwise ordinary three-atom molecule has had such a large impact on our planet's climate over geologic time, and will also help determine its future warming due to human activity." (my bold)
"When hit with incoming rays of light at certain wavelengths, CO2 molecules don't just jiggle about as one fixed unit as you might expect. Rather, CO2 molecules – which are made up of one carbon atom flanked by two oxygens – bend and stretch in certain ways.
"...the two oxygen atoms can stretch outward and the central carbon atom may or may not follow, or the carbon atom can swivel around the main axis of the molecule, bending it.
"A chance alignment in two of these vibrational patterns creates a type of quantum hum in CO2 molecules called Fermi resonance, which can make the molecules vibrate more. (my bold)
"In turn, this broadens the range of radiation that gets absorbed by CO2, as Wordsworth explained in an interview with New Scientist's Alex Wilkins. "It's this broadening which is really critical to understanding why carbon dioxide is an important greenhouse gas," he said.
***
"Other studies have recently estimated that the Fermi resonance of CO2 contributes around half of its total warming effect, otherwise known as radiative forcing.
***
"As it stands, the team's work instills a new appreciation of teensy, transparent CO2 – the fateful molecule upon which our lives depend.
"'One can imagine that with minor differences in the quantum structure of CO2, this resonance might be changed or inhibited, and the past and future evolution of our planet's climate would be very different," the researchers conclude." (my bolds)
Comment: my bolds point out the authors' point of view, that this happened all by chance. There was a 'snowball Earth' that is blocked by CO2 from reappearing. Moving diagrams in the article show how CO2 does it. Rather than serendipity, a designer makes sense.
Privileged Planet: wandering CO2 levels
by David Turell , Monday, March 11, 2024, 21:07 (45 days ago) @ David Turell
Disastrously low at one point:
https://wattsupwiththat.com/2024/03/10/how-co2-starvation-caused-the-greatest-extinctio...
"Around 400 million years ago during the Devonian, carbon dioxide concentrations were over 2000 ppm, 5 times higher than today’s level. That allowed evolving land plants to rapidly spread across the land. Plant species diversified and increased so rapidly it was called the Devonian Explosion. Marine species likewise multiplied enabling greater fish speciation, so the Devonian was called the Age of Fishes. However, by the end of the Devonian, the increase in photosynthesizing plants had greatly reduced CO2 concentrations to near dangerous levels. (my bold)
"During the following geologic period known as the Carboniferous, great forests of primitive Lycopod trees now covered the earth’s wetlands. Trees buried in the swamps were slow to decompose, creating some of the earth’s greatest coal deposits. That further sequestered CO2. Some research suggests CO2 levels fell as low as 150 ppm, plant starvation levels. That led to the Carboniferous Rainforest Collapse around 305 million years ago. Low CO2 levels also correlated with a die-off of ocean algae known as the “Phytoplankton Blackout”. This dramatic collapse in primary production on land and in the sea, disrupted the earth’s Permian food web and set in motion a series of long-drawn-out extinctions known as “Dead Clades Walking”. (my bold)
"The vigorous photosynthesis of the Carboniferous had also generated the earth’s greatest levels of oxygen. Compared to our atmospheric oxygen of 21%, oxygen levels reached 30 to 35%. High levels of oxygen allowed giant arthropods to evolve. It also enabled amphibian ancestors, that breathed by absorbing oxygen through their skin, to better colonize the land. However, as forest species and phytoplankton went extinct, oxygen levels plummet. As a result, the giant arthropods, as well as primitive amphibians like Euryops, adapted to more abundant oxygen, were the first to go extinct by the early Permian around 295 million years ago. Falling oxygen concentrations also reduced land animals’ ability to use high altitude ecosystems.
"Starting with the Olson Extinction land plants experienced >60% extinction rates, rates lasting into the middle Triassic period. Plant eating reptile-like species, such as Diadactes and Edaphosaurus, went extinct by 272 million years ago, along with the Dimetrodon predators, further restructuring ecosystems. Mid-Permian extinctions continued culminating in another mass extinction event known as Capitanian orLate Guadalupian extinctions between 262 and 259 million years ago with some regions indicating extinction of 74-80% of all vertebrate genera. Driven by the phytoplankton blackout, 35-45% of marine invertebrate species went extinct during this time, and all caused a cascade of biological disruptions.
"The subsequent Great Dying or end Permian Extinction 252 million years ago was simply the culmination of “dead clades walking” that began with CO2 starvation, the rain forest collapse, and phytoplankton blackout. The end Permian saw 81% of the remaining marine species and 70% of remaining terrestrial vertebrate species go extinct. The loss of forests and their ecosystem continued throughout the entire Permian as reflected by the absence of coal deposits.
"However, biased by the rapid extinction event 66 million years ago when a meteor struck earth, many researchers looked for a similarly rapid extinction event, like a volcanic eruption. Despite the life-promoting benefits from high CO2 and increased biodiversity during the Devonian, researchers were biased by recent narratives suggesting rapidly rising CO2 is a deadly killer. So, several researchers blamed end Permian extinctions on a series of volcanic eruptions, the Siberian Traps, narrowly centered around 252 million years ago for the release of copious amounts of CO2. If history teaches us anything, because that release raised CO2 concentrations back to over 2000 ppm, it more likely enabled the new expansion of life on earth, like it did during the Devonian, now with the rapid spread of flowering plants, the Age of Dinosaurs, and the further evolution of birds and mammals.
"And again, if history teaches us anything, we must ensure that attempts to reduce CO2 concentrations do not result in devastating CO2 starvation ever again." (my bold)
Comment: This article shows us the massive extinctions of species that helped produce Roup's estimated loss of 99.9% of all organisms that ever existed during all the evolution until the present. This is not to diminish the leading roles of CO2 and oxygen in directly influencing and creating the driving forces of evolution. Viewed this way, pruning twigs along the way was a minor contributor.
Privileged Planet: worms' contribution to soils
by David Turell , Monday, March 11, 2024, 22:36 (45 days ago) @ David Turell
Not much to grow on without worms turning soil over as they work:
https://www.nature.com/articles/d41586-024-00690-9
"Nature spoke to palaeontologist Luke Parry at the University of Oxford, UK. He studies worms from the Cambrian and Ordovician periods, which together lasted from roughly 540 million to 444 million years ago.
"There are annelid worms that get up to several metres in length called eunicid worms, a type of bristle worm. They’re pretty gnarly — they have big jaws, they look a bit like Graboids from the 1990 film Tremors. Some of them are ambush predators. They eat octopuses, squid, vertebrates.
"There are some earthworms that get really big, as well. Megascolides reaches up to 2 metres. The biggest ones are from Australia.
"The worms in Dune have lots of teeth around their mouths, and that’s what the Fremen use to make their crysknives. There are worms like that, called priapulids. These are the sorts that were making the first complex burrows in the early Cambrian. They use all of these teeth, called scalids, on a proboscis to drag themselves through burrows. Alitta worms — sandworms — and ragworms have teeth for catching prey. Some leeches have teeth.
***
"Before the advent of worms, the sea floor would have been smothered with what are called microbial mats. All the sediment would have been anoxic, without oxygen. If you’ve ever gone swimming in a river or a lake and it’s muddy and you plunge your foot into it, and it’s smelly and anoxic, that’s basically what the entire sea-floor environment would have been around the world.
"Then, all of a sudden, some animals evolve a wormy body plan that allows them to move in three dimensions. They start burrowing into sediments, and that means that oxygen can get into the sediments and complex animal life can live there. It opens up new ways of making a living. Worms are part of this fundamental restructuring of the world. (my bold)
***
"There are about 30 animal body plans — what we call the animal phyla, the big groups that we chop up animal diversity into — and more than half of them are worms. It’s a really good, versatile way of making a living. Lots of things that didn’t start off as worms just become worms. There are groups of lizards that lose their limbs, like snakes and amphisbaenians, worm lizards. There are worms that live in hydrothermal vents in the deep sea."
Comment: the advent of worms following lichen breaking down rocks made the very fertile soils we have on Earth. samev old story. Life on earth modified the planet into what is present today. Taken from an interview comparing 'Dune' film worms to real ones.
Privileged Planet: Geologic carbon cycle
by David Turell , Thursday, March 20, 2014, 16:56 (3689 days ago) @ David Turell
Described in "Rare Earth". Now more proof:-http://www.sciencedaily.com/releases/2014/03/140319143904.htm-"Like many other large mountain ranges, such as the great Himalayas, the Andes began to form during the Cenozoic period, which began about 60 million years ago and happened to coincide with a major perturbation in the cycling of atmospheric carbon dioxide. Using marine records of the long-term carbon cycle, Torres, West, and Li reconstructed the balance between CO2 release and uptake caused by the uplift of large mountain ranges and found that the release of CO2 release by rock weathering may have played a large, but thus far unrecognized, role in regulating the concentration of atmospheric carbon dioxide over the last roughly 60 million years."
Privileged Planet: Lots of water
by David Turell , Saturday, June 14, 2014, 14:45 (3603 days ago) @ David Turell
Perhaps in the mantle transition zone:-http://wattsupwiththat.com/2014/06/13/new-evidence-for-oceans-of-water-deep-in-the-earth/-More than all the oceans combined
Privileged Planet: Dangerous Electrons blocked
by David Turell , Thursday, November 27, 2014, 14:48 (3437 days ago) @ David Turell
"The latest mystery revolves around an "extremely sharp" boundary at the inner edge of the outer belt at roughly 7,200 miles in altitude that appears to block the ultrafast electrons from breeching the shield and moving deeper towards Earth's atmosphere.-"It's almost like theses electrons are running into a glass wall in space," said Baker, the study's lead author. "Somewhat like the shields created by force fields on Star Trek that were used to repel alien weapons, we are seeing an invisible shield blocking these electrons. It's an extremely puzzling phenomenon."-"The team originally thought the highly charged electrons, which are looping around Earth at more than 100,000 miles per second, would slowly drift downward into the upper atmosphere and gradually be wiped out by interactions with air molecules. But the impenetrable barrier seen by the twin Van Allen belt spacecraft stops the electrons before they get that far, said Baker.-"The group looked at a number of scenarios that could create and maintain such a barrier. The team wondered if it might have to do with Earth's magnetic field lines, which trap and control protons and electrons, bouncing them between Earth's poles like beads on a string. The also looked at whether radio signals from human transmitters on Earth could be scattering the charged electrons at the barrier, preventing their downward motion. Neither explanation held scientific water, Baker said.-"Nature abhors strong gradients and generally finds ways to smooth them out, so we would expect some of the relativistic electrons to move inward and some outward," said Baker. "It's not obvious how the slow, gradual processes that should be involved in motion of these particles can conspire to create such a sharp, persistent boundary at this location in space.""-http://www.sciencedaily.com/releases/2014/11/141126133829.htm
Privileged Planet: Lots of water
by David Turell , Thursday, December 11, 2014, 15:09 (3423 days ago) @ David Turell
Our Earth's surface is 2/3rds ocean. We still don't know where it came from or how:-http://www.bbc.com/news/science-environment-30414519-But it sure is necessary to support life
Privileged Planet: Self-made water?
by David Turell , Wednesday, December 17, 2014, 15:48 (3417 days ago) @ David Turell
Water from within the Earth:--"When we look into the origins of water on Earth, what we're really asking is, why are we so different than all the other planets?" Panero said. "In this solar system, Earth is unique because we have liquid water on the surface. We're also the only planet with active plate tectonics. Maybe this water in the mantle is key to plate tectonics, and that's part of what makes Earth habitable."- Read more at: http://phys.org/news/2014-12-hints-ancient-earth-watergeologically.html#jCp
Privileged Planet: Mineral evolution
by David Turell , Saturday, February 21, 2015, 14:37 (3351 days ago) @ David Turell
Earth's minerals evolved to allow life according to Robert Hazen, leading OOL researcher:-https://www.simonsfoundation.org/lecture/mineral-evolution-and-ecology-and-the-co-evolution-of-life-and-rocks/-"Earth's geological and biological evolution are intertwined in remarkable ways that are coming into sharper focus thanks to studies of the diversity and distribution of minerals. Robert Hazen will explore the emerging field of ‘mineral evolution' and reveal how Earth, which is unique among known worlds in its biosphere, is unique in its geosphere as well.-"In this lecture, Robert Hazen will examine how Earth's near-surface environment has evolved as a consequence of selective physical, chemical and biological processes — an evolution that is preserved in the mineralogical record. Recent studies of mineral diversification through time reveal correlations with major geochemical, tectonic and biological events, including large changes in ocean chemistry, the supercontinent cycle, the origins of life, the increase in atmospheric oxygen and the rise of the terrestrial biosphere. Growing data resources also point to new opportunities for applying statistical methods and visualization strategies for deep-time — or geologic time — data. Among our most provocative findings: Earth is mineralogically unique in the cosmos."
Privileged Planet: hard to fnd one like us
by David Turell , Monday, June 01, 2015, 04:14 (3251 days ago) @ David Turell
New simulations show how tough it is:-http://planetquest.jpl.nasa.gov/news/192-"For planets to be habitable, they must orbit stars within the 'habitable zone' where it is not too hot or too cold. In addition, recent studies on habitability of planets suggest that the water-land ratio must be similar to the Earth. That is, the water mass fraction should not be far from that of the Earth's (~0.01wt%): planets with too much water (> 1 wt%)-"ocean planets"-lead to an unstable climate and lack of nutrient supply; and water-poor planets like Venus -"dune planets"-become too arid for inhabiting.-***-"Although the detailed numbers in the statistics are not important, Ida and Tian highlight the contrast in the fraction of planets in the habitable zones having Earth-like water content between Sun-like stars and lower-mass stars is significant. At the same time, they caveat that further studies are needed to determine how efficiently water is retained in the mantle, as well as the evolution of its release to the surface."
Privileged Planet: formation of continents
by David Turell , Saturday, June 27, 2015, 18:19 (3225 days ago) @ David Turell
Perhaps 3 billion years ago. Therefore all life developed in the oceans and only come up on land when land was available:-http://www.livescience.com/51359-continents-formed-3-billion-years-ago.html?cmpid=NL_LS_weekly_2015-06-27-"The continents are composed of a thick, buoyant crust that's about 21 miles (35 km) deep, on average, whereas the comparatively thin, dense crust of the ocean floor is only an average of about 4 miles (7 km) thick. Because the continents are so thick and buoyant, they are less likely to get dragged downward. That's why so many ancient continental rocks have survived in the Earth's crust. Still, much about the earliest days of continents, and when and how they formed, remains hotly contested. -"The researchers found that modern, silica-rich continental crust first appeared about 3 billion years ago. The thick, buoyant nature of these chunks of crust would have made them rise high above what became the seafloor, Dhuime and his colleagues note online June 22 in the journal Nature Geoscience.-"'They are showing when continents actually emerged from the oceans," said Lee, who wrote an accompanying news article in Nature Geoscience. "Continents certainly existed early in Earth's history, but perhaps many were submerged."-"It remains uncertain why continental crust made its first appearance about 3 billion years ago. One possibility is the onset of plate tectonics — when the plates of rock making up the planet's exterior began moving slowly over the Earth's mantle layer. Plate tectonics would have resulted in wet rock getting shoved down into Earth's interior, eventually helping to form silica-rich magmas that make up much of the continental crust."
Privileged Planet: particle protection
by David Turell , Thursday, February 16, 2017, 21:22 (2625 days ago) @ David Turell
This a dangerous universe with high energy particles that can damage life. The Earth has van Allen belts of radiation that protect us:
http://www.space.com/27979-van-allen-belts-barrier-particles.html
"The pair of radiation belts surrounding Earth stop high-energy particles in their tracks, a new study reveals.
"Data gathered by NASA’s twin Van Allen Probes, which launched in August 2012, show that the donut-shaped Van Allen belts present a nearly impenetrable barrier to high-energy electrons, keeping them from hitting Earth.
"'The barrier for the ultrafast electrons is a remarkable feature of the belts," study lead author Dan Baker, of the University of Colorado in Boulder, said in a statement.
***
"the Van Allen belts are two collections of charged particles that circle Earth, held in place by the planet’s magnetic field.
"Charged particles streaming from the sun cause the belts to grow and shrink, sometimes merging and occasionally forming three belts instead of two. On average, the inner belt reaches from 400 to 6,000 miles (640 to 9,700 kilometers) above Earth’s surface, while the outer belt spans 8,400 to 36,000 miles (13,500 to 58,000 km) above the planet.
"The new information gathered by the Van Allen Probes reveals that the inner edge of the outer belt is very sharply defined. Under normal circumstances, the fastest, highest-energy electrons cannot cross over the boundary, researchers said.
***
"The scientists searched for possible sources of the newfound wall. They ruled out human-generated transmissions and the shape of Earth’s magnetic field, determining that the most likely cause came from the interaction of the belts with other particles in space.
"Earth’s outer atmosphere contains a cloud of relatively cool, charged particles known as the plasmasphere. These particles extend from about 600 miles (1,000 km) above the planet's surface partway into the outer Van Allen belt. Particles from the outer boundary of the plasmasphere cause particles in the outer belt to scatter, ejecting them from the belt completely, researchers said
"the charged particles of the Van Allen belts travel at high speeds in a loop around the planet; their direction toward Earth comes as a slow, gentle drift over the course of months. Because their Earthward movement is so slow and weak, the plasmasphere is able to scatter the particles, keeping them away from the planet"
Comment: We are very protected in a dangerous universe. God at work?
Privileged Planet: ocean microbe controls
by David Turell , Thursday, August 08, 2019, 00:06 (1723 days ago) @ David Turell
Our planet has many systems to maintain various balances to sustain a reasonable environment for life. Here is a study on rhodopsins:
https://phys.org/news/2019-08-marine-microbe-increasingly-important-role.html
"The study finds bacteria containing rhodopsins, a sunshine-grabbing pigment, are more abundant than once thought. Unlike algae, they don't pull carbon dioxide (CO2) out of the air. And they will likely become more abundant in warming oceans, signaling a shuffling of microbial communities at the base of the food chain where the nitty-gritty work of energy conversion occurs.
***
"The findings break from the traditional interpretation of marine ecology found in textbooks, which states that nearly all sunlight in the ocean is captured by chlorophyll in algae. Instead, rhodopsin-equipped bacteria function like hybrid cars, powered by organic matter when available—as most bacteria are—and by sunlight when nutrients are scarce.
"Rhodopsins were discovered 20 years ago, and scientists at USC and elsewhere have been studying their prevalence and metabolism since. These microbes have light-sensitive protein systems in their cell membranes that trap sunlight, an adaptation analogous to how rods and cones in the human eye gather light. (my bold)
***
"They found that rhodopsin photosystems were much more abundant than previously realized and concentrated in nutrient-poor waters. In such oligotrophic zones, they outperform algae at capturing light. While algae use sunlight and CO2 to produce organic material and oxygen, rhodopsin pigments use light to make adenosine triphosphate, the basic energy currency that drives many cellular processes.
"'Rhodopsins appear to be more abundant in a nutrient-poor ocean, and in the future, the ocean will be more nutrient poor as temperatures change," Gómez-Consarnau explained. "So, with fewer nutrients near the surface, algae will have limited photosynthesis, and the rhodopsin process will be more abundant. We may have a shift in the future, which means the ocean won't be able to absorb as much carbon as it does today. So more CO2 gas may remain in the atmosphere, and the planet may warm faster."
"So far, computer simulations of what global warming could be like in the future do not yet account for this microbial shift.
"Previous studies have shown rhodopsins comprise about 80% of the marine bacteria, based on genetic analyses. But this is the first study to actually measure their concentration in the ocean and where they like to congregate.
"The study underscores how scientists are learning new pathways by which organisms gain energy to live. For example, they've long known that plants and algae use chlorophyll to convert sunshine and nutrients into sugars; indeed, about half of all photosynthesis on Earth is performed by algae at the ocean surface. And they've discovered bottom-dwelling life supported by chemical energy from minerals and chemical compounds released from deep-ocean volcanic vents. In this research, they've learned that bacteria, long considered mainly decomposers in an ecosystem, can actually function as a main producer of energy at the ocean surface.
"'We estimate that, given the concentrations found in seawater, rhodopsins could capture more light energy than chlorophyll in the ocean," Gómez-Consarnau said.
"'These findings change the fundamental assumption that the marine biosphere is only powered by sunlight captured by chlorophylls during algal photosynthesis.'"
Comment: Like all the other processes which balance the Earth's environment, this is a vital system. It certainly makes the case that the Earth is carefully designed to support life. Note that rhodopsins are in our eyes as well as in bacteria, which means protein molecules can add function in many different ways, as in my theory about God's pre-planning steps in evolution.
Privileged Planet: Lots of water
by David Turell , Wednesday, March 10, 2021, 14:25 (1142 days ago) @ David Turell
Perhaps covered with water 3-4 billion years ago:
https://www.sciencemag.org/news/2021/03/ancient-earth-was-water-world?utm_campaign=news...
"Earth’s total surface water was always assumed to be constant. Now, evidence is mounting that some 3 billion to 4 billion years ago, the planet’s oceans held nearly twice as much water—enough to submerge today’s continents above the peak of Mount Everest. The flood could have primed the engine of plate tectonics and made it more difficult for life to start on land.
"Rocks in today’s mantle, the thick layer of rock beneath the crust, are thought to sequester an ocean’s worth of water or more in their mineral structures. But early in Earth’s history, the mantle, warmed by radioactivity, was four times hotter. Recent work using hydraulic presses has shown that many minerals would be unable to hold as much hydrogen and oxygen at mantle temperatures and pressures. “That suggests the water must have been somewhere else,” says Junjie Dong, a graduate student in mineral physics at Harvard University who led a model, based on those lab experiments, that was published today in AGU Advances. “And the most likely reservoir is the surface.”
***
"Two minerals found deep in the mantle store much of its water today: wadsleyite and ringwoodite, high-pressure variants of the volcanic mineral olivine. Rocks rich in those minerals make up 7% of the planet’s mass, and although only 2% of their weight is water today, “a little bit adds up to a lot,” says Steven Jacobsen, an experimental mineralogist at Northwestern University.
***
"Although the larger ocean would have made it harder for the continents to stick their necks out, it could explain why they appear to have been on the move early in Earth’s history, says Rebecca Fischer, an experimental petrologist at Harvard and co-author on the AGU Advances study. Larger oceans could have helped kick off plate tectonics as water penetrated fractures and weakened the crust, creating subduction zones where one slab of crust slipped below another. And once a subducting slab began its dive, the dryer, inherently stronger mantle would have helped bend the slab, ensuring its plunge would continue, says Jun Korenaga, a geophysicist at Yale University. “If you cannot bend plates, you cannot have plate tectonics.”
"The evidence for larger oceans challenges scenarios for how life began on Earth, says Thomas Carell, a biochemist at Ludwig Maximilian University of Munich. Some researchers believe it began at nutrient-rich hydrothermal vents in the ocean, whereas others favor shallow ponds on dry land, which would have frequently evaporated, creating a concentrated bath of chemicals.
"A larger ocean exacerbates the biggest strike against the underwater scenario: that the ocean itself would have diluted any nascent biomolecules to insignificance. But by drowning most land, it also complicates the thin pond scenario. Carell, a pond advocate, says in light of the new paper, he is now considering a different birthplace for life: sheltered, watery pockets within oceanic rocks that broke the surface in volcanic seamounts. “Maybe we had little caves in which it all happened,” he says.
"The ancient water world is also a reminder of how conditional Earth’s evolution is. The planet was likely parched until water-rich asteroids bombarded it shortly after its birth. If the asteroids had deposited twice as much water or the present day mantle had less appetite for water, then the continents, so essential for the planet’s life and climate, would never have emerged. “It’s a very delicate system, the Earth,” Dong says. “Too much water, or too little, and it wouldn’t work.” " (my bolds)
Comment: Our Earth is very special. Contingency says natural forces were at work, but not if God managed the transformations.
Privileged Planet: carbon cycle under ice sheets
by David Turell , Saturday, August 17, 2019, 14:50 (1713 days ago) @ David Turell
Very new finding shows how carbon is sequestered under ice sheets and melt water provids nutrients to the oceans:
https://wattsupwiththat.com/2019/08/16/ice-sheets-impact-core-elements-of-the-earths-ca...
"The Earth’s carbon cycle is crucial in controlling the greenhouse gas content of our atmosphere, and ultimately our climate.
"Ice sheets which cover about 10 percent of our Earth’s land surface at present, were thought 20 years ago to be frozen wastelands, devoid of life and with supressed chemical weathering – irrelevant parts of the carbon cycle.
"Now a world-leading international team, led by Professor Jemma Wadham from the University of Bristol’ School of Geographical Sciences and Cabot Institute for the Environment, have pulled together a wealth of evidence published over the last 20 years to demonstrate that ice sheets can no longer be regarded as frozen and passive parts of Earth’s carbon cycle.
***
"Professor Wadham said; “A unique set of conditions present beneath ice sheets make them important reactors in the Earth’s carbon cycle.
“'Here, grinding of rock by moving ice is high, liquid water is abundant and microbes thrive in melt zones despite inhospitable conditions – the ice sheets erode their bedrock, cold-adapted microbes process the ground rock and boost nutrient release and glacial meltwaters export this nutrient to the oceans, also stimulating the upwelling of further nutrient from depth at glacier marine margins.
“'All this nutrient supports fisheries and stimulates drawdown of carbon dioxide (CO2) from the atmosphere.”
"Co-author Professor Rob Spencer from Florida State University added: “Ice sheets are also very effective at storing vast amounts of carbon as they grow over marine sediments, soils and vegetation.
“'The Antarctic Ice Sheet alone potentially stores up to 20,000 billion tonnes of organic carbon – ten times more than that estimated for Northern Hemisphere permafrost.
“'Some of this carbon is released in meltwaters and fuels marine food webs. The carbon that is left behind in deep parts of ice sheets is converted to methane gas by microbial and/or geothermal activity, which has the potential to be stored as solid methane hydrate under low temperatures and high pressure conditions.
***
"The study also takes a walk back in time to the last transition from glacial (cold) to interglacial (warm) conditions of the present day, analysing ocean cores around Antarctica for clues which might link ice sheet nutrient (iron) export via Antarctic icebergs to the changing productivity of the Southern Ocean – an important global sink for carbon.
"Co-author, Dr Jon Hawkings from Florida State University/GFZ-Potsdam, said: “One important way that the Southern Ocean takes carbon out of the atmosphere is by growth of phytoplankton in its surface waters.
“'However, these tiny ocean dwelling plants are limited by availability of iron. We have long thought that atmospheric dust was important as a supplier of iron to these waters, but we now know that icebergs host iron-rich sediments which also fertilise the ocean waters as the bergs melt.”
"Professor Karen Kohfeld, a palaeo-oceanographer and co-author from Simon Fraser University, added: “What you see in ocean cores from the sub-Antarctic is that as the climate warmed at the end of the last glacial period, iceberg sediment (and therefore, iron) supply to the sub-Antarctic Southern Ocean falls, as does marine productivity while CO2 rises.
“'While there are many possible causes for the CO2 rise, the data tantalizingly suggests that falling iron supply to the Southern Ocean via icebergs could have been a contributing factor.'”
Comment: Another evidence of the built-in systems that stabilize this planet to support life. We started as a simple rocky planet with oceans and at an ideal distance from a stable star and evolved to today's conditions. Not by chance considering all the variables that needed to be just so.
Privileged Planet: a brief summary of why it is
by David Turell , Wednesday, October 23, 2019, 21:58 (1646 days ago) @ David Turell
I'll present the bits and pieces which need no explanation, but the odds deny chance:
https://blogs.scientificamerican.com/observations/a-science-based-origin-story-for-a-pl...
"During my lifetime—since the mid-20th century—we humans have suddenly become so powerful that what we do in the next 50 years will shape the future of all the species with which we share this planet. Whether we realize it or not, we have become the custodians of planet Earth.
"Those who are young today will have to learn how to grow into the new role of planetary custodians. But how do you do that? No species has ever played this role in the four billion years since life first appeared on our Earth (though groups of species, such as the first oxygen-producing organisms have transformed the biosphere).
***
"Those who are young today will have to learn how to grow into the new role of planetary custodians. But how do you do that? No species has ever played this role in the four billion years since life first appeared on our Earth (though groups of species, such as the first oxygen-producing organisms have transformed the biosphere).
***
"For millions of years the Earth was covered with ice during several so-called “snowball Earth” episodes. But volcanoes came to the rescue each time, by pumping up new supplies of greenhouse gases beneath ice sheets that covered the planet. And eventually, new oxygen-breathing organisms evolved and proliferated, creating a new atmospheric balance. Taken together, these mechanisms, and perhaps others that we do not yet understand, kept the Earth’s surface temperatures within the Goldilocks range for life, even as heat from the sun kept increasing.
***
"Within the protected temperature-controlled cocoon of the young Earth, life flourished and evolved, creating a huge variety of homes for living organisms in the planet’s oceans and seas. As oxygen levels increased with the spread of photosynthesizing plants, oxygen’s fierce chemical energy drove more extravagant and exotic forms of evolution. Multicellular life forms really began to flourish only in the last 600 million years, and only in the last 400 million years did large organisms begin to colonize the Earth’s continents, eventually greening large parts of their once rust-coloured landscapes, and filling the new jungles and savannas with the roars and screams of vast new creatures such as the dinosaurs.
"We humans are very much part of this story. Like all our mammalian relatives today, we flourished because of a cosmic accident that struck down most of the large reptiles that dominated the continents 65 million years ago.
***
"Humans evolved as part of this trend to larger brains. Relative to our body size, our brains are spectacularly big. But what really makes us humans different is some piece of rewiring in our brains that we don’t fully understand, which opened up entirely new forms of communication. We are different because we can tell each other stories, pass on new information, share jokes and even explain what we are feeling and imagining.
***
"We share so much information with such precision that information can accumulate, community by community, across many generations. We are the first species in four billion years that can accumulate information over many generations, through what we can call “collective learning.”
"And information, of course, is power. More information means a greater ability to manage our environments, to hunt or gather food, and to manipulate our surroundings. Over some 200,000 years, at a rate that was barely perceptible at first but has gradually accelerated, we learned more and more powerful ways of managing, exploiting and eventually transforming the landscapes, plants and animals around us. We share so much information with such precision that information can accumulate, community by community, across many generations. We are the first species in four billion years that can accumulate information over many generations, through what we can call “collective learning.” Today, this increasing ecological power explains why we are so populous, why we dominate all terrestrial environments and why, since discovering how to tap the colossal energy locked inside fossil fuels, we have begun to transform the Earth’s surface, its oceans, its atmosphere and the other species that share the planet with us."
Comment: The entire article shows all the seemingly chance events that led to the appearance of humans. These contingent events, carefully building upon one another carefully protected the evolving Earth to mature and protect the appearance of humans by removing any extreme events that might have killed the process.
Privileged Planet: life's metabolism before oxygen
by David Turell , Thursday, November 07, 2019, 18:19 (1631 days ago) @ David Turell
Sulfur was used:
https://phys.org/news/2019-11-sulfur-earth-habitable-oxygen.html
"The Archean is a geological eon that lasted from 4 billion years to 2.5 billion years ago. It saw the emergence of the first life on Earth, but these microbes were anaerobic, meaning they did not breath oxygen. In fact, during this time, Earth's atmosphere did not contain any molecular oxygen. Instead, the atmosphere was rich with the likes of carbon and, particularly, sulfur.
"The sulfur in the Archean Earth's atmosphere was emitted by volcanic activity, and through a process called mass independent fractionation, sulfur's various isotopes (sulfur atoms containing the same number of protons but different numbers of neutrons) became enriched in a manner that does not correlate with their mass. Evidence that this occurred is found in surface deposits dating back to the Archean, and it was these sulfur isotopes, as part of molecules such as hydrogen sulfide (H2S) and sulfur dioxide (SO2), which microbes metabolized, releasing oxygen in the process and beginning the process of oxygenating Earth's atmosphere—a development referred to as the Great Oxygenation Event.
"Because sulfur is quickly oxidized in an oxygen-rich environment, and then removed from the atmosphere by precipitation and run-off into the ocean, the sulfur chemistry of early Archean life was phased out and lost to time. However, by understanding the mass independent fractionation process, it should be possible to learn more about the atmosphere of the pre-oxygenated Earth and the conditions in which the first life on Earth lived.
"The process behind the mass independent fractionation of sulfur remains uncertain, but the two most popular hypotheses are either photolysis (the breaking apart of molecules) by ultraviolet light from the Sun, or reactions between elemental sulfur. "However, the actual phenomenon, reaction or mechanism is still to be identified," says Dmitri Babikov, a Professor of Physical Chemistry and Molecular Physics at Marquette University in Milwaukee, Wisconsin.
"Babikov, along with his Marquette colleagues Igor Gayday and Alexander Teplukhin, have published a new paper in the journal Molecular Physics that explores some of the molecular bonds of a sulfur-4 (S4) molecule, and how these bonds affect the vibrational modes of the molecule, which in turn may influence the mass independent fractionation process.
"They identified a second, previously unknown, bond that joins together S2 molecules (containing two sulfur atoms) to form S4. "This second bond holds the molecule tight in a [trapezoid-shaped] arrangement and does not allow easy rotation of the two S2 molecules within S4," says Babikov. In turn, this arrangement of sulfur atoms then determines how they move as the S4 molecule vibrates.
"The vibrational states, or frequencies, of the S4 molecule are determined by both the shape of the molecule's 'potential energy surface," which describes the energy of the isotopes in the trapezoid arrangement of the S4 molecule, and how chemical reactions change the potential energy of that system. Not only do the number of vibrational modes, involving stretching and compression of the bonds between the S2 molecules, have a bearing on the reaction rate, but they could also be sensitive to a given isotope, which could help identify the chemical reaction behind mass independent fractionation. "But at this point this is still a hypothesis," says Babikov.
"A better understanding of the role of mass independent fractionation in the sulfur chemistry of Archean Earth not only gives us a picture of the environment on Earth before oxygenation."
Comment: Sulfur has to be exactly designed to allow this process to occur before oxygen evolved from its absence.
Privileged Planet: snowball Earth had a source of oxygen:
by David Turell , Wednesday, December 04, 2019, 05:38 (1604 days ago) @ David Turell
Snowball Earths have appeared in the past, the Earth entirely covered by ice. How did life survive and get oxygen. The answer is iron, rusted:
https://www.nytimes.com/2019/12/02/science/snowball-earth-ice-age.html?utm_source=Natur...
"...from about 720 to 635 million years ago, temperatures swerved the other way as the planet became encased in ice during the two ice ages known as Snowball Earth.
"It happened fast, and within just a few thousand years or so, ice stretched over both land and sea, from the poles to the tropics. Life lived in the oceans at the time, and the encroaching ice entombed that life, cutting it off from both the sun and the atmosphere.
***
" In 2015, to reach one of those corners, Max Lechte and his graduate adviser at the time, Malcolm Wallace, both sedimentologists at the University of Melbourne, drove 15 hours into the South Australian outback.
"They trekked over hills made of red-colored rock, and it was so hot out — about 122 degrees Fahrenheit — that the soles of Dr. Wallace’s boots melted.
"These red-hot rocks formed in the oceans during the snowball glaciations, and their color caught Dr. Lechte’s eye, so he took a few samples. Then, in 2015 and 2016, he traveled to Namibia and Death Valley in California and found more rocks — also red — that formed at the same time.
***
"Oxygen needs to be present for iron to rust. It also needs to be present for animals and many other organisms to survive. If the iron rocks below the ancient oceans rusted, then there was also oxygen in those oceans. And if there was oxygen, then oxygen-breathing life-forms had a lifeline they could cling to.
“'This is the first direct evidence for oxygen-rich marine environments during Snowball Earth,” said Dr. Lechte, now a postdoctoral researcher at McGill University in Canada.
"But how that oxygen got into the oceans in the first place was a mystery. The atmosphere is a major source of oxygen for the oceans, and with the ice sheets of Snowball Earth acting as giant air-blocking shields, oxygen in seawater should’ve been nonexistent.
***
"Dr. Lechte and his team crushed the iron-rich rocks, dissolved them in acid and measured the abundances of different iron isotopes. They found that the iron in rocks that formed far out in the open oceans rusted much less than the iron in rocks that formed closer to land, right where ice sheets dove from continents and into the oceans.
"Today, beneath ice sheets in Antarctica, glacial meltwater streams flow into the Southern Ocean. That water melts from ice that can have air bubbles trapped inside it, and those bubbles can seed the meltwater streams with oxygen. On Snowball Earth, Dr. Planavsky explained, such oxygen-laden streams flowed into the oceans around the edges of continents and sustained life.
"Paul Hoffman, a geologist at Harvard University who pioneered the Snowball Earth hypothesis, thinks this idea for how oxygen made it into the oceans is solid. “I’m attracted to the idea, and I think it’s consistent with my own observations,” he said."
Comment: the Earth was constructed to solve all problems, as this shows. Special by design? After bacteria life had to be able to survive all challenges. Not all just by adaptation but by the resources of the Earth itself.