Comets


Comet 2

The origins of dark comets

Dark Comets
© University of Michigan
Up to 60% of near-Earth objects could be dark comets, mysterious asteroids that orbit the sun in our solar system that likely contain or previously contained ice and could have been one route for delivering water to Earth, according to a University of Michigan study.

The findings suggest that asteroids in the asteroid belt, a region of the solar system roughly between Jupiter and Mars that contains much of the system's rocky asteroids, have subsurface ice, something that has been suspected since the 1980s, according to Aster Taylor, U-M graduate student in astronomy and lead author of the study.

The study also shows a potential pathway for delivering ice into the near-Earth solar system, Taylor says. How Earth got its water is a longstanding question.

"We don't know if these dark comets delivered water to Earth. We can't say that. But we can say that there is still debate over how exactly the Earth's water got here," Taylor said. "The work we've done has shown that this is another pathway to get ice from somewhere in the rest of the solar system to the Earth's environment."

The research further suggests that one large object may come from the Jupiter-family comets, comets whose orbits take them close to the planet Jupiter. The team's results are published in the journal Icarus.

Comet

Shocked quartz reveals evidence of historical cosmic airburst from 12,800 years ago

Shocked quartz grains
© UC Santa BarbaraShocked quartz grains, with fissures filled with meltglass.
Researchers continue to expand the case for the Younger Dryas Impact hypothesis. The idea proposes that a fragmented comet smashed into the Earth's atmosphere 12,800 years ago, causing a widespread climatic shift that, among other things, led to the abrupt reversal of the Earth's warming trend and into an anomalous near-glacial period called the Younger Dryas.

Now, UC Santa Barbara emeritus professor James Kennett and colleagues report the presence of proxies associated with the cosmic airburst distributed over several separate sites in the eastern United States (New Jersey, Maryland and South Carolina), materials indicative of the force and temperature involved in such an event, including platinum, microspherules, meltglass and shock-fractured quartz. The study appears in ScienceOpen's journal Airbursts and Cratering.

"What we've found is that the pressures and temperatures were not characteristic of major crater-forming impacts but were consistent with so-called 'touchdown' airbursts that don't form much in the way of craters," Kennett said.

Comment:


Comet 2

Study uncovers new evidence supporting Younger Dryas impact hypothesis

Airburst
© Youtube
If you wanted evidence that a giant comet wiped out the wooly mammoth, you might look for a giant crater.

But so far, you'd be out of luck.

"Some of our critics have said, 'Where's the crater?'" says Christopher Moore, an archaeologist at the University of South Carolina. "As of now, we don't have a crater or craters."

But Moore says that by looking below the surface, you can find strong evidence for the Younger-Dryas impact hypothesis, which states that large comet fragments hit Earth or exploded in the atmosphere shortly after the last ice age, setting off cataclysmic changes in the environment, crater or not.


Fireball 2

Best of the Web: Bright meteor fireball illuminates night sky over Spain and Portugal on May 18 [Update: Calculated total impact energy 0.13kt TNT]

Meteor Fireball
© outono.net
Lately we have been having a lot of meteor activity over the Iberian Peninsula, a phenomenon that causes great expectation.

As you will remember, on March 29 we had two bolides over the eastern part of Spain, which generated many comments.

Tonight, around 0:46 CET (23:46 Lisbon time), a bright fireball has illuminated the skies of Spain and Portugal. According to the Civil Protection of Portugal, the meteor would have fallen in the village of Pereira, in Castro Daire, northern Portugal, 60 km southwest of Porto. Portugal declared an alert and mobilized its firefighters in case there was any information.

Here we can see an impressive video recorded by @rvbzzx in Lisbon and slowed down by @jpunto88_ to make it look better:


Comment: Other videos:




The following selfie-video from Avéro in Portugal was captured by Mila Vladimirovna, @milarefacho

Some of the above and other videos can be found here: International Meteor Society
Huge fireball over Spain and Portugal on May 18!


The fireball has entered the CNEOS list:
Peak Brightness Date/Time (UT) 2024-05-18 22:46:50
Latitude(deg. 41.0N
Longitude(deg.) 8.8W
Altitude(km) 74.3
Velocity(km/s 40.4
Velocity Components(km/s) vx -26.5, vy -24.1, vz 18.7
Total Radiated Energy(J) 3.7e10
Calculated Total Impact Energy(kt) 0.13
This year six others have entered the list, curiously, of very similar size. There now is one at 0.15, four at 0.13, one at 0.11 and on at 0.098. The variation last year was between 0.076 and 7.2. kt! The Chelyabinsk meteor has been estimated to between 400 and 500 kt of TNT.

The American Meteor Society has in the 2024 list recorded it as Event 2481-2024:
American Meteor Society event 2481-2024
If the reports most distant from the trajectory are reliable, it was viewable at a distance of up to 1200 km. To verify if this is even possible, one can use a Distance to Horizon Calculator, like this German online calculator that also is configurable to show feet and miles.

Since the altitude of the visible meteor has been given the range of 122 km, initially, and 54 km at the end, we can insert these figures and find out how far out that is visible. For an observer at sea level, the calculator gives values between 1252 km and 831 km.

To be able to view the meteor from Paris would be a "tall order" given that the atmosphere is not clear, but if the viewing happened from one of the skyrises. several of which are around 200 meters this could add about 50 km to the first estimate of 1252 km. Alternatively, a different calculator shows that from an altitude of 122 km, the horizon to sea level is 1328 km away, and if you are viewing from an altitude of 200 meter, it would be 1382 km.

Meteors are interesting objects, see more in Cometary Encounters: Flash-Frozen Mammoths, Mars-Earth Discharge, Comet Venus and the 3,600-Year Cometary Cycle, and Earth Changes and the Human-Cosmic Connection (The Secret History of the World Book 3) by Pierre Lescaudron. The second is available in German, while both are translated into French, and Russian.


Attention

Airbursts: An underappreciated hazard

Airburst
© astronomynow.com
A paper published in March of 2021 in the journal Science Advances reports on the discovery of evidence for a large airburst type impact within the SØr Rondane Mountains, Queen Maud Land, East Antarctica. The report bears the names of a 15-member international team that did the research. The lead author was M. Van Ginneken with the Belgian Geological Survey. In the first sentence of the abstract to the article the authors support something I have been saying for literally decades: "Large airbursts, the most frequent hazardous impact events, are estimated to occur orders of magnitude more frequently than crater-forming impacts."

This fact is confirmed simply because airbursts don't leave impact craters. In this case the fingerprints of the event took the form of condensation spherules resulting from "a touchdown event, in which a projectile vapor jet interacts with the Antarctic ice sheet." The authors go on to explain that "Finding evidence of these low-altitude meteoritic events thus remains critical to understanding the impact history of Earth and estimating hazardous effects of asteroid impacts." They further report that "In recent years, meteoritic ablation debris resulting from airburst events have been found in three different locations of Antarctica. The material . . . all appears to have been produced during a Tunguska-like airburst event 480 thousand years (ka) ago."

With respect to their research, they say: "Here, we present the discovery of extraterrestrial particles formed during a significantly larger event recovered on . . . Queen Maud Land, East Antarctica. The characteristic features of the recovered particles attest to an unusual type of touchdown event, intermediate between an airburst and a crater-forming impact, during which the high-velocity vapor jet produced by the total disruption of an asteroid reached the Antarctic ice sheet." This event was estimated by the team to have occurred about 430 thousand years ago.

The authors provide some critical perspective on the effects of these type of impacts:

"The impact hazards resulting form the atmospheric entry of an asteroid that are currently being addressed by impact mitigation programs depend mainly on whether the impactor reaches the ground or is entirely disrupted in the atmosphere (i.e., airburst). For small-to medium-sized impactors (50- to 150-m diameter) producing airbursts, the main hazard is limited to blast effects resulting in strong overpressures over areas of up to 100,000 km2 wide. [38,600 sq miles] Thermal radiation may also result in fires over an area of 10 to 1000 km2 wide. . . . in addition to shockwaves and thermal radiation covering the aforementioned areas, these events are potentially destructive over a large area, corresponding to the area of interaction between the hot jet and the ground. The authors point out that such an event over Antarctica would inject ice crystals and impact dust into the upper atmosphere but would not directly affect human activity. However, they explain that "if a touchdown impact event takes place above a densely populated area, this would result in millions of casualties and severe damages over distances of up to hundreds of kilometers."

Now comes a new report in Earth and Planetary Science Letters on the discovery of evidence for yet another airburst event over Antarctica. The 11-member team responsible for the report is comprised of geologists, astrophysicists, and archaeologists from the U.S., the United Kingdom, Belgium, Russia, Japan, France and Italy.

Comet 2

The 'Devil Comet' is now a naked eye object

Suddenly, amateur astronomers are seeing a naked-eye comet in the evening sky. It's Comet 12P/Pons-Brooks, also known as the 'devil comet'. Waiting for next Monday's solar eclipse in Mexico, Petr Horálek photographed the comet last night and found it much brighter than the last time he saw it:

Devil Comet
© Petr Horálek/Institute of Physics in OpavaTaken by Petr Horálek/Institute of Physics in Opava on April 4, 2024 @ Veľká Lomnica, Slovakia; Monterrey, Mexico
"I assume an outburst is in progress," says Horálek. "My estimate of the comet's magnitude is +3.5. Definitely worth taking a look in the next hours and days."

Indeed, now is a good time to look. After sunset, the comet emerges in the western sky not far from the planet Jupiter. Naked-eye observers will see a dim fuzzball. Cameras and small telescopes reveal the comet's magnificent tail.

Comet 2

The comet strike theory that just won't die

Mainstream science has done its best to debunk the notion, but a belief in a world-changing series of prehistoric impacts continues to gain momentum.
Comet Impact
© Photo illustration by Ricardo Tomás
In 2007, a group of researchers, led by a nuclear physicist named Richard Firestone, announced an astonishing discovery. They had uncovered evidence, they said, that 12,900 years ago, a comet — or possibly a whole fleet of comets — struck Earth and changed the course of history. For the preceding two and a half million years, through the Pleistocene Epoch, the planet's climate fluctuated between frozen stretches, called glacials, and warm interglacials. At that time, Earth was warming again, and the ice sheets that covered much of North America, Europe and Asia were in retreat. Mammoths, steppe bison, wild horses and other enormous mammals still wandered the Americas, pursued by bands of humans wielding spears with fluted stone blades. Suddenly, somewhere over the Upper Midwest — an explosion.

Presenting their claim in the Proceedings of the National Academy of Sciences, a top scientific journal, the researchers took the sober tone characteristic of such publications. But in The Cycle of Cosmic Catastrophes, a book published around the same time, two of the researchers described the scene more vividly. The impact caused the ground to shake and the sky to glow, they wrote. A hail of tiny molten particles sank into flesh and set forests ablaze. Soot blotted out the sun. Earth's magnetic field wavered, and living things were bombarded by cosmic rays, confounding the navigational senses of turtles and porpoises, which beached themselves en masse. Addled birds plummeted from the sky.

Most disastrous of all, the impact shattered the ice dam holding back Lake Agassiz, a vast expanse of glacial meltwater that stretched across Manitoba, Ontario, Saskatchewan, Wisconsin and Minnesota. The lake cascaded into the Atlantic Ocean, where the freshwater pooled over the denser seawater, disrupting the convection current carrying warm water north from the tropics. The Northern Hemisphere plunged back into full-glacial cold.

For decades, scientists had puzzled over the cause of this rapid climatic reversal, which they marked by, among other things, the reappearance in southerly fossil deposits of tundra plants. These included the wildflower Dryas integrifolia, which gives the 1,200-year time span its name: the Younger Dryas. Here was an explanation: The impact caused the sudden cooling, the Firestone team argued, and contributed to the demise of the mammoths, steppe bison and other large Pleistocene mammals, along with the people who pursued them.

Fireball 3

Meteor fireball over northern parts of the Netherlands on March 2

fireball NL
© Jan-Age de BoerA bright fireball streaked across the evening sky above the Netherlands on Saturday March 2nd.
On Saturday evening, March 2nd, a meteor/fireballl with a bright orange/white color was seen by many Dutch residents in the northern Dutch province of Friesland and the Wadden Islands.

The meteor/fireball was captured at 19:39:14 PM CET by Jan-Age de Boer in Friesland, near the Dutch village of Munnekezijl.

Attention

Large ingenous events, cosmic impacts and crises in the history of life

Impact
© Randall Carlson Newsletter - March 2024
Last month, in the February 2024 issue of the Kosmographia Newsletter I reported on new research correlating a series of large-scale igneous events which produced the Central Atlantic Magmatic Province (CAMP) and the Siberian Traps with mass extinction episodes. On February 8 another paper was published in the journal Global and Planetary Change which further supports correlations between mass extinction episodes with gigantic volcanic eruptions and catastrophic cosmic impacts. The lead author of the paper is Michael Rampino, who has for decades been in the forefront of researching catastrophic events in Earth history. I have been following his work since the early 1980s and hold him in high regard as a scientist who is willing to think outside established paradigms of Earth history. The abstract to the paper begins:

"We find that Large Igneous Province (LIP) volcanism, mostly continental flood basalts (CFBs), along with the largest extraterrestrial impacts show significant correlations with mass-extinction events in the Phanerozoic geologic record. The ages of the 6 major marine mass extinctions (≥ 40% extinction of genera) of the last 541 MY ̶ the end-Ordovician (~444 Ma), late Devonian (~ 372 Ma), end-Guadalupian (~259 Ma), end-Permian (~ 252 Ma), end-Triassic (~201 Ma), and end-Cretaceous (66 Ma) extinctions are significantly correlated with high-quality U — Pb zircon and 40Ar/39Ar ages of 6 continental flood basalts (CFBs) ̶ the Cape St. Mary's, Viluy, Emeishan, Siberian, CAMP, and the Deccan Basalts.

U — Pb zircon dating (Uranium-lead) is a widely used method for dating metamorphic rocks typically employing a thermal ionization mass spectrometer. Zircon is used because it includes uranium and thorium atoms in its crystalline structure when forming but rejects lead, so any lead found in a zircon crystal is radiogenic, meaning it results from radioactive decay. Argon dating can measure Argon isotopes from a single mineral grain. The ratio of Argon 40 to Argon 39 yields the age of the sample.

The extinctions listed above are considered to be major events in the history of life on Earth. A number of less severe extinctions have taken place, although these events are somewhat more difficult to discern in the geologic/palaeontologic record. Nevertheless, a correlation can be discerned between these extinctions and both volcanic eruptions and cosmic impact.

Fireball

Meteor fireball reported over Japan on January 15

Fireball over Japan
© CCO
Reports suggest that what appeared to be a flashy object traveling at breakneck speed over Japanese skies could be a meteorite after residents heard a loud explosion a few minutes after its passage.

Social media chatter among Japanese users is currently focused on the sighting of a luminous "fireball" that dashed across the sky on Monday morning. The celestial spectacle was observed primarily in Japan's eastern and northeastern regions, according to media reports.

Daichi Fujii, the curator of the local history museum in Hiratsuka, Kanagawa, was among the first to provide an account of the event. He posted the footage of the speeding object in the sky on his X social media page. Fujii noted that the clip was recorded on camera at his home in Hiratsuka and another in the neighboring Shizuoka Prefecture.