Glancing impacts on Earth

There is this guy who appears regularly on Twitter, trying to fill the shoes of Archimedes Plutonium, and the Expanding Earth guy, who asserts ad nauseam that the Puerto Rico back-arc basin and some structures in the Southern Andes are the product of glancing impacts by cosmic projectiles. He's a bit irritating - typically very dismissive of counter evidence, totally dismissive of plate tectonics possibly operating in "his" (I assume it's a "he" ; safe bet) area, but somewhat content that plate tectonics operate in the rest of the world. He's got a bit of and "Electric Universe" or "plasma physics" hang up too, associated with his putative impacts. He's probably also afraid of 5G telephones, and I think he's spoken approvingly of Expanding Earth ideas too.

A bog-standard, run of the Internet kook, in other words.

Well, I'm not saying that this piece's author is the same guy, or even knows of his existence, but this is the sort of thing that would greatly encourage the kook. I found this while checking for references about the potential "glancing impact" origin of Mars' Borealis (North Polar) basin.

On a Possible Giant Impact Origin for the Colorado Plateau

This is an Arxiv preprint, for a paper that was submitted to EPSL ("Earth and Planetary Science Letters" - a medium-hitter of a journal in the field) but with no mention of it actually being published. I'm not surprised.

So, firstly, it's a single-author paper. It would seem that Xiaolei Zhang hasn't managed to persuade any of his GMU (George Mason University, wherever that is) colleagues that his theory is valid. He's got a reasonable track record of publishing in "galaxy dynamics" (which he shoehorns into this paper too - confirming the identity of the author), but AFAICT, this is his only foray into geology/ planetary science. In itself, this isn't a disbarring factor, but it is a warning sign.

What is the theory? That about 750 Myr ago (in the Neoproterozoic era), the Earth suffered a "glancing blow" by an impactor to produce an astrobleme of about 640km diameter, which we now call the "Colorado Plateau". 

Aside : digging out the "area under discussion" was surprisingly hard - the author clearly thinks his audience has the same familiarity with the area that he does. There is a map - labelled as "Figure 1", but placed on P 52. That's an artefact of publishing conventions (let the journal arrange the figures into the text ; the author supplies them after the text) - annoying but not the author's fault. There's no legend on the map, which I think only shows volcanic rocks at surfaces versus "other" - which looks very single minded from a geologist's PoV.

Now, this is where the author departs from conventional cratering theory (to put it politely). Given the dimensions of the area considered "anomalous", and an estimate for how deeply the anomalies are incised into the Earth (estimate : 16km, but this seems to be derived from conventional cratering scaling laws, which this paper is rejecting for this "feature" - that point needs justification) then the author derives a simple geometrical estimate for the size of the "grazing" impactor as "Mars size". Actually, "3208km". The calculation used is the inverse of the well-known one for "distance to horizon from ships mast/ cliff, whatever". An allowance is made for drag changing the travel vector of the impactor by several degrees. But that's just about bonkers.

At this sort of scale, planets don't have significant strength. Their spherical shaoe is because the strength of the rocks is negligible compared to the hydrostatic forces due to their weight. Essentially, planets behave as strengthless drops of liquid. A contact like that would leave both objects with surfaces vibrating up and down by hundreds if not thousands of km until the energy is dissipated through most of the mass of the bodies.

It's also a very improbable contact. Even a small degree closer to head on, and the bodies would have merged, or generated so much ejecta that there would have been global secondary impacts, if not forming a moon of orbiting ejecta. And if the alignment had been 16km in the other direction (0.5% of impactor diameter) then it would have been a near miss.

It seems the geological data the astronomer is tieing onto is reporting of apparent horizontally directed shear at high levels in the crust of the Colorado plateau, combined with the Plateau's elevation. He's also relying on there being some great mystery about the so-called "Great Unconformity" observed in the Neoproterozoic of the Grand Canyon. (We have a "Great Unconformity" covering about the same Interval here in Scotland, but we don't blame it on wildly unusual events.)

The author ascribes the appreciable NW-SE elongation of the "Plateau" to the motion of the "impactor" ("grazer"?), but makes very little mention of the Sudbury structure in the Canadian Shield, which is generally accepted as being an impact structure that has been compressed on a NW-SE axis to have about twice the NE-SW dimension compared to the NW-SE dimension. The deformation of Sudbury is generally ascribed to continent-scale compression during the Grenville orogeny shortly after the impact. The more modest non-circularity of the posited Colorado Plateau structure is as easily explained by distortion since it's formation - regardless of intrinsic (e.g. mantle plume) or extrinsic (impact, the FSM's paintbrush) origin. (I emphasised elongation versus compression to avoid people thinking there was some stress field similarity - the elongation is similar, but the direction is opposite.)

Memo to astronomical dynamicists : you leave the geology alone, and I'll leave stirring the pot of star alone. OK?

Sector collapse

When we were doing the Vulcanology trip to Tenerife, a couple of the stops were to examine the faults bounding the Guimar (SE coast) and Santa Cruz (N coast) collapses. Always worth thinking about, even without the fears stirred up by that Portsmouth (?) hazard research centre.
Well, Prof Ceiling Cat Emeritus has been posting about his current jaunt around Hawai'i, and one look at the geography of Oahu made me think "sector collapse" again.

Oh dear, that's not good looking. That looks like lumps of islands 10km by 20km which have broken off and slid over 50km down the seabed slope.
What does the profile look like? (following the white line in the bathymetry plot)

10km NE-SW by 20km NW-SE by 1.5km thick. That's a big chunk of rock. The tsunami that hit the Pacific coasts (and particularly the British Columbia to Washington section) would have been ... unhealthy to see. I wonder what the date was.

For comparison, here's the most recent slump from the North side of Tenerife.

(250m bathymetry contours, bolded at 1000m intervals, for all images) The characteristic "lumps on the sea floor" of a slump can be seen. In the profile you can estimate the thickness of the largest lump, though this slump seems to have fragmented more than the Hawai'i example above.

 To a first approximation, say 5km by 3km by 0.25km. More detailed mapping with sonar shows that a lot of the seabed has rough areas which are interpreted as earlier generations of slump. Upwards of 20 slumps have been identified around the Canaries archipelago. 
Probably the most recent slump around Tenerife (unless it has "gone" while I'm typing) is from the side of the island facing Gran Canaria.

 The profile shows how steeply the islands drop off away from the volcanic centres.

Note the level of the inter-island gap - 2.5km below sea level - compared to the abyssal plain to the North at over 3.5km below sea level. There is around a kilometre of fill in this gap which hasn't accumulated to the North.

 Since the turn of the millennium there has been considerable speculation about the possibility of major landslides from the flanks of volcanic islands in general, and the Canary archipelago in particular. While concern about the particular claims concerning a West-flank collapse of La Palma have somewhat abated, there are certainly major landslip features around ocean islands. The recent (22 December 2018) flank collapse of Anak Krakatoa in the Indonesian archipelago killed over 400 people, making the point that these things do indeed happen.  

Skye, June, 2010

A couple of years ago I had a great  break on Skye, doing some archaeology, some walking, a bit of wildlife photographing, and just generally having a good time.
I posted a photo album about it on FaceJerkOff at the time, but since I've been getting increasingly distrustful of their policies since ... well, since they existed, to be honest, I've been taking my content off there in fits and starts, and I guess now is the time to move that album off too.

Uamh an Ard Achadh - "Cave of the High Pastures", or "Tin Can Alley" in times gone by (the current farmers are much more appreciative of it than previous ones, who just considered it a trap for their beasts). A natural limestone cave which appears to have been used as some sort of ritual site in the Mesolothic to early Iron Age, with modification of the cave entrance by dry-stone dyking, probably ploughing (ritual? - earliest agriculture in the area?) and the deliberate (or at least, non-accidental) burial of valuable artefacts.

It's a bit hard to see (this is not a site report!) but the meandering path of the deeply incised entrance runs away towards the dig which is in material piled up behind dry-stone dyking at the downstream end of the entrance passage.

The area is just plain beautiful.

 That's a nice view to wake up to in the morning.

 The fluffy highland coo. About as natural to the area as humans are, and probably imported from central Europe with the "Neolithic Revolution" around 5000 years ago. but they've settled in well.

 On Saturday and Sunday, the professional archaeologists have days of rest, so I did the same and took a boat trip around the islands of the Inner Minch - the so-called "Small Isles". A sea-stack with very evident columnar jointing - basaltic volcanism.

 Sea fidos. Gurt wet slobbering blobs.

 Arf!

 Puffins - they hardly look as if they can take off, and it's a huge performance.

 Basking shark. Big shark, no teeth.

 From the "behind the wall" deposits. It needs conserving properly, but it's an iron spear head. In it's day, this was your Porsche, crossed with an Exocet missile. Or something broadly equivalent. We may not know what was the process of thought was that led to it being positively buried behind a stone wall in a modified ritual site (which had probably been in use for a couple of THOUSAND years by this point), but we do know that it was not an accidental loss.

 Archaeologists often complain about being presented with finds "out of context". This is what they mean by "context" : each of those little white tags labels a "context" - a bed of sediment whose relative date (compared to other contexts) can be determined by the "A-overlays-B" and "C-cuts-across-D" arguments of stratigraphy. It's bread and butter work to an archaeologist (and I'm up to the eyeballs in the same sort of work drilling my oil wells), but it's absolutely essential to getting a proper understanding of a site (or oil well). And with it, we can do things like this :

 These are wooden fragments, possibly from a turned or carved bowl, taken from one of the "contexts in the image above. They're large enough to probably give a good carbon date to the context from which they come. AND thereby, they constrain the possible dates for many of the other contexts on the site.
Then along comes some creationist dipshit and dismisses this sort of work with "the archaeologists are lieing bastards who are blinded by their science to the power of our great sky fairy". Well, fuck you, god-squaddies - you plainly do not understand just how much hard, painstaking, detailed work you are casually brushing aside just to make yourselves feel less insignificant than you are.
These dingbats really do make me seethe.

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To de-seethe, another bit of Skye's improbable scenery. The Old Man of Storr. See it before it falls over!

 There's a famous fossil site near the Old Man. It's a "no hammer" zone, but that doesn't preclude one finding excellent fossils in the beach debris. However ... when the site says "check the tide tables", it means "do not turn up on a whim without the slightest idea of the state of the tide". consider yourselves warned.

Lybster oil drilling site. There's an oil well of considerable weirdness being drilled there. The interest and amusement are pretty esoteric though.

More Ice Island News

Petermann's Ice Island - location update.
For those that haven't been keeping an ear to the, err, water, this is a rather substantial lump of ice that fell off Greenland a year ago. It's slowly working it's way out towards the Atlantic Ocean, where it has the potential to become a significant hazard to shipping. And to the oil installations on the Grand Banks.
The link above gives more detail, including notes I've been making on it's progress over the last few months.
I've just made time to update my satellite surveying (details in Patrick's blog, above), and when last visible (Aug 05th), the berg was just off the northernmost tip of Newfoundland, near Belle Isle. Latitude 51.53N, Longitude 54.95W.

Before long, if not already, it should be visible from the coast of Newfoundland.
And if it does decide to wander off through the oil fields ... there will be "interesting times".