The Glacial Gothic, or the Cathedral as an “Avalanche on Pause”

[Image: Diagram from The Stones of Venice by John Ruskin.]

There are at least two interesting moments in John Ruskin’s book The Stones of Venice.

One is his description of buttresses.

Buttresses, Ruskin writes, are structures against pressure: a cathedral’s walls want to fall outward, for example, pushed aside by the relentless weight of the roof. But this gravitational pressure can be stabilized by an exoskeleton: a sequence of buttresses that will prevent those walls from collapsing outward.

However, Ruskin points out, there is a similar kind of pressure from the waves of the sea. Think of the curved hull of a ship, he writes, which is internally buttressed against the “crushing force” of the ocean around it. It is a kind of inside-out cathedral.

Consider other high-pressure environments where architecture can thrive—resting in the benthic abyss or twirling through the vacuum of outer space, where offworld stations rotate and spin through exotic gravitational scenarios—and you’ve perhaps envisioned what John Ruskin would be writing about today. Ship-爱博体育在线 s, buttressed against the void.

In any case, for Ruskin, buttresses perform a kind of gravitational judo: he describes “buttresses of peculiar forms, cunning buttresses, which do not attempt to sustain the weight, but parry it, and throw it off in directions clear of the wall.” They shed the load, so to speak, flipping it elsewhere, as if taking advantage of an opponent’s slow and graceless momentum.

…as science advances, the weight to be borne is designedly and decisively thrown upon certain points; the direction and degree of the forces which are then received are exactly calculated, and met by conducting buttresses of the smallest possible dimensions; themselves, in their turn, supported by vertical buttresses acting by weight, and these perhaps, in their turn, by another set of conducting buttresses: so that, in the best examples of such arrangements, the weight to be borne may be considered as the shock of an electric fluid, which, by a hundred different rods and channels, is divided and carried away into the ground.

It’s buttresses buttressing buttresses—or buttresses all the way down.

Ruskin reminds his readers, however, that a buttress’s function can even be seen outdoors, where he specifically cites Swiss landscape defenses. There, Ruskin writes, horizontal buttresses like defensive walls “are often built round churches, heading up hill, to divide and throw off the avalanches.” Again, it’s a question of parrying an oppositional force, deflecting it elsewhere.

[Image: “Profile of a buttress with vertical internal line, when the line of thrust coincides with the axis of the buttress,” taken from a paper called “Milankovitch’s Theorie der Druckkurven: Good mechanics for masonry architecture” by Federico Foce, in Nexus Network Journal.]

From an architectural point of view, you might say that a landscape is stationary until it buckles, shudders, or moves, becoming oceanic, heaving like the sea.

Or, to be pretentious and quote myself from an op-ed in the New York Times, “the ground itself is a kind of ocean in waiting. We might say that [the Earth] is a marine landscape, not a terrestrial one, a slow ocean buffeted by underground waves occasionally strong enough to flatten whole cities. We do not, in fact, live on solid ground: We are mariners, rolling on the peaks and troughs of a planet we’re still learning to navigate. This is both deeply vertiginous and oddly invigorating.”

For Ruskin, the buttress is an architectural technology—a 爱博手机app tool—that can be built to anticipate this act of marine transformation, a device that can prepare our 爱博体育在线 s and cities to resist violent events in the landscape they are built upon.

With this in mind, it’s worth recalling a recent experiment that showed 爱博体育在线 s can be partially shielded from the effects of earthquakes. An “invisibility cloak,” as researchers somewhat hyperbolically described it back in 2013, would use a “regular grid of cylindrical and empty boreholes” drilled into the earth to absorb and deflect seismic waves and thus protect certain structures from damage.

They would “parry it,” as Ruskin once wrote, “and throw it off in directions clear” of the city. In Ruskin’s terms, in other words, they would be buttresses: empty void-silos in the earth that nevertheless function like the exoskeletal cage of a cathedral or the internal ribs of a ship at sea.

[Image: Glacial logics diagrammed in The Stones of Venice by John Ruskin.]

The second interesting thing from The Stones of Venice—among many others, to be sure, but I will only focus on two here—is that, amazingly, for a book published back in 1853, Ruskin scales his analysis up to the point of suggesting that glaciers should be considered as complex architectural objects.

Ruskin describes “a curve about three quarters of a mile long,” for example, “formed by the surface of a small glacier of the second order.” This curve, he writes, is “the most beautiful simple curve I have ever seen in my life.” So, he wonders, how could it be applied to architecture? How could we learn from glaciers?

At this point, Ruskin draws a diagram—the one I’ve scanned, above—to highlight a variety of nested curves that he believes are hiding inside a particular glacier. These are organizational systems that extend for many miles at a time through the ice and that allegedly entail geometric lessons for architects.

The idea here—that Ruskin was trying to extract architectural lessons from glaciers nearly two centuries ago—is incredible to me.

After all, if the Gothic is an architectural language that, as writers such as Lars Spuybroek have compellingly shown, draws from the natural vocabulary of leaves, plants, tree roots, and so on, then this means that Ruskin is suggesting—in 1853!—a kind of Glacial Gothic, an architectural lesson drawn from continent-spanning masses of ice.

[Image: “A Crack in an Antarctic Ice Shelf Is 8 Miles From Creating an Iceberg the Size of Delaware”; image via Ohio State University.]

I’m reminded of an old t-shirt produced by the band Godflesh that described their music as an “Avalanche On Pause.”

This is a very Ruskinian description, we might say in the present context.

An avalanche on pause brings together Ruskin’s interests in landscape-scale structural events—such as glaciers and landslides—with his attention to the mechanics of cathedrals built to resist such imposing pressures. To freeze them in place. To press pause.

(Thanks to Marc Weidenbaum for reminding me of that Godflesh shirt many years ago.)

Afghan Twin

[Image: Screen-grab from an interview between John Peel and Aphex Twin, filmed in Cornwall’s Gwennap Pit; spotted via Xenogothic].

An anecdote I often use while teaching design classes—but also something I first read so long ago, I might actually be making the whole thing up—comes from an old interview with Richard D. James, aka Aphex Twin. I’ve tried some very, very lazy Googling to find the original source, but, frankly, I like the version I remember so much that I’m not really concerned with verifying its details.

In any case, the story goes like this: in an interview with a music magazine, published I believe some time in the late-1990s, James claimed that he had been hired to remix a track by—if I remember correctly—The Afghan Whigs. Whether or not it was The Afghan Whigs, the point was that James reported being so unable to come up with new ideas for the band’s music that he simply sped their original song up to the length of a high-hat, then composed a new track of his own using that sound.

The upshot is that, if you were to slow down the resulting Aphex Twin track by several orders of magnitude, you would hear an Afghan Whigs song (or whatever) playing, in its entirety, every four or five minutes, bursting surreally out of the electronic blur before falling silent again, like a tide. Just cycling away, over and over again.

What’s amazing about this, at least for me, is in the possibilities it implies for everything from sonic camouflage—such as hiding acoustic information inside a mere beep in the overall background sound of a room—to art installations.

Imagine a scenario, for example, in which every little bleep and bloop in a song (or TV commercial or blockbuster film or ringtone) somewhere is actually an entire other song accelerated, or even what this could do outside the field of acoustics altogether. An entire film, for example, sped up to a brief flash of light: you film the flash, slow down the resulting footage, and you’ve got 2001 playing in a public space, in full, hours compressed into a microsecond. It’s like the exact opposite of Bryan Boyer’s Very Slow Movie Player, with very fast nano-cinemas hidden in plain sight.

The world of sampling litigation has been widely covered—in which predatory legal teams exhaustively listen to new musical releases, flagging unauthorized uses of sampled material—but, for this, it’s like you’d need time cops, temporal attorneys slowing things down dramatically out of some weird fear that their client’s music has been used as a high-hat sound…

Anyway, for context, think of the inaudible commands used to trigger Internet-of-Things devices: “The ultrasonic pitches are embedded into TV commercials or are played when a user encounters an ad displayed in a computer browser,” Ars Technica reported back in 2015. “While the sound can’t be heard by the human ear, nearby tablets and smartphones can detect it. When they do, browser cookies can now pair a single user to multiple devices and keep track of what TV commercials the person sees, how long the person watches the ads, and whether the person acts on the ads by doing a Web search or buying a product.”

Or, as the New York Times wrote in 2018, “researchers in China and the United States have begun demonstrating that they can send hidden commands that are undetectable to the human ear to Apple’s Siri, Amazon’s Alexa and Google’s Assistant. Inside university labs, the researchers have been able to secretly activate the artificial intelligence systems on smartphones and smart speakers, making them dial phone numbers or open websites. In the wrong hands, the technology could be used to unlock doors, wire money or buy stuff online—simply with music playing over the radio.”

Now imagine some malevolent Aphex Twin doing audio-engineering work for a London advertising firm—or for the intelligence services of an adversarial nation-state—embedding ultra-fast sonic triggers in the audio environment. Only, here, it would actually be some weird dystopia in which the Internet of Things is secretly run by ubiquitous Afghan Whigs songs being played at 3,600-times their intended speed.

[Don’t miss Marc Weidenbaum’s book on Aphex Twin’s Selected Ambient Works Vol. 2.]