New Spatial Contract

The theme of the next Venice Architecture Biennale has been announced by its curator, Hashim Sarkis.

“We need a new spatial contract,” Sarkis writes. We need to “call on architects to imagine spaces in which we can generously live together: together as human beings who, despite our increasing individuality, yearn to connect with one another and with other species across digital and real space; together as new households looking for more diverse and dignified spaces for inhabitation; together as emerging communities that demand equity, inclusion and spatial identity; together across political borders to imagine new geographies of association; and together as a planet facing crises that require global action for us to continue living at all.”

You can read the full statement at the Biennale website. The Biennale itself will open next year, in May 2020.

Terrestrial Oceanica

I’m grateful for two recent opportunities to publish op-eds, one for the Los Angeles Times back in May and the other just this morning in the New York Times. Both look at seismic activity and its poetic or philosophical implications, including fault lines as sites of emergence for a future world (“A fault is where futures lurk”).

They both follow on from the Wired piece about the Walker Lane, as well as this past weekend’s large earthquakes here in Southern California.

The L.A. Times op-ed specifically looks at hiking along fault lines, including the San Andreas, where, several years ago, I found myself walking alone at sunset, without cell service, surrounded by tarantulas. I was there in the midst of a “tarantula boom,” something I did not realize until I checked into a hotel room and did some Googling later that evening.

In any case, “Faults are both a promise and a threat: They are proof that the world will remake itself, always, whether we’re prepared for the change or not.”

The New York Times piece explores the philosophical underpinnings of architecture, for which solid ground is both conceptually and literally foundational.

The experience of an earthquake can be destabilizing, not just physically but also philosophically. The idea that the ground is solid, dependable—that we can build on it, that we can trust it to support us—undergirds nearly all human terrestrial activity, not the least of which is designing and constructing architecture… We might say that California 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.

To no small extent, nearly that entire piece was inspired by a comment made by Caltech seismologist Lucy Jones, who I had the pleasure of interviewing several years ago during a Fellowship at USC. At one point in our conversation, Jones emphasized to me that she is a seismologist, not a geologist, which means that she studies “waves, not rocks.” Waves, not rocks. There is a whole new way of looking at the Earth hidden inside that comment.

Huge thanks, meanwhile, to Sue Horton and Clay Risen for inviting me to contribute.

(Images: (top) Hiking at the San Andreas-adjacent Devil’s Punchbowl, like a frozen wave emerging from dry land. (bottom) A tarantula walks beside me at sunset along the San Andreas Fault near Wallace Creek, October 2014; photos by BLDGBLOG.)

Folktales for the Offworld

The vocabulary in this new book on Extraterrestrial Construction Techniques is amazing, from the design of “Earth-independent habitats” to the use of “space-native metals” and other “non-terrestrial construction materials in the alien environment of space.”

The full manuscript also contains a section on “high-fidelity simulants”—another great phrase—as well as one on artificial crystal-growth techniques in space. Here, the ideas themselves are architecturally evocative: “It is envisioned that fragments of bio-like materials could be launched in an inactive state during space flight, and once landed at the Moon or Mars, would start to grow into construction materials or even pre-engineered habitats.” Controlled crystal architecture!

You can easily imagine some new version of Jack and the Beanstalk, about a relentlessly growing crystal building, a future folktale for life in space.

Walker Lane Redux

It’s been an interesting few days here in Southern California, with several large earthquakes and an ensuing aftershock sequence out in the desert near Ridgecrest. Ridgecrest, of course, is at the very southern edge of the Walker Lane—more properly part of the Eastern California Shear Zone—a region of the country that runs broadly northwest along the California/Nevada state border that I covered at length for the May 2019 issue of Wired.

[Image: My own loose sketch of the Walker Lane, using Google Maps].

To make a story short, a handful of geologists have speculated, at least since the late 1980s, that the San Andreas Fault could actually be dying out over time—that the San Andreas is jammed up in a place called the “Big Bend,” near the town of Frazier Park, and that it is thus losing its capacity for large earthquakes.

As a result, all of that unreleased seismic strain has to go somewhere, and there is growing evidence—paleoseismic data, LiDAR surveys, GPS geodesy—that the pent-up strain has been migrating deep inland, looking for a new place to break.

That new route—bypassing the San Andreas Fault altogether—is the Walker Lane (and its southern continuation into the Mojave Desert, known as the Eastern California Shear Zone).

What this might mean—and one of the reasons I’m so fascinated by this idea—is that a new continental margin could be forming in the Eastern Sierra, near the California/Nevada state border, a future line of breakage between the Pacific and North American tectonic plates.

If this is true, the Pacific Ocean will someday flood north from the Gulf of California all the way past Reno—but, importantly, this will happen over the course of many millions of years (not due to one catastrophic earthquake). This means that no humans alive today—in fact, I would guess, no humans at all—will see the final result. If human civilization as we know it is roughly 15,000 years old, then civilization could rise and fall nearly 700 times before we even get to 10 million years, let alone 15 million or 20.

In any case, these recent big quakes out near Ridgecrest do not require that the most extreme Walker Lane scenario be true—that is, they do not require that the Walker Lane is an incipient continental margin. However, they do offer compelling and timely evidence that the Walker Lane region is, at the very least, more seismically active than its residents might want to believe.

I could go on at great length about all this, but, instead, I just want to point out one cool thing: the far northern route of the Walker Lane remains something of a mystery. If you’ve read the Wired piece, you’ll know that, for the Walker Lane to become a future continental edge, it must eventually rip back through California and southeastern Oregon to reach the sea. However, the route it might take—basically, from Pyramid Lake to the Pacific—is unclear, to say the least.

One place that came up several times while I was researching my Wired article was the northern California town of Susanville. Susanville is apparently a promising place for study, as geologists might find emergent faults there that could reveal the future path of the Walker Lane.

If you draw a straight line from the Reno/Pyramid Lake region through Susanville and keep going, you’ll soon hit a town called Fall River Mills. Interestingly, following the long aftershock sequence of these Ridgecrest quakes, there was a small quake in Fall River Mills this morning.

While seeing patterns in randomness—let alone drawing magical straight lines across the landscape—is the origin of conspiracy theory and the bane of serious scientific thinking, it is, nevertheless, interesting to note that the apparently linear nature of the Walker Lane could very well continue through Fall River Mills.

[Image: The Ridgecrest quakes and their aftershocks seem to support the idea of a linear connection along the Walker Lane; note that I have added a straight orange line in the bottom image, purely to indicate the very broad location of the Walker Lane].

While we’re on the subject, it is also interesting to see that, if you continue that same line just a little bit further, connecting Pyramid Lake to Susanville to Fall River Mills, you will hit Mt. Shasta, an active volcano in northern California. Again, if you’ve read the Wired piece, you’ll know that volcanoes seem to have played an interesting role in the early formation of the San Andreas Fault millions of years ago.

In any case, in cautious summary, I should emphasize that I am just an armchair enthusiast for the Walker Lane scenario, not a geologist; although I wrote a feature article about the Walker Lane, I am by no means an expert and it would be irresponsible of me to suggest anything here as scientific fact. It does interest me, though, that aftershocks appear to be illuminating a pretty dead-linear path northwest up the Walker Lane, including into regions where its future route are not yet clear.

Insofar as the locations of these aftershocks can be taken as scientifically relevant—not just a seismic coincidence—the next few weeks could perhaps offer some intriguing suggestions for the Walker Lane’s next steps.

Ghosts Only Cars Can Perceive

[Image: An otherwise unrelated image of car-based LiDAR navigation, via Singularity Hub].

There was a lot of design interest a few years back in a product that allowed cyclists to project their own bike lanes, an idea that is still being honed today.

Transportation infrastructure that only exists in the form of a projection is a great analogy for the state of cycling in the U.S. today, but what we might call projected infrastructure—road signs, bike lanes, and crosswalks that aren’t really there—can apparently also be weaponized, turned against the machine-sensing systems that navigate and steer driverless vehicles.

Researchers at Ben-Gurion University, for example, have shown that fake, drone-projected street signs can spoof driverless cars. Amazingly, these fake street signs can apparently exist for only 100 milliseconds and still be read as “real” by a car’s sensing package. They are like flickering ghosts only cars can perceive, navigational dazzle imperceptible to humans.

As if pitching a scene for the next Mission: Impossible film, Ars Technica explains that “a drone might acquire and shadow a target car, then wait for an optimal time to spoof a sign in a place and at an angle most likely to affect the target with minimal ‘collateral damage’ in the form of other nearby cars also reading the fake sign.” One car out of twenty suddenly takes an unexpected turn.

Although this spoof is, for now, entirely visual, “a more advanced attacker might combine GNSS [Global Navigation Satellite System] spoofing and perhaps even active radar countermeasures in a very serious bid at confusing its target,” Ars Technica adds. Cars, lost in their own technical hallucinations, being steered to unknown destinations, unaware that they’ve even strayed.

Neighborhood Watch

[Image: Doorbell camera footage is already media content].

It was only a matter of time before this happened: Amazon’s camera-enabled Ring doorbell service has been looking for a “news editor,” implying that the Internet of Things—the immersive world of ubiquitously online surveillance objects we have willingly surrounded ourselves by—might someday find an editorial voice.

A doorbell company wants to report crime news,” NiemanLab reported back in April.

As a brief aside, that article goes on to make an extreme non sequitur, claiming that, because crime is decreasing in the United States, crime news should be less interesting to American viewers (one might suggest the exact opposite, in fact, that the rarer crime becomes the more interesting its occurrence will be—there has never been a murder in our town often translates directly into more people hoping to learn about a murder when one finally occurs).

In any case, the Internet of Things is like a vast, distributed media-production apparatus, putting microphones in our cars and kitchens, cameras in our doorbells and children’s toys, and sensors of every kind in our TVs, phones, watches, refrigerators, lightbulbs, and thermostats, to name but a few.

The idea that all this would someday be absorbed into the content industry—someday mined for unscripted media shows—has been an obvious possibility from the very beginning, just one updated end-user agreement away from realization. Watching content produced by other people’s doorbell cameras sounds both inevitable and, in a sense, quite tame. To no small extent it has already happened, and it will only get stranger from here.

Supernester

[Image: Photo by Charles Ray, via the New York Times].

Apparently, dystopian near-future climate change fiction doesn’t have enough wasps. When a colony survives one year to the next, due to a mild winter, its nest “can grow to be as big as a Volkswagen Beetle and can have 15,000 wasps.”

In a regular year in the U.S. state of Alabama, for example, there are apparently only two or three such “super nests,” but, according to an entomologist interviewed by the New York Times, in 2019 there could be as many as ninety.

First of all, it’s weirdly fascinating to learn that there is an official tally of super nests at all, let alone that there might be as many as 90 of them in Alabama alone.

However, what’s more striking, at least for me, is that the scenes depicted in this brief New York Times piece read more like something from a Cormac McCarthy novel. One man didn’t enter his outdoor toolshed for two months only to discover that it now housed a sprawling super nest housing as many as 18,000 wasps; he and his son still scurry past it now and again as they grab tools, unsure of how exactly to eliminate the threat.

It’s like Alien meets The Road: unwary climate refugees of the near-future hike through the forests of a superheated American South, unbeknownst to them approaching a super nest the size of a train yard, its buzzing mistaken for the hopeful drone of distant machinery.

Shadow Cell

My friend, Wayne, sent me this link about an accidental archaeological discovery beneath a Pennsylvania prison in the 1960s that reads like the start of a Jordan Peele film.

“A hidden underground cell was found this week at the Bucks County prison here,” the New York Times reported back in 1964. “Warden John D. Case said that several inmates digging in the prison basement preparing to install new water pipes discovered an 8‐foot by 18‐foot room with a brick arched ceiling of about 5½‐foot clearance. Mr. Case said there might be a secret room under each of the original 51 cells in the prison, which dates to 1884.”

It’s easy to imagine the story of an occult 19th-century architect constructing prisons to contain both a person and their shadow self, or perhaps just a sadistic warden installing secret listening rooms beneath the cells of his prisoners to eavesdrop on the growing sounds of loneliness and remorse crying down through the ceiling.

Or, for that matter, imagine a horror novel about some strange and thoroughly debunked folk-magic architectural theory from the 1800s suggesting that all works of civil infrastructure—prisons, libraries, courts of law—had to have both a positive and a negative version constructed, an aboveground world and its subterranean reflection, and that, over the course of the novel, more and more of these underground spaces are discovered in the humid, history-rich soils of the American east coast. And that it ends well for no one involved.

(Thanks to Wayne Chambliss for the heads up!)

The Atlas of Natural Regions

[Image: “Saint-Valentin, Champagne berrichonne (Centre-Val-de-Loire), 2019, by Eric Tabuchi].

I’ve been enjoying the Instagram account of photographer Eric Tabuchi for quite a while now. Tabuchi is working on an ambitious ten-year photographic project, kicked off in 2017, that he calls The Atlas of Natural Regions, basically a catalog of spatial conditions found throughout France.

The project “aims to create a photographic archive offering a broad overview of the diversity of the buildings, but also the landscapes, that make up the French territory,” Tabuchi explains. “Ultimately, 50 shots will be taken in each of France’s natural regions, geographical and cultural entities that are simple to grasp by their size (a few tens of kilometers).”

It will include 25,000 photographs when it’s done—and I am already excited to see the final exhibition or book when it’s complete. So far, there have been flooded quarries, sports complexes, and emergency training towers, industrial ruins, coastal bunkers, and surreal scenes that resemble something designed by Simon Stålenhag.

Tabuchi’s Instagram account is well worth following, and you can also support his work by purchasing a print.

Have Clock, Will Travel

[Image: From The Hunt For Red October, via Quora].

There’s a line in The Hunt For Red October where a submarine navigator jokes, “Give me a stopwatch and a map, and I’ll fly the Alps in a plane with no windows.” I was reminded of that comment by reports of a new atomic clock that will allegedly enable “futuristic navigation schemes”:

“Every single spacecraft exploring deep space today relies on navigation that’s performed back here at Earth,” said [Jill] Seubert, who’s based at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. Earth-based antennas send signals to spacecraft, which the spacecraft echo back. By measuring a signal’s round-trip time within a billionth of a second, ground-based atomic clocks in the Deep Space Network help pinpoint the spacecraft’s location.

With the new Deep Space Atomic Clock, “we can transition to what we call one-way tracking,” Seubert said. A spaceship would use such a clock onboard to measure the time it takes for a tracking signal to arrive from Earth, without having to send that signal back for measurement with ground-based atomic clocks. That would allow a spacecraft to judge its own trajectory.

One might say that the ship is navigating time as much as it is traveling through space—steering through the time between things rather than simply following the lines that connect one celestial object to another.

The general problem of ship orientation and navigation in deep space is a fascinating one, and it has led to ideas like using “dead stars” as fixed directional beacons, a kind of thanato-stellar GPS. This is “the long-sought technology known as pulsar navigation,” Nature reported last year. “For decades, aerospace engineers have dreamed of using these consistently repeating signals for navigation, just as they use the regular ticking of atomic clocks on satellites for GPS.” You head toward something that’s only consistent because it’s dead.

There is something really interesting here, where human navigators and their far-flung machines are confronted with a landscape so vast it is all but devoid of local landmarks. Imagine the cognitive skills necessary for early humans to wander forth, on foot, across colossal and empty steppes, long before modern navigational tools, or picture autonomous, near-frozen hard-drives falling endlessly outward toward stars they might never reach: these scenarios lend themselves to metaphor just as much as they present real-world cartographic problems masked as an encounter with landscapes impossibly huge.

A landscape so big it becomes time, and only a clock can conquer it; or a space so empty, its only fixed points are long dead.

Departure

[Image: From Deep Unlearning (I), Sascha Pohflepp].

I woke up to the sad news this weekend that my friend, designer Sascha Pohflepp, has died. Sascha’s work was animated by such a good-natured inquisitiveness and sense of intellectual freedom, a grinning need to ask more questions about the objects, systems, and things before him—what they could be, what they should be, what they would be with the right amount of effort—that you could actually see it in his bearing, his near-constant smile, and a kind of amused sense that he didn’t quite believe what you were saying.

Sascha described his work as exploring “questions regarding the role of technology as a force that shapes our relationship with natural systems, human culture and ultimately ourselves, embodied in the tools we create.” His work required friends, others, collaborators; in Sascha’s words, “Almost every piece is grounded in joint efforts with researchers from the respective scientific fields and more often than not with peers as long-time collaborators. This emerges from a personal conviction that a truly satisfying understanding of the world and our role in it will not be achieved by a single perspective alone.”

Details are thin, but he seems to have died in his sleep in Berlin; he was 41.