Where Borders Melt

[Image: From Italian Limes. Photo by Delfino Sisto Legnani, courtesy of Folder].

One of the most interesting sites from a course I taught several years ago at Columbia—Glacier, Island, Storm—was the glacial border between Italy and Switzerland.

The border there is not, in fact, permanently determined, as it actually shifts back and forth according to the height of the glaciers.

This not only means that parts of the landscape there have shifted between nations without ever really going anywhere—a kind of ghost dance of the nation-states—but also that climate change will have a very literal effect on the size and shape of both countries.

[Image: Due to glacial melt, Switzerland has actually grown in size since 1940; courtesy swisstopo].

This could result in the absurd scenario of Switzerland, for example, using its famed glacier blankets, attempting to preserve glacial mass (and thus sovereign territory), or it might even mean designing and cultivating artificial glaciers as a means of aggressively expanding national territory.

As student Marissa Looby interpreted the brief, there would be small watchtowers constructed in the Alps to act as temporary residential structures for border scientists and their surveying machines, and to function as actual physical marking systems visible for miles in the mountains, somewhere between architectural measuring stick for glacial growth and modular micro-housing.

But the very idea that a form of thermal warfare might break out between two countries—with Switzerland and Italy competitively growing and preserving glaciers under military escort high in the Alps—is a compelling (if not altogether likely) thing to consider. Similarly, the notion that techniques borrowed from landscape and architectural design could be used to actually make countries bigger—eg. through the construction of glacier-maintenance structures, ice-growing farms, or the formatting of the landscape to store seasonal accumulations of snow more effectively—is absolutely fascinating.

[Images: From Italian Limes. Photos by Delfino Sisto Legnani, courtesy of Folder].

I was thus interested to read about a conceptually similar but otherwise unrelated new project, a small exhibition on display at this year’s Venice Biennale called—in English, somewhat unfortunately—Italian Limes, where “Limes” is actually Latin for limits or borders (not English for a small acidic fruit). Italian Limes explores “the most remote Alpine regions, where Italy’s northern frontier drifts with glaciers.”

In effect, this is simply a project looking at this moving border region in the Alps from the standpoint of Italy.

[Image: From Italian Limes. Photo by Delfino Sisto Legnani, courtesy of Folder].

As the project description explains, “Italy is one of the rare continental countries whose entire confines are defined by precise natural borders. Mountain passes, peaks, valleys and promontories have been marked, altered, and colonized by peculiar systems of control that played a fundamental role in the definition of the modern sovereign state.”

[Images: From Italian Limes. Photos by Delfino Sisto Legnani, courtesy of Folder].

However, they add, between 2008 and 2009, Italy negotiated “a new definition of the frontiers with Austria, France and Switzerland.”

Due to global warming and and shrinking Alpine glaciers, the watershed—which determines large stretches of the borders between these countries—has shifted consistently. A new concept of movable border has thus been introduced into national legislation, recognizing the volatility of any watershed geography through regular alterations of the physical benchmarks that determine the exact frontier.

[Images: From Italian Limes. Photos by Delfino Sisto Legnani, courtesy of Folder].

The actual project that resulted from this falls somewhere between landscape surveying and technical invention—and is a pretty awesome example of where territorial management, technological databases, and national archives all intersect:

On May 4th, 2014, the Italian Limes team installed a network of solar-powered GPS units on the surface of the Similaun glacier, following a 1-km-long section of the border between Italy and Austria, in order to monitor the movements of the ice sheet throughout the duration of the exhibition at the Corderie dell’Arsenale. The geographic coordinates collected by the sensors are broadcasted and stored every hour on a remote server via a satellite connection. An automated drawing machine—controlled by an Arduino board and programmed with Processing—has been specifically designed to translated the coordinates received from the sensors into a real-time representation of the shifts in the border. The drawing machine operates automatically and can be activated on request by every visitor, who can collect a customized and unique map of the border between Italy and Austria, produced on the exact moment of his [or her] visit to the exhibition.

The drawing machine, together with the altered maps and images it produces, are thus meant to reveal “how the Alps have been a constant laboratory for technological experimentation, and how the border is a compex system in evolution, whose physical manifestation coincides with the terms of its representation.”

The digital broadcast stations mounted along the border region are not entirely unlike Switzerland’s own topographic markers, over 7,000 “small historical monuments” that mark the edge of the country’s own legal districts, and also comparable to the pillars or obelisks that mark parts of the U.S./Mexico border. Which is not surprising: mapping and measuring border is always a tricky thing, and leaving physical objects behind to mark the route is simply one of the most obvious techniques.

As the next sequence of images shows, these antenna-like sentinels stand alone in the middle of vast ice fields, silently recording the size and shape of a nation.

[Images: From Italian Limes. Photos by Delfino Sisto Legnani, courtesy of Folder].

The project, including topographic models, photographs, and examples of the drawing machine network, will be on display in the Italian Pavilion of the Venice Biennale until November 23, 2014. Check out their website for more.

Meanwhile, the research and writing that went into Glacier, Island, Storm remains both interesting and relevant today, if you’re looking for something to click through. Start here, here, or even here.

[Image: From Italian Limes. Photo by Delfino Sisto Legnani, courtesy of Folder].

Italian Limes is a project by Folder (Marco Ferrari, Elisa Pasqual) with Pietro Leoni (interaction design), Delfino Sisto Legnani (photography), Dawid Górny, Alex Rothera, Angelo Semeraro (projection mapping), Claudia Mainardi, Alessandro Mason (team).

#glacier #island #storm

By way of a quick update, several fantastic new posts have joined this week’s ongoing series of linked conversations, part of the Glacier/Island/Storm studio at Columbia’s GSAPP.

[Image: Map showing a straight baseline separating internal waters from zones of maritime jurisdiction; via a456].

Here is a complete list so far, featuring the most recent posts and going backward in temporal order from there [note: this list has been updated as of February 26]. By all means, feel free to jump in with comments on any of them:

—Nick Sowers of UC-Berkeley/Archinect School Blog Project on “Super/Typhoon/Wall

—Stephen Becker and Rob Holmes of mammoth on “saharan miami,” “translation, machines, and embassies,” and “islands draw the clouds, and glaciers are wind-catchers

— Mason White, Maya Przybylski, Neeraj Bhatia, and Lola Sheppard of InfraNet Lab on “Particulate Swarms

—David Gissen of HTC Experiments on “A contribution, a mini-review, a plug

—Enrique Ramirez of a456 on “Baselines Straight and Normal

InfraNet Lab on “Islands of Speculation/Speculation on Islands: Spray Ice” (nice comments on this one)


[Video: #climatedata by by Michael Schieben; via Serial Consign].

—Greg J. Smith of Serial Consign on “Glacier/Island/Storm: Three Tangents” (interesting comments developing here)

mammoth on “Thilafushi” and “The North American Storm Control Authority” (enthusiastic comments thread on the latter link)

—Tim Maly of Quiet Babylon on “Islands in the Net” (interesting comments also developing here)

—Nicola Twilley of Edible Geography on “The Ice Program” (great comments here, too!)

mammoth on “A Glacier is a Very Long Event” (another interesting comment thread)

InfraNet Lab on “LandFab, or Manufacturing Terrain

—Nick Sowers on “Design to Fail

Finally, I was excited to see that Ethel Baraona Pohl and César Reyes Nájera have jumped into the conversation, adding their own thoughts over at dpr-barcelona; and Alexander Trevi of Pruned has also supplied a Glacier/Island/Storm-themed guide to his own archives in this hashtag switchboard. And that’s in addition to some ongoing posts here on BLDGBLOG.

It’s been a great week for new content, I think, and all of the above are worth reading in full.

Glacier / Island / Storm Online

[Image: From Modern Mechanix, thanks to a tip from Nicole Seekely].

For the next five days, if everything goes as planned, BLDGBLOG and eight other architecture, design, and technology blogs will be engaged in a series of linked posts and ongoing conversations about themes relevant to the “Glacier/Island/Storm” studio at Columbia University this Spring.

In the broadest terms, we will be exploring the architecture of large-scale natural processes; more specifically, this means studying artificial glaciers; organically-grown archipelagos and other artificial reef technologies; and the unintended climatic side-effects of architecture, including the possibility of “owning the weather.”

[Image: From Modern Mechanix].

The participating blogs are a456 (Enrique Ramirez), Edible Geography (Nicola Twilley), HTC Experiments (David Gissen), InfraNet Lab (Mason White, Maya Przybylski, Neeraj Bhatia, and Lola Sheppard), mammoth (Rob Holmes and Stephen Becker), Serial Consign (Greg J. Smith), Soundscrapers/UC-Berkeley Archinect School Blog Project (Nick Sowers), and Quiet Babylon (Tim Maly).

For my own part, I’ll be posting on a wide range of themes directly related to the studio, including summaries of visiting expert lectures and class field trips to local scientific institutions; but I will also be offering my own speculative thoughts on the matter. Also, in addition to each blogger commenting on one another’s posts when possible, or simply following up with their own response-posts, I will be maintaining a list of relevant links to keep the whole thing flowing.

So my students and I are off on a field trip for the rest of the day, but I will begin putting up posts this evening. Feel free to join in, leave comments, suggest further readings, and more. Thanks!

Glacier / Island / Storm

I thought it might be fun to post the course description and design brief for a course I’ll be teaching this semester at Columbia.

[Image: Photo via the Alfred Wegener Institute].

The idea behind the studio is to look at naturally occurring processes and forms—specifically, glaciers, islands, and storms—and to ask how these might be subject to architectural re-design.

We will begin our investigations by looking at three specific case-studies, including the practical techniques and concerns behind each. This research will then serve as the basis from which studio participants will create original glacier/island/storm design proposals.

GLACIER: For centuries, a vernacular tradition of constructing artificial glaciers in the Himalayas has been used to create reserves of ice from which freshwater can be reliably obtained during dry years. This is the glacier as non-electrical ice reserve, in other words; some of these structures have even received funding as international relief projects—for instance, by the Aga Khan Rural Support Program in Pakistan. Interestingly, the artificial glacier here becomes a philanthropic pursuit, falling somewhere between Architecture For Humanity and a sustainable water-bank.

Through an examination of glacier-building techniques, water requirements, and the thermal behavior of ice, we will both refine and re-imagine designs for self-sustaining artificial glaciers, for the ultimate purpose of storing fresh water.

But what specific tools and spatial techniques might this require? Further, what purposes beyond drought relief might an artificial glacier serve? There are myths, for instance, of Himalayan villagers building artificial glaciers to protect themselves against invasion, and perhaps we might even speculate that water shortages in Los Angeles could be relieved with a series of artificial glaciers maintained by the city’s Department of Water and Power at the headwaters of the Colorado River…

ISLAND: Building artificial islands using only sand and fill is relatively simple, but how might such structures be organically grown?

In the ocean south of Japan is a complex of reefs just slightly below the surface of the water; Japan claims that these reefs are, in fact, islands. This is no minor distinction: if the international community supports this claim, Japan would not only massively extend its Exclusive Economic Zone (EEZ), complete with seabed-mining and fishing rights, but it would also block China from accessing those same resources. This would, however, also limit the ability of Chinese warships to patrol the region—and so the U.S. has publicly backed Japan’s territorial claim (China does not).

Okinawan scientists have thus been developing genetically-modified species of coral with the express idea of using these species to “grow” the reefs into a small but internationally recognized archipelago: the Okinotori Islands. Think of it as bio-technology put to use in the context of international sovereignty and the U.N. Law of the Sea.

The stakes are high—but, our studio will ask, by way of studying multiple forms of reef-building as well as materials such as Biorock, where might other such island-growing operations be politically and environmentally useful? Further, how might the resulting landforms be most interestingly designed? Assisted by a class visit from marine biologist Thomas Goreau, one-time collaborator of architect Wolf Hilbertz, we will look at the construction techniques and materials necessary for building wholly new artificial landforms.

STORM: For hundreds of years, a lightning storm called the Relampago del Catatumbo has flashed in the sky above Venezuela’s coastal Lake Maracaibo. The perfect mix of riverine topography, lake-borne humidity, and rain forest air currents has produced what can be described, with only slight exaggeration, as a permanent storm.

This already fascinating anecdote takes on interesting spatial design implications when we read, for instance, that Shanghai city officials have expressed alarm at the inadvertent amplification of wind speeds through their city as more and more skyscrapers are erected there—demonstrating that architecture sometimes has violent climatological effects. Further, Beijing and Moscow both have recently declared urban weather control an explicit aim of their respective municipal governments—but who will be in charge of designing this new weather, and what role might architects and landscape architects play in its creation?

We will be putting these—and many other—examples of weather control together with urban, architectural, and landscape design studies in an attempt to produce atmospheric events. For instance, could we redesign Manhattan’s skyline to create a permanent storm over the city—or could we rid the five boroughs of storms altogether? And under what circumstances—drought-relief in the American southwest or Gulf Coast hurricane-deflection—might our efforts be most practically useful?

• • •

The studio will be divided into three groups—one designing “glaciers,” one designing “islands,” one designing “storms.” Each group will mix vernacular building technologies with what sounds like science fiction to explore the fine line between architectural design and the amplified cultivation of natural processes. Importantly, this will be done not simply for the sake of doing so (although there will be a bit of that…), but to address much larger questions of international sovereignty, regional drought, global climate change, and more.