Climate Adaptation

Risk Management: Designers create learning environments that respond to the threats of a warming planet.
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Architectural Record
BY Joann Gonchar, FAIA

The boarding school was able to get back up and running for the start of the January term with trailers on a soccer field. And because Los Angeles–based Frederick Fisher and Partners (FF&P) had already been working with OVS on a master plan for the Upper Campus, the school could move immediately into schematic design for permanent structures, finishing construction in time for the 2021–22 school year. The new $16.5 million complex includes a combined library and dining commons that had emerged as a priority during the planning process, as well as the replacements for the dormitory and the science center. The 37,000-square-foot assemblage reimagines the upper campus as a hilltop village, with clustered white boxes around courtyards and a central plaza, which in turn frame views of the valley and the mountains.

Notably, OVS never considered rebuilding elsewhere, even though the Upper Campus sits in the wildland-urban interface (WUI)—the zone where wilderness and human development meet and there is plentiful vegetation that could serve as fuel for wildfires. “Nature is part of the school’s ethos and is central to the curriculum,” explains FF&P founder Frederick Fisher, whose son is a student at OVS. “Staying in that location was never in question.”

The new campus, however, takes the risks into account. The outdoor plaza, for instance, is designed to double as fire-fighting access. The new structures, framed in wood and steel (materials chosen for their construction speed and flexibility), are finished in stucco. And they are protected with an enhanced sprinkler system. But, most significantly, the buildings’ roofs have only small parapets, without attics, overhangs, or eaves, while their ground floors are built as slabs on grade. “There are no cavities or crawl spaces for embers to hide,” says FF&P partner Takashige Ikawa, noting that the old science center was at first thought to have been spared, but windborne embers had penetrated the attic and smoldered undiscovered for several hours before igniting the entire building.

The architectural fire-resistive strategies work hand in hand with the landscape design, which combines native species, including yarrows, heuchera, and sedges, with other low-growing but non-native plants to create defensible space in the first 20 feet closest to the structures. “The resinous nature and high oil content of many native chaparral plants make them too flammable for areas near buildings,” explains Mary Sager McFadden, a principal at Pamela Burton & Company in Santa Monica, the project’s landscape architect. Farther from the structures, shade is provided with coast live oaks, which have small waxy leaves and thick trunks, making them naturally resistant to fire, says McFadden. Even so, the oaks have been placed so that at maturity their canopies will be 10 feet apart and 10 feet from the buildings.

Also augmenting the complex’s resilience is a pre-existing photovoltaic (PV) array, which now includes battery storage. This system should allow the campus to operate without power from the grid about 90 percent of the year, and provides a backup should wildfire, extreme weather, or some other event, cause a grid failure. The generation and storage capabilities are two of several features that have put the buildings on track for LEED Gold.

In the case of Snoqualmie, Washington’s new Mount Si High School, which opened in 2019, water, not fire, was the chief concern. The residents of this small city, about 30 miles east of Seattle, have been living with seasonal flooding for generations. So when it came time to replace its aging and too-small high school on the same flood-prone river-valley site, its designers, NAC Architecture, elevated the 350,000-square-foot building above about half of the suburban school’s 700 parking spaces.

Stacking the school over parking establishes what Matt Rumbaugh, NAC principal, refers to as a “new ground plane”—one that is 5 feet above the 100-year-flood level and 2 feet above what code requires. On top of this plinth, the 2,300-student school—one of the largest high schools in the state—has been organized as small learning academies in seven interconnected three-story buildings. Social and informal learning spaces, both indoors and out, are woven among them to create human-scaled environments.

The obvious advantage of this configuration is improved flood resilience. But there are others as well. By placing the building on top of parking, more of the 32-acre site is left available for uses such as sports and recreation. Another benefit, notes Boris Srdar, NAC design principal, is that, by lifting the school up one story, the views of the nearby mountains are “amplified and made more powerful.”

PHOTOGRAPHY: © THÉO MÉNIVARD/CAUE DE PARIS

ENCOURAGING adventurous and imaginative play is one of the goals of the Parisian schoolyards revamped as part of the OASIS program. (Above and below)

PHOTOGRAPHY: © THÉO MÉNIVARD/CAUE DE PARIS

Floods and wildfires present obvious dangers. A more insidious hazard is extreme heat, no less disruptive or potentially deadly. Cities are especially vulnerable, due to the concentration of impervious materials and surfaces that absorb and retain heat. Paris has a particular problem: despite its capacious tree-lined boulevards, it has only 62 square feet of green space per person, well below the World Health Organization’s recommendation of 97. Western Europe’s scorching temperatures in July and August 2003 killed more than 1,000 Parisians. A heatwave in early summer 2017 prompted a three-day closure of the city’s schools. And prolonged periods of sweltering temperatures are expected to become more common: according to Météo-France, the country’s meteorological service, by the end of the century, Paris will experience heatwaves 10 to 25 days a year, compared to one day on average currently.

One effort that aims to provide some relief is the OASIS Schools initiative. Supported by Urban Innovative Actions (UIA), a program of the European Union, and begun in 2017, OASIS has transformed 10 of Paris’s typical schoolyards from areas that are almost entirely paved and nearly devoid of anything that grows, into green open spaces. The pilot is part of an ongoing and larger undertaking, with the goal of revamping all of the city’s 760 schoolyards by 2040 to create “cool islands,” says Raphaëlle Thiollier, OASIS schoolyards project manager for the city’s department of education.

In addition to climate adaptation, OASIS has other objectives, including teaching children about the environment, explains Maria Sitzoglou, an architect who oversaw the pilot for UIA. The project should also help create social cohesion through a “co-design” process in which architects from the public service association, Conseil d’Architecture d’Urban­isme et de l’Environnement, collaborated with students and faculty. The finished schoolyards themselves should also help establish a sense of community within the surrounding neighborhood, since the spaces are open to nearby residents when school is not in session. Green­ing all of Paris’s schoolyards would put every city resident within 700 feet of a small park.

The 350-student Écoles Maternelle et Élémentaire Maryse Hilsz—a kindergarten and elementary school sharing the same site in the 20th arrondissement, at the eastern edge of Paris—is representative of the OASIS projects. The schools’ separate but adjacent recreation areas have been transformed from 30,000 square feet of pancake-flat asphalt, with just a few scattered trees, to surfaces of crushed stone, sand, pervious pavers, soil, and plants (materials selected, in part, to help manage stormwater).

Completed in March, the new landscape at Maryse Hilsz includes mounds and hills that children can scamper over, a small amphitheater where they can gather, wickerwork huts for hide-and-seek, and a vegetable garden where they can grow their own food. In place of the fence that previously divided the younger students from the older ones, a stream fed with rainwater collected from the roof creates an implied boundary.

Academic partners of OASIS are currently evaluating Maryse Hilsz and the other completed schoolyard projects for both their social and climatological aspects, using such tools as sensors, observation, and interviews, with the first results expected later this year, says Thi­ol­lier. But whatever the data indicate, it is clear that the program has brought nature to places where previously there was next to none. Despite their very different settings, the approach is not dissimilar to that at OVS and Mount Si—to bring students into closer touch with nature, thereby enriching the learning environment and better preparing them for the climate challenges ahead.

Supplemental Materials:

Working Group I Contribution to the Sixth Assessment Report
© 2021 Intergovernmental Panel on Climate Change

Écoles Maternelle et Élémentaire Maryse Hilsz: Projet d'Aménagement de la Cour OASIS
© CAUE

 

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Originally published in Architectural Record
Originally published in January 2022


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