A year after Hurricane Sandy struck the United States, destroying houses and public infrastructure along the Eastern Seaboard, we reached out to several architects and posed two questions: What did you learn from Sandy? And how can architects prepare for the next storm? Their responses, edited and condensed, are below.–Eds

Unfortunately, architects tend to think they can profit from the damage. You wonder if they’re coming in to look at the problems or to get more work. I was appalled to hear that in the first week after Sandy, there were AIA ads for architects needed. It made my stomach turn–architects being ambulance chasers.

Architects tend to think they can profit from the damage.





One of the obvious things architects can do is design their buildings that are within the flood zones to withstand the flood. We’re doing a project for Duke University, which is in flood areas, on the coast. We placed the second floor, where the expensive lab equipment is located, 25 feet above sea level and the whole building is designed to withstand winds of 140 mph. Buildings on the coast need a lot of structural resistance to the wind itself. And of course, water is a big issue. We placed the science building at Duke very high above sea level and are allowing the first-floor spaces to get destroyed–the first floor is programmed such that it wouldn’t be a disaster if it got wiped out.–As told to Carey Dunne

From our studio research and our own work, we’ve discovered that one of the great lessons is to not rely on a single methodology for accommodating events like flooding. Our very first project at Olympia Fields was designed to accommodate torrential rains and collect water in a safe yet aesthetic manner. In other words, water collection is woven into the core of the design.





In the 25 years since, our practice advocates a multidisciplinary approach to shaping sites and engaging infrastructures. At our newly completed park at Hunter’s Point South, 88% of the shoreline is now soft, which means that it is designed to absorb a severe influx of water. The roof of the park pavilion is designed and constructed to resist hurricane-force winds. This park now represents a first line of defense for the surrounding community, which sat four feet underwater a year ago during Hurricane Sandy.

Infrastructure is often incorrectly perceived as hard and inflexible. These same considerations apply for landlocked sites as well. At the Brooklyn Botanic Garden, our rain gardens and 10,000-square-foot green roof are able to absorb a substantial amount of water without damaging the new structure or this historic site. In this way, we can rely on soft infrastructure that acts as a giant sponge to collect and gradually release large quantities of water over time, instead of all at once. It is our belief that it is now time to design alternate strategies that support resilient and pliable sites capable of absorbing cycles of extreme, unpredictable events.–As told to Suzanne LaBarre





It is important to look at small-scale solutions and legislative guidelines to help prevent loss of life and property. The grand and sometimes epic conceptual thinking is useful, but it should be balanced with immediacy. Simple flood protection can easily be implemented in building construction to ensure their contents are protected better. Beyond this, we must focus on landscape design that augments the natural needs of shorelines and basins where flooding may occur. Educating people who live in flood-prone zones should be more extensive than simply posting evacuation plans. In some places, there are credits given to those who design and inhabit shoreline conditions responsibly, measured by their inclusion of environmentally sensitive planning. —As told to Belinda Lanks