Rockaway Beach, NY
The Resiliency Rocks Garden pilots the principles of combining hard and soft infrastructure at the micro-scale. The board association of Shoreview Condominiums, a multi-building oceanfront condo complex, engaged LOLA soon after Superstorm Sandy had devastated the property: during the storm, the property was hit with three-and-a-half feet of flooding; several cars had crashed into the first-floor windows and doors, and an enormous section of the public boardwalk had floated off its foundation and slammed into the street-side façades. The board association needed to rebuild their streetscape, but their common fund had been drained with other recovery efforts, and they were hesitant to invest in a landscape that might be swept away in the next storm.
LOLA partnered with Insight Civil Engineering to offer a solution that is not only designed to survive future disturbances, but which actively protects the condo from future flooding. Together, the firms designed a white oak flood wall with gasketed, self-sealing entry gates. The wall was designed to return on itself at a slope, creating an enclosed, tilted planter between the sidewalk and the building entries. The benefit of this simple transformation – from a mundane, vertical flood wall, to an enclosed planter tilted toward the pedestrian realm – is twofold: the additional heft and absorption of the planting soil increases the durability of the wall, and the garden enhances both the privacy of the condo units and the beauty of the public realm.
To make the most of the condo association’s limited budget, LOLA and Insight embraced the role of community organizers, leveraging the community’s capacity to self-heal from Sandy. They teamed up with local relief organizations to stage two supervised volunteer planting days. The events attracted donations from local businesses and politicians and put “do-it-yourself”-scale resiliency in the public eye.
The project received a 2017 Merit Award from the New York Chapter of the American Society of Landscape Architects.