MVRDV in the HASSELL+ team (HASSELL, Deltares, Goudappel, Lotus Water, Hatch, Civic Edge, Idyllist and Page & Turnbull) are through to the next phase of the Resilient by Design Bay Area Challenge with the allocated site of San Mateo County. The team will now apply
MVRDV, part of the international design team HASSELL+ will further develop the proposed design strategy to ‘collect and connect’ communities in South San Francisco as part of their proposal for the Resilient by Design Bay Area Challenge. The site allocation of San Mateo County marks the next phase of Resilient by Design, a research and design project that has community members and public officials working together with local, national and international experts to tackle the challenges of climate change and ecological disaster around San Francisco Bay. Like the entire Bay Area, San Mateo County is at risk of sea level rise and seismic events.
Located in San Mateo County, South San Francisco is the bay’s self-proclaimed ‘industrial city’. Major freeways and rail lines link the city to the region but also divide parts of the local area. Over the last half-century, local residents have lost their historic connection to the water. Parts of the community suffer from flooding and have limited access to a shoreline blocked by industry.
“Climate change is real, by the end of the century there will be a sea level rise of 2 meters. Bay Area communities respond to this challenge in a multi-disciplinary approach to upgrade their general resilience” adds Nathalie de Vries, MVRDV co-founder. “We developed a flexible toolbox for San Mateo which is a driver for spatial development to help the local community by revitalising public spaces that collect and connect people and water.”
“San Mateo County is the perfect testing ground for solutions that could unlock
Revitalised public spaces that collect and connect people and water
For the collaborative research phase of the competition, HASSELL+ re-imagined a series of San Francisco waterfront communities as vibrant, fundamentally public places primed for everyday use – but also vital for environmental and emergency needs. Their response was inspired by the way the region’s communities used open spaces during both the 1906 San Francisco earthquake – one of the deadliest in US history – and the recent, devastating Northern California wildfires.
HASSELL+ envisioned a network structure of green spaces, creeks and revived high streets that would serve as points of collection, connection and water management from the ridgeline to the shoreline and across the bay via an enhanced ferry network. Recharged ‘connectors’ – streets and creeks – and new ‘collectors’ – responsive, adaptable open spaces – would become places for everyday gathering, big events and disaster assembly. Together, they could ultimately make the Bay Area more physically and socially resilient.
Sites and programs co-designed with the local community
The team now has the opportunity to apply
Designing better waterfront cities – a range of international perspectives
Since the challenge launched last May, it’s received an outpouring of support from elected officials across all nine counties in the Bay Area. San Mateo County Board of Supervisors President Dave Pine sees it as an opportunity to draw on the technical expertise of design teams, think creatively, and ultimately, create lasting change in the county.
The team headed by HASSELL are one of ten teams selected by Resilient by Design, modelled after the successful Rebuild by Design challenge that addressed infrastructure needs in New York, New Jersey, and Connecticut following the devastation caused by Hurricane Sandy. The program is tied to The Rockefeller Foundation’s 100 Resilient Cities network, which aims to support 100 cities to build resilience for the 21st-century. The HASSELL+ team is an international team of experts who understands designing and living with water, alongside considering the potential that waterfront locations have for better connected and resilient communities.
Click here to follow the project page as it develops.