Public Sediment was developed for the Resilient by Design Bay Area Challenge, a design competition that brings together local residents, public officials, and local, national and international experts to develop innovative solutions to the issues brought on by climate change in the Bay Area.
Our team proposes that sea level rise adaptation must happen upstream. Public Sediment for Alameda Creek unlocks the creek to feed downstream baylands with sediment and sustain protective tidal ecosystems as the climate changes. Tidal ecosystems are protective infrastructure that cushion the urban edges of the San Francisco Bay. Yet the Bay Area’s tidal ecosystems—its marshes, mudflats—are at risk. These systems require sediment to grow vertically in response to sea level rise – without sediment, our baylands will drown. Low sediment supply and bayland drowning represents a slow but devastating scale of loss that threatens ecosystems, recreational landscapes, and places hundreds of thousands of residents and the region’s critical drinking water, energy, and transportation systems at risk. To creatively adapt to this challenge, our team has focused on sediment, the building block of resilience in the Bay. Our team proposes to actively intervene in this ecological transformation by Designing with Mud and Making Sediment Public.
Public Sediment for Alameda Creek is a proposal to address the challenge of sediment scarcity along the vulnerable urban edges of Fremont, Union City, and Newark. To bring sediment to the baylands, we look upstream to Alameda Creek, the largest local tributary that feeds the Bay. Our proposal aims to redesign this waterbody to create functional systems that sustainably transport sediment, engage people, and provide habitat for anadromous fish. Our proposal moves beyond the tidal edge to span four geographies (uplands, creek, baylands, and bay.
We propose to Unlock Alameda Creek and link the creek with the baylands. The proposal provides a sustainable supply of sediment to baylands for sea level rise adaptation, reconnects migratory fish with their historic spawning grounds, and introduces a network of community spaces that reclaim the creek as a place for people, building an ethos and awareness around our public sediment resources.
The Dredge Research Collaborative
UC Davis Department of Human Ecology and Design
Architectural Ecologies Lab