The SAFRR project’s second scenario, called ARkStorm, addresses massive U.S. West Coast storms analogous to those that devastated California in 1861–62. Storms of this magnitude are projected to become more frequent and intense as a result of climate change. The SAFRR project assembled experts from scientific research agencies to design the large, but scientifically plausible, hypothetical storm scenario hitting both northern and southern California. The wind, precipitation and flooding, and coastal hazards were translated into physical, environmental, social, and economic damages to provide emergency responders, resource managers, and the public a realistic assessment of what is historically possible.
The ARkStorm scenario was released at the ARkStorm Summit, a two day conference in Sacramento (January 2011), where 250 invited guests from the public and private sector joined together to take action as a result of the scenario’s findings.
Hazards Societal Consequences and Risk Communication Contributions
Anne Wein coordinated analyses of exposed populations, agricultural impacts (leveraging the Delta Risk Management Strategy methods) and economic consequences (figs. 1 and 2) and sensitivity analyses of damages, reconstruction funding, and resilience strategies (with university collaborators). WGSC team members (Jeff Peters, Jamie Jones, Rachel Sleeter, a visiting scholar, and a contractor) provided the GIS and mapping support for analyses of highway damages and capacity, numbers and profiles of flooded populations (fig. 3), and flooded agricultural lands (fig. 4).
Below are publications associated with this project.
Regional analysis of social characteristics for evacuation resource planning: ARkStorm scenario
Agricultural damages and losses from ARkStorm scenario flooding in California
Overview of the ARkStorm scenario
The U.S. Geological Survey, Multi Hazards Demonstration Project (MHDP) uses hazards science to improve resiliency of communities to natural disasters including earthquakes, tsunamis, wildfires, landslides, floods and coastal erosion. The project engages emergency planners, businesses, universities, government agencies, and others in preparing for major natural disasters. The project also helps to
The SAFRR project’s second scenario, called ARkStorm, addresses massive U.S. West Coast storms analogous to those that devastated California in 1861–62. Storms of this magnitude are projected to become more frequent and intense as a result of climate change. The SAFRR project assembled experts from scientific research agencies to design the large, but scientifically plausible, hypothetical storm scenario hitting both northern and southern California. The wind, precipitation and flooding, and coastal hazards were translated into physical, environmental, social, and economic damages to provide emergency responders, resource managers, and the public a realistic assessment of what is historically possible.
The ARkStorm scenario was released at the ARkStorm Summit, a two day conference in Sacramento (January 2011), where 250 invited guests from the public and private sector joined together to take action as a result of the scenario’s findings.
Hazards Societal Consequences and Risk Communication Contributions
Anne Wein coordinated analyses of exposed populations, agricultural impacts (leveraging the Delta Risk Management Strategy methods) and economic consequences (figs. 1 and 2) and sensitivity analyses of damages, reconstruction funding, and resilience strategies (with university collaborators). WGSC team members (Jeff Peters, Jamie Jones, Rachel Sleeter, a visiting scholar, and a contractor) provided the GIS and mapping support for analyses of highway damages and capacity, numbers and profiles of flooded populations (fig. 3), and flooded agricultural lands (fig. 4).
Below are publications associated with this project.
Regional analysis of social characteristics for evacuation resource planning: ARkStorm scenario
Agricultural damages and losses from ARkStorm scenario flooding in California
Overview of the ARkStorm scenario
The U.S. Geological Survey, Multi Hazards Demonstration Project (MHDP) uses hazards science to improve resiliency of communities to natural disasters including earthquakes, tsunamis, wildfires, landslides, floods and coastal erosion. The project engages emergency planners, businesses, universities, government agencies, and others in preparing for major natural disasters. The project also helps to