Probabilistic Forecasting of Earthquakes, Tsunamis, and Earthquake Effects in the Coastal Zone
The nation's coastlines are vulnerable to the interrelated hazards posed by earthquakes, landslides, and tsunamis. In the marine environment these events often occur in concert, and distant triggers can cause severe local effects, making the issue global in scope. As the population continues to migrate toward the coastlines, the social impacts of these hazards are expected to grow.
Products are aimed for use in regional multi-hazard assessments, and might range from complete assessments to analysis tools, interpreted data, or models. We are interacting with groups tasked with making formal hazard assessments and have provided products needed by them in a timely manner (e.g., Southern California Earthquake Center (SCEC), Working Group on California Earthquake Probabilities (WGCEP)). These collaborations will continue to be a major guiding influence, and we plan to maintain research flexibility needed for proper response as necessary. As such, the task is defined thematically. The larger community will help to establish guidelines on regions in which we will we work.
Research Web Sites
Tsunami and Earthquake Research
This site provides general information about how earthquakes generate tsunamis, as well as descriptions and animations of historical tsunamis, virtual reality models showing how tsunamis change as they approach and bounce off coastlines, and summaries of past fieldwork in areas struck by major tsunamis.
Earthquake Hazards Program
We work closely with scientists in the USGS Earthquake Hazards Program, with the goal of providing relevant scientific information to reduce deaths, injuries, and property damage from earthquakes.
Working Group on California Earthquake Probabilities (WGCEP)
We collaborate with groups that make formal hazard assessments, such as the Working Group on California Earthquake Probabilities (WGCEP), providing and evaluating the latest scientific information. This site presents the most recent collaborative earthquake forecasts for all of California.
Global Geoengineering Research
The Coastal and Marine Geology geoengineering group investigates the causes of ground deformation and ground failures—such as landslides and liquefaction—that result from earthquakes, storms, and wave action.
Below are other science projects associated with this project.
Below are publications associated with this project.
Tsunamis: Stochastic models of generation, propagation, and occurrence
A combinatorial approach to determine earthquake magnitude distributions on a variable slip-rate fault
Seismological, geological, and geotechnical engineering aspects of the 2018 MW 6.6 Hokkaido Eastern Iburi earthquake
Offshore landslide hazard curves from mapped landslide size distributions
Characteristic earthquake magnitude frequency distributions on faults calculated from consensus data in California
SPT-based probabilistic and deterministic assessment of seismic soil liquefaction triggering hazard
Examination of differences between three SPT-based seismic soil liquefaction triggering relationships
Effect of dynamical phase on the resonant interaction among tsunami edge wave modes
Introduction to “Global tsunami science: Past and future, Volume III”
Determining on-fault earthquake magnitude distributions from integer programming
Testing earthquake links in Mexico from 1978 up to the 2017 M=8.1 Chiapas and M=7.1 Puebla shocks
Probabilistic tsunami hazard analysis: Multiple sources and global applications
Below are news stories associated with this project.
Below are FAQ associated with this project.
The nation's coastlines are vulnerable to the interrelated hazards posed by earthquakes, landslides, and tsunamis. In the marine environment these events often occur in concert, and distant triggers can cause severe local effects, making the issue global in scope. As the population continues to migrate toward the coastlines, the social impacts of these hazards are expected to grow.
Products are aimed for use in regional multi-hazard assessments, and might range from complete assessments to analysis tools, interpreted data, or models. We are interacting with groups tasked with making formal hazard assessments and have provided products needed by them in a timely manner (e.g., Southern California Earthquake Center (SCEC), Working Group on California Earthquake Probabilities (WGCEP)). These collaborations will continue to be a major guiding influence, and we plan to maintain research flexibility needed for proper response as necessary. As such, the task is defined thematically. The larger community will help to establish guidelines on regions in which we will we work.
Research Web Sites
Tsunami and Earthquake Research
This site provides general information about how earthquakes generate tsunamis, as well as descriptions and animations of historical tsunamis, virtual reality models showing how tsunamis change as they approach and bounce off coastlines, and summaries of past fieldwork in areas struck by major tsunamis.
Earthquake Hazards Program
We work closely with scientists in the USGS Earthquake Hazards Program, with the goal of providing relevant scientific information to reduce deaths, injuries, and property damage from earthquakes.
Working Group on California Earthquake Probabilities (WGCEP)
We collaborate with groups that make formal hazard assessments, such as the Working Group on California Earthquake Probabilities (WGCEP), providing and evaluating the latest scientific information. This site presents the most recent collaborative earthquake forecasts for all of California.
Global Geoengineering Research
The Coastal and Marine Geology geoengineering group investigates the causes of ground deformation and ground failures—such as landslides and liquefaction—that result from earthquakes, storms, and wave action.
Below are other science projects associated with this project.
Below are publications associated with this project.
Tsunamis: Stochastic models of generation, propagation, and occurrence
A combinatorial approach to determine earthquake magnitude distributions on a variable slip-rate fault
Seismological, geological, and geotechnical engineering aspects of the 2018 MW 6.6 Hokkaido Eastern Iburi earthquake
Offshore landslide hazard curves from mapped landslide size distributions
Characteristic earthquake magnitude frequency distributions on faults calculated from consensus data in California
SPT-based probabilistic and deterministic assessment of seismic soil liquefaction triggering hazard
Examination of differences between three SPT-based seismic soil liquefaction triggering relationships
Effect of dynamical phase on the resonant interaction among tsunami edge wave modes
Introduction to “Global tsunami science: Past and future, Volume III”
Determining on-fault earthquake magnitude distributions from integer programming
Testing earthquake links in Mexico from 1978 up to the 2017 M=8.1 Chiapas and M=7.1 Puebla shocks
Probabilistic tsunami hazard analysis: Multiple sources and global applications
Below are news stories associated with this project.
Below are FAQ associated with this project.