D. Bausch scite author profile

D. Bausch

4Publications

68Citation Statements Received

32Citation Statements Given

How they've been cited

101

How they cite others

Affiliations

ORCID, Pacific Disaster Center, Federal Emergency Management Agency

Publications

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Estimating Annualized Earthquake Losses for the Conterminous United States

et al. 2015

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We make use of the most recent National Seismic Hazard Maps (the years 2008 and 2014 cycles), updated Census data on population, and economic exposure estimates of general building stock to quantify annualized earthquake loss (AEL) for the conterminous United States. The AEL analyses were performed using the Federal Emergency Management Agency's Hazus software, which facilitated a systematic comparison of the influence of the 2014 National Seismic Hazard Maps in terms of annualized loss estimates in different parts of the country. The losses from an individual earthquake could easily exceed many tens of billions of dollars, and the long-term averaged value of losses from all earthquakes within the conterminous United States has been estimated to be a few billion dollars per year. This study estimated nationwide losses to be approximately $4.5 billion per year (in 2012 dollars), roughly 80%of which can be attributed to the states of California, Oregon, and Washington. We document the change in estimated AELs arising solely from the change in the assumed hazard map. The change from the 2008 map to the 2014 map results in a 10% to 20% reduction in AELs for the highly seismic states of the Western United States, whereas the reduction is even more significant for the Central and Eastern United States.

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A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems

Wald

Seligson²,

Rozelle

et al. 2020

Earthquake Spectra

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The United States Geological Survey’s Prompt Assessment of Global Earthquakes for Response (PAGER) alert system provides rapid (10–20 min) but general loss estimates of ranges of fatalities and economic impact for significant global earthquakes. FEMA’s Hazus software, in contrast, provides time-consuming (2–5 h) but more detailed loss information quantified in terms of structural, social, and economic consequences estimated at a much higher spatial resolution for large domestic earthquakes. We developed a rapid hybrid post-earthquake product that takes advantage of the best of both loss models. First, though, we conducted a systematic comparison of loss estimates from PAGER with Hazus for all significant, relatively recent, domestic earthquakes for which adequate loss data exist—augmented by a dozen ShakeMap scenarios. The systematic comparison of Hazus and PAGER losses provided the basis for selecting the specific loss metrics to present from each system. The signature product will serve as a supplement to the widely deployed PAGER alert product for significant domestic earthquakes.

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Insights from Hazus loss estimations in Israel for Dead Sea Transform earthquakes

et al. 2014

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Earthquake Impact Scale

et al. 2011

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D. Bausch

Estimating Annualized Earthquake Losses for the Conterminous United States

A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems

Insights from Hazus loss estimations in Israel for Dead Sea Transform earthquakes

Earthquake Impact Scale

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