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Natural Hazards Mission Area

Every year in the United States, natural hazards threaten lives and livelihoods and result in billions of dollars in damage. We work with many partners to monitor, assess, and conduct targeted research on a wide range of natural hazards so that policymakers and the public have the understanding they need to enhance preparedness, response, and resilience.

News

Old Postcards, New Science: Historical Photos Document 92 Years of Coastal Change

Old Postcards, New Science: Historical Photos Document 92 Years of Coastal Change

A 700-year rupture sequence of great eastern Aleutian earthquakes from tsunami evidence and modeling

A 700-year rupture sequence of great eastern Aleutian earthquakes from tsunami evidence and modeling

The Threat of Coastal Flooding from Cascadia Earthquake-Driven Land Subsidence

The Threat of Coastal Flooding from Cascadia Earthquake-Driven Land Subsidence

Publications

Paleo-scours within the layered sulfate-bearing unit at Gale crater, Mars: Evidence for intense wind erosion

The surface of modern Mars is largely shaped by wind, but the influence of past wind activity is less well constrained. Sedimentary rocks exposed in the lower foothills of Aeolis Mons, the central mound within Gale crater, record a transition from predominantly lacustrine deposition in the Murray formation to aeolian deposition in the Mirador formation. Here, we report a series of...
Authors
A.L. Roberts, S. Gupta, S.G. Banhan, A. Cowart, Lauren A. Edgar, W. Rapin, W.E. Dietrich, E.S. Kite, J.M. Davis, G. Caravaca, C.A. Mondro, P.J. Gasda, J.R. Johnson, S. Le Mouelic, D.M. Fey, A.B. Bryk, G. Paar, R.A. Harris, A. Fraeman, A.R. Vasavada

Geomorphological evidence of near-surface ice at candidate landing sites in northern Amazonis Planitia, Mars

This work presents geomorphological analyses of an area at the boundary between Arcadia Planitia and northern Amazonis Planitia, situated in the northern mid-latitudes of Mars. Recent studies have indicated the presence of substantial volumes of near-surface excess ice in Arcadia Planitia, making this region a promising candidate for future human and robotic exploration. This study...
Authors
Erica Luzzi, Jennifer L. Heldmann, Kaj E. Williams, Giacomo Nodjoumi, Ariel Deutsch, Alexander Sehlke

Overview of The SCEC/USGS Community Stress Drop Validation Study using the 2019 Ridgecrest earthquake sequence

We present initial findings from the ongoing Community Stress Drop Validation Study to compare spectral stress‐drop estimates for earthquakes in the 2019 Ridgecrest, California, sequence. This study uses a unified dataset to independently estimate earthquake source parameters through various methods. Stress drop, which denotes the change in average shear stress along a fault during...
Authors
Rachel E. Abercrombie, Annemarie S. Baltay Sundstrom, Shanna Chu, Taka'aki Taira, Dino Bindi, Oliver S. Boyd, Xiaowei Chen, Elizabeth S. Cochran, Emma Devin, Douglas Dreger, William Ellsworth, Fan Wenyuan, Rebecca Harrington, Yihe Huang, Kilian Kemna, Meichen Liu, Adrien Oth, Grace Alexandra Parker, Colin Pennington, Matteo Picozzi, Christine J. Ruhl, Peter Shearer, Daniele Spallarossa, Daniel Trugman, Ian Vandevert, Qimin Wu, Clara Yoon, Ellen Yu, Gregory C. Beroza, Tom Eulenfeld, Trey Knudson, Kevin Mayeda, Paola Morasca, James S. Neely, Jorge I. Roman-Nieves, Claudio Satriano, Mariano Supino, William R. Walter, Ralph Archuleta, Gail Marie Atkinson, Giovanna Calderoni, Chen Ji, Hongfeng Yang, Jiewen Zhang

Science

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Poplar Cove, Nantahala National Forest, North Carolina Landslide Monitoring Site

Recent Monitoring Data
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Southwest Fire Innovation Landscape Network: Advanced tools for fuel monitoring and assessment of wildfire risk

The USGS Southwest Biological Science Center is coordinating the Southwest Fire Innovation Landscape Network to prepare fire and natural resource managers for rapidly changing fire landscapes by conducting research and building science-management partnerships. The network develops advanced tools and technologies to assess fuel loads and the effectiveness of fuel treatments, understand wildfire...
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Southwest Fire Innovation Landscape Network: Advanced tools for fuel monitoring and assessment of wildfire risk

The USGS Southwest Biological Science Center is coordinating the Southwest Fire Innovation Landscape Network to prepare fire and natural resource managers for rapidly changing fire landscapes by conducting research and building science-management partnerships. The network develops advanced tools and technologies to assess fuel loads and the effectiveness of fuel treatments, understand wildfire...
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Grfin Tools – Methods and software for modeling landslide runout and debris-flow growth and inundation

Grfin Tools is a set of software tools that allows users to quickly estimate potential runout from landslides, and (or) inundation from debris flows or lahars, within a DEM. Grfin (pronounced "griffin") is an acronym of  Growth +  flow +  inundation, and the tools within this package apply simple, well-tested, empirical models of runout. This suite of tools can be used individually or in...
link

Grfin Tools – Methods and software for modeling landslide runout and debris-flow growth and inundation

Grfin Tools is a set of software tools that allows users to quickly estimate potential runout from landslides, and (or) inundation from debris flows or lahars, within a DEM. Grfin (pronounced "griffin") is an acronym of  Growth +  flow +  inundation, and the tools within this package apply simple, well-tested, empirical models of runout. This suite of tools can be used individually or in...
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