Natural Hazards+
Science+

Science Explorer

Mission Areas

Programs

Science Centers

Observatories

Laboratories

Unified Interior Regions

Frequently Asked Questions

Education

Products+

Data and Tools

Maps

Publications

Software

Multimedia Gallery

Park Passes

USGS Library

News+

Featured Stories

News Releases

Science Snippets

Technical Announcements

Employees in the News

Get Our News

Media Contacts

I'm a Reporter

Connect+

Headquarters

Locations

Contact Us

Staff Profiles

Social Media

About+

About Us

Organization

Key Officials

Congressional

Budget

Opportunities

Doing Business

Emergency Management

Survey Manual

Mission Areas

Natural Hazards

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.

Read Our Science Strategy

Reducing Risk

Reducing Risk

USGS scientists develop new products to make science available to the public, emergency managers, and decision-makers. These efforts increase public safety and reduce risk and economic losses caused by natural hazards.

Learn More

Subduction Zone Science

Subduction Zone Science

The most powerful earthquakes, tsunamis, landslides, and volcanic eruptions occur in subduction zones, where two plates collide and one is thrust beneath another.

Learn More

Get Notified

You can subscribe to USGS Hazards Data

Earthquakes Notification Service

Latest Earthquakes

WaterAlert

Volcano Notification Service

Current Wildfires-InciWeb

NHMA Newsletter

News

Screenshot from a video that shows the seafloor with rounded rocks and a mechanical claw reaching to sample one of the rocks.
Date published: July 30, 2021

Ferromanganese nodules on a deep-ocean seamount

USGS Pacific Coastal and Marine Science Center researcher Kira Mizell talks about the discovery of a ferromanganese nodule field on a seamount deep in the North Atlantic Ocean.

Attribution: Natural Hazards, Coastal and Marine Hazards and Resources Program, Pacific Coastal and Marine Science Center
July 28, 2021 Alaska 8.2 earthquake screen shot
Date published: July 29, 2021

Magnitude 8.2 Earthquake in Alaska

A magnitude 8.2 earthquake struck 50 miles south of the Alaska Peninsula on July 28, 2021 at 10:15 pm local time (July 29, 2021 06:15 UTC). Seismic instruments indicate the earthquake originated at a depth of 20 miles (32.2 kilometers). 

Attribution: Natural Hazards, Earthquake Hazards Program, Region 11: Alaska, Alaska Science Center
U.S. Electric Power Grid from Space
Date published: July 22, 2021

Down to Earth: Complexities of Geology Affect Nuclear Electromagnetic Pulse Hazard 

Geoelectric hazards generated by a nuclear explosion at the outer edge of Earth’s atmosphere can be strongly affected by the electrical conductivity of rock structures beneath the Earth's surface, according to a study led by the U.S. Geological Survey.  

Attribution: Natural Hazards, Geomagnetism Program, Region 7: Upper Colorado Basin, Geologic Hazards Science Center
View All News

Publications

Publication Thumbnail
Year Published: 2021

Hazard analysis of landslides triggered by Typhoon Chata'an on July 2, 2002, in Chuuk State, Federated States of Micronesia

More than 250 landslides were triggered across the eastern volcanic islands of Chuuk State in the Federated States of Micronesia by torrential rainfall from tropical storm Chata’an on July 2, 2002. Landslides triggered during nearly 20 inches of rainfall in less than 24 hours caused 43 fatalities and the destruction or damage of 231 structures,...

Harp, Edwin L.; Reid, Mark E.; Michael, John A.
View Citation
Harp, E.L., Reid, M.E., and Michael, J.A., 2004, Hazard analysis of landslides triggered by Typhoon Chata'an on July 2, 2002, in Chuuk State, Federated States of Micronesia (ver. 1.1, July 2021): U.S. Geological Survey Open-File Report 2004−1348, 22 p., 2 pls., scale 1:25,000, https://doi.org/10.3133/ofr20041348.

Publication Thumbnail
Year Published: 2021

A numerical model for the cooling of a lava sill with heat pipe effects

Understanding the cooling process of volcanic intrusions into wet sediments is a difficult but important problem, given the presence of extremely large temperature gradients and potentially complex water-magma interactions. This report presents a numerical model to study such interactions, including the effect of heat pipes on the cooling of...

Williams, Kaj E.; Dundas, Colin M.; Kestay, Laszlo P.
View Citation
Williams, K.E., Dundas, C.M., and Kestay, L.P., 2021, A numerical model for the cooling of a lava sill with heat pipe effects: U.S. Geological Survey Techniques and Methods, book 13, chap. B2, 14 p., https://doi.org/10.3133/tm13B2.

Publication Thumbnail
Year Published: 2021

Timing of iceberg scours and massive ice-rafting events in the subtropical North Atlantic

High resolution seafloor mapping shows extraordinary evidence that massive (>300 m thick) icebergs once drifted >5,000 km south along the eastern United States, with >700 iceberg scours now identified south of Cape Hatteras. Here we report on sediment cores collected from several buried scours that show multiple plow marks align with...

Condron, Alan; Hill, Jenna C.

View All Publications