Fire management professionals balance the need to control wildfires to protect lives and property, while also starting prescribed fires to maintain fire-dependent ecosystems and to reduce the size of, and occurrence of, wildfires. Yet, despite good intentions and billions of dollars invested, large wildfires are becoming common. Current fire management techniques are no match for the challenges requested of fire managers, and new innovations are needed. Fire management teams across the world are beginning to explore the potential of unmanned aerial systems (drones) and other technologies for monitoring fires as one avenue of technological innovation.
University of Alaska Fairbanks
The University of Arizona
The University of Arkansas
University of Idaho
Iowa State University
New Mexico State University
Clemson University
Virginia Tech
West Virginia University
Wildland Fire Trends Tool
The Wildland Fire Trends Tool (WFTT) is a data visualization and analysis tool that calculates and displays wildfire trends and patterns for the western U.S. based on user-defined regions of interest, time periods, and ecosystem types. Users can use the tool to easily generate a variety of maps, graphs, and tabular data products that are informative for all levels of expertise.
How Wildfires Threaten U.S. Water Supplies
The 2020 fire season provided stark evidence that wildfires are changing the landscape of America. But when a forest burns, the impacts on water supply and quality last long after the flames go out. Learn more about how wildfires threaten U.S. water supplies – and what we can do to adapt to the complex impacts of hotter and bigger fires.
USGS Wildland Fire Science: an Overview
This is a Story Map that provides a broad overview of the research performed at USGS that is relevant to the field of wildland fire science.
LANDFIRE Map Viewer
Map interface to view and download LANDFIRE data sets, receive alerts and notifications.
Emergency Assessment of Post-Fire Debris-Flow Hazards
We conduct post-fire debris-flow hazard assessments for select fires in the Western U.S. We use geospatial data related to basin morphometry, burn severity, soil properties, and rainfall characteristics to estimate the probability and volume of debris flows that may occur in response to a design storm.
Hot off the Press! Great Balls of Fire!
The USGS Nebraska Cooperative Fish and Wildlife Research Unit in partnership with the Nebraska Intelligent MoBile Unmanned Systems Lab (NIMBUS) and the Applied Complex Adaptive Systems Lab have designed a drone prototype that drops balls filled with combustible material that ignites fire as part of prescribed fire management.
Where can I find wildfire perimeter data?
The USGS operated the Geospatial Multi-Agency Coordination (GeoMAC) website from 2000-2020. GeoMAC was the public face of all wildland fire perimeters. That site was shut down on April 30, 2020 and responsibility for wildfire information was transferred to the National Interagency Fire Center (NIFC). Data previously at "rmgsc.cr.usgs.gov/outgoing/GeoMAC/" is now at National Interagency Fire Center...
What is the "Ring of Fire"?
Most earthquakes and volcanic eruptions do not strike randomly but occur in specific areas, such as along plate boundaries. One such area is the circum-Pacific Ring of Fire , where the Pacific Plate meets many surrounding tectonic plates. The Ring of Fire is the most seismically and volcanically active zone in the world. Learn more: USGS Volcano Hazards Program
What should I know about wildfires and debris flows?
Wildland fires are inevitable in the western United States. Expansion of human development into forested areas has created a situation where wildfires can adversely affect lives and property, as can the flooding and landslides that occur in the aftermath of the fires. There is a need to develop tools and methods to identify and quantify the potential hazards posed by landslides produced from...
Fire management professionals balance the need to control wildfires to protect lives and property, while also starting prescribed fires to maintain fire-dependent ecosystems and to reduce the size of, and occurrence of, wildfires. Yet, despite good intentions and billions of dollars invested, large wildfires are becoming common. Current fire management techniques are no match for the challenges requested of fire managers, and new innovations are needed. Fire management teams across the world are beginning to explore the potential of unmanned aerial systems (drones) and other technologies for monitoring fires as one avenue of technological innovation.
University of Alaska Fairbanks
The University of Arizona
The University of Arkansas
University of Idaho
Iowa State University
New Mexico State University
Clemson University
Virginia Tech
West Virginia University
Wildland Fire Trends Tool
The Wildland Fire Trends Tool (WFTT) is a data visualization and analysis tool that calculates and displays wildfire trends and patterns for the western U.S. based on user-defined regions of interest, time periods, and ecosystem types. Users can use the tool to easily generate a variety of maps, graphs, and tabular data products that are informative for all levels of expertise.
How Wildfires Threaten U.S. Water Supplies
The 2020 fire season provided stark evidence that wildfires are changing the landscape of America. But when a forest burns, the impacts on water supply and quality last long after the flames go out. Learn more about how wildfires threaten U.S. water supplies – and what we can do to adapt to the complex impacts of hotter and bigger fires.
USGS Wildland Fire Science: an Overview
This is a Story Map that provides a broad overview of the research performed at USGS that is relevant to the field of wildland fire science.
LANDFIRE Map Viewer
Map interface to view and download LANDFIRE data sets, receive alerts and notifications.
Emergency Assessment of Post-Fire Debris-Flow Hazards
We conduct post-fire debris-flow hazard assessments for select fires in the Western U.S. We use geospatial data related to basin morphometry, burn severity, soil properties, and rainfall characteristics to estimate the probability and volume of debris flows that may occur in response to a design storm.
Hot off the Press! Great Balls of Fire!
The USGS Nebraska Cooperative Fish and Wildlife Research Unit in partnership with the Nebraska Intelligent MoBile Unmanned Systems Lab (NIMBUS) and the Applied Complex Adaptive Systems Lab have designed a drone prototype that drops balls filled with combustible material that ignites fire as part of prescribed fire management.
Where can I find wildfire perimeter data?
The USGS operated the Geospatial Multi-Agency Coordination (GeoMAC) website from 2000-2020. GeoMAC was the public face of all wildland fire perimeters. That site was shut down on April 30, 2020 and responsibility for wildfire information was transferred to the National Interagency Fire Center (NIFC). Data previously at "rmgsc.cr.usgs.gov/outgoing/GeoMAC/" is now at National Interagency Fire Center...
What is the "Ring of Fire"?
Most earthquakes and volcanic eruptions do not strike randomly but occur in specific areas, such as along plate boundaries. One such area is the circum-Pacific Ring of Fire , where the Pacific Plate meets many surrounding tectonic plates. The Ring of Fire is the most seismically and volcanically active zone in the world. Learn more: USGS Volcano Hazards Program
What should I know about wildfires and debris flows?
Wildland fires are inevitable in the western United States. Expansion of human development into forested areas has created a situation where wildfires can adversely affect lives and property, as can the flooding and landslides that occur in the aftermath of the fires. There is a need to develop tools and methods to identify and quantify the potential hazards posed by landslides produced from...