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Dennis M Staley

Current research focuses on landslide hazards in Alaska, specifically on tsunamigenic landslides in Prince William Sound. Past research includes post-wildfire debris flow hazards in the western United States, the geomorphology of alluvial and debris-flow fans and talus deposits in arid and alpine environments, and the assessment of aquatic, riparian and wetland ecosystem health and function.

I am a Research Physical Scientist in the Alaska Volcano Observatory in Anchorage, Alaska, where I currently lead a project related to landslide hazards in Prince William Sound.  This project is currently aimed at improving our understanding of the tsunamigenic potential and corresponding risk associated with large rock slope failures in recently deglaciated fiords.  

Prior to moving to Alaska in the fall of 2021, I worked at the Geologic Hazards Science Center in Golden, Colorado, where I studied post-fire debris flows.  This research focused on advancing our understanding of the topographic, geologic, hydrologic, and meteorological conditions that influence the location, timing, and magnitude of post-fire debris flows for the purpose of improving hazard assessment and early warning.

Before starting my career at the U.S. Geological Survey, I was a Physical Scientist at the U.S. Forest Service in Golden, Colorado, where I focused on developing protocols for assessing the health and function of aquatic, riparian, and wetland ecosystems of the Rocky Mountains.

 

Professional Experience

  • 2007 - Present: Research Physical Scientist, U.S. Geological Survey, Golden CO and Anchorage AK

  • 2001 - 2007: Physical Scientist, U.S. Forest Service, Golden CO

Education and Certifications

  • Ph.D. in Earth Sciences, University of Memphis, Memphis TN, 2006.

  • MSc. in Geography, University of Memphis, Memphis TN, 2000.

  • BA in Geography, State University of New York - College at Geneseo, Geneseo NY, 1998.

Affiliations and Memberships*

  • Fellow, Geological Society of America (2020)

  • E.B. Burwell Jr. Award, Geological Society of America Environmental and Engineering Geology Division (2019)

  • Honor Award for Superior Service, U.S. Department of Interior (2016)

  • Meritorious Service Award, Environmental and Engineering Geology Division of the Geological Society of America (2015)

  • Best Paper Award in Landslides, International Landslide Consortium (2013)

Science and Products

Filter Total Items: 58

Kinematic evolution of a large paraglacial landslide in the Barry Arm fjord of Alaska Kinematic evolution of a large paraglacial landslide in the Barry Arm fjord of Alaska

Our warming climate is adversely affecting cryospheric landscapes via glacial retreat, permafrost degradation, and associated slope destabilization. In Prince William Sound, Alaska, the rapid retreat of Barry Glacier has destabilized the slopes flanking the glacier, resulting in numerous landslides. The largest of these landslides (∼500 Mm3 in volume) is more than 2 km wide and has the...
Authors
Lauren N. Schaefer, Jeffrey A. Coe, Katreen Wikstrom Jones, Brian D. Collins, Dennis M. Staley, Michael E. West, Ezgi Karasozen, Charles Prentice-James Miles, Gabriel J. Wolken, Ronald P. Daanan, Kelli Wadsworth Baxstrom
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Simulating debris flow and levee formation in the 2D shallow flow model D-Claw: Channelized and unconfined flow Simulating debris flow and levee formation in the 2D shallow flow model D-Claw: Channelized and unconfined flow

Debris flow runout poses a hazard to life and infrastructure. The expansion of human population into mountainous areas and onto alluvial fans increases the need to predict and mitigate debris flow runout hazards. Debris flows on unconfined alluvial fans can exhibit spontaneous self-channelization through levee formation that reduces lateral spreading and extends runout distances compared...
Authors
Ryan P. Jones, Francis K. Rengers, Katherine R. Barnhart, David L. George, Dennis M. Staley, Jason W. Kean
By
Natural Hazards Mission Area, Landslide Hazards Program, Science Synthesis, Analysis, and Research Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Advanced Research Computing (ARC), Supplemental Appropriations for Disaster Recovery Activities

New model of the Barry Arm landslide in Alaska reveals potential tsunami wave heights of 2 meters, values much lower than previously estimated New model of the Barry Arm landslide in Alaska reveals potential tsunami wave heights of 2 meters, values much lower than previously estimated

The retreat of Barry Glacier has contributed to the destabilization of slopes in Barry Arm, creating the possibility that a landslide could rapidly enter the fjord and trigger a tsunami. The U.S. Geological Survey (USGS) recently released a report documenting potential tsunami wave heights in the event of a large, fast-moving landslide at the Barry Arm fiord near Prince William Sound...
Authors
Marisa A. Macias, Katherine R. Barnhart, Dennis M. Staley
By
Natural Hazards Mission Area, Geologic Hazards Science Center

Rainfall triggering of post-fire debris flows over a 28-year period near El Portal, California, USA Rainfall triggering of post-fire debris flows over a 28-year period near El Portal, California, USA

Wildfires frequently affect the steep hillslopes near El Portal, California (United States), a small community established during the California Gold Rush in the mid-1800s. In addition to the historical significance of El Portal, State Route 140 (SR 140) is a major transportation and economic corridor connecting the San Joaquin Valley to Yosemite National Park (YNP). In 2019, an...
Authors
Jerome V. De Graff, Dennis M. Staley, Greg M. Stock, Kellen Takenaka, Alan L. Gallegos, Chad K. Neptune
By
Geologic Hazards Science Center

Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California post-wildfire event Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California post-wildfire event

Hazard assessment for post-wildfire debris flows, which are common in the steep terrain of the western United States, has focused on the susceptibility of upstream basins to generate debris flows. However, reducing public exposure to this hazard also requires an assessment of hazards in downstream areas that might be inundated during debris flow runout. Debris flow runout models are...
Authors
Katherine R. Barnhart, Ryan P. Jones, David L. George, Brian W. McArdell, Francis K. Rengers, Dennis M. Staley, Jason W. Kean
By
Natural Hazards Mission Area, Landslide Hazards Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Supplemental Appropriations for Disaster Recovery Activities

Preliminary assessment of the wave generating potential from landslides at Barry Arm, Prince William Sound, Alaska Preliminary assessment of the wave generating potential from landslides at Barry Arm, Prince William Sound, Alaska

We simulated the concurrent rapid motion of landslides on an unstable slope at Barry Arm, Alaska. Movement of landslides into the adjacent fjord displaced fjord water and generated a tsunami, which propagated out of Barry Arm. Rather than assuming an initial sea surface height, velocity, and location for the tsunami, we generated the tsunami directly using a model capable of simulating...
Authors
Katherine R. Barnhart, Ryan P. Jones, David L. George, Jeffrey A. Coe, Dennis M. Staley
By
Natural Hazards Mission Area, Landslide Hazards Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Supplemental Appropriations for Disaster Recovery Activities
The aftermath of the January 9, 2018 debris flows in Montecito, California.

Debris-Flow Forecasts Before Wildfires

Release Date: OCTOBER 15, 2018 USGS scientists have been pursuing a way to assess debris-flow hazards before a fire occurs.
By
Natural Hazards Mission Area, Landslide Hazards Program, Wildland Fire Science
Debris-Flow Forecasts Before Wildfires

Debris-Flow Forecasts Before Wildfires

Release Date: OCTOBER 15, 2018 USGS scientists have been pursuing a way to assess debris-flow hazards before a fire occurs.
Learn More
Topographic map of post-fire debris flow

Postfire debris-flow hazards

Wildfires can significantly alter the way water interacts with the landscape to the extent that even modest rainstorms can produce dangerous flash floods and debris flows. Recent fires in the western U.S. have impacted hundreds of thousands of acres of steep land, much of it public, making it susceptible to increased erosion and debris-flow activity. With the risk of severe wildfires continuing to...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Big Sur Landslides, Wildland Fire Science
Postfire debris-flow hazards

Postfire debris-flow hazards

Wildfires can significantly alter the way water interacts with the landscape to the extent that even modest rainstorms can produce dangerous flash floods and debris flows. Recent fires in the western U.S. have impacted hundreds of thousands of acres of steep land, much of it public, making it susceptible to increased erosion and debris-flow activity. With the risk of severe wildfires continuing to...
Learn More
Bluebird Canyon landslide, near Laguna Beach CA

Rainfall and Landslides in Southern California

A summary of recent and past landslides and debris flows caused by rainfall in Southern California.
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Big Sur Landslides
Rainfall and Landslides in Southern California

Rainfall and Landslides in Southern California

A summary of recent and past landslides and debris flows caused by rainfall in Southern California.
Learn More
USGS science for a changing world logo

Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

One of the grand challenges of Earth Surface Science and Natural Resource Management lies in the prediction of mass and energy transfer for large watersheds and landscapes. High resolution topography (lidar) datasets show potential to significantly advance our understanding of hydrologic and geomorphic processes controlling mass and energy transfer because they represent features at the
By
John Wesley Powell Center for Analysis and Synthesis
Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

One of the grand challenges of Earth Surface Science and Natural Resource Management lies in the prediction of mass and energy transfer for large watersheds and landscapes. High resolution topography (lidar) datasets show potential to significantly advance our understanding of hydrologic and geomorphic processes controlling mass and energy transfer because they represent features at the
Learn More
Filter Total Items: 17

Simulated inundation extent and depth in Harriman Fjord and Barry Arm, western Prince William Sound, Alaska, resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska Simulated inundation extent and depth in Harriman Fjord and Barry Arm, western Prince William Sound, Alaska, resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska

Summary This data release contains postprocessed model output from a simulation of hypothetical rapid motion of landslides, subsequent wave generation, and wave propagation. A simulated displacement wave was generated by rapid motion of unstable material into Barry Arm fjord. We consider the wave propagation in Harriman Fjord and Barry Arm, western Prince William Sound (area of interest...
By
Geologic Hazards Science Center

Simulated inundation extent and depth at Whittier, Alaska resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska Simulated inundation extent and depth at Whittier, Alaska resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska

This data release contains postprocessed model output from simulations of hypothetical rapid motion of landslides, subsequent wave generation, and wave propagation. A modeled tsunami wave was generated by rapid motion of unstable material into Barry Arm Fjord. This wave propagated through Prince William Sound and then into Passage Canal east of Whittier. Here we consider only the largest...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Select model results from simulations of hypothetical rapid failures of landslides into Barry Arm, Prince William Sound, Alaska Select model results from simulations of hypothetical rapid failures of landslides into Barry Arm, Prince William Sound, Alaska

This data release contains model output from simulations presented in the associated Open-File Report (Barnhart and others, 2021). In this report, we present model results from four simulations (scenarios C-290, NC-290, C-689, NC-689, Table 1) of hypothetical rapid movement of landslides into adjacent fjord water at Barry Arm, Alaska using the D-Claw model (George and Iverson, 2014...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Supplemental Appropriations for Disaster Recovery Activities

Soil moisture monitoring following the 2009 Station Fire, California, USA, 2016-2019 Soil moisture monitoring following the 2009 Station Fire, California, USA, 2016-2019

This data release includes 2016-2019 soil moisture timeseries for two drainage basins ("Arroyo Seco" and "Dunsmore Canyon") that burned during the 2009 Station Fire in Los Angeles County, California, USA. The Arroyo Seco (0.01 km2) and Dunsmore Canyon (0.5 km2) drainages include two soil pits, one located near the drainage divide and another near the basin outlet. Following the naming...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Gridded estimates of postfire debris flow frequency and magnitude for southern California Gridded estimates of postfire debris flow frequency and magnitude for southern California

This data release contains gridded estimates of postfire debris flow probability and magnitude for six different rainfall and wildfire scenarios in southern California. The scenarios represent the present and possible future precipitation and fire regimes for the region. The results are provided for 1 km2 cells across the study area. The data release accompanies the journal article Kean...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Data supporting an analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States Data supporting an analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States

This data release supports the analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States. We define the recurrence interval of the peak 15-, 30-, and 60-minute rainfall intensities for 316 observations of post-fire debris-flow occurrence in 18 burn areas, 5 U.S. states, and 7 climate types. These data support the analysis described...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Science and Products

Filter Total Items: 58

Kinematic evolution of a large paraglacial landslide in the Barry Arm fjord of Alaska Kinematic evolution of a large paraglacial landslide in the Barry Arm fjord of Alaska

Our warming climate is adversely affecting cryospheric landscapes via glacial retreat, permafrost degradation, and associated slope destabilization. In Prince William Sound, Alaska, the rapid retreat of Barry Glacier has destabilized the slopes flanking the glacier, resulting in numerous landslides. The largest of these landslides (∼500 Mm3 in volume) is more than 2 km wide and has the...
Authors
Lauren N. Schaefer, Jeffrey A. Coe, Katreen Wikstrom Jones, Brian D. Collins, Dennis M. Staley, Michael E. West, Ezgi Karasozen, Charles Prentice-James Miles, Gabriel J. Wolken, Ronald P. Daanan, Kelli Wadsworth Baxstrom
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Simulating debris flow and levee formation in the 2D shallow flow model D-Claw: Channelized and unconfined flow Simulating debris flow and levee formation in the 2D shallow flow model D-Claw: Channelized and unconfined flow

Debris flow runout poses a hazard to life and infrastructure. The expansion of human population into mountainous areas and onto alluvial fans increases the need to predict and mitigate debris flow runout hazards. Debris flows on unconfined alluvial fans can exhibit spontaneous self-channelization through levee formation that reduces lateral spreading and extends runout distances compared...
Authors
Ryan P. Jones, Francis K. Rengers, Katherine R. Barnhart, David L. George, Dennis M. Staley, Jason W. Kean
By
Natural Hazards Mission Area, Landslide Hazards Program, Science Synthesis, Analysis, and Research Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Advanced Research Computing (ARC), Supplemental Appropriations for Disaster Recovery Activities

New model of the Barry Arm landslide in Alaska reveals potential tsunami wave heights of 2 meters, values much lower than previously estimated New model of the Barry Arm landslide in Alaska reveals potential tsunami wave heights of 2 meters, values much lower than previously estimated

The retreat of Barry Glacier has contributed to the destabilization of slopes in Barry Arm, creating the possibility that a landslide could rapidly enter the fjord and trigger a tsunami. The U.S. Geological Survey (USGS) recently released a report documenting potential tsunami wave heights in the event of a large, fast-moving landslide at the Barry Arm fiord near Prince William Sound...
Authors
Marisa A. Macias, Katherine R. Barnhart, Dennis M. Staley
By
Natural Hazards Mission Area, Geologic Hazards Science Center

Rainfall triggering of post-fire debris flows over a 28-year period near El Portal, California, USA Rainfall triggering of post-fire debris flows over a 28-year period near El Portal, California, USA

Wildfires frequently affect the steep hillslopes near El Portal, California (United States), a small community established during the California Gold Rush in the mid-1800s. In addition to the historical significance of El Portal, State Route 140 (SR 140) is a major transportation and economic corridor connecting the San Joaquin Valley to Yosemite National Park (YNP). In 2019, an...
Authors
Jerome V. De Graff, Dennis M. Staley, Greg M. Stock, Kellen Takenaka, Alan L. Gallegos, Chad K. Neptune
By
Geologic Hazards Science Center

Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California post-wildfire event Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California post-wildfire event

Hazard assessment for post-wildfire debris flows, which are common in the steep terrain of the western United States, has focused on the susceptibility of upstream basins to generate debris flows. However, reducing public exposure to this hazard also requires an assessment of hazards in downstream areas that might be inundated during debris flow runout. Debris flow runout models are...
Authors
Katherine R. Barnhart, Ryan P. Jones, David L. George, Brian W. McArdell, Francis K. Rengers, Dennis M. Staley, Jason W. Kean
By
Natural Hazards Mission Area, Landslide Hazards Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Supplemental Appropriations for Disaster Recovery Activities

Preliminary assessment of the wave generating potential from landslides at Barry Arm, Prince William Sound, Alaska Preliminary assessment of the wave generating potential from landslides at Barry Arm, Prince William Sound, Alaska

We simulated the concurrent rapid motion of landslides on an unstable slope at Barry Arm, Alaska. Movement of landslides into the adjacent fjord displaced fjord water and generated a tsunami, which propagated out of Barry Arm. Rather than assuming an initial sea surface height, velocity, and location for the tsunami, we generated the tsunami directly using a model capable of simulating...
Authors
Katherine R. Barnhart, Ryan P. Jones, David L. George, Jeffrey A. Coe, Dennis M. Staley
By
Natural Hazards Mission Area, Landslide Hazards Program, Volcano Hazards Program, Geologic Hazards Science Center, Volcano Science Center, Supplemental Appropriations for Disaster Recovery Activities
The aftermath of the January 9, 2018 debris flows in Montecito, California.

Debris-Flow Forecasts Before Wildfires

Release Date: OCTOBER 15, 2018 USGS scientists have been pursuing a way to assess debris-flow hazards before a fire occurs.
By
Natural Hazards Mission Area, Landslide Hazards Program, Wildland Fire Science
Debris-Flow Forecasts Before Wildfires

Debris-Flow Forecasts Before Wildfires

Release Date: OCTOBER 15, 2018 USGS scientists have been pursuing a way to assess debris-flow hazards before a fire occurs.
Learn More
Topographic map of post-fire debris flow

Postfire debris-flow hazards

Wildfires can significantly alter the way water interacts with the landscape to the extent that even modest rainstorms can produce dangerous flash floods and debris flows. Recent fires in the western U.S. have impacted hundreds of thousands of acres of steep land, much of it public, making it susceptible to increased erosion and debris-flow activity. With the risk of severe wildfires continuing to...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Big Sur Landslides, Wildland Fire Science
Postfire debris-flow hazards

Postfire debris-flow hazards

Wildfires can significantly alter the way water interacts with the landscape to the extent that even modest rainstorms can produce dangerous flash floods and debris flows. Recent fires in the western U.S. have impacted hundreds of thousands of acres of steep land, much of it public, making it susceptible to increased erosion and debris-flow activity. With the risk of severe wildfires continuing to...
Learn More
Bluebird Canyon landslide, near Laguna Beach CA

Rainfall and Landslides in Southern California

A summary of recent and past landslides and debris flows caused by rainfall in Southern California.
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Big Sur Landslides
Rainfall and Landslides in Southern California

Rainfall and Landslides in Southern California

A summary of recent and past landslides and debris flows caused by rainfall in Southern California.
Learn More
USGS science for a changing world logo

Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

One of the grand challenges of Earth Surface Science and Natural Resource Management lies in the prediction of mass and energy transfer for large watersheds and landscapes. High resolution topography (lidar) datasets show potential to significantly advance our understanding of hydrologic and geomorphic processes controlling mass and energy transfer because they represent features at the
By
John Wesley Powell Center for Analysis and Synthesis
Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

Exploiting high-resolution topography for advancing the understanding of mass and energy transfer across landscapes: Opportunities, challenges, and needs

One of the grand challenges of Earth Surface Science and Natural Resource Management lies in the prediction of mass and energy transfer for large watersheds and landscapes. High resolution topography (lidar) datasets show potential to significantly advance our understanding of hydrologic and geomorphic processes controlling mass and energy transfer because they represent features at the
Learn More
Filter Total Items: 17

Simulated inundation extent and depth in Harriman Fjord and Barry Arm, western Prince William Sound, Alaska, resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska Simulated inundation extent and depth in Harriman Fjord and Barry Arm, western Prince William Sound, Alaska, resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska

Summary This data release contains postprocessed model output from a simulation of hypothetical rapid motion of landslides, subsequent wave generation, and wave propagation. A simulated displacement wave was generated by rapid motion of unstable material into Barry Arm fjord. We consider the wave propagation in Harriman Fjord and Barry Arm, western Prince William Sound (area of interest...
By
Geologic Hazards Science Center

Simulated inundation extent and depth at Whittier, Alaska resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska Simulated inundation extent and depth at Whittier, Alaska resulting from the hypothetical rapid motion of landslides into Barry Arm Fjord, Prince William Sound, Alaska

This data release contains postprocessed model output from simulations of hypothetical rapid motion of landslides, subsequent wave generation, and wave propagation. A modeled tsunami wave was generated by rapid motion of unstable material into Barry Arm Fjord. This wave propagated through Prince William Sound and then into Passage Canal east of Whittier. Here we consider only the largest...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Select model results from simulations of hypothetical rapid failures of landslides into Barry Arm, Prince William Sound, Alaska Select model results from simulations of hypothetical rapid failures of landslides into Barry Arm, Prince William Sound, Alaska

This data release contains model output from simulations presented in the associated Open-File Report (Barnhart and others, 2021). In this report, we present model results from four simulations (scenarios C-290, NC-290, C-689, NC-689, Table 1) of hypothetical rapid movement of landslides into adjacent fjord water at Barry Arm, Alaska using the D-Claw model (George and Iverson, 2014...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center, Supplemental Appropriations for Disaster Recovery Activities

Soil moisture monitoring following the 2009 Station Fire, California, USA, 2016-2019 Soil moisture monitoring following the 2009 Station Fire, California, USA, 2016-2019

This data release includes 2016-2019 soil moisture timeseries for two drainage basins ("Arroyo Seco" and "Dunsmore Canyon") that burned during the 2009 Station Fire in Los Angeles County, California, USA. The Arroyo Seco (0.01 km2) and Dunsmore Canyon (0.5 km2) drainages include two soil pits, one located near the drainage divide and another near the basin outlet. Following the naming...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Gridded estimates of postfire debris flow frequency and magnitude for southern California Gridded estimates of postfire debris flow frequency and magnitude for southern California

This data release contains gridded estimates of postfire debris flow probability and magnitude for six different rainfall and wildfire scenarios in southern California. The scenarios represent the present and possible future precipitation and fire regimes for the region. The results are provided for 1 km2 cells across the study area. The data release accompanies the journal article Kean...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

Data supporting an analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States Data supporting an analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States

This data release supports the analysis of the recurrence interval of post-fire debris-flow generating rainfall in the southwestern United States. We define the recurrence interval of the peak 15-, 30-, and 60-minute rainfall intensities for 316 observations of post-fire debris-flow occurrence in 18 burn areas, 5 U.S. states, and 7 climate types. These data support the analysis described...
By
Natural Hazards Mission Area, Landslide Hazards Program, Geologic Hazards Science Center

*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government

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