Ben Mirus
As a Research Geologist in the Geologic Hazards Science Center, my work focuses broadly on rainfall-triggered landslides. As a Project Chief within the Landslide Hazards Program, I oversee a talented team of geoscientists developing tools to reduce landslide-related losses and working to advance our understanding of this damaging and deadly hazard.
My interest in science that services society combined with a passion for the outdoors led me into a career with the USGS, where I have worked on a variety of big problems. As a student intern and postdoc in California, my earliest projects used soil physics to model radio-nuclide transport in groundwater, while my current position in Colorado focuses on limiting economic losses and fatalities related to landslides. I have worked across the U.S. from the deserts of southern Nevada to the lush forests of southeast Alaska and western North Carolina studying how water moves through soil and rock, and how that ultimately influences natural resources and the built environment. I work with data at various scales, from detailed hydrologic monitoring on individual hill slopes to managing our national landslide hazards database. I conduct fieldwork and respond to landslide disasters, while also using geographic information systems and mathematical models to quantify landslide susceptibility and initiation thresholds. My research advances methods used to forecast rainfall-triggered landslides through improved quantitative understanding of hillslope hydrological processes. I am also developing novel approaches for mapping where people and critical infrastructure are exposed to different types of landslides and hence pose the greatest threat to society.
Professional Experience
2015-present: Research Geologist, Landslides Hazards Program, USGS, Golden, CO
2013-2014: Assistant Professor, Department of Geological Sciences, University of North Carolina, Chapel Hill, NC
2010-2013: Hydrologist, National Research Program, USGS, Menlo Park, CA
2005-2009: Physical Scientist, National Research Program, USGS, Menlo Park, CA
Education and Certifications
2009 - Ph.D., Hydrogeology, Stanford University, Stanford, CA
2001 - B.A., Geology, Pomona College, Claremont, CA
Affiliations and Memberships*
2025-present: Member, USGS Council of Senior Science Advisors (COSSA)
2020-present: Executive Committee, LandAware Network
2002-present: Member, American Geophysical Union (AGU)
2001-present : Member, Geological Society of America (GSA)
Honors and Awards
2025: Presidential Early Career Award for Scientists and Engineers (PECASE)
2023-present: Editor, Landslides Journal
2022-2023: Visiting Fellow, Swiss Federal Institute for Forest, Snow, and Land Research (WSL)
2018-present: Affiliate Faculty, Department of Geology and Geologic Engineering, Colorado School of Mines
2018: AGU Editors’ Citation for Excellence in Refereeing, Geophysical Research Letters
2002-2007: Stanford Graduate Fellowship, Stanford University
2001: Phi Beta Kappa
2001: Richard Strehle Memorial Award, Pomona College (outstanding field geologist)
Science and Products
Filter Total Items: 15
Filter Total Items: 15
No Result Found
Filter Total Items: 65
In-situ monitoring of infiltration-induced instability of I-70 embankment west of the Eisenhower-Johnson Memorial Tunnels, phase III In-situ monitoring of infiltration-induced instability of I-70 embankment west of the Eisenhower-Johnson Memorial Tunnels, phase III
A new methodology that uses recent advances in unsaturated soil mechanics and hydrology was developed and tested. The approach consists of using soil suction and moisture content field information in the prediction of the likelihood of landslide movement. The testing ground was an active landslide on I-70 west of the Eisenhower/Johnson Memorial Tunnels. A joint effort between Colorado...
Authors
Alexandra Wayllace, Ning Lu, Benjamin B. Mirus
A new era of debris flow experiments in the Oregon woods A new era of debris flow experiments in the Oregon woods
No abstract available.
Authors
Maciej Krzysztof Obryk, David L. George, Benjamin B. Mirus
Hillslopes in humid-tropical climates aren’t always wet: Implications for hydrologic response and landslide initiation in Puerto Rico, USA Hillslopes in humid-tropical climates aren’t always wet: Implications for hydrologic response and landslide initiation in Puerto Rico, USA
The devastating impacts of the widespread flooding and landsliding in Puerto Rico following the September 2017 landfall of Hurricane Maria highlight the increasingly extreme atmospheric disturbances and enhanced hazard potential in mountainous humid‐tropical climate zones. Long‐standing conceptual models for hydrologically driven hazards in Puerto Rico posit that hillslope soils remain...
Authors
Matthew A. Thomas, Benjamin B. Mirus, Joel B. Smith
Deep Learning as a tool to forecast hydrologic response for landslide-prone hillslopes Deep Learning as a tool to forecast hydrologic response for landslide-prone hillslopes
Empirical thresholds for landslide warning systems have benefitted from the incorporation of soil‐hydrologic monitoring data, but the mechanistic basis for their predictive capabilities is limited. Although physically based hydrologic models can accurately simulate changes in soil moisture and pore pressure that promote landslides, their utility is restricted by high computational costs...
Authors
Elijah Orland, Joshua J. Roering, Matthew A. Thomas, Benjamin B. Mirus
Community for data integration 2018 funded project report Community for data integration 2018 funded project report
The U.S. Geological Survey Community for Data Integration annually funds small projects focusing on data integration for interdisciplinary research, innovative data management, and demonstration of new technologies. This report provides a summary of the 10 projects funded in fiscal year 2018, outlining their goals, activities, and accomplishments.
Authors
Leslie Hsu, Caitlin M. Andrews, John B. Bradford, Daniel D. Buscombe, Katherine J. Chase, Wesley M. Daniel, Jeanne M. Jones, Pam Fuller, Benjamin B. Mirus, Matthew E. Neilson, Hans W. Vraga, Jessica J. Walker, Dennis H. Walworth, Jonathan A. Warrick, Jake Weltzin, Daniel J. Wieferich, Nathan J. Wood
Temporal and spatial variability of shallow soil moisture across four planar hillslopes on a tropical ocean island, San Cristóbal, Galápagos Temporal and spatial variability of shallow soil moisture across four planar hillslopes on a tropical ocean island, San Cristóbal, Galápagos
Study Region: This paper provides a summary of findings from temporal and spatial studies of soil water content on planar hillslopes across the equatorial island of San Cristóbal, Galápagos (Ecuador). Study Focus: Soil water content (SWC) was measured to generate temporal and spatial records to determine seasonal variation and to investigate how the behavior of surface and near-surface...
Authors
Madelyn S. Percy, Diego A. Riveros-Iregui, Benjamin B. Mirus, Larry K. Benninger
Landslides across the United States: Occurrence, susceptibility, and data limitations Landslides across the United States: Occurrence, susceptibility, and data limitations
Detailed information about landslide occurrence is the foundation for advancing process understanding, susceptibility mapping, and risk reduction. Despite the recent revolution in digital elevation data and remote sensing technologies, landslide mapping remains resource intensive. Consequently, a modern, comprehensive map of landslide occurrence across the United States (USA) has not...
Authors
Benjamin B. Mirus, Eric S. Jones, Rex L. Baum, Jonathan W. Godt, Stephen L. Slaughter, Matthew Crawford, Jeremy T. Lancaster, Thomas Stanley, Dalia Kirschbaum, William J. Burns, Robert G. Schmitt, Kassandra O Lindsey, Kevin McCoy
The future of landslides’ past—A framework for assessing consecutive landsliding systems The future of landslides’ past—A framework for assessing consecutive landsliding systems
Landslides often happen where they have already occurred in the past. The potential of landslides to reduce or enhance conditions for further landsliding has long been recognized and has often been reported, but the mechanisms and spatial and temporal scales of these processes have previously received little specific attention. Despite a preponderance of qualitative and anecdotal...
Authors
A. Temme, F. Guzzetti, J. Samia, Benjamin B. Mirus
Conceptual framework for assessing disturbance impacts on debris-flow initiation thresholds across hydroclimatic settings Conceptual framework for assessing disturbance impacts on debris-flow initiation thresholds across hydroclimatic settings
The destructive and deadly nature of debris flows has motivated research into empirical rainfall thresholds to provide situational awareness, inform early warning systems, and reduce loss of life and property. Disturbances such as wildfire and land-cover change can influence the hydrological processes of infiltration and runoff generation; in steep terrain this typically lowers empirical
Authors
Benjamin B. Mirus, Dennis M. Staley, Jason W. Kean, Joel B. Smith, Rick Wooten, Luke A. McGuire, Brian A. Ebel
Assessing the feasibility of satellite-based thresholds for hydrologically driven landsliding Assessing the feasibility of satellite-based thresholds for hydrologically driven landsliding
Elevated soil moisture and heavy precipitation contribute to landslides worldwide. These environmental variables are now being resolved with satellites at spatiotemporal scales that could offer new perspectives on the development of landslide warning systems. However, the application of these data to hydro-meteorological thresholds (which account for antecedent soil moisture and rainfall...
Authors
Matthew A. Thomas, Brian D. Collins, Benjamin B. Mirus
Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy
On the 4th and 5th of March 2005, about 100 rainfall-induced landslides occurred along volcanic slopes of Camaldoli Hill in Naples, Italy. These started as soil slips in the upper substratum of incoherent and welded volcaniclastic deposits, then evolved downslope according to debris avalanche and debris flow mechanisms. This specific case of slope instability on complex volcaniclastic...
Authors
F. Fusco, P. De Vita, Benjamin B. Mirus, Rex L. Baum, V. Allocca, R. Tufano, D. Calcaterra
Effects of infiltration characteristics on the spatial-temporal evolution of stability of an interstate highway embankment Effects of infiltration characteristics on the spatial-temporal evolution of stability of an interstate highway embankment
Infiltration-induced landslides are among the most common natural disasters threatening modern civilization, but conventional methods for studying the triggering mechanisms and predicting the occurrence of these slides are limited by incomplete consideration of underlying physical processes and the lack of precision inherent in limit-equilibrium analyses. To address this problem the...
Authors
Eric Hinds, Ning Lu, Benjamin B. Mirus, Alexandra Wayllace
Non-USGS Publications**
Ebel, B.A., Mirus, B.B., 2014, Disturbance Hydrology: Challenges and Opportunities: Hydrological Processes, https://doi.org/10.1002/hyp.10256.
Mirus, B.B., Ebel, B.A., Heppner, C.S., Loague, K., 2011, Assessing the detail needed to capture rainfall-runoff dynamics with physics-based hydrologic-response simulation: Water Resources Research, https://doi.org/10.1029/2010WR009906.
Mirus, B.B., Loague, K., Cristea, N., Burges, S.J., Kampf, S.K., 2011, A synthetic hydrologic-response dataset: Hydrological Processes, https://doi.org/10.1002/hyp.8185.
BeVille, S.H., Mirus, B.B., Ebel, B.A., Mader, G.G., Loague, K., 2010, Using simulated hydrologic response to revisit the 1973 Lerida Court landslide: Environmental Earth Sciences, https://doi.org/10.1007/s12665-010-0448-z.
Ebel, B.A., Mirus, B.B., Heppner, C.S., VanderKwaak, J.E., Loague, K., 2009, First-order exchange coefficient coupling for simulating surface water-groundwater interactions: Parameter sensitivity and consistency with a physics-based approach: Hydrological Processes, https://doi.org/10.1002/hyp.7279.
Mirus, B.B., Loague, K., VanderKwaak, J.E., Kampf, S.K., Burges, S.J., 2009, A hypothetical reality of Tarrawarra-like hydrologic response: Hydrological Processes, https://doi.org/10.1002/hyp.7241.
Mirus, B.B., Ebel, B.A., Loague, K., Wemple, B.C., 2007, Simulated effect of a forest road on near-surface hydrologic response: Redux: Earth Surface Processes and Landforms, https://doi.org/10.1002/esp.1387.
Loague, K., Heppner, C.S., Mirus, B.B., Ebel, B.A., Ran, Q. Carr, A.W., BeVille, S.H., VanderKwaak, J.E., 2006, Physics-based hydrologic-response simulation: Foundation for hydroecology and hydrogeomorphology: Hydrological Processes, https://doi.org/10.1002/hyp.6179.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 15
Filter Total Items: 15
No Result Found
Filter Total Items: 65
In-situ monitoring of infiltration-induced instability of I-70 embankment west of the Eisenhower-Johnson Memorial Tunnels, phase III In-situ monitoring of infiltration-induced instability of I-70 embankment west of the Eisenhower-Johnson Memorial Tunnels, phase III
A new methodology that uses recent advances in unsaturated soil mechanics and hydrology was developed and tested. The approach consists of using soil suction and moisture content field information in the prediction of the likelihood of landslide movement. The testing ground was an active landslide on I-70 west of the Eisenhower/Johnson Memorial Tunnels. A joint effort between Colorado...
Authors
Alexandra Wayllace, Ning Lu, Benjamin B. Mirus
A new era of debris flow experiments in the Oregon woods A new era of debris flow experiments in the Oregon woods
No abstract available.
Authors
Maciej Krzysztof Obryk, David L. George, Benjamin B. Mirus
Hillslopes in humid-tropical climates aren’t always wet: Implications for hydrologic response and landslide initiation in Puerto Rico, USA Hillslopes in humid-tropical climates aren’t always wet: Implications for hydrologic response and landslide initiation in Puerto Rico, USA
The devastating impacts of the widespread flooding and landsliding in Puerto Rico following the September 2017 landfall of Hurricane Maria highlight the increasingly extreme atmospheric disturbances and enhanced hazard potential in mountainous humid‐tropical climate zones. Long‐standing conceptual models for hydrologically driven hazards in Puerto Rico posit that hillslope soils remain...
Authors
Matthew A. Thomas, Benjamin B. Mirus, Joel B. Smith
Deep Learning as a tool to forecast hydrologic response for landslide-prone hillslopes Deep Learning as a tool to forecast hydrologic response for landslide-prone hillslopes
Empirical thresholds for landslide warning systems have benefitted from the incorporation of soil‐hydrologic monitoring data, but the mechanistic basis for their predictive capabilities is limited. Although physically based hydrologic models can accurately simulate changes in soil moisture and pore pressure that promote landslides, their utility is restricted by high computational costs...
Authors
Elijah Orland, Joshua J. Roering, Matthew A. Thomas, Benjamin B. Mirus
Community for data integration 2018 funded project report Community for data integration 2018 funded project report
The U.S. Geological Survey Community for Data Integration annually funds small projects focusing on data integration for interdisciplinary research, innovative data management, and demonstration of new technologies. This report provides a summary of the 10 projects funded in fiscal year 2018, outlining their goals, activities, and accomplishments.
Authors
Leslie Hsu, Caitlin M. Andrews, John B. Bradford, Daniel D. Buscombe, Katherine J. Chase, Wesley M. Daniel, Jeanne M. Jones, Pam Fuller, Benjamin B. Mirus, Matthew E. Neilson, Hans W. Vraga, Jessica J. Walker, Dennis H. Walworth, Jonathan A. Warrick, Jake Weltzin, Daniel J. Wieferich, Nathan J. Wood
Temporal and spatial variability of shallow soil moisture across four planar hillslopes on a tropical ocean island, San Cristóbal, Galápagos Temporal and spatial variability of shallow soil moisture across four planar hillslopes on a tropical ocean island, San Cristóbal, Galápagos
Study Region: This paper provides a summary of findings from temporal and spatial studies of soil water content on planar hillslopes across the equatorial island of San Cristóbal, Galápagos (Ecuador). Study Focus: Soil water content (SWC) was measured to generate temporal and spatial records to determine seasonal variation and to investigate how the behavior of surface and near-surface...
Authors
Madelyn S. Percy, Diego A. Riveros-Iregui, Benjamin B. Mirus, Larry K. Benninger
Landslides across the United States: Occurrence, susceptibility, and data limitations Landslides across the United States: Occurrence, susceptibility, and data limitations
Detailed information about landslide occurrence is the foundation for advancing process understanding, susceptibility mapping, and risk reduction. Despite the recent revolution in digital elevation data and remote sensing technologies, landslide mapping remains resource intensive. Consequently, a modern, comprehensive map of landslide occurrence across the United States (USA) has not...
Authors
Benjamin B. Mirus, Eric S. Jones, Rex L. Baum, Jonathan W. Godt, Stephen L. Slaughter, Matthew Crawford, Jeremy T. Lancaster, Thomas Stanley, Dalia Kirschbaum, William J. Burns, Robert G. Schmitt, Kassandra O Lindsey, Kevin McCoy
The future of landslides’ past—A framework for assessing consecutive landsliding systems The future of landslides’ past—A framework for assessing consecutive landsliding systems
Landslides often happen where they have already occurred in the past. The potential of landslides to reduce or enhance conditions for further landsliding has long been recognized and has often been reported, but the mechanisms and spatial and temporal scales of these processes have previously received little specific attention. Despite a preponderance of qualitative and anecdotal...
Authors
A. Temme, F. Guzzetti, J. Samia, Benjamin B. Mirus
Conceptual framework for assessing disturbance impacts on debris-flow initiation thresholds across hydroclimatic settings Conceptual framework for assessing disturbance impacts on debris-flow initiation thresholds across hydroclimatic settings
The destructive and deadly nature of debris flows has motivated research into empirical rainfall thresholds to provide situational awareness, inform early warning systems, and reduce loss of life and property. Disturbances such as wildfire and land-cover change can influence the hydrological processes of infiltration and runoff generation; in steep terrain this typically lowers empirical
Authors
Benjamin B. Mirus, Dennis M. Staley, Jason W. Kean, Joel B. Smith, Rick Wooten, Luke A. McGuire, Brian A. Ebel
Assessing the feasibility of satellite-based thresholds for hydrologically driven landsliding Assessing the feasibility of satellite-based thresholds for hydrologically driven landsliding
Elevated soil moisture and heavy precipitation contribute to landslides worldwide. These environmental variables are now being resolved with satellites at spatiotemporal scales that could offer new perspectives on the development of landslide warning systems. However, the application of these data to hydro-meteorological thresholds (which account for antecedent soil moisture and rainfall...
Authors
Matthew A. Thomas, Brian D. Collins, Benjamin B. Mirus
Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy
On the 4th and 5th of March 2005, about 100 rainfall-induced landslides occurred along volcanic slopes of Camaldoli Hill in Naples, Italy. These started as soil slips in the upper substratum of incoherent and welded volcaniclastic deposits, then evolved downslope according to debris avalanche and debris flow mechanisms. This specific case of slope instability on complex volcaniclastic...
Authors
F. Fusco, P. De Vita, Benjamin B. Mirus, Rex L. Baum, V. Allocca, R. Tufano, D. Calcaterra
Effects of infiltration characteristics on the spatial-temporal evolution of stability of an interstate highway embankment Effects of infiltration characteristics on the spatial-temporal evolution of stability of an interstate highway embankment
Infiltration-induced landslides are among the most common natural disasters threatening modern civilization, but conventional methods for studying the triggering mechanisms and predicting the occurrence of these slides are limited by incomplete consideration of underlying physical processes and the lack of precision inherent in limit-equilibrium analyses. To address this problem the...
Authors
Eric Hinds, Ning Lu, Benjamin B. Mirus, Alexandra Wayllace
Non-USGS Publications**
Ebel, B.A., Mirus, B.B., 2014, Disturbance Hydrology: Challenges and Opportunities: Hydrological Processes, https://doi.org/10.1002/hyp.10256.
Mirus, B.B., Ebel, B.A., Heppner, C.S., Loague, K., 2011, Assessing the detail needed to capture rainfall-runoff dynamics with physics-based hydrologic-response simulation: Water Resources Research, https://doi.org/10.1029/2010WR009906.
Mirus, B.B., Loague, K., Cristea, N., Burges, S.J., Kampf, S.K., 2011, A synthetic hydrologic-response dataset: Hydrological Processes, https://doi.org/10.1002/hyp.8185.
BeVille, S.H., Mirus, B.B., Ebel, B.A., Mader, G.G., Loague, K., 2010, Using simulated hydrologic response to revisit the 1973 Lerida Court landslide: Environmental Earth Sciences, https://doi.org/10.1007/s12665-010-0448-z.
Ebel, B.A., Mirus, B.B., Heppner, C.S., VanderKwaak, J.E., Loague, K., 2009, First-order exchange coefficient coupling for simulating surface water-groundwater interactions: Parameter sensitivity and consistency with a physics-based approach: Hydrological Processes, https://doi.org/10.1002/hyp.7279.
Mirus, B.B., Loague, K., VanderKwaak, J.E., Kampf, S.K., Burges, S.J., 2009, A hypothetical reality of Tarrawarra-like hydrologic response: Hydrological Processes, https://doi.org/10.1002/hyp.7241.
Mirus, B.B., Ebel, B.A., Loague, K., Wemple, B.C., 2007, Simulated effect of a forest road on near-surface hydrologic response: Redux: Earth Surface Processes and Landforms, https://doi.org/10.1002/esp.1387.
Loague, K., Heppner, C.S., Mirus, B.B., Ebel, B.A., Ran, Q. Carr, A.W., BeVille, S.H., VanderKwaak, J.E., 2006, Physics-based hydrologic-response simulation: Foundation for hydroecology and hydrogeomorphology: Hydrological Processes, https://doi.org/10.1002/hyp.6179.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
*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