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
Elucidating the role of vegetation in the initiation of rainfall-induced shallow landslides: Insights from an extreme rainfall event in the Colorado Front Range Elucidating the role of vegetation in the initiation of rainfall-induced shallow landslides: Insights from an extreme rainfall event in the Colorado Front Range
More than 1100 debris flows were mobilized from shallow landslides during a rainstorm from 9 to 13 September 2013 in the Colorado Front Range, with the vast majority initiating on sparsely vegetated, south facing terrain. To investigate the physical processes responsible for the observed aspect control, we made measurements of soil properties on a densely forested north facing hillslope...
Authors
Luke McGuire, Francis K. Rengers, Jason W. Kean, Jeffrey A. Coe, Benjamin B. Mirus, Rex L. Baum, Jonathan W. Godt
Assessing landslide potential on coastal bluffs near Mukilteo, Washington—Geologic site characterization for hydrologic monitoring Assessing landslide potential on coastal bluffs near Mukilteo, Washington—Geologic site characterization for hydrologic monitoring
During the summer 2015, the U.S. Geological Survey collected geologic and geotechnical data for two sites on coastal bluffs along the eastern shore of Puget Sound, Washington. The U.S. Geological Survey also installed hydrologic instrumentation at the sites and collected specimens for laboratory testing. The two sites are located on City of Mukilteo open-space land and are about 0.6...
Authors
Benjamin B. Mirus, Joel B. Smith, Benjamin Stark, York Lewis, Abigail Michel, Rex L. Baum
Simulated effect of topography and soil properties on hydrologic response and landslide potential under variable rainfall conditions in the Oregon Coast Range, USA Simulated effect of topography and soil properties on hydrologic response and landslide potential under variable rainfall conditions in the Oregon Coast Range, USA
No abstract available.
Authors
Benjamin B. Mirus, Joel B. Smith, Jonathan W. Godt, R.L. Baum, Jeffrey A. Coe
An overview of current applications, challenges, and future trends in distributed process-based models in hydrology An overview of current applications, challenges, and future trends in distributed process-based models in hydrology
Process-based hydrological models have a long history dating back to the 1960s. Criticized by some as over-parameterized, overly complex, and difficult to use, a more nuanced view is that these tools are necessary in many situations and, in a certain class of problems, they are the most appropriate type of hydrological model. This is especially the case in situations where knowledge of...
Authors
Simone Fatichi, Enrique R. Vivoni, Fred L Odgen, Valeriy Y Ivanov, Benjamin B. Mirus, David Gochis, Charles W Downer, Matteo Camporese, Jason H Davison, Brian A. Ebel, Norm Jones, Jon Kim, Giuseppe Mascaro, Richard G. Niswonger, Pedro Restrepo, Riccardo Rigon, Chaopeng Shen, Mauro Sulis, David Tarboton
The Galapagos archipelago: A natural laboratory to examine sharp hydroclimatic, geologic and anthropogenic gradients The Galapagos archipelago: A natural laboratory to examine sharp hydroclimatic, geologic and anthropogenic gradients
Poor understanding of the water cycle in tropical ecosystems has the potential to exacerbate water shortages and water crises in the region. We suggest that the Galápagos Islands provide an excellent proxy to regions across the tropics as a result of sharp hydroclimatic, anthropogenic, and pedohydrologic gradients across the archipelago. Hydroclimatic and pedohydrologic gradients are...
Authors
Madelyn Percy, Sarah Schmitt, Diego Riveros-Iregui, Benjamin B. Mirus
Testing the suitability of geologic frameworks for extrapolating hydraulic properties across regional scales Testing the suitability of geologic frameworks for extrapolating hydraulic properties across regional scales
The suitability of geologic frameworks for extrapolating hydraulic conductivity (K) to length scales commensurate with hydraulic data is difficult to assess. A novel method is presented for evaluating assumed relations between K and geologic interpretations for regional-scale groundwater modeling. The approach relies on simultaneous interpretation of multiple aquifer tests using...
Authors
Benjamin B. Mirus, Keith J. Halford, Donald S. Sweetkind, Joseph M. Fenelon
Identifying long term empirical relationships between storm characteristics and episodic groundwater recharge Identifying long term empirical relationships between storm characteristics and episodic groundwater recharge
Shallow aquifers are an important source of water resources and provide base flow to streams; yet actual rates of groundwater recharge are difficult to estimate. While climate change is predicted to increase the frequency and magnitude of extreme precipitation events, the resulting impact on groundwater recharge remains poorly understood. We quantify empirical relations between...
Authors
Arik Tashie, Benjamin B. Mirus, Tamlin Pavelsky
Evaluating the importance of characterizing soil structure and horizons in parameterizing a hydrologic process model Evaluating the importance of characterizing soil structure and horizons in parameterizing a hydrologic process model
Incorporating the influence of soil structure and horizons into parameterizations of distributed surface water/groundwater models remains a challenge. Often, only a single soil unit is employed, and soil-hydraulic properties are assigned based on textural classification, without evaluating the potential impact of these simplifications. This study uses a distributed physics-based model to...
Authors
Benjamin B. Mirus
Measurement of unsaturated hydraulic properties and evaluation of property-transfer models for deep sedimentary interbeds, Idaho National Laboratory, Idaho Measurement of unsaturated hydraulic properties and evaluation of property-transfer models for deep sedimentary interbeds, Idaho National Laboratory, Idaho
Operations at the Idaho National Laboratory (INL) have the potential to contaminate the underlying Eastern Snake River Plain (ESRP) aquifer. Methods to quantitatively characterize unsaturated flow and recharge to the ESRP aquifer are needed to inform water-resources management decisions at INL. In particular, hydraulic properties are needed to parameterize distributed hydrologic models...
Authors
Kimberlie Perkins, Brittany D. Johnson, Benjamin B. Mirus
How runoff begins (and ends): characterizing hydrologic response at the catchment scale How runoff begins (and ends): characterizing hydrologic response at the catchment scale
Improved understanding of the complex dynamics associated with spatially and temporally variable runoff response is needed to better understand the hydrology component of interdisciplinary problems. The objective of this study was to quantitatively characterize the environmental controls on runoff generation for the range of different streamflow-generation mechanisms illustrated in the...
Authors
Benjamin B. Mirus, Keith Loague
Balancing practicality and hydrologic realism: a parsimonious approach for simulating rapid groundwater recharge via unsaturated-zone preferential flow Balancing practicality and hydrologic realism: a parsimonious approach for simulating rapid groundwater recharge via unsaturated-zone preferential flow
The impact of preferential flow on recharge and contaminant transport poses a considerable challenge to water-resources management. Typical hydrologic models require extensive site characterization, but can underestimate fluxes when preferential flow is significant. A recently developed source-responsive model incorporates film-flow theory with conservation of mass to estimate...
Authors
Benjamin B. Mirus, J. R. Nimmo
Advanced methods for modeling water-levels and estimating drawdowns with SeriesSEE, an Excel add-in Advanced methods for modeling water-levels and estimating drawdowns with SeriesSEE, an Excel add-in
Water-level modeling is used for multiple-well aquifer tests to reliably differentiate pumping responses from natural water-level changes in wells, or “environmental fluctuations.” Synthetic water levels are created during water-level modeling and represent the summation of multiple component fluctuations, including those caused by environmental forcing and pumping. Pumping signals are...
Authors
Keith Halford, C. Amanda Garcia, Joe Fenelon, Benjamin B. Mirus
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
Elucidating the role of vegetation in the initiation of rainfall-induced shallow landslides: Insights from an extreme rainfall event in the Colorado Front Range Elucidating the role of vegetation in the initiation of rainfall-induced shallow landslides: Insights from an extreme rainfall event in the Colorado Front Range
More than 1100 debris flows were mobilized from shallow landslides during a rainstorm from 9 to 13 September 2013 in the Colorado Front Range, with the vast majority initiating on sparsely vegetated, south facing terrain. To investigate the physical processes responsible for the observed aspect control, we made measurements of soil properties on a densely forested north facing hillslope...
Authors
Luke McGuire, Francis K. Rengers, Jason W. Kean, Jeffrey A. Coe, Benjamin B. Mirus, Rex L. Baum, Jonathan W. Godt
Assessing landslide potential on coastal bluffs near Mukilteo, Washington—Geologic site characterization for hydrologic monitoring Assessing landslide potential on coastal bluffs near Mukilteo, Washington—Geologic site characterization for hydrologic monitoring
During the summer 2015, the U.S. Geological Survey collected geologic and geotechnical data for two sites on coastal bluffs along the eastern shore of Puget Sound, Washington. The U.S. Geological Survey also installed hydrologic instrumentation at the sites and collected specimens for laboratory testing. The two sites are located on City of Mukilteo open-space land and are about 0.6...
Authors
Benjamin B. Mirus, Joel B. Smith, Benjamin Stark, York Lewis, Abigail Michel, Rex L. Baum
Simulated effect of topography and soil properties on hydrologic response and landslide potential under variable rainfall conditions in the Oregon Coast Range, USA Simulated effect of topography and soil properties on hydrologic response and landslide potential under variable rainfall conditions in the Oregon Coast Range, USA
No abstract available.
Authors
Benjamin B. Mirus, Joel B. Smith, Jonathan W. Godt, R.L. Baum, Jeffrey A. Coe
An overview of current applications, challenges, and future trends in distributed process-based models in hydrology An overview of current applications, challenges, and future trends in distributed process-based models in hydrology
Process-based hydrological models have a long history dating back to the 1960s. Criticized by some as over-parameterized, overly complex, and difficult to use, a more nuanced view is that these tools are necessary in many situations and, in a certain class of problems, they are the most appropriate type of hydrological model. This is especially the case in situations where knowledge of...
Authors
Simone Fatichi, Enrique R. Vivoni, Fred L Odgen, Valeriy Y Ivanov, Benjamin B. Mirus, David Gochis, Charles W Downer, Matteo Camporese, Jason H Davison, Brian A. Ebel, Norm Jones, Jon Kim, Giuseppe Mascaro, Richard G. Niswonger, Pedro Restrepo, Riccardo Rigon, Chaopeng Shen, Mauro Sulis, David Tarboton
The Galapagos archipelago: A natural laboratory to examine sharp hydroclimatic, geologic and anthropogenic gradients The Galapagos archipelago: A natural laboratory to examine sharp hydroclimatic, geologic and anthropogenic gradients
Poor understanding of the water cycle in tropical ecosystems has the potential to exacerbate water shortages and water crises in the region. We suggest that the Galápagos Islands provide an excellent proxy to regions across the tropics as a result of sharp hydroclimatic, anthropogenic, and pedohydrologic gradients across the archipelago. Hydroclimatic and pedohydrologic gradients are...
Authors
Madelyn Percy, Sarah Schmitt, Diego Riveros-Iregui, Benjamin B. Mirus
Testing the suitability of geologic frameworks for extrapolating hydraulic properties across regional scales Testing the suitability of geologic frameworks for extrapolating hydraulic properties across regional scales
The suitability of geologic frameworks for extrapolating hydraulic conductivity (K) to length scales commensurate with hydraulic data is difficult to assess. A novel method is presented for evaluating assumed relations between K and geologic interpretations for regional-scale groundwater modeling. The approach relies on simultaneous interpretation of multiple aquifer tests using...
Authors
Benjamin B. Mirus, Keith J. Halford, Donald S. Sweetkind, Joseph M. Fenelon
Identifying long term empirical relationships between storm characteristics and episodic groundwater recharge Identifying long term empirical relationships between storm characteristics and episodic groundwater recharge
Shallow aquifers are an important source of water resources and provide base flow to streams; yet actual rates of groundwater recharge are difficult to estimate. While climate change is predicted to increase the frequency and magnitude of extreme precipitation events, the resulting impact on groundwater recharge remains poorly understood. We quantify empirical relations between...
Authors
Arik Tashie, Benjamin B. Mirus, Tamlin Pavelsky
Evaluating the importance of characterizing soil structure and horizons in parameterizing a hydrologic process model Evaluating the importance of characterizing soil structure and horizons in parameterizing a hydrologic process model
Incorporating the influence of soil structure and horizons into parameterizations of distributed surface water/groundwater models remains a challenge. Often, only a single soil unit is employed, and soil-hydraulic properties are assigned based on textural classification, without evaluating the potential impact of these simplifications. This study uses a distributed physics-based model to...
Authors
Benjamin B. Mirus
Measurement of unsaturated hydraulic properties and evaluation of property-transfer models for deep sedimentary interbeds, Idaho National Laboratory, Idaho Measurement of unsaturated hydraulic properties and evaluation of property-transfer models for deep sedimentary interbeds, Idaho National Laboratory, Idaho
Operations at the Idaho National Laboratory (INL) have the potential to contaminate the underlying Eastern Snake River Plain (ESRP) aquifer. Methods to quantitatively characterize unsaturated flow and recharge to the ESRP aquifer are needed to inform water-resources management decisions at INL. In particular, hydraulic properties are needed to parameterize distributed hydrologic models...
Authors
Kimberlie Perkins, Brittany D. Johnson, Benjamin B. Mirus
How runoff begins (and ends): characterizing hydrologic response at the catchment scale How runoff begins (and ends): characterizing hydrologic response at the catchment scale
Improved understanding of the complex dynamics associated with spatially and temporally variable runoff response is needed to better understand the hydrology component of interdisciplinary problems. The objective of this study was to quantitatively characterize the environmental controls on runoff generation for the range of different streamflow-generation mechanisms illustrated in the...
Authors
Benjamin B. Mirus, Keith Loague
Balancing practicality and hydrologic realism: a parsimonious approach for simulating rapid groundwater recharge via unsaturated-zone preferential flow Balancing practicality and hydrologic realism: a parsimonious approach for simulating rapid groundwater recharge via unsaturated-zone preferential flow
The impact of preferential flow on recharge and contaminant transport poses a considerable challenge to water-resources management. Typical hydrologic models require extensive site characterization, but can underestimate fluxes when preferential flow is significant. A recently developed source-responsive model incorporates film-flow theory with conservation of mass to estimate...
Authors
Benjamin B. Mirus, J. R. Nimmo
Advanced methods for modeling water-levels and estimating drawdowns with SeriesSEE, an Excel add-in Advanced methods for modeling water-levels and estimating drawdowns with SeriesSEE, an Excel add-in
Water-level modeling is used for multiple-well aquifer tests to reliably differentiate pumping responses from natural water-level changes in wells, or “environmental fluctuations.” Synthetic water levels are created during water-level modeling and represent the summation of multiple component fluctuations, including those caused by environmental forcing and pumping. Pumping signals are...
Authors
Keith Halford, C. Amanda Garcia, Joe Fenelon, Benjamin B. Mirus
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