D. L. Roth

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    AC["Associated Concepts (23)"]
    AW["Authored Works (16)"]
    CA["Linked Co-Authors (25)"]
    CI["Linked Collaborating Institutions (25)"]
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ORCiD

https://orcid.org/0000-0001-9502-7836

OpenAlex ID

https://openalex.org/A5074873621 (API record)

Associated Concepts [?]

• Geology
• Biology
• Physics
• Paleontology
• Geomorphology
• Sediment
• Quantum mechanics
• Geography
• Engineering
• Ecology
• Sediment transport
• Oceanography
• Environmental science
• Geotechnical engineering
• Computer science
• Thermodynamics
• Bed load
• Structural basin
• Seismology
• Mechanics
• Hydrology (agriculture)
• Particle (ecology)
• Meteorology

Authored Works

sorted by decreasing year, and then by display-name

• Using Short-Lived Radionuclides to Examine Bioturbation on Hillslopes After Wildfires
• Using Particle Size Distribution to Identify Changes in Sediment Transport After a Wildfire
• The Sound of Water: Spatially Continuous River Monitoring Through Distributed (Hydro)Acoustic Sensing
• Knock Knock, Who's There? Identifying the Source of Signals in the First DAS Deployment in a Fluvial Setting
• Identifying the Seismic Power Contribution of Tree-Captured Wind Using the Earthscope Transportable Array
• Characterizing Controls on Postfire Steepland Ravel - When Does Bioturbation Go Too Far for Diffusive Models?
• A Meta-analysis of Field Saturated Hydraulic Conductivity and Numerically Simulated Rainfall Partitioning for Post-Wildfire Burned Watersheds across the Western United States
• Variability in Post-Wildfire Soil Hydraulic Properties Related to Local and Regional Climatological, Geological, and Burn Characteristic Factors.
• URGE Pod Outcomes for the AGU EPSP Section
• The Seismic Signature of Tree-Captured Wind
• Linking bioturbation and wildfire to nonlocal transport in steeplands of the California Bay Area
• Lessons learned from the AGU EPSP URGE pod on how to structure an equitable, inclusive, and safe committee space
• Investigation of rill initiation using high-resolution topography after 2017 Thomas Fire, CA
• Insights on bioturbation-driven, post-fire soil mixing and sediment transport mechanics from short-lived radionuclides.
• Discrimination of Active and Inactive Burn Areas in the 2020 Cameron Peak Fire from Interferometric Synthetic Aperture Radar (InSAR) Time Series
• A river on fiber: capturing fluvial processes with distributed acoustic sensing

Linked Co-Authors

• Andrew D. Wickert
• Brandon Dugan
• Claire Masteller
• Dorothy J. Merritts
• Francis K. Rengers
• Ge Jin
• Hima J. Hassenruck‐Gudipati
• J. P. Perkins
• J. Prancevic
• Jeffrey Kwang
• Jill Marshall
• K. M. Hill
• Kristin Morell
• L. S. Sklar
• Lisa Luna
• M. A. Zimmer
• Matthew R. Siegfried
• Maximiliano Bezada
• N. M. Gasparini
• R. J. Michaelides
• R. P. Callahan
• Robert Mahon
• S. W. McCoy
• V. J. Sahakian
• Xin Sun

Linked Collaborating Institutions

• Colorado School of Mines
• Concordia University, Canada
• Dartmouth College, New Hampshire
• Franklin and Marshall College, Pennsylvania
• Pennsylvania State University
• Tulane University, Louisiana
• U.S. Geological Survey
• U.S. Geological Survey, Menlo Park
• UMass Amherst
• University of Arkansas, Fayetteville
• University of British Columbia, Canada
• University of California, Berkeley
• University of California, Santa Barbara
• University of California, Santa Cruz
• University of Minnesota, Twin Cities
• University of Nevada, Reno
• University of New Orleans, Louisiana
• University of North Dakota
• University of Oregon
• University of Potsdam, Germany
• University of Texas, Austin
• University of Wyoming
• Washington State University
• Washington University in Saint Louis, Missouri
• Yale University, Connecticut

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