Kate Allstadt
#96,339
Most Influential Person Now
Geologist and seismologist
Kate Allstadt's AcademicInfluence.com Rankings
Kate Allstadtearth-sciences Degrees
Earth Sciences
#2820
World Rank
#3788
Historical Rank
Physical Geography
#195
World Rank
#227
Historical Rank
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Earth Sciences
Kate Allstadt's Degrees
- PhD Geology University of California, Berkeley
- Masters Geophysics Stanford University
- Bachelors Geology University of Washington
Why Is Kate Allstadt Influential?
(Suggest an Edit or Addition)According to Wikipedia, Kate E. Allstadt is a geologist and seismologist employed by the U.S. Geological Survey who works out of Golden, Colorado. She is a self-described "present-day geologist" for her interest in connections between geology of the Pacific Northwest and the people in its local communities. She is a published expert on the 2014 Oso landslide.
Kate Allstadt's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Earthquake‐Induced Chains of Geologic Hazards: Patterns, Mechanisms, and Impacts (2019) (340)
- Landslide mobility and hazards: implications of the 2014 Oso disaster (2015) (266)
- Presentation and Analysis of a Worldwide Database of Earthquake‐Induced Landslide Inventories (2017) (143)
- Extracting source characteristics and dynamics of the August 2010 Mount Meager landslide from broadband seismograms (2013) (140)
- The 6 August 2010 Mount Meager rock slide-debris flow, Coast Mountains, British Columbia: characteristics, dynamics, and implications for hazard and risk assessment (2012) (116)
- Landslides Triggered by the 14 November 2016 Mw 7.8 Kaikōura Earthquake, New Zealand (2018) (116)
- A Global Empirical Model for Near‐Real‐Time Assessment of Seismically Induced Landslides (2018) (99)
- Inundation, flow dynamics, and damage in the 9 January 2018 Montecito debris-flow event, California, USA: Opportunities and challenges for post-wildfire risk assessment (2019) (78)
- Factors controlling landslide frequency–area distributions (2018) (78)
- Numerical modeling of the Mount Meager landslide constrained by its force history derived from seismic data (2015) (74)
- Seismic and acoustic signatures of surficial mass movements at volcanoes (2018) (61)
- Rock-avalanche dynamics revealed by large-scale field mapping and seismic signals at a highly mobile avalanche in the West Salt Creek valley, western Colorado (2016) (59)
- An updated method for estimating landslide‐event magnitude (2018) (57)
- Swarms of repeating stick‐slip icequakes triggered by snow loading at Mount Rainier volcano (2013) (48)
- A physical model of the high‐frequency seismic signal generated by debris flows (2019) (43)
- An open repository of earthquake-triggered ground-failure inventories (2017) (42)
- Improving Near-Real-Time Coseismic Landslide Models: Lessons Learned from the 2016 Kaikōura, New Zealand, Earthquake (2018) (36)
- Shallow repeating seismic events under an alpine glacier at Mount Rainier, Washington, USA (2010) (31)
- Landslides caused by the Mw7.8 Kaikōura earthquake and the immediate response (2017) (31)
- Observations on the May 2019 Joffre Peak landslides, British Columbia (2020) (23)
- Measuring Basal Force Fluctuations of Debris Flows Using Seismic Recordings and Empirical Green's Functions (2019) (18)
- Observations of seasonal and diurnal glacier velocities at Mount Rainier, Washington, using terrestrial radar interferometry (2015) (17)
- Overview of the geologic effects of the November 14, 2016, Mw 7.8 Kaikoura, New Zealand, earthquake (2018) (15)
- USGS approach to real-time estimation of earthquake-triggered ground failure - Results of 2015 workshop (2016) (12)
- Ground Failure from the Anchorage, Alaska, Earthquake of 30 November 2018 (2019) (12)
- A Scenario Study of Seismically Induced Landsliding in Seattle Using Broadband Synthetic Seismograms (2013) (12)
- Integrating landslide and liquefaction hazard and loss estimates with existing USGS real-time earthquake information products (2017) (12)
- USGS Near‐Real‐Time Products—and Their Use—for the 2018 Anchorage Earthquake (2019) (11)
- Overcoming barriers to progress in seismic monitoring and characterization of debris flows and lahars (2019) (10)
- Reconstructing the dynamics of the highly-similar May 2016 and June 2019 Iliamna Volcano, Alaska ice–rock avalanches from seismoacoustic data (2020) (9)
- Using High Sample Rate Lidar to Measure Debris-Flow Velocity and Surface Geometry (2021) (7)
- Reconstructing the dynamics of the highly similar May 2016 and June 2019 Iliamna Volcano (Alaska) ice–rock avalanches from seismoacoustic data (2021) (7)
- Reconstructing the Velocity and Deformation of a Rapid Landslide Using Multiview Video (2020) (5)
- Landslides Triggered by the MW 7.8 14 November 2016 Kaikoura Earthquake, New Zealand (2018) (5)
- Landslides triggered by the August 14, 2021, magnitude 7.2 Nippes, Haiti, earthquake (2021) (5)
- Taking the pulse of debris flows: Extracting debris-flow dynamics from good vibrations in southern California and central Colorado (2019) (5)
- The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction (2021) (5)
- Exotic Seismic Events Catalog (ESEC) Data Product (2019) (4)
- LANDSLIDES CAUSED BY THE 14 NOVEMBER 2016 KAIKOURA EARTHQUAKE, SOUTH ISLAND, NEW ZEALAND. (2017) (4)
- lsforce: A Python-Based Single-Force Seismic Inversion Framework for Massive Landslides (2021) (4)
- Real-time monitoring of debris-flow velocity and mass deformation from field experiments with high sample rate lidar and video (2019) (3)
- Natural Hazards and Earth System Sciences The 6 August 2010 Mount Meager rock slide-debris flow , Coast Mountains , British Columbia : characteristics , dynamics , and implications for hazard and risk assessment (2012) (3)
- Surficial Seismology: Landslides, Glaciers, and Volcanoes in the Pacific Northwest through a Seismic Lens (2013) (2)
- Interactive comment on “ Seismology of the Oso-Steelhead landslide ” by C (2015) (2)
- Ground failure triggered by shaking during the November 30, 2018, magnitude 7.1 Anchorage, Alaska, earthquake (2020) (2)
- WHAT CAN WE LEARN FROM SEISMIC RECORDINGS OF DEBRIS FLOWS? PRELIMINARY FINDINGS FROM LARGE SCALE SEISMIC EXPERIMENTS AT THE USGS DEBRIS-FLOW FLUME (2016) (2)
- Glacier quakes mimicking volcanic earthquakes: The challenge of monitoring ice-clad volcanoes and some solutions (2012) (1)
- Ground Failure Triggered by the 7 January 2020 M 6.4 Puerto Rico Earthquake (2022) (1)
- Insights on Multistage Rock Avalanche Behavior From Runout Modeling Constrained by Seismic Inversions (2022) (1)
- A near-real-time model for estimating probability of road obstruction due to earthquake-triggered landslides (2021) (1)
- Environmental Seismology: A Geophysical Tool to Study Surface and Near-Surface Processes I (2019) (0)
- Evaluation of Remote Mapping Techniques for Earthquake-Triggered Landslide Inventories in an Urban Subarctic Environment: A Case Study of the 2018 Anchorage, Alaska Earthquake (2021) (0)
- Advanced Ground Motion Characterization in ShakeMap Modeling Energy-Related Ground Motion Parameters (2018) (0)
- EARTHQUAKE-TRIGGERED LANDSLIDES AND LIQUEFACTION: HOW BAD WILL IT BE? (2022) (0)
- LEARNING TO ROLL WITH THE ONE-TWO PUNCH OF FIRE AND DEBRIS FLOW: LESSONS LEARNED FROM THE JANUARY 2018 DEBRIS-FLOW DISASTER IN MONTECITO, CA (2018) (0)
- Towards an Analytical Model for the Seismic Signal Generated by Debris Flows (2016) (0)
- GEOGIRLS ROCK! STEM-BASED OUTDOOR PROGRAM AT MOUNT ST. HELENS ENCOURAGES AND SUPPORTS THE NEXT GENERATION OF SCIENTISTS (2019) (0)
- Mapping Landslide Susceptibility Over Large Regions with Limited Data (2023) (0)
- Correction to: Observations on the May 2019 Joffre Peak landslides, British Columbia (2020) (0)
- Moment Tensor Inversion of the Mw 5.8 May 16 2010 Deep Earthquake in Puerto Rico (2011) (0)
- Map data and Unmanned Aircraft System imagery from the May 25, 2014 West Salt Creek rock avalanche in western Colorado (2016) (0)
- Seismometer Records of Ground Tilt Induced by Debris Flows (2022) (0)
- The Many Scales of Seismogenic Mass Wasting at Stratovolcanoes (2015) (0)
- Seismic inversions of large, rapid landslides: what they can and cannot tell us about event dynamics (2021) (0)
- Assessing the Hazard of Earthquake-Induced Landslides in Seattle, WA using the Newmark method with synthetic seismograms and site amplification (2011) (0)
- Frequency-area distribution of earthquake-induced landslides : abstract (2016) (0)
- Frequency-area distribution of earthquake-induced landslides (2016) (0)
- What ground tilt tells us about debris flow parameters (2020) (0)
- Landslide Mobility and Hazards: A Geophysical Overview of the Oso Disaster (2014) (0)
- Exploring the Dynamics of the August 2010 Mount Meager Rock Slide-Debris Flow Jointly with Seismic Source Inversion and Numerical Landslide Modeling (2014) (0)
- MITIGATING LAHAR HAZARDS: THE RAINIER LAHAR DETECTION SYSTEM (2021) (0)
- RECORDING RAPID LANDSLIDE MOTION IN THREE DIMENSIONS USING LOW-COST, MULTIVIEW VIDEO (2019) (0)
- Forensic Analysis of the May 2014 West Salt Creek Rock Avalanche in Western Colorado (2015) (0)
- FROM THE SUBARCTIC TO THE TROPICS – A COMPARISON OF TWO U.S. GEOLOGICAL SURVEY LANDSLIDE MAPPING EFFORTS (2022) (0)
- MAPPING LANDSLIDE SUSCEPTIBILITY OVER LARGE REGIONS WITH SPARSE DATA – A REALITY CHECK (2022) (0)
- Evaluating near-real time models for estimating road network susceptibility to earthquake-triggered landslides (2019) (0)
- Community for Data Integration fiscal year 2017 funded project report (2018) (0)
- Seismic Signals of the 2014 Landslide near Oso, Washington (2014) (0)
- DOCUMENTING AND COMMUNICATING GROUND FAILURE TRIGGERED BY THE 2020 SOUTHWEST PUERTO RICO SEISMIC SEQUENCE (2020) (0)
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Kate Allstadt is affiliated with the following schools:
