Browse the USGS Publication Warehouse
Publications for publication type Article and publication subtype Journal Article
- Background seismic noise levels among the Caribbean network and the role of station proximity to coastline, 2024, Seismological Research Letters
- Erratum to an evaluation of the timing accuracy of global and regional seismic stations and networks, 2024, Seismological Research Letters (95) - 1
- Shallow fault slip of the 2020 M5.1 Sparta, North Carolina, earthquake, 2023, Seismological Research Letters (94) - 6
- Ground‐motion variability from kinematic rupture models and the implications for nonergodic probabilistic seismic hazard analysis, 2023, Seismological Research Letters (94) - 6
- Comparison of co-recorded analog and digital systems for characterization of responses and uncertainties, 2023, Seismological Research Letters (94) - 5
- Earthquake scenarios for Quito, Ecuador; Cali, Colombia; and Santiago De Los Caballeros, Dominican Republic, 2023, Seismological Research Letters (94) - 5
- MLAAPDE: A machine learning dataset for determining global earthquake source parameters, 2023, Seismological Research Letters (94) - 5
- Introduction to the digitization of seismic data: A user’s guide, 2023, Seismological Research Letters (94) - 4
- Earth’s upper crust seismically excited by infrasound from the 2022 Hunga Tonga–Hunga Ha’apai eruption, Tonga, 2023, Seismological Research Letters (97) - 2A
- High‐precision characterization of seismicity from the 2022 Hunga Tonga‐Hunga Ha'apai volcanic eruption, 2023, Seismological Research Letters (94) - 2A
- An interactive viewer to improve operational aftershock forecasts, 2023, Seismological Research Letters (94) - 1
- A global catalog of calibrated earthquake locations, 2023, Seismological Research Letters (94) - 1
- Testing the ShakeAlert earthquake early warning system using synthesized earthquake sequences, 2023, Seismological Research Letters (94) - 1
- Using machine learning techniques with incomplete polarity datasets to improve earthquake focal mechanism determination, 2023, Seismological Research Letters (94) - 1
- Preface to the focus section on deformation models for the U.S. National Seismic Hazard Model, 2022, Seismological Research Letters (93) - 6
- Lower seismogenic depth model of western U.S. Earthquakes, 2022, Seismological Research Letters (93) - 6
- A fault‐based crustal deformation model with deep driven dislocation sources for the 2023 update to the U.S. National Seismic Hazard Model, 2022, Seismological Research Letters (93) - 6
- Western U.S. deformation models for the 2023 update to the U.S. National Seismic Hazard Model, 2022, Seismological Research Letters (93) - 6
- GPS velocity field of the Western United States for the 2023 National Seismic Hazard Model update, 2022, Seismological Research Letters (93) - 6
- Western U.S. geologic deformation model for use in the U.S. National Seismic Hazard Model 2023, 2022, Seismological Research Letters (93) - 6
- Viscoelastic fault-based model of crustal deformation for the 2023 update to the U.S. National Seismic Hazard Model, 2022, Seismological Research Letters (93) - 6
- Revised earthquake recurrence intervals in California, USA: New paleoseismic sites and application of event likelihoods, 2022, Seismological Research Letters (93) - 6
- Beyond the teleseism: Introducing regional seismic and geodetic data into routine USGS finite‐fault modeling, 2022, Seismological Research Letters (93) - 6
- Classifying Worldwide Standardized Seismograph Network records using a simple convolution neural network, 2022, Seismological Research Letters (93) - 5
- Working with dynamic earthquake rupture models: A practical guide, 2022, Seismological Research Letters (93) - 4
- Toppling of a Trona Pinnacles Spire following the M5.5 RidgecrestaAftershock of June 2020, 2022, Seismological Research Letters (93) - 3
- Prospective and retrospective evaluation of the U.S. Geological Survey public aftershock forecast for the 2019-2021 Southwest Puerto Rico Earthquake and aftershocks, 2022, Seismological Research Letters (93) - 2A
- Ground failure triggered by the 7 January 2020 M6.4 Puerto Rico earthquake, 2022, Seismological Research Letters (93) - 2A
- Ready for real time: Performance of Global Navigation Satellite System in 2019 Mw 7.1 Ridgecrest, California, rapid response products, 2022, Seismological Research Letters (93) - 2A
- An assessment of uncertainties in VS profiles obtained from microtremor observations in the phased 2018 COSMOS blind trials, 2022, Seismological Research Letters (26) -
- Relational database for horizontal‐to‐vertical spectral ratios, 2022, Seismological Research Letters (93) - 2A
- Automated detection of clipping in broadband earthquake records, 2022, Seismological Research Letters (93) - 2A
- Some systemic risks to progress on seismic hazard assessment, 2022, Seismological Research Letters (93) -
- Seismotectonic analysis of the 2019–2020 Puerto Rico sequence: The value of absolute earthquake relocations in improved interpretations of active tectonics, 2022, Seismological Research Letters (93) - 2A
- An evaluation of the timing accuracy of global and regional seismic stations and networks, 2022, Seismological Research Letters (93) - 1
- Comment on “Which earthquake accounts matter” by Susan E. Hough and Stacey S. Martin, 2022, Seismological Research Letters (93) - 1
- Modeling seismic network detection thresholds using production picking algorithms, 2022, Seismological Research Letters (93) - 1
- The 6 May 1947 Milwaukee, Wisconsin, earthquake, 2022, Seismological Research Letters (93) - 1
- Effect of fixing earthquake depth in ShakeAlert algorithms on performance for intraslab earthquakes, 2022, Seismological Research Letters (93) - 1
- SSA task force on diversity, equity, and inclusion: Toward a changing, inclusive future in earthquake science, 2021, Seismological Research Letters (92) - 5
- Why do my squiggles look funny? A gallery of compromised seismic signals, 2021, Seismological Research Letters (92) - 6
- Seismic monitoring during crises at the NEIC in support of the ANSS, 2021, Seismological Research Letters (5) - 92
- Wastewater disposal has not significantly altered the regional stress state in southern Kansas, 2021, Seismological Research Letters (6) - 92
- An International Virtual Workshop on Global Seismology and Tectonics (IVWGST‐2020), 2021, Seismological Research Letters (92) - 5
- Short‐period surface‐wave tomography in the continental United States— A resource for research, 2021, Seismological Research Letters (92) - 6
- The liquefaction record of past earthquakes in the Central Virginia Seismic Zone, Eastern United States, 2021, Seismological Research Letters (92) - 5
- Seismic wave propagation and basin amplification in the Wasatch Front, Utah, 2021, Seismological Research Letters (92) - 6
- Quick and dirty (and accurate) 3-D paleoseismic trench models using coded scale bars, 2021, Seismological Research Letters (92) - 6
- lsforce: A Python-based single-force seismic inversion framework for massive landslides, 2021, Seismological Research Letters (4) - 92
- Six decades of seismology at South Pole, Antarctica: Current limitations and future opportunities to facilitate new geophysical observations, 2021, Seismological Research Letters (92) - 5
- A review of timing accuracy across the Global Seismographic Network, 2021, Seismological Research Letters (92) - 4
- Preface to the Focus Section on the 2020 Intermountain West earthquakes, 2021, Seismological Research Letters (92) - 2A
- Forecasting induced earthquake hazard using a hydromechanical earthquake nucleation model, 2021, Seismological Research Letters (92) - 4
- Field response and surface rupture characteristics of the 2020 M6.5 Monte Cristo Range earthquake, central Walker Lane, Nevada, 2021, Seismological Research Letters (92) - 2A
- Which earthquake accounts matter?, 2021, Seismological Research Letters (92) - 2A
- Shaking is almost always a surprise: The earthquakes that produce significant ground motion, 2021, Seismological Research Letters (92) - 1
- The normal faulting 2020 Mw5.8 Lone Pine, Eastern California earthquake sequence, 2021, Seismological Research Letters (92) - 2A
- Monitoring network changes during the 2018 Kīlauea Volcano eruption, 2021, Seismological Research Letters (92) - 1
- Evaluation of seismic hazard models with fragile geologic features, 2021, Seismological Research Letters (92) - 1
- Leveraging deep learning in global 24/7 real-time earthquake monitoring at the National Earthquake Information Center, 2021, Seismological Research Letters (92) - 1
- Ensemble ShakeMaps for magnitude 9 earthquakes on the Cascadia Subduction Zone, 2020, Seismological Research Letters (92) - 1
- Imaging the tectonic grain of the Northern Cordillera orogen using Transportable Array receiver functions, 2020, Seismological Research Letters (91) - 6
- Very‐long‐period (VLP) seismic artifacts during the 2018 caldera collapse at Kīlauea, Hawaii, 2020, Seismological Research Letters (91) - 6
- Forecasting for a fractured land: A case study of the communication and use of aftershock forecasts from the Mw 7.8 2016 Kaikōura earthquake in Aotearoa New Zealand, 2020, Seismological Research Letters (91) - 6
- The Alaska Amphibious Community Seismic Experiment, 2020, Seismological Research Letters (91) - 6
- Now trending … Earthquake information, 2020, Seismological Research Letters (91) - 5
- Documentation of Surface Fault Rupture and Ground‐Deformation Features Produced by the 4 and 5 July 2019 Mw 6.4 and Mw 7.1 Ridgecrest Earthquake Sequence, 2020, Seismological Research Letters (91) - 5
- New opportunities to study earthquake precursors, 2020, Seismological Research Letters (91) - 5
- The potential of using dynamic strains in earthquake early warning applications, 2020, Seismological Research Letters (91) - 5
- When source and path components trade off in ground-motion prediction equations, 2020, Seismological Research Letters (91) - 4
- Airborne lidar and electro-optical imagery along surface ruptures of the 2019 Ridgecrest earthquake sequence, Southern California, 2020, Seismological Research Letters (91) - 4
- How processing methodologies can distort and bias power spectral density estimates of seismic background noise, 2020, Seismological Research Letters (91) - 3
- Earthquake early warning ShakeAlert 2.0: Public rollout, 2020, Seismological Research Letters (91) - 3
- Operational earthquake forecasting during the 2019 Ridgecrest, California, earthquake sequence with the UCERF3-ETAS model, 2020, Seismological Research Letters (91) - 3
- The 2019 Ridgecrest, California, earthquake sequence ground motions: Processed records and derived intensity metrics, 2020, Seismological Research Letters (91) - 4
- The community code verification exercise for simulating sequences of earthquakes and aseismic slip (SEAS), 2020, Seismological Research Letters (91) - 2A
- A brief introduction to seismic instrumentation: Where does my data come from?, 2020, Seismological Research Letters (91) - 2A
- A high-resolution seismic catalog for the initial 2019 Ridgecrest Earthquake sequence: Foreshocks, aftershocks, and faulting complexity, 2020, Seismological Research Letters (91) - 4
- Revision of Boore (2018) Ground‐motion predictions for Central and Eastern North America: Path and offset adjustments and extension to 200 m/s <= Vs30 <= 3000 m/s, 2020, Seismological Research Letters (91) - 2A
- Caltech/USGS Southern California Seismic Network (SCSN) and Southern California Earthquake Data Center (SCEDC): Data availability for the 2019 Ridgecrest sequence, 2020, Seismological Research Letters (91) - 4
- The U.S. Geological Survey’s Rapid Seismic Array Deployment for the 2019 Ridgecrest Earthquake Sequence, 2020, Seismological Research Letters (91) -
- Using a dense seismic array to determine structure and site effects of the Two Towers earthflow in northern California, 2020, Seismological Research Letters (91) - 2A
- USGS near-real-time products-and their use-for the 2018 Anchorage earthquake, 2020, Seismological Research Letters (91) - 1
- Preface to the focus section on the 30 November 2018 Mw 7.1 Anchorage, Alaska earthquake, 2020, Seismological Research Letters (91) - 1
- Evaluation of ground‐motion models for U.S. Geological Survey seismic hazard models: 2018 Anchorage, Alaska, Mw 7.1 subduction zone earthquake sequence, 2020, Seismological Research Letters (91) - 1
- Ground-motion amplification in Cook Inlet region, Alaska from intermediate-depth earthquakes, including the 2018 MW=7.1 Anchorage earthquake, 2020, Seismological Research Letters (91) - 1
- The sedimentary record of the 2018 Anchorage Earthquake in Eklutna Lake, Alaska: Calibrating the lacustrine seismograph, 2020, Seismological Research Letters (91) - 1
- Calibration analysis and noise estimates of WWSSN Station ALQ (Albuquerque, New Mexico), 2020, Seismological Research Letters (91) - 3
- #EarthquakeAdvisory: Exploring discourse between government officials, news media and social media during the Bombay Beach 2016 Swarm, 2020, Seismological Research Letters (91) - 1
- Highlights of a cursory study of behavior of three instrumented buildings during the Mw7.1 Anchorage, Alaska, earthquake of November 30, 2018, 2020, Seismological Research Letters (91) - 1
- Quaternary displacement on the Joiner Ridge Fault, eastern Arkansas, 2020, Seismological Research Letters (90) - 6
- Using component ratios to detect metadata and instrument problems of seismic stations: Examples from 18 years of GEOSCOPE data, 2019, Seismological Research Letters (91) - 1
- The LArge-n Seismic Survey in Oklahoma (LASSO) experiment, 2019, Seismological Research Letters (90) - 5
- The 30 November 2018 Mw7.1 Anchorage Earthquake, 2019, Seismological Research Letters (91) - 1
- Site response in the Oklahoma region from seismic recordings of the 2011 Mw 5.7 Prague earthquake, 2019, Seismological Research Letters (90) - 5
- Characterizing seismogenic fault structures in Oklahoma using a relocated template matched catalog, 2019, Seismological Research Letters (90) - 4
- Jack Boatwright’s last science, 2019, Seismological Research Letters (90) - 4
- Rapid station and network quality analysis for temporary deployments, 2019, Seismological Research Letters (90) - 4
- Exotic Seismic Events Catalog (ESEC) Data Product, 2019, Seismological Research Letters (90) - 3
- The current unlikely earthquake hiatus at California’s transform boundary paleoseismic sites, 2019, Seismological Research Letters (90) - 3
- How physics‐based earthquake simulators might help improve earthquake forecasts, 2019, Seismological Research Letters (90) - 2A
- A collection of historic seismic instrumentation photographs at the Albuquerque Seismological Laboratory, 2019, Seismological Research Letters (90) - 2A
- Seismology with dark data: Image-based processing of analog records using machine learning for the rangely earthquake control experiment, 2019, Seismological Research Letters (90) - 2A
- The Albuquerque Seismological Lab WWSSN film chip preservation project, 2019, Seismological Research Letters (90) - 1
- Do low-cost seismographs perform well enough for your network? An overview of laboratory tests and field observations of the OSOP Raspberry Shake 4D, 2019, Seismological Research Letters (90) - 1
- Spatiotemporal analysis of the Foreshock-Mainshock-Aftershock sequence of the 6 July 2017 M5.8 Lincoln, Montana, earthquake, 2019, Seismological Research Letters (9) - 1
- Earthquake catalogs for the USGS National Seismic Hazard Maps, 2019, Seismological Research Letters (90) - 1
- Mw 4.2 Delaware Earthquake of 30 November 2017, 2019, Seismological Research Letters (89) - 6
- A repeating event sequence alarm for monitoring volcanoes, 2019, Seismological Research Letters (89) - 5
- Ground motions from induced earthquakes in Oklahoma and Kansas, 2018, Seismological Research Letters (90) - 1
- Updated California aftershock parameters, 2018, Seismological Research Letters (90) - 1
- Development of a geodetic component for the U.S. West Coast Earthquake Early Warning System, 2018, Seismological Research Letters (89) - 6
- Improving earthquake rupture forecasts using California as a guide, 2018, Seismological Research Letters (89) - 6
- Sensor suite: The Albuquerque Seismological Laboratory Instrumentation Testing Suite, 2018, Seismological Research Letters (89) - 6
- Tilt Trivia: A free multiplayer app to learn geoscience concepts and definitions, 2018, Seismological Research Letters (89) - 5
- Candidate products for operational earthquake forecasting illustrated using the HayWired planning scenario, including one very quick (and not‐so‐dirty) hazard‐map option, 2018, Seismological Research Letters (89) - 4
- Analysis of mean seismic ground motion and its uncertainty based on the UCERF3 geologic slip rate model with uncertainty for California, 2018, Seismological Research Letters (89) - 4
- Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors, 2018, Seismological Research Letters (89) - 5
- Preface to the Focus Section on the Collaboratory for the Study of Earthquake Predictability (CSEP): New results and future directions, 2018, Seismological Research Letters (89) - 4
- Ensemble smoothed seismicity models for the new Italian Probabilistic Seismic Hazard Map, 2018, Seismological Research Letters (89) - 4
- Seismicity in the Challis, Idaho region, January 2014 - May 2017: Late aftershocks of the 1983 Ms 7.3 Borah Peak earthquake, 2018, Seismological Research Letters (89) - 4
- A suite of exercises for verifying dynamic earthquake rupture codes, 2018, Seismological Research Letters (89) - 3
- 2018 one‐year seismic hazard forecast for the central and eastern United States from induced and natural earthquakes, 2018, Seismological Research Letters (89) - 3
- Integrate urban‐scale seismic hazard analyses with the U.S. National Seismic Hazard Model, 2018, Seismological Research Letters (89) - 3
- Hypocenter relocation along the Sunda arc in Indonesia, using a 3D seismic velocity model, 2018, Seismological Research Letters (89) - 2A
- Do large (magnitude ≥8 ) global earthquakes occur on preferred days of the calendar year or lunar cycle?, 2018, Seismological Research Letters (89) - 2A
- The Station Information System (SIS): A centralized seismic station repository for populating, managing, and distributing metadata, 2018, Seismological Research Letters (89) - 1
- Considerations in comparing the U.S. Geological Survey one‐year induced‐seismicity hazard models with “Did You Feel It?” and instrumental data, 2017, Seismological Research Letters (89) - 1
- Earthquake Early Warning ShakeAlert System: Testing and certification platform, 2017, Seismological Research Letters (89) - 1
- Earthquake early Warning ShakeAlert system: West coast wide production prototype, 2017, Seismological Research Letters (89) - 1
- Forecasting the (un)productivity of the 2014 M 6.0 South Napa aftershock sequence, 2017, Seismological Research Letters (88) - 5
- A synoptic view of the Third Uniform California Earthquake Rupture Forecast (UCERF3), 2017, Seismological Research Letters (88) - 5
- NEHRP turns 40, 2017, Seismological Research Letters (88) - 4
- 2017 One‐year seismic‐hazard forecast for the central and eastern United States from induced and natural earthquakes, 2017, Seismological Research Letters (88) - 3
- The effects of varying injection rates in Osage County, Oklahoma, on the 2016 Mw5.8 Pawnee earthquake, 2017, Seismological Research Letters (88) - 4
- Geodetic slip model of the 3 September 2016 Mw 5.8 Pawnee, Oklahoma, earthquake: Evidence for fault‐zone collapse, 2017, Seismological Research Letters (88) - 4
- Poroelastic properties of the Arbuckle Group in Oklahoma derived from well fluid level response to the 3 September 2016 Mw 5.8 Pawnee and 7 November 2016 Mw 5.0 Cushing earthquakes, 2017, Seismological Research Letters (88) - 4
- PRISM Software: Processing and Review Interface for Strong‐Motion Data, 2017, Seismological Research Letters (88) - 3
- Global Positioning System data collection, processing, and analysis conducted by the U.S. Geological Survey Earthquake Hazards Program, 2017, Seismological Research Letters (88) - 3
- The California Earthquake Advisory Plan: A history, 2017, Seismological Research Letters (88) - 3
- A report on upgraded seismic monitoring stations in Myanmar: Station performance and site response, 2017, Seismological Research Letters (88) - 3
- Characterizing local variability in long‐period horizontal tilt noise, 2017, Seismological Research Letters (88) - 3
- Quaternary displacement rates on the Meeman‐Shelby fault and Joiner ridge horst, eastern Arkansas: Results from coring Mississippi River alluvium, 2017, Seismological Research Letters (88) - 2A
- Dynamic strains for earthquake source characterization, 2017, Seismological Research Letters (88) - 2A
- Thumbnail‐based questionnaires for the rapid and efficient collection of macroseismic data from global earthquakes, 2017, Seismological Research Letters (88) - 1
- Observations of seismicity and ground motion in the northeast U.S. Atlantic margin from ocean bottom seismometer data, 2017, Seismological Research Letters (88) - 1
- PhasePApy: A robust pure Python package for automatic identification of seismic phases, 2016, Seismological Research Letters (87) - 6
- Seismic‐hazard forecast for 2016 including induced and natural earthquakes in the central and eastern United States, 2016, Seismological Research Letters (87) - 6
- 2016 Eastern Section SSA Annual Meeting Report, 2016, Seismological Research Letters (88) - 1
- Origins of a national seismic system in the United States, 2016, Seismological Research Letters (88) - 1
- The 2015 Fillmore earthquake swarm and possible crustal deformation mechanisms near the bottom of the eastern Ventura Basin, California, 2016, Seismological Research Letters (87) - 4
- Annualized earthquake loss estimates for California and their sensitivity to site amplification, 2016, Seismological Research Letters (87) - 6
- A rare moderate‐sized (Mw 4.9) earthquake in Kansas: Rupture process of the Milan, Kansas, earthquake of 12 November 2014 and its relationship to fluid injection, 2016, Seismological Research Letters (87) - 6
- St. Louis area earthquake hazards mapping project; seismic and liquefaction hazard maps, 2016, Seismological Research Letters (88) - 1
- Preliminary assessment of a previously unknown fault zone beneath the Daytona Beach sand blow cluster near Marianna, Arkansas, 2016, Seismological Research Letters (87) - 6
- Acquisition of a unique onshore/offshore geophysical and geochemical dataset in the Northern Malawi (Nyasa) Rift, 2016, Seismological Research Letters (87) - 6
- The Earthquake‐Source Inversion Validation (SIV) Project, 2016, Seismological Research Letters (87) - 3
- Reply to “Comment on ‘Ground motions from the 2015 Mw 7.8 Gorkha, Nepal, earthquake constrained by a detailed assessment of macroseismic data’ by Stacey S. Martin, Susan E. Hough, and Charleen Hung” by Andrea Tertulliani, Laura Graziani, Corrado Castellano, Alessandra Maramai, and Antonio Rossi, 2016, Seismological Research Letters (87) - 4
- Rapid response, monitoring, and mitigation of induced seismicity near Greeley, Colorado, 2016, Seismological Research Letters (87) - 4
- Prospective earthquake forecasts at the Himalayan Front after the 25 April 2015 M 7.8 Gorkha Mainshock, 2016, Seismological Research Letters (87) - 4
- The potential uses of operational earthquake forecasting, 2016, Seismological Research Letters (87) - 2A
- Demonstration of the Cascadia G‐FAST geodetic earthquake early warning system for the Nisqually, Washington, earthquake, 2016, Seismological Research Letters (87) - 4
- Afterslip behavior following the M6.0, 2014 South Napa earthquake with implications for afterslip forecasting on other seismogenic faults, 2016, Seismological Research Letters (87) - 3
- Potential improvements in horizontal very broadband seismic data in the IRIS/USGS component of the Global Seismic Network, 2016, Seismological Research Letters (87) - 1
- The 2014 Mw6.1 South Napa Earthquake: A unilateral rupture with shallow asperity and rapid afterslip, 2015, Seismological Research Letters (86) - 2A
- Rapid damage mapping for the 2015 M7.8 Gorkha earthquake using synthetic aperture radar data from COSMO-SkyMed and ALOS-2 satellites, 2015, Seismological Research Letters (86) - 6
- How to recognize a “Beast Quake” and a “Dance Quake”, 2015, Seismological Research Letters (86) - 3
- Refinements to the Graves and Pitarka (2010) Broadband Ground Motion Simulation Method, 2015, Seismological Research Letters (86) - 1
- 2014 M=6.0 South Napa earthquake triggered widespread aftershocks and stressed several major faults and exotic fault clusters, 2015, Seismological Research Letters (86) - 6
- Quantifying 10 years of improved earthquake-monitoring performance in the Caribbean region, 2015, Seismological Research Letters (87) - 1
- The petroleum geologist and the insurance policy, 2015, Seismological Research Letters (87) - 1
- Rapid characterization of the 2015 Mw 7.8 Gorkha, Nepal, earthquake sequence and its seismotectonic context, 2015, Seismological Research Letters (86) - 6
- Strong-motion observations of the M 7.8 Gorkha, Nepal, earthquake sequence and development of the N-shake strong-motion network, 2015, Seismological Research Letters (86) - 6
- Geotechnical effects of the 2015 magnitude 7.8 Gorkha, Nepal, earthquake and aftershocks, 2015, Seismological Research Letters (86) - 6
- Ground motions from the 2015Mw 7.8 Gorkha, Nepal, earthquake constrained by a detailed assessment of macroseismic data, 2015, Seismological Research Letters (86) - 6
- Introduction to the focus section on the 2015 Gorkha, Nepal, earthquake, 2015, Seismological Research Letters (86) - 6
- A quick SEED tutorial, 2015, Seismological Research Letters (86) - 6
- Upgrade of the New China Digital Seismograph Network, 2015, Seismological Research Letters (86) - 5
- Myths and facts on wastewater injection, hydraulic fracturing, enhanced oil recovery, and induced seismicity, 2015, Seismological Research Letters (86) - 4
- Hundreds of earthquakes per day: The 2014 Guthrie, Oklahoma, Earthquake Sequence, 2015, Seismological Research Letters (86) - 5
- On the reliability of Quake-Catcher Network earthquake detections, 2015, Seismological Research Letters (86) -
- Surface monitoring of microseismicity at the Decatur, Illinois, CO2 sequestration demonstration site, 2015, Seismological Research Letters (86) - 4
- Unusual downhole and surface free-field records near the Carquinez Strait bridges during the 24 August 2014 Mw6.0 South Napa, California earthquake, 2015, Seismological Research Letters (86) - 4
- Self-noise models of five commercial strong-motion accelerometers, 2015, Seismological Research Letters (86) - 4
- The Mw6.0 24 August 2014 South Napa earthquake, 2015, Seismological Research Letters (86) - 2A
- The Red Atrapa Sismos (Quake Catcher Network in Mexico): assessing performance during large and damaging earthquakes., 2015, Seismological Research Letters (86) - 3
- The 21 May 2014 Mw 5.9 Bay of Bengal earthquake: macroseismic data suggest a high‐stress‐drop event, 2015, Seismological Research Letters (86) - 2A
- Ground motion observations of the 2014 South Napa earthquake, 2015, Seismological Research Letters (86) - 2A
- Resilience by Design: Bringing Science to Policy Makers, 2015, Seismological Research Letters (86) - 2A
- Preface to the focus section on injection-induced seismicity, 2015, Seismological Research Letters (86) - 4
- “All Models Are Wrong, but Some Are Useful”, 2015, Seismological Research Letters (86) - 2A
- Validation of the SCEC broadband platform V14.3 simulation methods using pseudo spectral acceleration data, 2015, Seismological Research Letters (86) - 1
- Geodetic constraints on the 2014 M 6.0 South Napa earthquake, 2014, Seismological Research Letters (86) - 2A
- Metrics for comparing dynamic earthquake rupture simulations, 2014, Seismological Research Letters (86) - 1
- Operational earthquake forecasting can enhance earthquake preparedness, 2014, Seismological Research Letters (85) - 5
- Why the 1964 Great Alaska Earthquake matters 50 years later, 2014, Seismological Research Letters (85) - 2
- Performance of several low-cost accelerometers, 2014, Seismological Research Letters (85) - 1
- Stress, distance, magnitude, and clustering influences on the success or failure of an aftershock forecast: the 2013 M 6.6 Lushan earthquake and other examples, 2014, Seismological Research Letters (85) - 1
- Southern San Andreas Fault evaluation field activity: approaches to measuring small geomorphic offsets--challenges and recommendations for active fault studies, 2014, Seismological Research Letters (85) - 1
- Seismic Station Installation Orientation Errors at ANSS and IRIS/USGS Stations, 2013, Seismological Research Letters (84) - 6
- Reverberations on the watery element: A significant tsunamigenic historical earthquake offshore the Carolina coast, 2013, Seismological Research Letters (84) - 5
- The northwest trending north Boquerón Bay-Punta Montalva Fault Zone; A through going active fault system in southwestern Puerto Rico, 2013, Seismological Research Letters (84) - 3
- The SCEC geodetic transient detection validation exercise, 2013, Seismological Research Letters (84) - 3
- Public release of the ISC-GEM Global Instrumental Earthquake Catalogue (1900-2009), 2013, Seismological Research Letters (84) - 5
- Seismicity associated with the May 2010 eruption of South Sarigan Seamount, Northern Mariana Islands, 2013, Seismological Research Letters (84) - 6
- Data quality of seismic records from the Tohoku, Japan earthquake as recorded across the Albuquerque Seismological Laboratory networks, 2012, Seismological Research Letters (83) - 3
- Casual instrument corrections for short-period and broadband seismometers, 2012, Seismological Research Letters (83) - 5
- A comparison among observations and earthquake simulator results for the allcal2 California fault model, 2012, Seismological Research Letters (83) - 6
- Trimming the UCERF2 hazard logic tree, 2012, Seismological Research Letters (83) - 5
- Initial assessment of the intensity distribution of the 2011 Mw5.8 Mineral, Virginia, earthquake, 2012, Seismological Research Letters (83) - 4
- Do aftershock probabilities decay with time?, 2012, Seismological Research Letters (83) - 4
- Heavy tails and earthquake probabilities, 2012, Seismological Research Letters (83) - 3
- QuakeCaster, an earthquake physics demonstration and exploration tool, 2012, Seismological Research Letters (83) - 1
- ViscoSim Earthquake Simulator, 2012, Seismological Research Letters (83) - 6
- Have recent earthquakes exposed flaws in or misunderstandings of probabilistic seismic hazard analysis?, 2012, Seismological Research Letters (83) - 5
- Updated determination of stress parameters for nine well-recorded earthquakes in eastern North America, 2012, Seismological Research Letters (83) - 1
- Listening to the 2011 magnitude 9.0 Tohoku-Oki, Japan, earthquake, 2012, Seismological Research Letters (83) - 2
- 88 hours: The U.S. Geological Survey National Earthquake Information Center response to the March 11, 2011 Mw 9.0 Tohoku earthquake, 2011, Seismological Research Letters (82) - 4
- Some possible causes of and corrections for STS-1 response changes in the Global Seismographic Network, 2011, Seismological Research Letters (82) - 4
- Preface to the Focused Issue on the 22 February 2011 Magnitude 6.2 Christchurch Earthquake, 2011, Seismological Research Letters (82) - 6
- Developing seismogenic source models based on geologic fault data, 2011, Seismological Research Letters (82) - 4
- What is that mysterious booming sound?, 2011, Seismological Research Letters (82) - 5
- Verifying a computational method for predicting extreme ground motion, 2011, Seismological Research Letters (82) - 5
- Coulomb stress change sensitivity due to variability in mainshock source models and receiving fault parameters: A case study of the 2010-2011 Christchurch, New Zealand, earthquakes, 2011, Seismological Research Letters (82) - 6
- Reassessment of stable continental regions of Southeast Asia, 2011, Seismological Research Letters (82) - 6
- Ground motion attenuation during M 7.1 Darfield and M 6.2 Christchurch, New Zealand, earthquakes and performance of global predictive models, 2011, Seismological Research Letters (82) - 6
- Modular filter-based approach to ground motion attenuation modeling, 2011, Seismological Research Letters (82) - 1
- A short note on ground-motion recordings from the M 7.9 Wenchuan, China, earthquake and ground-motion prediction equations in the Central and Eastern United States, 2011, Seismological Research Letters (82) - 5
- Community online resource for statistical seismicity analysis, 2011, Seismological Research Letters (82) - 5
- 8 March 2010 Elazığ-Kovancilar (Turkey) Earthquake: observations on ground motions and building damage, 2011, Seismological Research Letters (82) - 1
- Low-altitude aerial color digital photographic survey of the San Andreas Fault, 2010, Seismological Research Letters (81) - 3
- Method for calculating self-noise spectra and operating ranges for seismographic inertial sensors and recorders, 2010, Seismological Research Letters (81) - 4
- Temporal variations in Global Seismic Stations ambient noise power levels, 2010, Seismological Research Letters (81) - 4
- Field survey of the Samoa tsunami of 29 September 2009, 2010, Seismological Research Letters (81) - 4
- Displaying seismic deaggregation: The importance of the various sources, 2010, Seismological Research Letters (81) - 3
- Predicted and observed spectral response from collocated shallow, active- and passive- source Vs data at five ANSS sites, Illinois and Indiana, USA, 2010, Seismological Research Letters (81) - 6
- Three-dimensional long-period groundmotion simulations in the upper Mississippi embayment, 2010, Seismological Research Letters (81) - 2
- OMG earthquake! can twitter improve earthquake response?, 2010, Seismological Research Letters (81) - 2
- Self-noise models of seismic instruments, 2010, Seismological Research Letters (81) - 6
- The crowbar chronicles and other tales, 2009, Seismological Research Letters (80) - 5
- Recent advances in rotational seismology, 2009, Seismological Research Letters (80) - 3
- BSSA: Worth thinking about, 2009, Seismological Research Letters (80) - 3
- PAGER-CAT: A composite earthquake catalog for calibrating global fatality models, 2009, Seismological Research Letters (80) - 1
- Simulated aftershock sequences for an M 7.8 earthquake on the southern San Andreas fault, 2009, Seismological Research Letters (80) - 1
- Source inversion of the W-phase: Realtime implementation and extension to low magnitudes, 2009, Seismological Research Letters (80) - 5
- OxCal: Versatile tool for developing paleoearthquake chronologies: A primer, 2009, Seismological Research Letters (80) - 3
- Comment on "Sigma: Issues, insights, and challenges" by F. O. Strasser, N. A. Abrahamson J. J. Bommer, 2009, Seismological Research Letters (80) - 3
- A method to establish seismic noise baselines for automated station assessment, 2009, Seismological Research Letters (80) - 4
- The SCEC/USGS dynamic earthquake rupture code verification exercise, 2009, Seismological Research Letters (80) - 1
- Cataloging the 1811-1812 New Madrid, central U.S., earthquake sequence, 2009, Seismological Research Letters (80) - 6
- The USGS Earthquake Notification Service (ENS): Customizable notifications of earthquakes around the globe, 2008, Seismological Research Letters (79) - 1
- The 8 October 2006 Md 4.5 Cowlitz chimneys earthquake in Mount Rainier National Park, 2008, Seismological Research Letters (79) - 2
- Preliminary report on the 29 July 2008 Mw 5.4 Chino Hills, Eastern Los Angeles Basin, California, earthquake sequence, 2008, Seismological Research Letters (79) - 6
- The April 18, 2008 Illinois earthquake: an ANSS monitoring success, 2008, Seismological Research Letters (79) - 6
- Preliminary analysis of strong-motion recordings from the magnitude 8.0 Wenchuan, China, Earthquake of 12 May 2008, 2008, Seismological Research Letters (79) - 6
- Multidecadal climate-induced variability in microseisms, 2008, Seismological Research Letters (79) - 2
- Probabilistic liquefaction hazard maps for Memphis, Tennessee, 2008, Seismological Research Letters (79) - 3
- Seismology and the International Geophysical Year, 2008, Seismological Research Letters (79) - 2
- Short-term aftershock probabilities: Case studies in California, 2007, Seismological Research Letters (78) - 1
- The 17 July 2006 Tsunami earthquake in West Java, Indonesia, 2007, Seismological Research Letters (78) - 2
- Earthquake likelihood model testing, 2007, Seismological Research Letters (78) - 1
- Seismic hazard in Karachi, Pakistan: Uncertain past, uncertain future, 2007, Seismological Research Letters (78) - 6
- Enhancement of the national strong-motion network in Turkey, 2007, Seismological Research Letters (78) - 4
- "Did you feel it?" Intensity data: A surprisingly good measure of earthquake ground motion, 2007, Seismological Research Letters (78) - 3
- RELM testing center, 2007, Seismological Research Letters (78) - 1
- Time-independent and time-dependent seismic hazard assessment for the state of California: Uniform California earthquake rupture forecast model 1.0, 2007, Seismological Research Letters (78) - 1
- Recordings from the deepest borehole in the New Madrid Seismic Zone, 2006, Seismological Research Letters (77) - 2
- First USGS urban seismic hazard maps predict the effects of soils, 2006, Seismological Research Letters (77) - 1
- A look-back at 1906 - Perspectives on great earthquakes and post-earthquake investigations, 2006, Seismological Research Letters (77) - 2
- Reply to "Comment on 'How can seismic hazard around the New Madrid seismic zone be similar to that in California?' by Arthur Frankel", by Zhenming Wang, Baoping Shi, and John D. Kiefer, 2005, Seismological Research Letters (76) - 4
- Grid computing in the SCEC community modeling environment, 2005, Seismological Research Letters (76) - 5
- Revised magnitude-bound relation for the Wabash Valley seismic zone of the central United States, 2005, Seismological Research Letters (76) - 6
- Wagon loads of sand blows in White County, Illinois, 2005, Seismological Research Letters (76) - 3
- Reply to "Comment on 'How can seismic hazard in the New Madrid seismic zone be similar to that in California?' by Arthur Frankel", 2005, Seismological Research Letters (76) - 3
- Evidence for New Madrid earthquakes in A.D. 300 and 2350 B.C, 2005, Seismological Research Letters (76) - 4
- Ground-motion parameters of the southwestern Indiana earthquake of 18 June 2002 and the disparity between the observed and predicted values, 2005, Seismological Research Letters (76) - 4
- Preliminary analysis of strong-motion recordings from the 28 September 2004 Parkfield, California earthquake, 2005, Seismological Research Letters (76) - 1
- Comment on "How can seismic hazard around the New Madrid seismic zone be similar to that in California?" by Arthur Frankel, 2005, Seismological Research Letters (76) - 4
- A comparison of seismic event detection with IASPEI and earthworm acquisition systems at Alaskan volcanoes, 2005, Seismological Research Letters (76) - 2
- Success and failure at Parkfield, 2005, Seismological Research Letters (76) - 1
- Remotely triggered earthquakes following moderate mainshocks (or, why California is not falling into the ocean), 2005, Seismological Research Letters (76) - 1
- Preliminary report on the 28 September 2004, M 6.0 Parkfield, California earthquake, 2005, Seismological Research Letters (76) - 1
- Hazard calculations for the WGCEP-2002 earthquake forecast using OpenSHA and distributed object technologies, 2005, Seismological Research Letters (76) - 2
- Hazard map calculations using grid computing, 2005, Seismological Research Letters (76) - 5
- Historical seismic activity in the central United States, 2004, Seismological Research Letters (75) - 5
- Geotechnical characterization of TriNet sites: A status report, 2004, Seismological Research Letters (75) - 4
- Preliminary report on the 22 December 2003, M 6.5 San Simeon, California earthquake, 2004, Seismological Research Letters (75) - 2
- A high price for impertinence, 2004, Seismological Research Letters (75) - 3
- The nature of earthquake prediction, 2003, Seismological Research Letters (74) - 6
- Hypocentral accuracy of surficial detonations in northern California, 2003, Seismological Research Letters (74) - 1
- The Commerce geophysical lineament and its possible relation to Mesoproterozoic igneous complexes and large earthquakes in the central Illinois Basin, 2002, Seismological Research Letters (73) - 5
- Interpreting the earthquake source of the Wabash Valley seismic zone (Illinois, Indiana, and Kentucky) from seismic-reflection, gravity, and magnetic-intensity data, 2002, Seismological Research Letters (73) - 5
- An editor's hello, 2002, Seismological Research Letters (73) - 1
- Southern California seismic network: Caltech/USGS element of TriNet 1997-2001, 2001, Seismological Research Letters (72) - 6
- Locating earthquakes: At what distance can the Earth no longer be treated as flat?, 2001, Seismological Research Letters (72) - 5
- The New Madrid seismic zone: Capturing variability in seismic hazard analyses, 2001, Seismological Research Letters (72) - 6
- A suggestion for fitting ground-motion attenuation near an extended earthquake source, 2001, Seismological Research Letters (72) - 4
- GPS constraints on M 7-8 earthquake recurrence times for the New Madrid seismic zone, 2001, Seismological Research Letters (72) - 6
- The 26 January 2001 "Republic Day" earthquake, India, 2001, Seismological Research Letters (72) - 3
- Performance of the Taiwan Rapid Earthquake Information Release System (RTD) during the 1999 Chi-Chi (Taiwan) Earthquake , 2000, Seismological Research Letters (71) - 3
- Preliminary report on the 16 October 1999 M 7.1 Hector mine, California, earthquake, 2000, Seismological Research Letters (71) - 1
- A volcano in North Carolina? A closer look at a tall tale, 2000, Seismological Research Letters (71) - 6
- The GSHAP Global Seismic Hazard Map, 2000, Seismological Research Letters (71) - 6
- The 1999 Southern California Seismic Network bulletin, 2000, Seismological Research Letters (71) - 4
- Rapid distribution of earthquake information for everybody, 2000, Seismological Research Letters (71) - 3
- Origin of the 17 July 1998 Papua New Guinea tsunami: Earthquake or landslide, 2000, Seismological Research Letters (71) - 3
- Geology in the 1996 USGS seismic-hazard maps, central and eastern United States, 2000, Seismological Research Letters (71) - 2
- A preliminary report on the 1999 Chi-Chi (Taiwan) earthquake, 2000, Seismological Research Letters (71) - 1
- Characterizing crustal earthquake slip models for the prediction of strong ground motion, 1999, Seismological Research Letters (70) - 1
- Issues in using liquefaction features for paleoseismic analysis, 1999, Seismological Research Letters (70) - 1
- Neotectonic structure in the central new madrid seismic zone: Evidence from multimode seismic-reflection data, 1999, Seismological Research Letters (70) - 5
- Comparing Shear-Wave Velocity Profiles from Inversion of Surface-Wave Phase Velocities with Downhole Measurements: Systematic Differences between the CXW Method and Downhole Measurements at Six USC Strong-Motion Sites, 1998, Seismological Research Letters (69) - 3
- Continuous GPS Monitoring of Structural Deformation at Pacoima Dam, California, 1998, Seismological Research Letters (69) - 4
- Faulting Parameters of the January 16, 1994 Wyomissing Hills, Pennsylvania Earthquakes, 1998, Seismological Research Letters (69) - 3
- Defining the southwestern end of the Blytheville Arch, northeastern Arkansas: delimiting a seismic source zone in the New Madrid region, 1998, Seismological Research Letters (69) - 4
- The 1997 Southern California Seismic Network bulletin, 1998, Seismological Research Letters (69) - 6
- New evidence doubles the seismic potential of the Hayward Fault, 1998, Seismological Research Letters (69) - 6
- Evidence for large prehistoric earthquakes in the northern New Madrid Seismic Zone, central United States, 1998, Seismological Research Letters (69) - 3
- Some comparisons between recent ground-motion relations, 1997, Seismological Research Letters (68) - 1
- Structural underpinnings and neotectonics of the southern Illinois Basin: An overview, 1997, Seismological Research Letters (68) - 4
- SEA96 - A new predictive relation for earthquake ground motions in extensional tectonic regimes, 1997, Seismological Research Letters (68) - 1
- Equations for estimating horizontal response spectra and peak acceleration from western North American earthquakes: A summary of recent work, 1997, Seismological Research Letters (68) - 1
- Stochastic point-source modeling of ground motions in the Cascadia region, 1997, Seismological Research Letters (68) - 1
- Proterozoic structure, cambrian rifting, and younger faulting as revealed by a regional seismic reflection network in the Southern Illinois Basin, 1997, Seismological Research Letters (68) - 4
- Seismic interpretation of the deep structure of the Wabash Valley Fault System, 1997, Seismological Research Letters (68) - 4
- Proterozoic sequences and their implications for precamorian and cambrian geologic evolution of Western Kentucky: Evidence from seismic-reflection data, 1997, Seismological Research Letters (68) - 4
- Boundary separating the seismically active reelfoot rift from the sparsely seismic Rough Creek graben, Kentucky and Illinois, 1997, Seismological Research Letters (68) - 4
- Investigating possible earthquake-related structure beneath the southern Illinois Basin from seismic reflection, 1997, Seismological Research Letters (68) - 4
- Geomorphic response to tectonically-induced ground deformation in the Wabash Valley, 1997, Seismological Research Letters (68) - 4
- Spatial earthquake hazard assessment of Evansville, Indiana, 1997, Seismological Research Letters (68) - 4
- Geophysical setting of the Wabash Valley fault system, 1997, Seismological Research Letters (68) - 4
- Seismic evidence of Quaternary faulting in the Benton Hills area, southeast Missouri, 1997, Seismological Research Letters (68) - 4
- The 1996 Southern California Network Bulletin, 1997, Seismological Research Letters (68) - 6
- Earthquakes and carbon dioxide beneath Mammoth Mountain, California, 1996, Seismological Research Letters (67) - 1
- Earthquakes and the southeastern boundary of the intact Iapetan margin in eastern North America, 1996, Seismological Research Letters (67) - 5
- The 1995 Southern California Network Bulletin, 1996, Seismological Research Letters (67) - 5
- Rapid derivation of rupture history for large earthquakes, 1996, Seismological Research Letters (67) - 6
- Structural damage, ground failure, and hydrologic effects of the magnitude (MW) 5.9 Draney Peak, Idaho, earthquake of February 3, 1994, 1996, Seismological Research Letters (67) - 3
- Source parameters and crustal Q for four earthquakes in South Carolina, 1995, Seismological Research Letters (66) - 4
- Structure of the Reelfoot rift as interpreted from 2-D magnetotelluric models, 1992, Seismological Research Letters (63) - 3
- Geologic implications of earthquake source parameters in central and eastern North America, 1992, Seismological Research Letters (63) - 4
- Peak accelerations from the 17 October 1989 Loma Prieta earthquake, 1989, Seismological Research Letters (60) - 4
- Midplate seismicity exterior to former rift-basins, 1988, Seismological Research Letters (59) - 4
- Seismicity in South Carolina, 1988, Seismological Research Letters (59) - 4
- Structure of the Blytheville arch in the New Madrid seismic zone, 1988, Seismological Research Letters (59) - 4
- A revised “earthquake report” questionnaire, 1976, Seismological Research Letters (8) - 4