Locations of multichannel seismic reflection profiles (in black), collected during cruise FA2020-14. The profiles are overlain on colored and shaded multibeam bathymetry, Lidar topography (green and white) and near-shore bathymetry (darker blue), and NOAA coastal relief model (light blue and white).
Puerto Rico Natural Hazards: Earthquakes | Peligros naturales de Puerto Rico: Terremotos
January 2020 Aftershock Forecast Report
Informe del pronóstico de la réplica de enero 2020
USGS provides real-time earthquake data, information on historic earthquakes, resources for the most significant earthquakes, and seismicity and ground motions to support future updates to the seismic hazard models for Puerto Rico and the U.S. Virgin Islands. Our seismic research can help establish better building regulations that mitigate earthquake risks and improve public safety. The USGS Earthquake Hazards Program has collaborated with the Puerto Rico Seismic Network and the Puerto Rico Strong Motion Program to provide staff training and assistance with restoration efforts to the network after Hurricane Maria in 2017. Learn more about the seismic network, latest earthquakes, aftershock forecasts, and other earthquake publications on this page.
El USGS proporciona datos sobre terremotos en tiempo real, información sobre terremotos históricos, y recursos sobre los terremotos más importantes, sismicidad y movimientos del suelo para respaldar las futuras actualizaciones de los modelos de peligrosidad sísmica para Puerto Rico y las Islas Vírgenes de los Estados Unidos. Nuestras investigaciones sísmicas pueden ser utilizadas para establecer mejores normas de construcción que mitiguen los riesgos de los terremotos y mejoren la seguridad pública. El Programa de Riesgos por Terremotos (USGS Earthquake Hazards Program) ha colaborado con la Red Sísmica de Puerto Rico y el Programa de Movimiento Fuerte de Puerto Rico para entrenar al personal y asistir con los esfuerzos de restauración de la red sísmica luego del huracán María en 2017. Conozca más sobre la red sísmica, los terremotos más recientes, los pronósticos de réplicas y otras publicaciones relacionadas con terremotos en esta página.
Latest Earthquakes | Terremotos más recientes
The USGS Latest Earthquakes tool is part of the National Earthquake Information Center, whose mission is to provide a rapid and accurate data about significant earthquakes worldwide. Data from the Puerto Rico Seismic Network (PRSN) and the Puerto Rico Strong Motion Program (PRSMP), both of which operate seismic stations across Puerto Rico, feed into this tool to provide near real-time maps of ground motion. After a significant earthquake occurs, the PRSN communicates the information to other Caribbean nations. Visit the USGS Latest Earthquakes interactive map tool zoomed into the Puerto Rico region here.
La herramienta Latest Earthquakes (Terremotos más recientes) del USGS es parte del Centro Nacional de Información sobre Terremotos (National Earthquake Information Center), cuya misión es brindar datos rápidos y precisos sobre los terremotos más significativos de todo el mundo. Los datos de la Red Sísmica de Puerto Rico (PRSN, por sus siglas en inglés) y el Programa de Movimiento Fuerte de Puerto Rico (PRSMP, por sus siglas en inglés), que operan estaciones sísmicas en todo Puerto Rico, alimentan esta herramienta para proporcionar mapas de los movimientos del suelo en tiempo casi real. Luego de que ocurre un terremoto significativo, PRSN comunica la información a otras naciones caribeñas. Visite la herramienta interactiva de Latest Earthquakes (Terremotos más recientes) del USGS aqui.
Puerto Rico Faults | Las fallas de Puerto Rico
USGS researchers have worked to identify and map faults in Puerto Rico and the Caribbean to better estimate the location and magnitude of potential earthquakes. Learn more about seismic faults.
Algunos investigadores del USGS han trabajado para identificar fallas y crear un mapa de fallas de Puerto Rico y el Caribe, a fin de estimar mejor la ubicación y magnitud de los posibles terremotos. Obtenga más información sobre las fallas sísmicas.
January 2020 Seismic Sequence | La secuencia sísmica de enero de 2020
After the earthquake sequence in January 2020 off the Southwest coast of Puerto Rico, additional seismic monitoring stations were installed by the Puerto Rico Seismic Network, Puerto Rico Strong Motion Program and USGS to provide reliable data about the earthquake's strength, estimate potential damages, and to provide high-quality data to inform aftershock forecasts. Visit this website for the January 2020 earthquake sequence, containing daily news, and other information.
Tras la secuencia del terremoto en enero de 2020 en la costa suroeste de Puerto Rico, fueron instaladas nuevas estaciones de vigilancia sísmica por la Red Sísmica de Puerto Rico, el Programa de Movimiento Fuerte de Puerto Rico y USGS para brindar datos fiables sobre la fuerza de los terremotos, estimar los daños y compartir datos de alta calidad para basar los pronósticos de las réplicas. Visite el sitio web de la secuencia del terremoto de enero de 2020 que contiene noticias diarias y más información.
Learn more about USGS Puerto Rico hazards research and tools. | Obtenga más información sobre las herramientas e investigaciones del USGS acerca de riesgos en Puerto Rico.
Science
The USGS Earthquake Hazards Program monitors and reports on earthquakes, assesses earthquake impacts and hazards, and conducts targeted research on the causes and effects of earthquakes. Learn more about USGS earthquake research in Puerto Rico in the links below.
Ciencias
El Programa de Riesgos de Terremotos del USGS (USGS Earthquake Hazards Program) vigila y reporta los terremotos, evalúa el impacto y riesgos de los terremotos y lleva a cabo investigaciones con objetivos definidos sobre las causas y efectos de los terremotos. Conozca más sobre las investigaciones de terremotos en Puerto Rico en los siguientes enlaces.
Puerto Rico Natural Hazards | Peligros naturales de Puerto Rico
Landslides Triggered by the 2020 Puerto Rico Earthquake Sequence
U.S. Seismic Hazard Maps – Puerto Rico and the U.S. Virgin Islands, Samoa and the Pacific Islands, and Guam and Northern Mariana Islands
Significant Earthquakes on a major fault system in Hispaniola, Puerto Rico, the Virgin Islands, and the Lesser Antilles, 1500–2010: Implications for Seismic Hazard
Caribbean Tsunami and Earthquake Hazards Studies- Models
Explore USGS data releases about earthquake research for Puerto Rico and the Caribbean.
Explore las cesiones de datos del USGS sobre investigaciones de sismos para Puerto Rico el Caribe.
Multichannel seismic-reflection and navigation data collected using SIG ELC1200 and Applied Acoustics Delta Sparkers and Geometrics GeoEel digital streamers during USGS field activity 2020-014-FA.
Coastal Topography-Anegada, British Virgin Islands, 2014
Explore media products on USGS earthquake research for Puerto Rico and the Caribbean.
Explore los productos multimedia sobre las investigaciones de terremotos del USGS para Puerto Rico y el Caribe.
Locations of multichannel seismic reflection profiles (in black), collected during cruise FA2020-14. The profiles are overlain on colored and shaded multibeam bathymetry, Lidar topography (green and white) and near-shore bathymetry (darker blue), and NOAA coastal relief model (light blue and white).
USGS research geologist Jason Chaytor (L) and marine technicians Alex Nichols (center) and Eric Moore (R) deploy the “sparker” sound source on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS research geologist Jason Chaytor (L) and marine technicians Alex Nichols (center) and Eric Moore (R) deploy the “sparker” sound source on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS marine technician Wayne Baldwin prepares to deploy the hydrophone array during a seismic research cruise off the southwest coast of Puerto Rico on board the R/V Sultana in March 2020.
USGS marine technician Wayne Baldwin prepares to deploy the hydrophone array during a seismic research cruise off the southwest coast of Puerto Rico on board the R/V Sultana in March 2020.
USGS marine technicians Alex Nichols (L) and Eric Moore (R) deploy the hydrophone array on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS marine technicians Alex Nichols (L) and Eric Moore (R) deploy the hydrophone array on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. The boardwalk in Ponce, Puerto Rico was damaged by the quake.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. The boardwalk in Ponce, Puerto Rico was damaged by the quake.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. Here is an example of a landslide failure along a residential road in Ponce, Puerto Rico.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. Here is an example of a landslide failure along a residential road in Ponce, Puerto Rico.
Map of the North American - Caribbean tectonic plate boundary. Colors denote depth below sea level and elevation on land. Bold numbers are the years of moderately large (larger than about M7) historical earthquakes written next to their approximate location. Asterisk - Location of the January 12, 2010 earthquake.
Map of the North American - Caribbean tectonic plate boundary. Colors denote depth below sea level and elevation on land. Bold numbers are the years of moderately large (larger than about M7) historical earthquakes written next to their approximate location. Asterisk - Location of the January 12, 2010 earthquake.
(Top image) Shaded relief of the new multibeam bathymetry along the Puerto Rico Trench illuminated from the northwest. Thin contours indicate bathymetry at 500-m intervals. (Bottom image) Combined bathymetry map of the multibeam bathymetry data, single-beam bathymetry compilation around Puerto Rico, Lidar data near shore, and topography of Puerto Rico.
(Top image) Shaded relief of the new multibeam bathymetry along the Puerto Rico Trench illuminated from the northwest. Thin contours indicate bathymetry at 500-m intervals. (Bottom image) Combined bathymetry map of the multibeam bathymetry data, single-beam bathymetry compilation around Puerto Rico, Lidar data near shore, and topography of Puerto Rico.
Explore scientific publications by USGS researchers about earthquake hazards, seismic monitoring, faults and seafloor mapping for Puerto Rico and the Caribbean.
Explore las publicaciones científicas por investigadores del USGS sobre los riesgos de terremotos, monitoreo de sismos, fallas y mapas del suelo marino para Puerto Rico y el Caribe.
Mature diffuse tectonic block boundary revealed by the 2020 southwestern Puerto Rico seismic sequence
Distributed faulting typically tends to coalesce into one or a few faults with repeated deformation. The progression of clustered medium-sized (≥Mw4.5) earthquakes during the 2020 seismic sequence in southwestern Puerto Rico (SWPR), modeling shoreline subsidence from InSAR, and sub-seafloor mapping by high-resolution seismic reflection profiles, suggest that the 2020 SWPR seismic sequence was dist
Earthquake magnitude distributions on northern Caribbean faults from combinatorial optimization models
On-fault earthquake magnitude distributions are calculated for northern Caribbean faults using estimates of fault slip and regional seismicity parameters. Integer programming, a combinatorial optimization method, is used to determine the optimal spatial arrangement of earthquakes sampled from a truncated Gutenberg-Richter distribution that minimizes the global misfit in slip rates on a complex fau
Seismic monitoring during crises at the NEIC in support of the ANSS
Over the past two decades, the U.S. Geological Survey (USGS) National Earthquake Information Center (NEIC) has overcome many operational challenges. These range from minor disruptions, such as power outages, to significant operational changes, including system reconfiguration to handle unique earthquake sequences and the need to handle distributed work during a pandemic. Our ability to overcome cr
Mysterious tsunami in the Caribbean Sea following the 2010 Haiti earthquake possibly generated by dynamically triggered early aftershocks
Dynamically triggered offshore aftershocks, caused by passing seismic waves from main shocks located on land, are currently not considered in tsunami warnings. The M7.0 2010 Haiti earthquake epicenter was located on land 27 km north of the Caribbean Sea and its focal mechanism was oblique strike-slip. Nevertheless, a tsunami recorded on a Caribbean Deep-Ocean Assessment and Reporting of Tsunami (D
Along-strike segmentation in the northern Caribbean plate boundary zone (Hispaniola sector): Tectonic implications
The North American (NOAM) plate converges with the Caribbean (CARIB) plate at a rate of 20.0 ± 0.4 mm/yr. towards 254 ± 1°. Plate convergence is highly oblique (20–10°), resulting in a complex crustal boundary with along-strike segmentation, strain partitioning and microplate tectonics. We study the oblique convergence of the NOAM and CARIB plates between southeastern Cuba to northern Puerto Rico
Seismic sensors record a hurricane’s roar
The instruments installed at Global Seismographic Network (GSN) stations were designed to record Earth’s vibrations, but they sometimes pick up sound waves from unexpected sources. For example, newly installed infrasound sensors at a station on Puerto Rico recorded the passage of Hurricane Maria on 20 September 2017.
Shallower structure and geomorphology of the southern Puerto Rico offshore margin
Quantifying 10 years of improved earthquake-monitoring performance in the Caribbean region
Over 75 tsunamis have been documented in the Caribbean and adjacent regions during the past 500 years. Since 1500, at least 4484 people are reported to have perished in these killer waves. Hundreds of thousands are currently threatened along the Caribbean coastlines. Were a great tsunamigenic earthquake to occur in the Caribbean region today, the effects would potentially be catastrophic due to an
Core data from offshore Puerto Rico and the U.S. Virgin Islands
In 2008, as a collaborative effort between Woods Hole Oceanographic Institution and the U.S. Geological Survey, 20 giant gravity cores were collected from areas surrounding Puerto Rico and the U.S. Virgin Islands. The regions sampled have had many large earthquake and landslide events, some of which are believed to have triggered tsunamis. The objective of this coring cruise, carried out aboard th
Effects of 2010 Hurricane Earl amidst geologic evidence for greater overwash at Anegada, British Virgin Islands
A post-hurricane survey of a Caribbean island affords comparisons with geologic evidence for greater overwash at the same place. This comparison, though of limited application to other places, helps calibrate coastal geology for assessment of earthquake and tsunami potential along the Antilles Subduction Zone. The surveyed island, Anegada, is 120 km south of the Puerto Rico Trench and is near the
Event sedimentation in low-latitude deep-water carbonate basins, Anegada passage, northeast Caribbean
The Virgin Islands and Whiting basins in the Northeast Caribbean are deep, structurally controlled depocentres partially bound by shallow-water carbonate platforms. Closed basins such as these are thought to document earthquake and hurricane events through the accumulation of event layers such as debris flow and turbidity current deposits and the internal deformation of deposited material. Event l
Slope failures and timing of turbidity flows north of Puerto Rico
Explore USGS software related to earthquake hazards available for Puerto Rico.
Explore software del USGS disponibles para Puerto Rico con relación a riesgos por terremotos.
Pedestrian Evacuation Analyst Tool
The Pedestrian Evacuation Analyst is an ArcGIS extension that estimates how long it would take for someone to travel on foot out of a hazardous area that was threatened by a sudden event such as a tsunami, flash flood, or volcanic lahar. It takes into account the elevation changes and the different types of landcover that a person would encounter along the way.
Read research news highlights about USGS earthquake research in Puerto Rico.
Lea las noticias más importantes sobre las investigaciones del USGS en Puerto Rico con relación a terremotos.
USGS provides real-time earthquake data, information on historic earthquakes, resources for the most significant earthquakes, and seismicity and ground motions to support future updates to the seismic hazard models for Puerto Rico and the U.S. Virgin Islands. Our seismic research can help establish better building regulations that mitigate earthquake risks and improve public safety. The USGS Earthquake Hazards Program has collaborated with the Puerto Rico Seismic Network and the Puerto Rico Strong Motion Program to provide staff training and assistance with restoration efforts to the network after Hurricane Maria in 2017. Learn more about the seismic network, latest earthquakes, aftershock forecasts, and other earthquake publications on this page.
El USGS proporciona datos sobre terremotos en tiempo real, información sobre terremotos históricos, y recursos sobre los terremotos más importantes, sismicidad y movimientos del suelo para respaldar las futuras actualizaciones de los modelos de peligrosidad sísmica para Puerto Rico y las Islas Vírgenes de los Estados Unidos. Nuestras investigaciones sísmicas pueden ser utilizadas para establecer mejores normas de construcción que mitiguen los riesgos de los terremotos y mejoren la seguridad pública. El Programa de Riesgos por Terremotos (USGS Earthquake Hazards Program) ha colaborado con la Red Sísmica de Puerto Rico y el Programa de Movimiento Fuerte de Puerto Rico para entrenar al personal y asistir con los esfuerzos de restauración de la red sísmica luego del huracán María en 2017. Conozca más sobre la red sísmica, los terremotos más recientes, los pronósticos de réplicas y otras publicaciones relacionadas con terremotos en esta página.
Latest Earthquakes | Terremotos más recientes
The USGS Latest Earthquakes tool is part of the National Earthquake Information Center, whose mission is to provide a rapid and accurate data about significant earthquakes worldwide. Data from the Puerto Rico Seismic Network (PRSN) and the Puerto Rico Strong Motion Program (PRSMP), both of which operate seismic stations across Puerto Rico, feed into this tool to provide near real-time maps of ground motion. After a significant earthquake occurs, the PRSN communicates the information to other Caribbean nations. Visit the USGS Latest Earthquakes interactive map tool zoomed into the Puerto Rico region here.
La herramienta Latest Earthquakes (Terremotos más recientes) del USGS es parte del Centro Nacional de Información sobre Terremotos (National Earthquake Information Center), cuya misión es brindar datos rápidos y precisos sobre los terremotos más significativos de todo el mundo. Los datos de la Red Sísmica de Puerto Rico (PRSN, por sus siglas en inglés) y el Programa de Movimiento Fuerte de Puerto Rico (PRSMP, por sus siglas en inglés), que operan estaciones sísmicas en todo Puerto Rico, alimentan esta herramienta para proporcionar mapas de los movimientos del suelo en tiempo casi real. Luego de que ocurre un terremoto significativo, PRSN comunica la información a otras naciones caribeñas. Visite la herramienta interactiva de Latest Earthquakes (Terremotos más recientes) del USGS aqui.
Puerto Rico Faults | Las fallas de Puerto Rico
USGS researchers have worked to identify and map faults in Puerto Rico and the Caribbean to better estimate the location and magnitude of potential earthquakes. Learn more about seismic faults.
Algunos investigadores del USGS han trabajado para identificar fallas y crear un mapa de fallas de Puerto Rico y el Caribe, a fin de estimar mejor la ubicación y magnitud de los posibles terremotos. Obtenga más información sobre las fallas sísmicas.
January 2020 Seismic Sequence | La secuencia sísmica de enero de 2020
After the earthquake sequence in January 2020 off the Southwest coast of Puerto Rico, additional seismic monitoring stations were installed by the Puerto Rico Seismic Network, Puerto Rico Strong Motion Program and USGS to provide reliable data about the earthquake's strength, estimate potential damages, and to provide high-quality data to inform aftershock forecasts. Visit this website for the January 2020 earthquake sequence, containing daily news, and other information.
Tras la secuencia del terremoto en enero de 2020 en la costa suroeste de Puerto Rico, fueron instaladas nuevas estaciones de vigilancia sísmica por la Red Sísmica de Puerto Rico, el Programa de Movimiento Fuerte de Puerto Rico y USGS para brindar datos fiables sobre la fuerza de los terremotos, estimar los daños y compartir datos de alta calidad para basar los pronósticos de las réplicas. Visite el sitio web de la secuencia del terremoto de enero de 2020 que contiene noticias diarias y más información.
Learn more about USGS Puerto Rico hazards research and tools. | Obtenga más información sobre las herramientas e investigaciones del USGS acerca de riesgos en Puerto Rico.
Science
The USGS Earthquake Hazards Program monitors and reports on earthquakes, assesses earthquake impacts and hazards, and conducts targeted research on the causes and effects of earthquakes. Learn more about USGS earthquake research in Puerto Rico in the links below.
Ciencias
El Programa de Riesgos de Terremotos del USGS (USGS Earthquake Hazards Program) vigila y reporta los terremotos, evalúa el impacto y riesgos de los terremotos y lleva a cabo investigaciones con objetivos definidos sobre las causas y efectos de los terremotos. Conozca más sobre las investigaciones de terremotos en Puerto Rico en los siguientes enlaces.
Puerto Rico Natural Hazards | Peligros naturales de Puerto Rico
Landslides Triggered by the 2020 Puerto Rico Earthquake Sequence
U.S. Seismic Hazard Maps – Puerto Rico and the U.S. Virgin Islands, Samoa and the Pacific Islands, and Guam and Northern Mariana Islands
Significant Earthquakes on a major fault system in Hispaniola, Puerto Rico, the Virgin Islands, and the Lesser Antilles, 1500–2010: Implications for Seismic Hazard
Caribbean Tsunami and Earthquake Hazards Studies- Models
Explore USGS data releases about earthquake research for Puerto Rico and the Caribbean.
Explore las cesiones de datos del USGS sobre investigaciones de sismos para Puerto Rico el Caribe.
Multichannel seismic-reflection and navigation data collected using SIG ELC1200 and Applied Acoustics Delta Sparkers and Geometrics GeoEel digital streamers during USGS field activity 2020-014-FA.
Coastal Topography-Anegada, British Virgin Islands, 2014
Explore media products on USGS earthquake research for Puerto Rico and the Caribbean.
Explore los productos multimedia sobre las investigaciones de terremotos del USGS para Puerto Rico y el Caribe.
Locations of multichannel seismic reflection profiles (in black), collected during cruise FA2020-14. The profiles are overlain on colored and shaded multibeam bathymetry, Lidar topography (green and white) and near-shore bathymetry (darker blue), and NOAA coastal relief model (light blue and white).
Locations of multichannel seismic reflection profiles (in black), collected during cruise FA2020-14. The profiles are overlain on colored and shaded multibeam bathymetry, Lidar topography (green and white) and near-shore bathymetry (darker blue), and NOAA coastal relief model (light blue and white).
USGS research geologist Jason Chaytor (L) and marine technicians Alex Nichols (center) and Eric Moore (R) deploy the “sparker” sound source on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS research geologist Jason Chaytor (L) and marine technicians Alex Nichols (center) and Eric Moore (R) deploy the “sparker” sound source on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS marine technician Wayne Baldwin prepares to deploy the hydrophone array during a seismic research cruise off the southwest coast of Puerto Rico on board the R/V Sultana in March 2020.
USGS marine technician Wayne Baldwin prepares to deploy the hydrophone array during a seismic research cruise off the southwest coast of Puerto Rico on board the R/V Sultana in March 2020.
USGS marine technicians Alex Nichols (L) and Eric Moore (R) deploy the hydrophone array on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS marine technicians Alex Nichols (L) and Eric Moore (R) deploy the hydrophone array on a seismic research cruise off the southwest coast of Puerto Rico aboard the R/V Sultana in March 2020.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. The boardwalk in Ponce, Puerto Rico was damaged by the quake.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. The boardwalk in Ponce, Puerto Rico was damaged by the quake.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. Here is an example of a landslide failure along a residential road in Ponce, Puerto Rico.
USGS scientists were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020. Here is an example of a landslide failure along a residential road in Ponce, Puerto Rico.
Map of the North American - Caribbean tectonic plate boundary. Colors denote depth below sea level and elevation on land. Bold numbers are the years of moderately large (larger than about M7) historical earthquakes written next to their approximate location. Asterisk - Location of the January 12, 2010 earthquake.
Map of the North American - Caribbean tectonic plate boundary. Colors denote depth below sea level and elevation on land. Bold numbers are the years of moderately large (larger than about M7) historical earthquakes written next to their approximate location. Asterisk - Location of the January 12, 2010 earthquake.
(Top image) Shaded relief of the new multibeam bathymetry along the Puerto Rico Trench illuminated from the northwest. Thin contours indicate bathymetry at 500-m intervals. (Bottom image) Combined bathymetry map of the multibeam bathymetry data, single-beam bathymetry compilation around Puerto Rico, Lidar data near shore, and topography of Puerto Rico.
(Top image) Shaded relief of the new multibeam bathymetry along the Puerto Rico Trench illuminated from the northwest. Thin contours indicate bathymetry at 500-m intervals. (Bottom image) Combined bathymetry map of the multibeam bathymetry data, single-beam bathymetry compilation around Puerto Rico, Lidar data near shore, and topography of Puerto Rico.
Explore scientific publications by USGS researchers about earthquake hazards, seismic monitoring, faults and seafloor mapping for Puerto Rico and the Caribbean.
Explore las publicaciones científicas por investigadores del USGS sobre los riesgos de terremotos, monitoreo de sismos, fallas y mapas del suelo marino para Puerto Rico y el Caribe.
Mature diffuse tectonic block boundary revealed by the 2020 southwestern Puerto Rico seismic sequence
Distributed faulting typically tends to coalesce into one or a few faults with repeated deformation. The progression of clustered medium-sized (≥Mw4.5) earthquakes during the 2020 seismic sequence in southwestern Puerto Rico (SWPR), modeling shoreline subsidence from InSAR, and sub-seafloor mapping by high-resolution seismic reflection profiles, suggest that the 2020 SWPR seismic sequence was dist
Earthquake magnitude distributions on northern Caribbean faults from combinatorial optimization models
On-fault earthquake magnitude distributions are calculated for northern Caribbean faults using estimates of fault slip and regional seismicity parameters. Integer programming, a combinatorial optimization method, is used to determine the optimal spatial arrangement of earthquakes sampled from a truncated Gutenberg-Richter distribution that minimizes the global misfit in slip rates on a complex fau
Seismic monitoring during crises at the NEIC in support of the ANSS
Over the past two decades, the U.S. Geological Survey (USGS) National Earthquake Information Center (NEIC) has overcome many operational challenges. These range from minor disruptions, such as power outages, to significant operational changes, including system reconfiguration to handle unique earthquake sequences and the need to handle distributed work during a pandemic. Our ability to overcome cr
Mysterious tsunami in the Caribbean Sea following the 2010 Haiti earthquake possibly generated by dynamically triggered early aftershocks
Dynamically triggered offshore aftershocks, caused by passing seismic waves from main shocks located on land, are currently not considered in tsunami warnings. The M7.0 2010 Haiti earthquake epicenter was located on land 27 km north of the Caribbean Sea and its focal mechanism was oblique strike-slip. Nevertheless, a tsunami recorded on a Caribbean Deep-Ocean Assessment and Reporting of Tsunami (D
Along-strike segmentation in the northern Caribbean plate boundary zone (Hispaniola sector): Tectonic implications
The North American (NOAM) plate converges with the Caribbean (CARIB) plate at a rate of 20.0 ± 0.4 mm/yr. towards 254 ± 1°. Plate convergence is highly oblique (20–10°), resulting in a complex crustal boundary with along-strike segmentation, strain partitioning and microplate tectonics. We study the oblique convergence of the NOAM and CARIB plates between southeastern Cuba to northern Puerto Rico
Seismic sensors record a hurricane’s roar
The instruments installed at Global Seismographic Network (GSN) stations were designed to record Earth’s vibrations, but they sometimes pick up sound waves from unexpected sources. For example, newly installed infrasound sensors at a station on Puerto Rico recorded the passage of Hurricane Maria on 20 September 2017.
Shallower structure and geomorphology of the southern Puerto Rico offshore margin
Quantifying 10 years of improved earthquake-monitoring performance in the Caribbean region
Over 75 tsunamis have been documented in the Caribbean and adjacent regions during the past 500 years. Since 1500, at least 4484 people are reported to have perished in these killer waves. Hundreds of thousands are currently threatened along the Caribbean coastlines. Were a great tsunamigenic earthquake to occur in the Caribbean region today, the effects would potentially be catastrophic due to an
Core data from offshore Puerto Rico and the U.S. Virgin Islands
In 2008, as a collaborative effort between Woods Hole Oceanographic Institution and the U.S. Geological Survey, 20 giant gravity cores were collected from areas surrounding Puerto Rico and the U.S. Virgin Islands. The regions sampled have had many large earthquake and landslide events, some of which are believed to have triggered tsunamis. The objective of this coring cruise, carried out aboard th
Effects of 2010 Hurricane Earl amidst geologic evidence for greater overwash at Anegada, British Virgin Islands
A post-hurricane survey of a Caribbean island affords comparisons with geologic evidence for greater overwash at the same place. This comparison, though of limited application to other places, helps calibrate coastal geology for assessment of earthquake and tsunami potential along the Antilles Subduction Zone. The surveyed island, Anegada, is 120 km south of the Puerto Rico Trench and is near the
Event sedimentation in low-latitude deep-water carbonate basins, Anegada passage, northeast Caribbean
The Virgin Islands and Whiting basins in the Northeast Caribbean are deep, structurally controlled depocentres partially bound by shallow-water carbonate platforms. Closed basins such as these are thought to document earthquake and hurricane events through the accumulation of event layers such as debris flow and turbidity current deposits and the internal deformation of deposited material. Event l
Slope failures and timing of turbidity flows north of Puerto Rico
Explore USGS software related to earthquake hazards available for Puerto Rico.
Explore software del USGS disponibles para Puerto Rico con relación a riesgos por terremotos.
Pedestrian Evacuation Analyst Tool
The Pedestrian Evacuation Analyst is an ArcGIS extension that estimates how long it would take for someone to travel on foot out of a hazardous area that was threatened by a sudden event such as a tsunami, flash flood, or volcanic lahar. It takes into account the elevation changes and the different types of landcover that a person would encounter along the way.
Read research news highlights about USGS earthquake research in Puerto Rico.
Lea las noticias más importantes sobre las investigaciones del USGS en Puerto Rico con relación a terremotos.