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.
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Inspecting boardwalk 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. The boardwalk in Ponce, Puerto Rico was damaged by the quake.
Landslide along road near 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. This landslide was discovered along a neighborhood road near 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. This landslide was discovered along a neighborhood road near Ponce, Puerto Rico.
Landslide near 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. This landslide was discovered along a neighborhood road near 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. This landslide was discovered along a neighborhood road near Ponce, Puerto Rico.
Landslide triggered by M6.4 earthquake in Puerto Rico
Landslide triggered by M6.4 earthquake in Puerto RicoUSGS 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.
Landslide triggered by M6.4 earthquake in Puerto Rico
Landslide triggered by M6.4 earthquake in Puerto RicoUSGS 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.
Lateral spread along road caused by M6.4 earthquake in Puerto Rico
Lateral spread along road caused by M6.4 earthquake in Puerto RicoUSGS 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 lateral spread along a residential road in Ponce, Puerto Rico.
Lateral spread along road caused by M6.4 earthquake in Puerto Rico
Lateral spread along road caused by M6.4 earthquake in Puerto RicoUSGS 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 lateral spread along a residential road in Ponce, Puerto Rico.
Lateral spread and damage to boardwalk in Ponce, Puerto Rico
Lateral spread and damage to boardwalk in Ponce, Puerto RicoUSGS 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.
Lateral spread and damage to boardwalk in Ponce, Puerto Rico
Lateral spread and damage to boardwalk in Ponce, Puerto RicoUSGS 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.
Lateral Spread 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 lateral spread near a stream 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 lateral spread near a stream in Ponce, Puerto Rico.
Lateral spread near creek in Ponce, Puerto Rico
USGS scientists, like Dr. Alex Grant, 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 lateral spread near a creek in Ponce, Puerto Rico.
USGS scientists, like Dr. Alex Grant, 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 lateral spread near a creek in Ponce, Puerto Rico.
Liquefaction and lateral spread from M6.4 earthquake in Puerto Rico
Liquefaction and lateral spread from M6.4 earthquake in Puerto RicoUSGS 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 lateral spread near a stream in Ponce, Puerto Rico.
Liquefaction and lateral spread from M6.4 earthquake in Puerto Rico
Liquefaction and lateral spread from M6.4 earthquake in Puerto RicoUSGS 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 lateral spread near a stream in Ponce, Puerto Rico.
Liquefaction and lateral spread near stream in Ponce, Puerto Rico
Liquefaction and lateral spread near stream in Ponce, Puerto RicoUSGS 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 lateral spread near a stream in Ponce, Puerto Rico.
Liquefaction and lateral spread near stream in Ponce, Puerto Rico
Liquefaction and lateral spread near stream in Ponce, Puerto RicoUSGS 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 lateral spread near a stream in Ponce, Puerto Rico.
Researchers deployed in Puerto Rico after earthquake
Researchers deployed in Puerto Rico after earthquakeMeet the team of USGS scientists who were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020.
Researchers deployed in Puerto Rico after earthquake
Researchers deployed in Puerto Rico after earthquakeMeet the team of USGS scientists who were deployed to assess land deformation and movement after a large M6.4 earthquake struck Puerto Rico on January 7, 2020.
Rockfall 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 rockfall material in the yard of a house 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 rockfall material in the yard of a house in Ponce, Puerto Rico.
Secuencia del Terremoto en Puerto Rico, 2020 (hasta enero 16, 2020)
Secuencia del Terremoto en Puerto Rico, 2020 (hasta enero 16, 2020)Terremotos detectados entre diciembre 28, 2019 hasta enero 16, 2020. Sujeto a actualizaciones.
>300 M3+ terremotos* registrados
desde dic 28, 2019 (dentro de 40km) suficientemente fuerte como para ser sentido
10 M5+ terremotos* registrados
Secuencia del Terremoto en Puerto Rico, 2020 (hasta enero 16, 2020)
Secuencia del Terremoto en Puerto Rico, 2020 (hasta enero 16, 2020)Terremotos detectados entre diciembre 28, 2019 hasta enero 16, 2020. Sujeto a actualizaciones.
>300 M3+ terremotos* registrados
desde dic 28, 2019 (dentro de 40km) suficientemente fuerte como para ser sentido
10 M5+ terremotos* registrados
Water pond in Halema‘uma‘u continues to grow
Comparison of the water pond in Halema‘uma‘u on November 20, 2019, and March 1, 2020. Camera and lens same for both photos. Since November 20, 2019, the pond deepened 10 m (33 ft) and widened more than 50 m (164 ft) east-west and 30 m (98 ft) north-south. Circled clusters of rocks did not move between photos, evidence of slope stability.
Comparison of the water pond in Halema‘uma‘u on November 20, 2019, and March 1, 2020. Camera and lens same for both photos. Since November 20, 2019, the pond deepened 10 m (33 ft) and widened more than 50 m (164 ft) east-west and 30 m (98 ft) north-south. Circled clusters of rocks did not move between photos, evidence of slope stability.
What can lava tell us? Deciphering Kīlauea’s 2018 eruption
What can lava tell us? Deciphering Kīlauea’s 2018 eruptionThe 2018 eruption on Kīlauea’s lower East Rift Zone spewed around a billion cubic yards of lava into Puna. From the moment the eruption began, samples of lava were collected and rapidly analyzed by a team of USGS Hawaiian Volcano Observatory and University of Hawaiʻi at Hilo scientists.
What can lava tell us? Deciphering Kīlauea’s 2018 eruption
What can lava tell us? Deciphering Kīlauea’s 2018 eruptionThe 2018 eruption on Kīlauea’s lower East Rift Zone spewed around a billion cubic yards of lava into Puna. From the moment the eruption began, samples of lava were collected and rapidly analyzed by a team of USGS Hawaiian Volcano Observatory and University of Hawaiʻi at Hilo scientists.
HABS platform pull on Skaneateles Lake
Photo Contest Winner | Jan. 2020 | Where We Work
John Wernly and Andrew Kowalczk after HABS platform pull on Skaneateles Lake
Photo Contest Winner | Jan. 2020 | Where We Work
John Wernly and Andrew Kowalczk after HABS platform pull on Skaneateles Lake
Nighttime Landsat 8 image of the Taal Volcano
This image shows a false color (bands 7,6,5) nighttime Landsat 8 image of the Taal Volcano overlaid on a daytime Landsat panchromatic black and white image (band 8). The nighttime image from path 220/row194 was acquired on January 15, 2020, a few days after the volcano's eruption.
This image shows a false color (bands 7,6,5) nighttime Landsat 8 image of the Taal Volcano overlaid on a daytime Landsat panchromatic black and white image (band 8). The nighttime image from path 220/row194 was acquired on January 15, 2020, a few days after the volcano's eruption.
USGS Earthquake Response team with governor of Puerto Rico
USGS Earthquake Response team with governor of Puerto RicoUSGS team with Wanda Vazquez-Garced, governor of Puerto Rico. From left to right: Lindsay Davis, Wanda Vazquez, Dianne Lopez-Trujillo, Jonathan Godt, Donyelle Davis, Alex Grant
USGS Earthquake Response team with governor of Puerto Rico
USGS Earthquake Response team with governor of Puerto RicoUSGS team with Wanda Vazquez-Garced, governor of Puerto Rico. From left to right: Lindsay Davis, Wanda Vazquez, Dianne Lopez-Trujillo, Jonathan Godt, Donyelle Davis, Alex Grant
USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UT
USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UTTravis Gibson services the SonTek SW prior to making a discharge measurement on a chilly morning on the Great Salt Lake at USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UT.
USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UT
USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UTTravis Gibson services the SonTek SW prior to making a discharge measurement on a chilly morning on the Great Salt Lake at USGS gage 410401112134801 Great Salt Lake Farmington Bay Outflow, UT.
Analyzing Earthquake Data in Puerto Rico
USGS scientists Thomas L. Pratt and Alena L. Leads, along with Dr. Elizabeth Vanacore, associate research professor at University of Puerto Rico, analyze data in earthquake monitoring and recording equipment amid aftershocks across the island's southern coast.
USGS scientists Thomas L. Pratt and Alena L. Leads, along with Dr. Elizabeth Vanacore, associate research professor at University of Puerto Rico, analyze data in earthquake monitoring and recording equipment amid aftershocks across the island's southern coast.
Drilling Holes Through the Ice
Stream stage is still accurately measured by equip under ice, and fluctuates a fair amount due to ice damming and accumulation. Streamflow, however, during most of the winter is typically quite stable.
Stream stage is still accurately measured by equip under ice, and fluctuates a fair amount due to ice damming and accumulation. Streamflow, however, during most of the winter is typically quite stable.