A USGS Hawaiian Volcano Observatory geologist takes video of the eruption that started within Halema'uma'u crater, Kīlauea summit, at about 3:20 p.m. on September 29, 2021. Scientists continue to monitor the eruption and hazards from within an area of Hawai'i Volcanoes National Park that remains closed to the public due to safety reasons.
Images
Volcano Hazard Program images.
![A USGS Hawaiian Volcano Observatory geologist takes video of the eruption that started within Halema'uma'u crater Kīlauea summit](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/IMG_7569.jpeg?itok=z-5g8zWi)
A USGS Hawaiian Volcano Observatory geologist takes video of the eruption that started within Halema'uma'u crater, Kīlauea summit, at about 3:20 p.m. on September 29, 2021. Scientists continue to monitor the eruption and hazards from within an area of Hawai'i Volcanoes National Park that remains closed to the public due to safety reasons.
Kīlauea volcano is erupting. With the summit eruption continuing through the night, HVO scientists monitor the eruption for changes in activity and volcanic hazards. High levels of volcanic gases are the primary hazard of concern, as this hazard can have far-reaching effects down-wind. USGS photo taken by D. Downs.
Kīlauea volcano is erupting. With the summit eruption continuing through the night, HVO scientists monitor the eruption for changes in activity and volcanic hazards. High levels of volcanic gases are the primary hazard of concern, as this hazard can have far-reaching effects down-wind. USGS photo taken by D. Downs.
The ongoing Kīlauea summit eruption within Halema'uma'u crater continues to feed low lava fountains in the center of the lava lake (pictured) and along the western wall of Halema'uma'u. This telephoto image is looking east at the center of the rising lava lake.
The ongoing Kīlauea summit eruption within Halema'uma'u crater continues to feed low lava fountains in the center of the lava lake (pictured) and along the western wall of Halema'uma'u. This telephoto image is looking east at the center of the rising lava lake.
A telephoto image of fissures that opened on the western wall of Halema'uma'u crater during the ongoing eruption that began yesterday, September 29, at approximately 3:21 p.m. HST. Lava from multiple fissures continues to slowly raise the level of the new active lava lake at the summit of Kīlauea. USGS image by M. Patrick.
A telephoto image of fissures that opened on the western wall of Halema'uma'u crater during the ongoing eruption that began yesterday, September 29, at approximately 3:21 p.m. HST. Lava from multiple fissures continues to slowly raise the level of the new active lava lake at the summit of Kīlauea. USGS image by M. Patrick.
A telephoto image of one of the low lava fountains near the center of the growing Halema'uma'u lava lake. The ongoing eruption at the summit of Kīlauea is confined within Halema'uma'u, with numerous lava fountains producing lava and volcanic gases.
A telephoto image of one of the low lava fountains near the center of the growing Halema'uma'u lava lake. The ongoing eruption at the summit of Kīlauea is confined within Halema'uma'u, with numerous lava fountains producing lava and volcanic gases.
![Color photograph of scientist collecting sample](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/20210929_165226_0.jpg?itok=q_Nqr5Wl)
Hawaiian Volcano Observatory geologists collect tephra samples from the recent eruption within Halema'uma'u, at Kīlauea summit. Geochemical analyses of these eruption products will provide information about magma storage prior to the eruption. USGS image by K. Lynn.
Hawaiian Volcano Observatory geologists collect tephra samples from the recent eruption within Halema'uma'u, at Kīlauea summit. Geochemical analyses of these eruption products will provide information about magma storage prior to the eruption. USGS image by K. Lynn.
![Color photograph of tephra](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/20210929_171737_0.jpg?itok=5bqtjyV2)
Tephra from the recent eruption within Halema'uma'u, at Kīlauea summit, is accumulating downwind of the active vents. Tephra is a term that describes products of an eruption that travel through the air before being deposited.
Tephra from the recent eruption within Halema'uma'u, at Kīlauea summit, is accumulating downwind of the active vents. Tephra is a term that describes products of an eruption that travel through the air before being deposited.
![Color photograph of tephra](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/20210929_162122_0.jpg?itok=Pheoi9l-)
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![Timelapse of volcanic eruption](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/multimediaFile-3304.gif?itok=xfYbGXZY)
This timelapse image sequence shows the opening sequence of the new eruption in Halema‘uma‘u crater, at the summit of Kīlauea. The first few moments are shown on a loop several times to highlight the visible uplift of the crater floor, just before the appearance of new fissures.
This timelapse image sequence shows the opening sequence of the new eruption in Halema‘uma‘u crater, at the summit of Kīlauea. The first few moments are shown on a loop several times to highlight the visible uplift of the crater floor, just before the appearance of new fissures.
![Image from the northwest rim of Halema'uma'u crater, Kīlauea summit](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/IMG_2120.jpg?itok=eIdpbgtu)
This image from the northwest rim of Halema'uma'u crater was taken in the late morning on September 29, 2021, just a few hours before the new Kīlauea summit eruption began. The solidified lava lake (center) was emplaced between December 2020 and May 2021. USGS photo taken by L. Gallant.
This image from the northwest rim of Halema'uma'u crater was taken in the late morning on September 29, 2021, just a few hours before the new Kīlauea summit eruption began. The solidified lava lake (center) was emplaced between December 2020 and May 2021. USGS photo taken by L. Gallant.
![Color photograph of lava lake](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/Picture2_4.jpg?itok=ruCDV0le)
KWcam image taken on September 28, 2021, before the eruption began in Halemaʻumaʻu on September 29, 2021. Several islands, including the one in the center of the crater that formed on December 20, 2020, are surrounded by younger lava flows erupted during the December 2020-May 2021 Kīlauea summit eruption. USGS photo.
KWcam image taken on September 28, 2021, before the eruption began in Halemaʻumaʻu on September 29, 2021. Several islands, including the one in the center of the crater that formed on December 20, 2020, are surrounded by younger lava flows erupted during the December 2020-May 2021 Kīlauea summit eruption. USGS photo.
![Color photograph of inactive lava lake](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/multimediaFile-3298.jpg?itok=6ZF0LAlv)
A view looking north into Halema‘uma‘u, at Kīlauea's summit, on September 24, 2021, seen during a brief clear spell between passing rain clouds. There has been no significant change in the surface elevation of the solidified crust of the lava lake since the eruption paused in late May 2021.
A view looking north into Halema‘uma‘u, at Kīlauea's summit, on September 24, 2021, seen during a brief clear spell between passing rain clouds. There has been no significant change in the surface elevation of the solidified crust of the lava lake since the eruption paused in late May 2021.
![Interferogram created from data collected on September 22, 2020, and September 17, 2021, by the Sentinel-1 satellite system](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/media/images/InSAR%2020200922-20210917.jpg?itok=Va3bnJU_)
Interferogram created from data collected on September 22, 2020, and September 17, 2021, by the Sentinel-1 satellite system. Colored fringes indicate a change in distance (called range change) between the satellite and ground surface that is caused by surface deformation.
Interferogram created from data collected on September 22, 2020, and September 17, 2021, by the Sentinel-1 satellite system. Colored fringes indicate a change in distance (called range change) between the satellite and ground surface that is caused by surface deformation.
USGS-Black Swift Team with Super Swift UAS, Dutch Harbor Airport, Aleutian Islands, Alaska. Left-to-right: Dale Ruckman, Jack Elston, Christoph Kern, Angie Diefenbach, Maciej Stachura, Matt Burgess, Andy Dietrick.
USGS-Black Swift Team with Super Swift UAS, Dutch Harbor Airport, Aleutian Islands, Alaska. Left-to-right: Dale Ruckman, Jack Elston, Christoph Kern, Angie Diefenbach, Maciej Stachura, Matt Burgess, Andy Dietrick.
No changes were observed at Kīlauea's summit during a brief field visit on September 3, 2021. Sunny weather made for spectacular views, though strong winds were blowing. The solidified crust of the lava lake within Halema‘uma‘u—which was active from December 2020 to May 2021—is visible in the lower center of this image. USGS photo by K. Mulliken.
No changes were observed at Kīlauea's summit during a brief field visit on September 3, 2021. Sunny weather made for spectacular views, though strong winds were blowing. The solidified crust of the lava lake within Halema‘uma‘u—which was active from December 2020 to May 2021—is visible in the lower center of this image. USGS photo by K. Mulliken.
View from a temporary webcam, which is located just southwest of Kīlauea summit caldera, and looks south over the area of the August 2021 intrusion. The dark lava flow on the left of image (mid-ground) is where the 1982 lava flow spilled out of the south caldera.
View from a temporary webcam, which is located just southwest of Kīlauea summit caldera, and looks south over the area of the August 2021 intrusion. The dark lava flow on the left of image (mid-ground) is where the 1982 lava flow spilled out of the south caldera.
![View to the southwest from HVO station HRPKE, showing Pu‘ukoa‘e on Kīlauea's Southwest Rift Zone in the background](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/multimediaFile-3296.png?itok=FhOqjDkU)
View to the southwest from HVO station HRPKE, showing Pu‘ukoa‘e on Kīlauea's Southwest Rift Zone in the background.
View to the southwest from HVO station HRPKE, showing Pu‘ukoa‘e on Kīlauea's Southwest Rift Zone in the background.
HVO technician Steven Fuke checks the solar panel at station HRPKE while conducting station maintenance on September 1. HVO remote monitoring stations are powered via solar panels and a suite of batteries.
HVO technician Steven Fuke checks the solar panel at station HRPKE while conducting station maintenance on September 1. HVO remote monitoring stations are powered via solar panels and a suite of batteries.
Station HRPKE is located southwest of Kīlauea's summit, in the upper Southwest Rift Zone region, within Hawai‘i Volcanoes National Park. The station measures sulfur dioxide (SO2) concentrations in the air, as well as local meteorological data such as wind speed, wind direction, and rainfall.
Station HRPKE is located southwest of Kīlauea's summit, in the upper Southwest Rift Zone region, within Hawai‘i Volcanoes National Park. The station measures sulfur dioxide (SO2) concentrations in the air, as well as local meteorological data such as wind speed, wind direction, and rainfall.
![On August 31, the water level in Keller Well was measured at approximately 514.12 m (1686.75 ft) below the ground surface](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/multimediaFile-3293.png?itok=vZ4EiDxv)
On August 31, the water level in Keller Well was measured at approximately 514.12 m (1686.75 ft) below the ground surface. Though an intrusion of magma took place beneath the ground surface in Kīlauea's south caldera region from August 23–30, water level in Keller Well does not show significant changes as a result of this event. USGS image by P. Nadeau.
On August 31, the water level in Keller Well was measured at approximately 514.12 m (1686.75 ft) below the ground surface. Though an intrusion of magma took place beneath the ground surface in Kīlauea's south caldera region from August 23–30, water level in Keller Well does not show significant changes as a result of this event. USGS image by P. Nadeau.
![On August 31, Hawaiian Volcano Observatory scientists and technicians visited the Keller Well in Kīlauea's south caldera region](https://d9-wret.s3.us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/masonry/public/thumbnails/image/multimediaFile-3292.png?itok=JcBB9WsB)
On Tuesday, August 31, Hawaiian Volcano Observatory (HVO) scientists and technicians visited the Keller Well in Kīlauea's south caldera region. Water from the well is typically sampled and analyzed quarterly to monitor how magma supply to Kīlauea's summit reservoirs might impact regional ground water.
On Tuesday, August 31, Hawaiian Volcano Observatory (HVO) scientists and technicians visited the Keller Well in Kīlauea's south caldera region. Water from the well is typically sampled and analyzed quarterly to monitor how magma supply to Kīlauea's summit reservoirs might impact regional ground water.