This aerial view, looking east across Halema‘uma‘u crater floor, shows the complex features formed during recent Kīlauea summit eruptions.
Images
Hawaiian Volcano Observatory images of eruptive activity, field work, and more.
This aerial view, looking east across Halema‘uma‘u crater floor, shows the complex features formed during recent Kīlauea summit eruptions.
HVO scientists observed no changes to Kīlauea summit during a routine monitoring overflight the morning of May 23, 2023. Mauna Loa is visible in the background of the image. USGS image by K. Mulliken.
HVO scientists observed no changes to Kīlauea summit during a routine monitoring overflight the morning of May 23, 2023. Mauna Loa is visible in the background of the image. USGS image by K. Mulliken.
Kīlauea summit tiltmeter data and summit GPS daily vertical position data from January 2020 to May 2023
linkKīlauea summit tiltmeter data (top) and summit GPS daily vertical position data (bottom) shown for the time period January 1, 2020, to May 15, 2023. Summit intrusion and eruption onsets are marked with thin vertical lines and labels. Increased positions and positive slopes in these plots are interpreted as inflation at Kīlauea’s summit. USGS plots.
Kīlauea summit tiltmeter data and summit GPS daily vertical position data from January 2020 to May 2023
linkKīlauea summit tiltmeter data (top) and summit GPS daily vertical position data (bottom) shown for the time period January 1, 2020, to May 15, 2023. Summit intrusion and eruption onsets are marked with thin vertical lines and labels. Increased positions and positive slopes in these plots are interpreted as inflation at Kīlauea’s summit. USGS plots.
USGS scientists deploy a bucket, containing a seismic node, which was set on a hard lava flow surface. There are now about 1,800 seismic nodes deployed around the Kīlauea summit region to record seismic signals for the next three weeks.
USGS scientists deploy a bucket, containing a seismic node, which was set on a hard lava flow surface. There are now about 1,800 seismic nodes deployed around the Kīlauea summit region to record seismic signals for the next three weeks.
This photo shows a spiked seismic node, and the tools used to deploy it, in the Hilina Pali area on May 6. USGS scientists use a compass to orient the node so it faces north, while using a level bubble to keep the instrument level when it is spiked into the ground.
This photo shows a spiked seismic node, and the tools used to deploy it, in the Hilina Pali area on May 6. USGS scientists use a compass to orient the node so it faces north, while using a level bubble to keep the instrument level when it is spiked into the ground.
A helicopter overflight on May 3, 2023, allowed for aerial visual and thermal imagery to be collected of Halema‘uma‘u crater at the summit of Kīlauea. No active lava was present in the crater, with only scattered warm spots on the crater floor.
A helicopter overflight on May 3, 2023, allowed for aerial visual and thermal imagery to be collected of Halema‘uma‘u crater at the summit of Kīlauea. No active lava was present in the crater, with only scattered warm spots on the crater floor.
A helicopter overflight on May 3, 2023, allowed for aerial visual and thermal imagery to be collected of Halema‘uma‘u crater at the summit of Kīlauea. No active lava was present in the crater, with only scattered warm spots on the crater floor.
A helicopter overflight on May 3, 2023, allowed for aerial visual and thermal imagery to be collected of Halema‘uma‘u crater at the summit of Kīlauea. No active lava was present in the crater, with only scattered warm spots on the crater floor.
Two USGS scientists are seen here installing a seismic node. This node is one of over 1,800 that are currently being deployed for a survey designed to image structures beneath Kīlauea's summit. After the seismic nodes, which will blend into the natural landscape, are deployed, a large vehicle will slowly traverse roads near Kīlauea’s summit in May.
Two USGS scientists are seen here installing a seismic node. This node is one of over 1,800 that are currently being deployed for a survey designed to image structures beneath Kīlauea's summit. After the seismic nodes, which will blend into the natural landscape, are deployed, a large vehicle will slowly traverse roads near Kīlauea’s summit in May.
On May 3, HVO scientists and collaborators deployed some seismic nodes for the Kīlauea Seismic Imaging Project in the Hilina Pali area of Hawai‘i Volcanoes National Park. Many of the nodes being deployed have spikes on the bottom to secure them into the ground to avoid wind movement, which cause noise in the data they collect.
On May 3, HVO scientists and collaborators deployed some seismic nodes for the Kīlauea Seismic Imaging Project in the Hilina Pali area of Hawai‘i Volcanoes National Park. Many of the nodes being deployed have spikes on the bottom to secure them into the ground to avoid wind movement, which cause noise in the data they collect.
A USGS scientist hikes across lava flows in the Hilina Pali area of Hawai‘i Volcanoes National Park. The Kīlauea Seismic Imaging Project is operating under a research permit from Hawai‘i Volcanoes National Park and prior to deploying the nodes, USGS scientists were trained on endangered plants and archaeological features within the park.
A USGS scientist hikes across lava flows in the Hilina Pali area of Hawai‘i Volcanoes National Park. The Kīlauea Seismic Imaging Project is operating under a research permit from Hawai‘i Volcanoes National Park and prior to deploying the nodes, USGS scientists were trained on endangered plants and archaeological features within the park.
This week, USGS Volcano Science Center scientists from other locations are helping the Hawaiian Volcano Observatory to deploy the 1,800 seismic nodes (small earthquake-detecting devices) across Kīlauea summit region.
This week, USGS Volcano Science Center scientists from other locations are helping the Hawaiian Volcano Observatory to deploy the 1,800 seismic nodes (small earthquake-detecting devices) across Kīlauea summit region.
On Wednesday May 3, HVO geologists visited the northwestern wall of Halema‘uma‘u crater to sample older ash beds and lava flows exposed by the caldera collapse in 2018. Here, one of the geologists is collecting ash samples while standing on a large pile of rockfall debris that mantles the crater wall. USGS image by M. Zoeller.
On Wednesday May 3, HVO geologists visited the northwestern wall of Halema‘uma‘u crater to sample older ash beds and lava flows exposed by the caldera collapse in 2018. Here, one of the geologists is collecting ash samples while standing on a large pile of rockfall debris that mantles the crater wall. USGS image by M. Zoeller.
This view of Halema‘uma‘u was captured from partway up the northwestern wall of the crater by an HVO geologist visiting the area on Wednesday, May 3, to collect geologic samples. The basin of the lava lake from the end of the most recent eruption is defined by the steaming area in the upper center of the frame. USGS image by M. Zoeller.
This view of Halema‘uma‘u was captured from partway up the northwestern wall of the crater by an HVO geologist visiting the area on Wednesday, May 3, to collect geologic samples. The basin of the lava lake from the end of the most recent eruption is defined by the steaming area in the upper center of the frame. USGS image by M. Zoeller.
HVO scientists conducted a routine Kīlauea summit monitoring overflight during the morning of May 3, 2023. During the overflight, the helicopter flies around Halema‘uma‘u several times, and scientists take both regular pictures and infrared images that tell us about the temperatures on the crater floor. These images are used to create maps of the crater.
HVO scientists conducted a routine Kīlauea summit monitoring overflight during the morning of May 3, 2023. During the overflight, the helicopter flies around Halema‘uma‘u several times, and scientists take both regular pictures and infrared images that tell us about the temperatures on the crater floor. These images are used to create maps of the crater.
Eruptions within Halema‘uma‘u over the past several years have filled the deepest part of Kaluapele (Kīlauea caldera) that collapsed in 2018, which was Halema‘uma‘u crater. However, only about 21 percent of the volume of the 2018 collapse has been filled by these eruptions—about one fifth of the volume of the 2018 collapse.
Eruptions within Halema‘uma‘u over the past several years have filled the deepest part of Kaluapele (Kīlauea caldera) that collapsed in 2018, which was Halema‘uma‘u crater. However, only about 21 percent of the volume of the 2018 collapse has been filled by these eruptions—about one fifth of the volume of the 2018 collapse.
Kīlauea Iki and Pu‘upua‘i are visible in this aerial image taken during the May 3, 2023, Kīlauea summit monitoring overflight. Pu‘upua‘i is the cinder cone, which was built up by spectacular lava fountaining during the 1959 eruption in Kīlauea Iki crater.
Kīlauea Iki and Pu‘upua‘i are visible in this aerial image taken during the May 3, 2023, Kīlauea summit monitoring overflight. Pu‘upua‘i is the cinder cone, which was built up by spectacular lava fountaining during the 1959 eruption in Kīlauea Iki crater.
During a morning overflight on May 3, 2023, HVO scientists did not observe any activity within Halema‘uma‘u crater at the summit of Kīlauea. The most recent eruptive activity was observed on March 7.
During a morning overflight on May 3, 2023, HVO scientists did not observe any activity within Halema‘uma‘u crater at the summit of Kīlauea. The most recent eruptive activity was observed on March 7.
An HVO scientist prepares netting to move a pallet of equipment via helicopter for the Kīlauea Seismic Imaging Project on April 28, 2023. During the project, caches of equipment are deployed around Kīlauea summit. HVO scientists and collaborators then distribute the equipment from the cache into a network across the summit region. USGS image by M. Patrick.
An HVO scientist prepares netting to move a pallet of equipment via helicopter for the Kīlauea Seismic Imaging Project on April 28, 2023. During the project, caches of equipment are deployed around Kīlauea summit. HVO scientists and collaborators then distribute the equipment from the cache into a network across the summit region. USGS image by M. Patrick.
A pallet of buckets containing equipment for the Kīlauea Seismic Imaging Project is placed on netting so that it can be moved via helicopter sling load. These pallets package a small portion of the 1,800 seismic nodes (small earthquake-detecting devices) that are being deployed in Kīlauea summit region as part of the project.
A pallet of buckets containing equipment for the Kīlauea Seismic Imaging Project is placed on netting so that it can be moved via helicopter sling load. These pallets package a small portion of the 1,800 seismic nodes (small earthquake-detecting devices) that are being deployed in Kīlauea summit region as part of the project.
The gear for the Kīlauea Seismic Imaging Project is staged and ready to be moved on Crater Rim Drive in the closed area of Hawai‘i Volcanoes National Park. Portions of Crater Rim Drive collapsed into Kīlauea caldera in 2018 and this project is partially funded by the Additional Supplemental Appropriations for Disaster Relief Act of 2019 (H.R.
The gear for the Kīlauea Seismic Imaging Project is staged and ready to be moved on Crater Rim Drive in the closed area of Hawai‘i Volcanoes National Park. Portions of Crater Rim Drive collapsed into Kīlauea caldera in 2018 and this project is partially funded by the Additional Supplemental Appropriations for Disaster Relief Act of 2019 (H.R.
Early in the morning on Friday, April 21, two crews of geologists from the Hawaiian Volcano Observatory flew via helicopter into Halema‘uma‘u crater at the summit of Kīlauea to collect geologic samples.
Early in the morning on Friday, April 21, two crews of geologists from the Hawaiian Volcano Observatory flew via helicopter into Halema‘uma‘u crater at the summit of Kīlauea to collect geologic samples.