A line of vigorously fountaining vents was visible on the floor of the downdropped block within Kīlauea caldera during the afternoon of September 10, 2023. This image, taken from near the Uēkahuna overlook, shows the activity extending east of Halemaʻumaʻu crater and onto the downdropped block.
Images
Hawaiian Volcano Observatory images of eruptive activity, field work, and more.
A line of vigorously fountaining vents was visible on the floor of the downdropped block within Kīlauea caldera during the afternoon of September 10, 2023. This image, taken from near the Uēkahuna overlook, shows the activity extending east of Halemaʻumaʻu crater and onto the downdropped block.
This image, taken from near the Uēkahuna overlook, shows the main and westernmost fountain within Kīlauea caldera erupting the afternoon of September 10, 2023. This vent is no longer active, and was located on the eastern portion of Halemaʻumaʻu crater floor.
This image, taken from near the Uēkahuna overlook, shows the main and westernmost fountain within Kīlauea caldera erupting the afternoon of September 10, 2023. This vent is no longer active, and was located on the eastern portion of Halemaʻumaʻu crater floor.
Hawaiian Volcano Observatory gas scientists used a FTIR spectrometer on the rim of Halema‘uma‘u crater during the evening of September 10, 2023. The FTIR measures the composition of the gases being emitted during Kīlauea Volcano's new summit eruption by measuring how the plume absorbs infrared energy.
Hawaiian Volcano Observatory gas scientists used a FTIR spectrometer on the rim of Halema‘uma‘u crater during the evening of September 10, 2023. The FTIR measures the composition of the gases being emitted during Kīlauea Volcano's new summit eruption by measuring how the plume absorbs infrared energy.
Hawaiian Volcano Observatory gas scientists observed and measured the plume of volcanic gas being erupted from Kīlauea's summit on during the afternoon of September 11, 2023.
Hawaiian Volcano Observatory gas scientists observed and measured the plume of volcanic gas being erupted from Kīlauea's summit on during the afternoon of September 11, 2023.
Kīlauea started erupting on September 10, 2023, at approximately 3:15 p.m. H.S.T., from fissures which extended from the eastern margin of Halema‘uma‘u crater and onto the down-dropped block to the east within Kīlauea’s summit caldera.
Kīlauea started erupting on September 10, 2023, at approximately 3:15 p.m. H.S.T., from fissures which extended from the eastern margin of Halema‘uma‘u crater and onto the down-dropped block to the east within Kīlauea’s summit caldera.
Vigorous fountaining within Kīlauea caldera was visible from near the Uēkahuna overlook on the evening of September 10, 2023. This image shows fissure vents that opened parallel to the boundary of Halemaʻumaʻu crater near where it intersected the downdropped block. USGS image by M. Patrick.
Vigorous fountaining within Kīlauea caldera was visible from near the Uēkahuna overlook on the evening of September 10, 2023. This image shows fissure vents that opened parallel to the boundary of Halemaʻumaʻu crater near where it intersected the downdropped block. USGS image by M. Patrick.
An eruption at the summit of Kīlauea volcano began on September 10, 2023. The main fountain, which HVO geologists estimate is approximately 50 meters tall, is on the eastern margin of Halemaʻumaʻu crater. As of approximately 4:30 p.m.
An eruption at the summit of Kīlauea volcano began on September 10, 2023. The main fountain, which HVO geologists estimate is approximately 50 meters tall, is on the eastern margin of Halemaʻumaʻu crater. As of approximately 4:30 p.m.
From the Uēkahuna overlook, the new eruption at the summit of Kīlauea is visible. The farthest east fissure is near the to margin of downdropped block that formed during the 2018 summit collapse. The base of the main fissure, which is farthest west (right on the image), is approximately 70 meters wide.
From the Uēkahuna overlook, the new eruption at the summit of Kīlauea is visible. The farthest east fissure is near the to margin of downdropped block that formed during the 2018 summit collapse. The base of the main fissure, which is farthest west (right on the image), is approximately 70 meters wide.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
The new eruption at the summit of Kīlauea volcano on September 10, 2023. After about an hour of increased seismic activity and uplift, HVO scientists observed the start of the eruption at approximately 3:15 p.m. HST.
CSAV staff Meghann Decker and UH Hilo Geology Alumni Sadie Nguyen talk with children at a Science Night at E.B. DeSilva. UH Hilo photo by Darcy Bevens.
CSAV staff Meghann Decker and UH Hilo Geology Alumni Sadie Nguyen talk with children at a Science Night at E.B. DeSilva. UH Hilo photo by Darcy Bevens.
Graph of tilting at Uēkahuna bluff—at the summit of Kīlauea—in a direction toward and away from Halemʻaumʻau, collected by a water tube tiltmeter (black) and an electronic tiltmeter (grey). Major intrusions and eruptions are marked by blue and red arrows respectively. USGS plot.
Graph of tilting at Uēkahuna bluff—at the summit of Kīlauea—in a direction toward and away from Halemʻaumʻau, collected by a water tube tiltmeter (black) and an electronic tiltmeter (grey). Major intrusions and eruptions are marked by blue and red arrows respectively. USGS plot.
Stratigraphic column of the Kulanaokuaiki Tephra sequence, and an in-the-field look at this section with closer photographs of subunits K-1, K-3, and K-5. At some localities, there are interbedded lava flows that help correlate units across larger distances on Kīlauea volcano. USGS photos by Abigail Nalesnik.
Stratigraphic column of the Kulanaokuaiki Tephra sequence, and an in-the-field look at this section with closer photographs of subunits K-1, K-3, and K-5. At some localities, there are interbedded lava flows that help correlate units across larger distances on Kīlauea volcano. USGS photos by Abigail Nalesnik.
The locations, years, and maximum reported Hawaii runups (i.e., wave heights) for significant Pacific-wide tsunamis
linkThe locations, years, and maximum reported Hawaii runups (i.e., wave heights) for significant Pacific-wide tsunamis. Red-orange-yellow contours indicate the travel time to Honolulu for a tsunami with different origins. For example, an earthquake generated locally on the southeast coast of the Island of Hawaiʻi would arrive in Honolulu in less than an hour.
The locations, years, and maximum reported Hawaii runups (i.e., wave heights) for significant Pacific-wide tsunamis
linkThe locations, years, and maximum reported Hawaii runups (i.e., wave heights) for significant Pacific-wide tsunamis. Red-orange-yellow contours indicate the travel time to Honolulu for a tsunami with different origins. For example, an earthquake generated locally on the southeast coast of the Island of Hawaiʻi would arrive in Honolulu in less than an hour.