USGS Volcanoes: Notices released in the last day.

Satellite radar data through July 10 show continued effusion of the southwest lobe with minor advancement of about 10 meters (33 feet) to the south. Rock falls from the steep flow margins continue. Elevated surface temperatures related to this activity were observed in satellite data throughout the week during periods of clear viewing conditions. Occasional small earthquakes persist.

The lava eruption that began in July 2021 is ongoing. It has filled most of the summit crater and advanced into valleys below. There have been no explosions at Great Sitkin Volcano since an event in May 2021. The volcano is monitored using local seismic and infrasound sensors, satellite data and web cameras, and regional infrasound and lightning networks.

Unrest continues at Mount Spurr. The level of activity remains slightly above background but continues to decline since the peak of unrest earlier this year.  The decrease in activity suggests that the magma intrusion beneath Mount Spurr has stalled and that the likelihood of an eruption has declined.

Earthquake activity continues, with a small number of earthquakes located beneath both the summit of Mount Spurr and Crater Peak. The number of earthquakes and their magnitudes continue to show some variability from week to week but are following a decreasing trend. Ground deformation, as measured by GNSS (GPS) stations, remains paused as it has for the last two months. Volcanic gas emissions continue, as would be expected from a passively degassing body of stalled magma.

Fluctuations in unrest are common at volcanoes and eruptive activity remains possible, but unlikely. Should unrest escalate towards an eruption, we would expect to observe increases in seismic activity, gas emissions, surface deformation, and surface heating

AVO continues to closely monitor activity at Mount Spurr for signals indicating the volcano is moving closer to an eruption using local seismic, infrasound, and GNSS (GPS) stations, web cameras, airborne and satellite gas measurements, regional infrasound, lightning networks, and satellite images. Livestream camera video from station SPCL located south of Mount Spurr can be viewed at: Mount Spurr Live Stream (SPCL). A livestream of Mount Spurr, as viewed from Glen Alps in Anchorage, is available here: Mount Spurr Live Stream (ANCG). 

Activity Update: All volcanoes in the Cascade Range of Oregon and Washington are at normal background activity levels. These include Mount Baker, Glacier Peak, Mount Rainier, Mount St. Helens, and Mount Adams in Washington State and Mount Hood, Mount Jefferson, Three Sisters, Newberry, and Crater Lake in Oregon.

Past Week Observations: During the past week, small earthquakes were detected at Mount Rainier, Mount St. Helens, Mount Adams, and Mount Hood. All monitoring data are consistent with background activity levels in the Cascade Range.

Mount Rainier has been experiencing a seismic swarm that began on 1:29 AM PDT (8:29 UTC) on July 8th. Since the start of the swarm, earthquake event rates have been gradually decreasing from a peak of 30 events per hour on the morning of July 8th to only a few events per hour as of today at 1:00 PM PDT (20:00 UTC). The largest magnitude event was a 2.4 that occurred on July 11th at 12:23 PM PDT (19:23 UTC). Since the start of the swarm, 423 events that are mainly spread between 1.5-4 miles (2-6 km) beneath the summit have been located by the Cascades Volcano Observatory and the Pacific Northwest Seismic Network.

For more information on this swarm, see: https://www.usgs.gov/observatories/cvo/news/monitoring-stations-detect-small-magnitude-earthquakes-mount-rainier 

This is an update on the ongoing seismic swarm at Mount Rainier that began at 1:29 AM PDT (8:29 UTC) on July 8th. 

Swarm event rates continue to decrease. As of 9 AM PDT (16:00 UTC) on July 11th, the Cascades Volcano Observatory (CVO) and the Pacific Northwest Seismic Network (PNSN) have located 391 events since the start of the swarm, although many more have occurred but cannot be located. The largest event of the swarm so far was a magnitude 2.3 on July 8th at 2:56 PM PDT (21:56 UTC). Seismicity has decreased from 30 located events per hour at the swarm's peak on Tuesday morning to a few events per hour as of Friday morning. The earthquakes are mainly spread between 1.5-4 miles (2-6 km) beneath the summit. There have been no changes in ground deformation or other monitoring data. 

This swarm surpassed the 2009 swarm in terms of total events, event rate, and energy release. The cause of the swarm remains consistent with the circulation of fluids along preexisting faults beneath the volcano, which is considered background activity at Mount Rainier. There is currently no indication that the swarm is associated with magmatic unrest. 

PNSN and CVO will continue to monitor activity, locate earthquakes, and provide additional information as needed.

For more information, see: https://www.usgs.gov/observatories/cvo/news/monitoring-stations-detect-small-magnitude-earthquakes-mount-rainier

Activity Summary:

Episode 28 of the ongoing Halemaʻumaʻu eruption ended just before 1:30 p.m. HST on July 9, 2025. Summit inflation resumed immediately and continues today. Low-level degassing and seismic tremor also persist.

No significant activity has been noted along Kīlauea’s East Rift Zone or Southwest Rift Zone.

Current hazards include volcanic gas emissions, along with windblown volcanic glass (Pele’s hair) and tephra deposited during earlier eruptive episodes.

Summit Observations:

Episode 28’s activity, with maximum fountain heights near 1,200 feet (365 meters), was focused at the north eruptive vent. Deposits from the episode completely covered the south vent and have also nearly connected the growing eruptive cone with the top of the surrounding cliff in some places. Slumping of the eruptive cone around the vent area was very apparent in webcams last night, as it exposed significant incandescent material. Such slumping may continue over the next hours to days.

Lava flows on the floor of Halemaʻumaʻu within the southern part of Kaluapele (Kīlauea caldera) are cooling and showed only minor incandescence in webcams overnight. One small oozeout lava flow was noted as persisting through to this morning.

At present, tremor and degassing persist at lower but still elevated levels. Typical sulfur dioxide (SO₂) emission rates associated with pause periods are 1,200 to 1,500 t/d

Fountaining associated with Episode 28 resulted in 15 microradians of deflation. At the time of this update, UWD had re-inflated by just over 5 microradians.

Strands of volcanic glass known as Pele’s hair are present throughout the summit area of Hawaiʻi Volcanoes National Park and surrounding communities and can be remobilized by wind even after fountaining has ceased. Trade winds are forecast for today and would likely blow both volcanic gases and erupted particles (tephra, ash, and Pele’s hair) to the west and southwest of Kīlauea summit.

• Eruption resources, including the most recent map and a timeline of eruption episodes since December 23, 2024: https://www.usgs.gov/volcanoes/kilauea/science/eruption-information
• Three Kīlauea summit livestream videos that show eruptive lava fountains are available here: https://www.youtube.com/@usgs/streams 
• Summit eruption webcams: https://www.usgs.gov/volcanoes/kilauea/summit-webcams
• Volcano Watch article on gas pistoning: https://www.usgs.gov/observatories/hvo/news/volcano-watch-so-what-earth-or-least-kilauea-a-gas-piston

Rift Zone Observations:

Rates of seismicity and ground deformation remain very low in the East Rift Zone and Southwest Rift Zone, with no significant earthquake activity in the past 24 hours. Sulfur dioxide (SO₂) emissions from the East Rift Zone remain below the detection limit.

Analysis: 

Summit inflation resumed at the end of Episode 28, and low-level degassing and seismic tremor persist, all of which suggest that another episode of fountaining is likely. Additional time is needed to accumulate tiltmeter data before a specific forecast window can be made for Episode 29. However, early data projections indicate that a new episode may take place toward the middle or end of next week.

The current eruption has been characterized by episodic lava fountaining not seen in any eruptions since the 1983–86 episodic fountains at the beginning of the Puʻuʻōʻō eruption. Lava fountains and flows have erupted from two vents within Halema'um'a'u crater that we refer to as the north vent and south vent. Each of the previous fountaining episodes lasted from a few hours to over a week and was accompanied by strong deflation of the summit region. Pauses between the fountaining episodes have been marked by an immediate switch from deflation to inflation as the magma chamber recharges and repressurizes. Fountaining episodes have occurred approximately once per week since the start of the current eruption on December 23, 2024.

HVO continues to closely monitor Kīlauea and is in contact with Hawai‘i Volcanoes National Park and the Hawai‘i County Civil Defense Agency about eruptive hazards.

Please see the Hawaiʻi Volcanoes National Park website for visitor information: https://www.nps.gov/havo/index.htm.

General Updates: 

Tilt azimuths for SDH and UWD tiltmeter plots, as displayed on USGS websites, have been updated to optimize showing maximum magnitudes of deformation consistent with the current activity at the summit of Kilauea.

Hazards: 

This episodic eruption is occurring within a closed area of Hawaiʻi Volcanoes National Park. High levels of volcanic gas—primarily water vapor (H₂O), carbon dioxide (CO₂), and sulfur dioxide (SO₂)—are the primary hazard of concern, as this hazard can have far-reaching effects downwind. As SO₂ is continuously released from the summit during an eruption, it will react in the atmosphere to create the visible haze known as vog (volcanic smog) downwind of Kīlauea. SO₂ and vog may cause respiratory and other problems at high concentrations. Further information on vog can be found at https://vog.ivhhn.org/

Additional hazards include Pele's hair and other volcanic fragments from lava fountains. Pele's hair is strands of volcanic glass often produced by lava fountaining activity. Volcanic fragments can fall on the ground within a few hundred yards (meters) of the eruptive vent(s), or downwind of the vent(s). Strong winds may waft light particles, including Pele's hair, to greater distances downwind. Once they are on the ground, Pele's hair can sometimes cluster and tangle together, giving it the appearance of a tumbleweed. The extent of Pele's hair deposition is dependent on lava fountaining activity and current wind conditions. Residents and visitors should minimize exposure to Pele's hair and other volcanic fragments, which can cause skin and eye irritation. More information about how Pele's hair forms, its hazards, and what to do is available here: https://www.usgs.gov/observatories/hvo/news/volcano-watch-recent-lava-fountains-highlight-peles-hair-hazards. A recently updated Frequently Asked Questions document that includes information about potential health effects of Pele's hair is available here: https://vog.ivhhn.org/sites/default/files/PelesHair_FAQs_v2.pdf

Hawaiian lava flows generally advance slowly downslope, and during this eruption flows have been confined to Halemaʻumaʻu crater and the southwest side of Kaluapele, Kīlauea's summit caldera.

Other significant hazards also remain around Kīlauea caldera from Halemaʻumaʻu crater wall instability, ground cracking, and rockfalls that can be enhanced by earthquakes within the area closed to the public. This underscores the extremely hazardous nature of Kīlauea's caldera rim surrounding Halemaʻumaʻu crater, an area that has been closed to the public since late 2007.