Volcanoes in multiple states have been rumbling. What's going on?
"Volcanoes can be unpredictable and there's always chance that something bad will happen, but these recent seismic events along the Pacific Ring of Fire from Alaska to Washington to offshore Oregon are probably not directly related to each other," said Natalia Ruppert, a seismologist with the U.S. Geological Survey's Earthquake Science Center in Seattle.
"This is what volcanoes do," she said. "They come to life for a while, sometimes the earthquake activity leads to an eruption and sometimes it doesn't."
Most of the U.S. volcanoes that have been making themselves known since spring woke up a bit, shook themselves off and then fell back into slumber.
Two, one in Hawaii and one in Alaska, are in the midst of active and ongoing – but relatively small and non-threatening – eruptions.
While it all might seem ominous, it isn't. It's simply part of life on a dynamic, seismically active planet.
There's no direct connection between any of these, said Ruppert. "The distance between these (seismic) activity centers is thousands of miles."
Recent US volcanic activity
While volcanoes have always been a part of the West Coast's geography, it might seem that this is an especially busy time for these mountains caused by fissures in the Earth's crust that go down to the mantle below.
But seismologists and volcanologists are keeping a careful eye on them, said Ruppert. "This is why the federal government funds earthquake and volcano monitoring efforts through the Department of the Interior and USGS."
Consider these recent events:
The volcanoes are located along what's known as the Ring of Fire, a 25,000-mile long, horseshoe-shaped string of volcanoes and seismically active areas that stretches from the southern tip of South America, up along the West coast of the United States, across the coast of Alaska, down through Japan all the way to New Zealand.
It's created by the Pacific plate sinking below the North American plate and is the most seismically and volcanically active zone in the world, according to the U.S. Geological Survey.
Eruptions in Hawaii
Far to the west in Hawaii, Mt. Kilauea continues to erupt, though as of July 11 it has not been exhibiting the massive fountains of lava that had been taking place earlier in the month. On July 9, USGS said the most recent eruption had ended.
Hawaii's volcanoes are not part of the Ring of Fire. The island chain was (and is still being) formed by a volcanic hot spot that has so far created 15 different volcanoes that stretch 3,800 miles across the Pacific.
In Hawaii's case, the volcanoes are the result of a heat source deep within the Earth's mantle. The plume of magma coming from that hot spot in the ocean floor remains stationary as the Pacific Plate slowly – 2 to 4 inches a year – moves over top of it.
This is why Hawaii's oldest volcanoes, on Kauai, are 5.5 million years old while the newest, on the Big Island, are only 700,000 years old and still growing.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
16 hours ago
- Yahoo
Volcanoes in multiple states have been rumbling. What's going on?
Volcanoes in Alaska, Washington state, Oregon and Hawaii have recently been rumbling and even spewing lava, enough to spark a swarm of news stories. But despite the jolts and temblors, geologists say there's no cause for alarm. "Volcanoes can be unpredictable and there's always chance that something bad will happen, but these recent seismic events along the Pacific Ring of Fire from Alaska to Washington to offshore Oregon are probably not directly related to each other," said Natalia Ruppert, a seismologist with the U.S. Geological Survey's Earthquake Science Center in Seattle. "This is what volcanoes do," she said. "They come to life for a while, sometimes the earthquake activity leads to an eruption and sometimes it doesn't." Most of the U.S. volcanoes that have been making themselves known since spring woke up a bit, shook themselves off and then fell back into slumber. Two, one in Hawaii and one in Alaska, are in the midst of active and ongoing – but relatively small and non-threatening – eruptions. While it all might seem ominous, it isn't. It's simply part of life on a dynamic, seismically active planet. There's no direct connection between any of these, said Ruppert. "The distance between these (seismic) activity centers is thousands of miles." While volcanoes have always been a part of the West Coast's geography, it might seem that this is an especially busy time for these mountains caused by fissures in the Earth's crust that go down to the below. But seismologists and volcanologists are keeping a careful eye on them, said Ruppert. "This is why the federal government funds earthquake and volcano monitoring efforts through the Department of the Interior and USGS." Consider these recent events: More than 300 earthquakes occurred at Washington's Mount Rainier in early July, the largest earthquake swarm ever recorded at the volcano. The swarm, a cluster of earthquakes in the same area in rapid succession, began July 8. Within two days a total of 334 earthquakes had been identified by the Pacific Northwest Seismic Network. But it's not hugely unusual for the majestic volcano about 70 miles southeast of Seattle, which registered a similar swarm of quakes in 2009. Rainier's last eruption, however, was about 1,000 years ago, said Ruppert. North of Washington state, Alaska has three volcanoes that are making themselves felt just now. As of July 10, Alaska's Great Sitkin volcano was on a Watch alert level, with lava continuing to erupt in the summit crater. Located at in the Aleutian Islands, the volcano's seismicity levels remain low with occasional small earthquakes, USGS reports. That eruption began in May 2021. There has been an ongoing eruption of lava at the summit since in July 2021. On Alaska's Kenai Peninsula, a flurry of small earthquakes shook the Iliamna volcano on June 15. However no surface activity was observed and on July 1 the volcano was set at a Normal alert code. North of Iliamna, another Alaskan volcano, Mount Spurr, has been experiencing swarms of shallow earthquakes since February. It is currently on a Normal advisory level. For now, there's little concern, Ruppert said. Heading south down the West Coast, seismologists are also monitoring the Axial Seamount, a massive undersea volcano located 300 miles off the Oregon coast. It's been attracting attention for months as scientists prepare for an eruption they expect sometime in 2025. Because it's so far underwater, only scientists using an array of instruments will know about the eruption. The volcanoes are located along what's known as the Ring of Fire, a 25,000-mile long, horseshoe-shaped string of volcanoes and seismically active areas that stretches from the southern tip of South America, up along the West coast of the United States, across the coast of Alaska, down through Japan all the way to New Zealand. It's created by the Pacific plate sinking below the North American plate and is the most seismically and volcanically active zone in the world, according to the U.S. Geological Survey. Far to the west in Hawaii, Mt. Kilauea continues to erupt, though as of July 11 it has not been exhibiting the massive fountains of lava that had been taking place earlier in the month. On July 9, USGS said the most recent eruption had ended. Hawaii's volcanoes are not part of the Ring of Fire. The island chain was (and is still being) formed by a volcanic hot spot that has so far created 15 different volcanoes that stretch 3,800 miles across the Pacific. In Hawaii's case, the volcanoes are the result of a heat source deep within the Earth's mantle. The plume of magma coming from that hot spot in the ocean floor remains stationary as the Pacific Plate slowly – 2 to 4 inches a year – moves over top of it. This is why Hawaii's oldest volcanoes, on Kauai, are 5.5 million years old while the newest, on the Big Island, are only 700,000 years old and still growing. This article originally appeared on USA TODAY: Volcanoes rumbling in Alaska, Washington state, Oregon and Hawaii
USA Today
a day ago
- USA Today
Volcanoes in multiple states have been rumbling. What's going on?
Volcanoes in Alaska, Washington state, Oregon and Hawaii have recently been rumbling and even spewing lava, enough to spark a swarm of news stories. But despite the jolts and temblors, geologists say there's no cause for alarm. "Volcanoes can be unpredictable and there's always chance that something bad will happen, but these recent seismic events along the Pacific Ring of Fire from Alaska to Washington to offshore Oregon are probably not directly related to each other," said Natalia Ruppert, a seismologist with the U.S. Geological Survey's Earthquake Science Center in Seattle. "This is what volcanoes do," she said. "They come to life for a while, sometimes the earthquake activity leads to an eruption and sometimes it doesn't." Most of the U.S. volcanoes that have been making themselves known since spring woke up a bit, shook themselves off and then fell back into slumber. Two, one in Hawaii and one in Alaska, are in the midst of active and ongoing – but relatively small and non-threatening – eruptions. While it all might seem ominous, it isn't. It's simply part of life on a dynamic, seismically active planet. There's no direct connection between any of these, said Ruppert. "The distance between these (seismic) activity centers is thousands of miles." Recent US volcanic activity While volcanoes have always been a part of the West Coast's geography, it might seem that this is an especially busy time for these mountains caused by fissures in the Earth's crust that go down to the mantle below. But seismologists and volcanologists are keeping a careful eye on them, said Ruppert. "This is why the federal government funds earthquake and volcano monitoring efforts through the Department of the Interior and USGS." Consider these recent events: The volcanoes are located along what's known as the Ring of Fire, a 25,000-mile long, horseshoe-shaped string of volcanoes and seismically active areas that stretches from the southern tip of South America, up along the West coast of the United States, across the coast of Alaska, down through Japan all the way to New Zealand. It's created by the Pacific plate sinking below the North American plate and is the most seismically and volcanically active zone in the world, according to the U.S. Geological Survey. Eruptions in Hawaii Far to the west in Hawaii, Mt. Kilauea continues to erupt, though as of July 11 it has not been exhibiting the massive fountains of lava that had been taking place earlier in the month. On July 9, USGS said the most recent eruption had ended. Hawaii's volcanoes are not part of the Ring of Fire. The island chain was (and is still being) formed by a volcanic hot spot that has so far created 15 different volcanoes that stretch 3,800 miles across the Pacific. In Hawaii's case, the volcanoes are the result of a heat source deep within the Earth's mantle. The plume of magma coming from that hot spot in the ocean floor remains stationary as the Pacific Plate slowly – 2 to 4 inches a year – moves over top of it. This is why Hawaii's oldest volcanoes, on Kauai, are 5.5 million years old while the newest, on the Big Island, are only 700,000 years old and still growing.
San Francisco Chronicle
2 days ago
- San Francisco Chronicle
A Bay Area fault that could produce a major earthquake is not where scientists thought it was
The Bay Area's Concord Fault — which is capable of unleashing a major earthquake — isn't where scientists thought it was. The fault runs for about 20 miles through Walnut Creek and Concord, from North Gate Road near Mount Diablo north to Suisun Bay. A previously unknown 4.4-mile stretch, or strand, of the fault is actively moving about a tenth of an inch per year as it runs beneath residential neighborhoods in the Ygnacio Valley. 'Many of the people we have spoken to have noted their houses and yards being deformed, water lines being broken and other effects of the creep,' Jessie Vermeer, a geologist with the U.S. Geological Survey, said by email. Vermeer and colleagues reported the new path in a study published July 2. The scientists documented that the southern half of the Concord Fault is one-tenth to three-tenths of a mile west of where researchers previously mapped it. 'By identifying the new strand of the Concord Fault we can use it to refine our earthquake magnitude and timing calculations,' Vermeer said. The California Geological Survey could classify the new strand as an active fault zone, a designation that affects construction of new buildings, property values and real estate transactions. The findings could also help guide preparations ahead of big quakes. 'Cities, utility companies with underground lines, road repair agencies (and) even homeowners, can understand better where to expect damage, to plan for it financially, or to try and mitigate it altogether,' author Austin Elliott, who led the research as a geologist with the U.S. Geological Survey, said by email. The Concord Fault can produce earthquakes of 6.7 magnitude or higher, according to the U.S. Geological Survey. A magnitude 5.4 quake on the fault caused widespread damage across the Bay Area in 1955. The southern portion of the Concord Fault was previously mapped along the edge of Lime Ridge, which extends from the southern edge of Concord to Mount Diablo. The newly identified strand runs beneath residential neighborhoods; it even runs right through Valle Verde Elementary School in Walnut Creek. In the study, the researchers describe slow and steady movement of tectonic plates, known as creeping, along the newly defined southern segment; this behavior had previously been reported only on the northern half of the Concord Fault. As the Concord Fault creeps, it can deform structures, break water lines and cause other damage for people living along the fault line, explained Andrew Alden, an Oakland-based geologist and writer, who wasn't part of the new research. 'Having a precise location (for the fault) is really important for emergency response,' Alden said. The analysis 'is important for understanding the seismic hazards that the fault poses,' Wendy Bohon, branch chief of seismic hazards and earthquake engineering with the California Geological Survey, said by email. 'The more we understand the seismic hazard of an area, the better job we can do at decreasing the seismic risk and increasing the resilience of California communities,' said Bohon, who wasn't part of the new study. Scientists have known since the 1970s that the northern half of the Concord fault is steadily creeping. This northern section stretches from Concord, alongside Mount Diablo High School and Buchanan Field Airport, through Acme Landfill in Martinez. The southern half of the fault, however, hadn't been conclusively mapped. In the new study, the authors defined the trace of the southern Concord Fault by identifying and measuring offsets in curbs and sidewalks in the area. 'Some faults break quickly, causing large earthquakes, and some move slowly, creeping along without causing shaking. Other faults do a combination of these two things,' Bohon said. The authors say that the new findings raise the question of whether there are other active strands of the Concord Fault.
