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Geology and history of Mount St. Helens.
Geologic History Summary
Geologic History Summary
Mount St. Helens, located in Washington State, is the most active volcano in the Cascade Range, and it is the most likely of the contiguous U.S. volcanoes to erupt in the future.
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1980 Cataclysmic Eruption
1980 Cataclysmic Eruption
Summary of the 1980 eruption.
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More Geology and History for Mount St. Helens
More Geology and History for Mount St. Helens
- 2004-2008 Renewed Volcanic Activity
- Explosions and Dome Growth (1980-1986 and 1989-1991)
- Holocene Activity Prior to May 18, 1980 Eruption
- Eruption History Through the Start of Holocene
- Glaciation at Mount St. Helens
- Future Eruptions at Mount St. Helens
- Lakes and Drainages Around Mount St. Helens
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Geologic History Summary for Mount St. Helens
Mount St. Helens, located in Washington State, is the most active volcano in the Cascade Range, and it is the most likely of the contiguous U.S. volcanoes to erupt in the future.
By
Cascades Volcano Observatory, Mount St. Helens
link
Geologic History Summary for Mount St. Helens
Mount St. Helens, located in Washington State, is the most active volcano in the Cascade Range, and it is the most likely of the contiguous U.S. volcanoes to erupt in the future.
Learn More
Eruption History of Mount St. Helens through start of Holocene
Volcanologists have recognized and named four stages of volcanic activity—Ape Canyon, Cougar, Swift Creek, and Spirit Lake—separated by dormant intervals.
By
Cascades Volcano Observatory, Mount St. Helens
link
Eruption History of Mount St. Helens through start of Holocene
Volcanologists have recognized and named four stages of volcanic activity—Ape Canyon, Cougar, Swift Creek, and Spirit Lake—separated by dormant intervals.
Learn More
Holocene Activity Prior to May 18, 1980 Eruption
Summary of Holocene activity prior to the May 18, 1980 eruption.
By
Cascades Volcano Observatory, Mount St. Helens
link
Holocene Activity Prior to May 18, 1980 Eruption
Summary of Holocene activity prior to the May 18, 1980 eruption.
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1980 Cataclysmic Eruption
Magma began intruding into the Mount St. Helens edifice in the late winter and early spring of 1980. By May 18, the cryptodome (bulge) on the north flank had likely reached the point of instability, and was creeping more rapidly toward failure.
By
Cascades Volcano Observatory, Mount St. Helens
link
1980 Cataclysmic Eruption
Magma began intruding into the Mount St. Helens edifice in the late winter and early spring of 1980. By May 18, the cryptodome (bulge) on the north flank had likely reached the point of instability, and was creeping more rapidly toward failure.
Learn More
Explosions and Dome Growth
Explosions and Dome Growth, 1980-1986 and 1989-1991.
By
Cascades Volcano Observatory, Mount St. Helens
link
Explosions and Dome Growth
Explosions and Dome Growth, 1980-1986 and 1989-1991.
Learn More
2004-2008 Renewed Volcanic Activity
The sudden reawakening of Mount St. Helens in late September 2004 was surprising because the preceding four years had seen the fewest earthquakes since the 1980-86 eruption ended.
By
Cascades Volcano Observatory, Mount St. Helens
link
2004-2008 Renewed Volcanic Activity
The sudden reawakening of Mount St. Helens in late September 2004 was surprising because the preceding four years had seen the fewest earthquakes since the 1980-86 eruption ended.
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Glaciation at Mount St. Helens
Extensive glaciers covered Mount St. Helens and the surrounding vicinity during major Ice Ages of the past few hundred thousand years. Much of the geologic record of these events is sparse and incomplete, having been removed by erosion or buried by volcanic deposits.
By
Cascades Volcano Observatory, Mount St. Helens
link
Glaciation at Mount St. Helens
Extensive glaciers covered Mount St. Helens and the surrounding vicinity during major Ice Ages of the past few hundred thousand years. Much of the geologic record of these events is sparse and incomplete, having been removed by erosion or buried by volcanic deposits.
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Future Eruptions at Mount St. Helens
We know that Mount St. Helens is the volcano in the Cascades most likely to erupt again in our lifetimes. It is likely that the types, frequencies, and magnitudes of past activity will be repeated in the future. However, neither a large debris avalanche nor a major lateral blast like those of May 18, 1980 is likely now that a deep crater has formed.
By
Cascades Volcano Observatory, Mount St. Helens
link
Future Eruptions at Mount St. Helens
We know that Mount St. Helens is the volcano in the Cascades most likely to erupt again in our lifetimes. It is likely that the types, frequencies, and magnitudes of past activity will be repeated in the future. However, neither a large debris avalanche nor a major lateral blast like those of May 18, 1980 is likely now that a deep crater has formed.
Learn More
Mount St. Helens National Volcanic Monument
The Mount St. Helens National Volcanic Monument is within the Gifford Pinchot National Forest and managed by the USDA Forest Service.
By
Cascades Volcano Observatory, Mount St. Helens
link
Mount St. Helens National Volcanic Monument
The Mount St. Helens National Volcanic Monument is within the Gifford Pinchot National Forest and managed by the USDA Forest Service.
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Lakes and Drainages Around Mount St. Helens
Streams that head on the volcano enter three main river systems -- the Toutle River on the north and northwest, the Kalama River on the west, and the Lewis River on the south and east. Lahars can form on any of these.
By
Cascades Volcano Observatory, Mount St. Helens
link
Lakes and Drainages Around Mount St. Helens
Streams that head on the volcano enter three main river systems -- the Toutle River on the north and northwest, the Kalama River on the west, and the Lewis River on the south and east. Lahars can form on any of these.
Learn More
Early-Settlement Documentation of Mount St. Helens
The first documented observation of Mount St. Helens by Europeans was by George Vancouver on May 19, 1792, as he was charting the inlets of Puget Sound at Point Lawton, near present-day Seattle. Vancouver did not name the mountain until October 20, 1792, when it came into view as his ship passed the mouth of the Columbia River.
By
Cascades Volcano Observatory, Mount St. Helens
link
Early-Settlement Documentation of Mount St. Helens
The first documented observation of Mount St. Helens by Europeans was by George Vancouver on May 19, 1792, as he was charting the inlets of Puget Sound at Point Lawton, near present-day Seattle. Vancouver did not name the mountain until October 20, 1792, when it came into view as his ship passed the mouth of the Columbia River.
Learn More
The 2004-2008 Eruption of Mount St. Helens and "What ifs"
Information about the 2004-2008 eruption.
By
Cascades Volcano Observatory, Mount St. Helens
link
The 2004-2008 Eruption of Mount St. Helens and "What ifs"
Information about the 2004-2008 eruption.
Learn More