Mount Baker (Lummi: Qwú’mə Kwəlshéːn; Nooksack: Kw’eq Smaenit or Kwelshán), also known as Koma Kulshan or simply Kulshan

During an eruption, if the wind is from the east at 10,000 feet (outflow), the tephra will fall on Vancouver, Canada in about an hour.

100 kilometres east of Simon Fraser University, Burnaby, Metro Vancouver, BC, lies 3,286 m (10,781 ft) active^[9] glacier-covered andesitic stratovolcano^[4] in the Cascade Volcanic Arc and the North Cascades of Washington in the United States. Mount Baker has the second-most thermally active crater in the Cascade Range after Mount St. Helens.^[10]  [About 30 miles (48 km)]^[11] due east of the city of Bellingham, Whatcom County, Mount Baker is the youngest volcano in the Mount Baker volcanic field.^[5] While volcanism has persisted here for some 1.5 million years, the current volcanic cone is likely no more than 140,000 years old, and possibly no older than 80–90,000 years. Older volcanic edifices have mostly eroded away due to glaciation

Mount Baker (Lummi: Qwú’mə Kwəlshéːn; Nooksack: Kw’eq Smaenit or Kwelshán), also known as Koma Kulshan or simply Kulshan.

björk : mutual core

björk : mutual core

https://youtu.be/-WnzRqCK6Fs [5:14 minutes]

 

By Iceland native björk 605K subscribers

764,843 views • Sep 26, 2019 • directed by andrew thomas huang

Wow. I feature you in many of my works https://stangwebb.blogspot.com/,s https://cascadiamegaquake.blogspot.com/, https://mountbakerstratovolcano.blogspot.com/, https://manfromminto.blogspot.com/, https://newiceland2.blogspot.com/, etc

Mount Baker, also known as Koma Kulshan or simply Kulshan, is a 10,781 ft active glacier-covered andesitic stratovolcano in the Cascade Volcanic Arc

Mount Baker visually dominates the volcanic field today, but rocks from earlier volcanoes make up most of its foundation. Eruptions that formed Mount Baker account for no more than 10% of the eruptive volume of the entire volcanic field.

Hyperlinked to this and my other work Mount Baker Stratovolcano (background) © ™ ® / Kulshan Stratovolcano © ™ ® ~ Image by Stan G. Webb - In Retirement © ™ ®, An Intelligent Grandfather's Guides © ™ ®

Mount Baker itself edifice consists mostly of lava flows (as many as 200), and scattered evidence indicates that some of its products were broken up and carried away by glaciers. It is likely that eruptive activity began around 140 ka [ka = 

Thousand Years Ago]

at Mount Baker, which was likely followed by a time gap until a major interval of cone growth started about 30-40 ka. Most of the upper cone is younger than approximately 20 ka, and its last period of major activity occurred at the close of the most recent glacial period, approximately 12 ka. Only a single eruption involving magma has been documented for the Holocene – an outburst of andesitic ash at approximately 6.7 ka.

Sources/Usage: Public Domain.

Mount Baker's Carmelo Crater at the summit is breached by Roosevelt Glacier, view to the southeast, Washington.

There are two craters on Mount Baker. Carmelo Crater, at the summit, is 400 m (1300 ft) wide and breached to the north by the uppermost part of Roosevelt Glacier. At least 84 m (275 ft) fill this summit crater. Sherman Crater is on the southern slope of Mount Baker and is located 400 m (1300 ft) lower than, and 800 m (2600 ft) south of the summit. Most hydrothermal activity at Mount Baker is concentrated within Sherman Crater; although the smaller Dorr Fumarole Field exists about 2 km (1.2 mi) north of the summit. Numerous fumaroles on Sherman Crater's walls and floor, produces sulfur-rich vapor, which is always present, but during cold and windless days the plume often condense to form a dramatic steam plume above the volcano. No summit-erupted material drapes into Sherman Crater, indicating that the crater's formation occurred after the last summit activity.

 

Mount Baker Stratovolcano last erupted 

Label

Breadcrumb

1. Mount Baker

2. Geology and History

1975 - Increased Heat and Signs of Activity

By Mount Baker

In March 1975, local observers noted a dark column rising from Sherman Crater that sharply contrasted with previous white steam emissions. Over the next year numerous ashy plumes resulted in the formation of several small near-vent lahars.

In Spring 1975, scientists measured a ten-fold increase in thermal activity and detected magmatic gases, increasing concern that an eruption could occur. This was the first hint of volcanic activity in the Cascades since the 1914-1917 eruption of Lassen Peak in northern California. By the fall of 1975, melting of Sherman Crater glacier resulted in a snow-free area three times larger than typical summer exposure and revealed a shallow lake and previously unknown fumaroles.

Sherman Crater glacier's hole and enclosing lake, which melted during the 1975 increase in heat production from Mount Baker. Sulfurous fumarole to right of hole. (Spurgeon, Terry. Public domain.)

Sources/Usage: Public Domain.

Mount Baker's crater lake in 1976 formed due to glacial and snow melt as a result of increased heat from magma beneath the surface. Fumarole on left ejecting gas at a velocity of 268 kph (167 mph). (Credit: Kiver, Gene. Public domain.)

A major concern was that an eruption might cause the walls of Sherman Crater to collapse, sending lahars into Baker Lake reservoir and cause a wave to overtop, or significantly damage, the Upper Baker Dam. Either event would result in a large volume of water rushing into the Lake Shannon reservoir and potentially cause a surge of water over, or failure of, the Lower Baker Dam. Failure of the Lower Baker Dam would result in catastrophic flooding down the Skagit River with little to no warning. This was an especially worrying scenario for the town of Concrete, WA, which lies at the foot of the Lower Baker Dam.

As a result of the activity and hazard concerns, all potential monitoring tools available at the time were employed and the Baker Lake reservoir was lowered to accommodate possible lahars. This was truly the first extensive and modern monitoring campaign at a Cascade volcano. Monitoring techniques included installation of a seismic network, tilt monitoring, temperature measurements, fumarole and airborne gas sampling, crater meltwater analysis, and gravity measurements.

Fumaroles steaming within Sherman Crater, Mount Baker, Washington. (Scurlock, John. Public domain.)

Baker Lake shorelines were closed during 1975 increase in Mount Baker activity. This notice informed visitors of the reasoning and hazards associated with the renewed activity. (Public domain.)

As time passed, no clear signs of rising magma – earthquakes, significant changes in gas composition or emission rates, or surface deformation – appeared. The activity gradually declined over the following two years, but the amount of heat escaping from the ground stabilized at a higher level than before 1975. Field observations and on-site monitoring occurred sporadically in the 1990s and more regularly in the 2000s, which provides for a relatively long-term data set regarding the behavior of Mount Baker. The data collected suggests that magma may have intruded beneath the volcano in 1975, but it did not have enough energy to erupt. The magma stalled, likely in the form of a dike, and has been cooling since. The shallow magma heated the overlying hydrothermal system, which caused the observed increases in heat and gas emissions as well as providing energy for the steam explosions.

US Forest - NEED TO KNOW INFORMATION FOR CLIMBING, SKIING, HIKING AND CAMPING ON THE MOUNTAIN [Kulshan / Mount Baker Stratovolcano]

Simon Fraser University (foreground) Kulshan Stratovolcano© ™ ® / Mount Baker Stratovolcano (background)© ™ ® ~ Image by Stan G. Webb - In Retirement© ™ ®, An Intelligent Grandfather's

 

 

Hyperlinked [click]

NEED TO KNOW INFORMATION FOR CLIMBING, SKIING, HIKING AND CAMPING ON THE MOUNTAIN [Kulshan / Mount Baker Stratovolcano]

https://mtbakerclimbing.blogspot.com/

 

Ranking Washington's most dangerous volcanoes

Ranking Washington's most dangerous volcanoes

Kulshan / Mount Baker – Threat Level – VERY HIGH - Rank14

https://youtu.be/_BlcQFZORA8 [0:29 << minutes – eg: 29 seconds]

997 views • Oct 25, 2018 • The U.S. Geological Survey is updating its volcano threat assessments for the first time since 2005 and two Washington volcanoes are ranked as high threats.

From KING 5 TV Station

Other Active Volcanoes in Canada; Hoodoo Mountain

Simon Fraser University (foreground) Kulshan Stratovolcano© ™ ® / Mount Baker Stratovolcano (background)© ™ ® ~ Image by Stan G. Webb - In Retirement© ™ ®, An Intelligent Grandfather's Guides© ™ ®  Kulshan is immediately behind the Simon Fraser University playing field lights.

Other Active Volcanoes in Canada; Hoodoo Mountain

https://youtu.be/Ip4c4qmv0wc [4:05 minutes]

GeologyHub

Canada contains 21 active volcanoes. Of these, one of the most remote and scenic volcanoes is located just north of the Iskut River near the border of Alaska. This volcano last erupted in 7050 BC, and will certainly erupt again. The volcano I am referring to is called Hoodoo Mountain, which is an unusual type of volcano called a tuya. This video covers the recent eruptions from this volcano, explain how it formed, and states the general hazard which it poses in the future. This video was made by a geologist who is based in Arizona. Check out this blog for a scientist who spent an extended amount of time at this remote volcano! https://blogs.dickinson.edu/edwardsb/... If you would like to support this channel, consider becoming a patron at http://patreon.com/geologyhub. Another way to support this channel is to make an order via our gemstone and geology related etsy store at http://prospectingarizona.etsy.com.