Where Does Cascadia Subduction Zone Start Dipping Under North American Plate
Volcanic caldera in Yellowstone National Park in the United states
Yellowstone Caldera | |
---|---|
The northeastern part of Yellowstone Caldera, with the Yellowstone River flowing through Hayden Valley and the caldera rim in the distance | |
Highest point | |
Elevation | 9,203[1] ft (2,805 m) |
Coordinates | 44°24′N 110°42′W / 44.400°N 110.700°W / 44.400; -110.700 (Yellowstone Caldera) Coordinates: 44°24′N 110°42′W / 44.400°N 110.700°W / 44.400; -110.700 (Yellowstone Caldera) |
Geography | |
Location | Yellowstone National Park, Wyoming, United States |
Parent range | Rocky Mountains |
Topo map | USGS Yellowstone National Park |
Geology | |
Age of rock | 2,100,000–70,000 years[3] |
Mountain type | Caldera[2] and supervolcano |
Volcanic field | Yellowstone Plateau |
Last eruption | approximately 640,000 years ago (caldera-forming); 70,000 years ago (in the caldera) |
Climbing | |
Easiest route | Hike/auto/bus |
The Yellowstone Caldera, sometimes referred to as the Yellowstone Supervolcano, is a volcanic caldera and supervolcano in Yellowstone National Park in the Western United States. The caldera and most of the park are located in the northwest corner of Wyoming. The caldera measures 43 by 28 miles (70 by 45 kilometers), and postcaldera lavas spill out a significant distance beyond the caldera proper.[4]
The caldera formed during the last of three supereruptions over the past 2.1 million years: the Huckleberry Ridge eruption 2.1 million years ago (which created the Island Park Caldera and the Huckleberry Ridge Tuff), the Mesa Falls eruption 1.3 million years ago (which created the Henry's Fork Caldera and the Mesa Falls Tuff), and the Lava Creek eruption approximately 640,000 years ago (which created the Yellowstone Caldera and the Lava Creek Tuff).[5]
Volcanism at Yellowstone [edit]
Yellowstone sits on top of four overlapping calderas. (US NPS)
Volcanism at Yellowstone is relatively recent, with calderas created by large eruptions that took place 2.1 million, 1.3 million, and 640,000 years ago. The calderas lie over the Yellowstone hotspot under the Yellowstone Plateau where light and hot magma (molten rock) from the mantle rises toward the surface. The hotspot appears to move across terrain in the east-northeast direction, and is responsible for the eastern half of Idaho's Snake River Plain, but in fact the hotspot is much deeper than the surrounding terrain and remains stationary while the North American Plate moves west-southwest over it.[6]
Over the past 16.5 million years or so, this hotspot has generated a succession of explosive eruptions and less violent floods of basaltic lava. Together these eruptions have helped create the eastern part of the Snake River Plain (to the west of Yellowstone) from a once-mountainous region.[7] At least a dozen of these eruptions were so massive that they are classified as supereruptions. Volcanic eruptions sometimes empty their stores of magma so swiftly that the overlying land collapses into the emptied magma chamber, forming a geographic depression called a caldera.[8]
The oldest identified caldera remnant straddles the border near McDermitt, Nevada–Oregon, although there are volcaniclastic piles and arcuate faults that define caldera complexes more than 60 km (37 mi) in diameter in the Carmacks Group of southwest-central Yukon, Canada, which are interpreted to have been formed 70 million years ago by the Yellowstone hotspot.[9] [10] Progressively younger caldera remnants, most grouped in several overlapping volcanic fields, extend from the Nevada–Oregon border through the eastern Snake River Plain and terminate in the Yellowstone Plateau. One such caldera, the Bruneau-Jarbidge caldera in southern Idaho, was formed between 10 and 12 million years ago, and the event dropped ash to a depth of one foot (30 cm) 1,000 miles (1,600 km) away in northeastern Nebraska and killed large herds of rhinoceros, camel, and other animals at Ashfall Fossil Beds State Historical Park. The United States Geological Survey (USGS) estimates there are one or two major caldera-forming eruptions and a hundred or so lava extruding eruptions per million years, and "several to many" steam eruptions per century.[11]
The loosely defined term "supervolcano" has been used to describe volcanic fields that produce exceptionally large volcanic eruptions. Thus defined, the Yellowstone Supervolcano is the volcanic field that produced the latest three supereruptions from the Yellowstone hotspot; it also produced one additional smaller eruption, thereby creating the West Thumb of Yellowstone Lake[12] 174,000 years ago. The three supereruptions occurred 2.1 million, 1.3 million, and approximately 640,000 years ago, forming the Island Park Caldera, the Henry's Fork Caldera, and Yellowstone calderas, respectively.[13] The Island Park Caldera supereruption (2.1 million years ago), which produced the Huckleberry Ridge Tuff, was the largest, and produced 2,500 times as much ash as the 1980 Mount St. Helens eruption. The next biggest supereruption formed the Yellowstone Caldera (640,000 years ago) and produced the Lava Creek Tuff. The Henry's Fork Caldera (1.2 million years ago) produced the smaller Mesa Falls Tuff, but is the only caldera from the Snake River Plain-Yellowstone hotspot that is plainly visible today.[14]
Non-explosive eruptions of lava and less-violent explosive eruptions have occurred in and near the Yellowstone caldera since the last supereruption.[15] [16] The most recent lava flow occurred about 70,000 years ago, while a violent eruption excavated the West Thumb of Lake Yellowstone 174,000 years ago. Smaller steam explosions occur as well: an explosion 13,800 years ago left a 5 km (3.1 mi) diameter crater at Mary Bay on the edge of Yellowstone Lake (located in the center of the caldera).[17] [3] Currently, volcanic activity is exhibited via numerous geothermal vents scattered throughout the region, including the famous Old Faithful Geyser, plus recorded ground-swelling indicating ongoing inflation of the underlying magma chamber.[ citation needed ]
The volcanic eruptions, as well as the continuing geothermal activity, are a result of a great plume of magma located below the caldera's surface. The magma in this plume contains gases that are kept dissolved by the immense pressure under which the magma is contained. If the pressure is released to a sufficient degree by some geological shift, then some of the gases bubble out and cause the magma to expand. This can cause a chain reaction. If the expansion results in further relief of pressure, for example, by blowing crust material off the top of the chamber, the result is a very large gas explosion.[ citation needed ]
According to analysis of earthquake data in 2013, the magma chamber is 80 km (50 mi) long and 20 km (12 mi) wide. It also has 4,000 km3 (960 cu mi) underground volume, of which 6–8% is filled with molten rock. This is about 2.5 times bigger than scientists had previously imagined it to be; however, scientists believe that the proportion of molten rock in the chamber is far too low to allow for another supereruption.[18] [19] [20]
In 2017, research from the Arizona State University indicated prior to Yellowstone's last supereruption, magma surged into the magma chamber in two large influxes. An analysis of crystals from Yellowstone's lava showed that prior to the last supereruption, the magma chamber underwent a rapid increase in temperature and change in composition. The analysis indicated that Yellowstone's magma reservoir can reach eruptive capacity and trigger a supereruption within just decades, not centuries as volcanologists had originally thought.[21] [22]
Yellowstone hotspot origin [edit]
The source of the Yellowstone hotspot is controversial. Some geoscientists hypothesize that the Yellowstone hotspot is the effect of an interaction between local conditions in the lithosphere and upper mantle convection.[23] [24] Others suggest an origin in the deep mantle (mantle plume).[25] Part of the controversy is the relatively sudden appearance of the hotspot in the geologic record. Additionally, the Columbia Basalt flows appeared at the same approximate time in the same place, prompting speculation that they share a common origin. As the Yellowstone hotspot traveled to the east and north, the Columbia disturbance moved northward and eventually subsided.[26]
An alternate theory to the mantle plume model was proposed in 2018. It is suggested that the volcanism may be caused by upwellings from the lower mantle resulting from water-rich fragments of the Farallon Plate descending from the Cascadia subduction region, sheared off at a subducted spreading rift.[27]
Hazards [edit]
Earthquakes [edit]
Incidence of earthquakes in Yellowstone National Park region (1973–2014) [28]
Volcanic and tectonic actions in the region cause between 1,000 and 2,000 measurable earthquakes annually. Most are relatively minor, measuring a magnitude of 3 or weaker. Occasionally, numerous earthquakes are detected in a relatively short period of time, an event known as an earthquake swarm. In 1985, more than 3,000 earthquakes were measured over a period of several months. More than 70 smaller swarms were detected between 1983 and 2008. The USGS states these swarms are likely caused by slips on pre-existing faults rather than by movements of magma or hydrothermal fluids.[29] [30]
In December 2008, continuing into January 2009, more than 500 quakes were detected under the northwest end of Yellowstone Lake over a seven-day span, with the largest registering a magnitude of 3.9.[31] [32] Another swarm started in January 2010, after the Haiti earthquake and before the Chile earthquake. With 1,620 small earthquakes between January 17, 2010, and February 1, 2010, this swarm was the second-largest ever recorded in the Yellowstone Caldera. The largest of these shocks was a magnitude 3.8 that occurred on January 21, 2010.[30] [33] This swarm subsided to background levels by February 21. On March 30, 2014, at 6:34 AM MST, a magnitude 4.8 earthquake struck Yellowstone, the largest recorded there since February 1980.[34] In February 2018, more than 300 earthquakes occurred, with the largest being a magnitude 2.9.[35]
Volcanoes [edit]
Diagram of the Yellowstone Caldera
The last supereruption of the Yellowstone Caldera, the Lava Creek eruption 640,000 years ago,[36] ejected approximately 1,000 cubic kilometres (240 cu mi) of rock, dust and volcanic ash into the atmosphere.[3]
Geologists closely monitor the elevation of the Yellowstone Plateau, which has been rising as quickly as 150 millimetres (5.9 in) per year, as an indirect measurement of changes in magma chamber pressure.[37] [38] [39]
The upward movement of the Yellowstone caldera floor between 2004 and 2008—almost 75 millimetres (3.0 in) each year—was more than three times greater than ever observed since such measurements began in 1923.[40] From 2004 to 2008, the land surface within the caldera moved upward as much as 8 inches (20 cm) at the White Lake GPS station.[41] [42] In January 2010, the USGS stated that "uplift of the Yellowstone Caldera has slowed significantly"[43] and that uplift continues but at a slower pace.[44] USGS, University of Utah and National Park Service scientists with the Yellowstone Volcano Observatory maintain that they "see no evidence that another such cataclysmic eruption will occur at Yellowstone in the foreseeable future. Recurrence intervals of these events are neither regular nor predictable."[3] This conclusion was reiterated in December 2013 in the aftermath of the publication of a study by University of Utah scientists finding that the "size of the magma body beneath Yellowstone is significantly larger than had been thought". The Yellowstone Volcano Observatory issued a statement on its website stating:
Although fascinating, the new findings do not imply increased geologic hazards at Yellowstone, and certainly do not increase the chances of a 'supereruption' in the near future. Contrary to some media reports, Yellowstone is not 'overdue' for a supereruption.[45]
Media reports were more hyperbolic in their coverage.[46]
A study published in GSA Today, the monthly news and science magazine of the Geological Society of America, identified three fault zones where future eruptions are most likely to be centered.[47] Two of those areas are associated with lava flows aged 174,000–70,000 years, and the third is a focus of present-day seismicity.[47]
In 2017, NASA conducted a study to determine the feasibility of preventing the volcano from erupting. The results suggested that cooling the magma chamber by 35 percent would be enough to forestall such an incident. NASA proposed introducing water at high pressure 10 kilometers underground. The circulating water would release heat at the surface, possibly in a way that could be used as a geothermal power source. If enacted, the plan would cost about $3.46 billion. On the other hand, according to Brian Wilson of the Jet Propulsion Laboratory, such a project might trigger rather than prevent an eruption.[48] [49]
Hydrothermal explosions [edit]
Path of the Yellowstone hotspot over the past 16 million years
Studies and analysis may indicate that the greater hazard comes from hydrothermal activity which occurs independently of volcanic activity.[ citation needed ] Over 20 large craters have been produced in the past 14,000 years, resulting in such features as Mary Bay, Turbid Lake, and Indian Pond, which was created in an eruption about 1300 BC.[ citation needed ]
In a 2003 report, USGS researchers proposed that an earthquake may have displaced more than 77 million cubic feet (2,200,000 m3; 580,000,000 US gal) of water in Yellowstone Lake, creating colossal waves that unsealed a capped geothermal system and led to the hydrothermal explosion that formed Mary Bay.[50] [51]
Further research shows that very distant earthquakes reach and have effects upon the activities at Yellowstone, such as the 1992 7.3 magnitude Landers earthquake in California's Mojave Desert that triggered a swarm of quakes from more than 800 miles (1,300 km) away, and the 2002 7.9 magnitude Denali fault earthquake 2,000 miles (3,200 km) away in Alaska that altered the activity of many geysers and hot springs for several months afterward.[52]
In 2016, the USGS announced plans to map the subterranean systems responsible for feeding the area's hydrothermal activity. According to the researchers, these maps could help predict when another supereruption occurs.[53]
See also [edit]
- Iceland hotspot and Iceland plume describes aspects of volcanic processes
- Long Valley Caldera, Valles Caldera, La Garita Caldera: Examples of other calderas close to but not related to Yellowstone.
- Lake Toba
- Toba catastrophe theory
References [edit]
- ^ USGS. "Yellowstone Volcano Observatory". United States Geological Survey.
- ^ "Yellowstone". Global Volcanism Program. Smithsonian Institution. Retrieved December 31, 2008.
- ^ a b c d Lowenstern, Jacob B.; Christiansen, Robert L.; Smith, Robert B.; Morgan, Lisa A.; Heasler, Henry (May 10, 2005). "Steam Explosions, Earthquakes, and Volcanic Eruptions—What's in Yellowstone's Future? – U.S. Geological Survey Fact Sheet 2005–3024". United States Geological Survey.
- ^ Christiansen, Robert J.; Blank, H. Richard Jr. (1972). "Volcanic Stratigraphy of the Quaternary Rhyolite Plateau in Yellowstone National Park" (PDF). U.S. Geological Survey Professional Paper. 729-B: B2.
- ^ Matthews, Naomi E.; Vazquez, Jorge A.; Calvert, Andrew T. (2015). "Age of the Lava Creek supereruption and magma chamber assembly at Yellowstone based on 40Ar/39Ar and U-Pb dating of sanidine and zircon crystals". Geochemistry, Geophysics, Geosystems. 16 (8): 2508–2528. Bibcode:2015GGG....16.2508M. doi:10.1002/2015GC005881.
- ^ "Yellowstone Caldera, Wyoming—USGS". Cascade Volcano Observatory. United States Geological Survey. January 22, 2003. Retrieved December 30, 2008.
- ^ Perkins, Michael E.; Nash, Barbara P. (March 1, 2002). "Explosive silicic volcanism of the Yellowstone hotspot: The ash fall tuff record". GSA Bulletin. 114 (3): 367–381. Bibcode:2002GSAB..114..367P. doi:10.1130/0016-7606(2002)114<0367:ESVOTY>2.0.CO;2.
- ^ Cole, J; Milner, D; Spinks, K (February 2005). "Calderas and caldera structures: a review". Earth-Science Reviews. 69 (1–2): 1–26. Bibcode:2005ESRv...69....1C. doi:10.1016/j.earscirev.2004.06.004.
- ^ Johnston, Stephen T.; Wynne, P. Jane; Francis, Don; Hart, Craig J. R.; Enkin, Randolph J.; Engebretson, David C. (1996). "Yellowstone in Yukon: The Late Cretaceous Carmacks Group". Geology. 24 (11): 997, 998. Bibcode:1996Geo....24..997J. doi:10.1130/0091-7613(1996)024<0997:YIYTLC>2.3.CO;2.
- ^ "Yellowstone hotspot track". Lamont-Doherty Earth Observatory. Retrieved June 10, 2010.
- ^ Yellowstone Volcanic Hazards, USGS. Volcanoes.usgs.gov (March 1, 2012). Retrieved on December 31, 2013.
- ^ West Thumb Lake is not to be confused with West Thumb Geyser Basin. The caldera created West Thumb Lake, and the underlying Yellowstone hotspot keeps West Thumb Geyser Basin active. See Fig. 22 Archived June 10, 2013, at the Wayback Machine. See also File:Yellowstone Caldera map2.JPG.
- ^ Newhall, Christopher G.; Dzurisin, Daniel (1988). "Historical unrest at large calderas of the world". doi:10.3133/b1855.
- ^ This qualitative statement is easily verified by reviewing the Yellowstone area in Google Earth
- ^ Bindeman, Ilya N.; Fu, Bin; Kita, Noriko T.; Valley, John W. (January 2008). "Origin and Evolution of Silicic Magmatism at Yellowstone Based on Ion Microprobe Analysis of Isotopically Zoned Zircons". Journal of Petrology. 49 (1): 163–193. doi:10.1093/petrology/egm075.
- ^ "Secrets of supervolcanoes" (PDF). University of Oregon.
- ^ "Introduction to hydrothermal (steam) explosions in Yellowstone". Yellowstone National Park. Yellowstone Net. Retrieved December 31, 2008.
- ^ Witze, Alexandra (2013). "Large magma reservoir gets bigger". Nature. doi:10.1038/nature.2013.14036. S2CID 130449188.
- ^ "USGS: Volcano Hazards Program – Yellowstone Volcano Observatory Featured Articles Archive". Retrieved April 4, 2014.
- ^ "Discovery of Ancient Super-eruptions Suggests the Yellowstone Hotspot May Be Waning (USGS Release Date: JUNE 29, 2020)". Retrieved February 16, 2021.
- ^ Ana Aceves (October 12, 2017). "Yellowstone Supervolcano May Erupt Sooner Than Anticipated". pbs.org. NOVA Next. Retrieved March 12, 2021.
- ^ Matthew Diebel (October 16, 2017). "Scientists seek clues to what triggered past Yellowstone 'supervolcano' eruptions". USA Today. Retrieved March 12, 2021.
- ^ Foulger, Gillian (February 8, 2006). "Yellowstone". MantlePlumes.org. Retrieved February 10, 2008.
- ^ Christiansen, Robert L.; Foulger, G.R.; Evans, John R. (2002). "Upper-mantle origin of the Yellowstone hotspot". Geological Society of America Bulletin. 114 (10): 1245–1256. Bibcode:2002GSAB..114.1245C. doi:10.1130/0016-7606(2002)114<1245:UMOOTY>2.0.CO;2.
- ^ See list of off-line references in mantleplumes.org/CRB.html
- ^ Ivanov, Alexei V. (February 7, 2007). "The Columbia River Flood Basalts: Consequence of subduction-related processes". MantlePlumes.org. Retrieved December 31, 2008.
- ^ Zhou, Ying (2018), "Anomalous mantle transition zone beneath the Yellowstone hotspot track", Nature, 11 (6): 449–453, Bibcode:2018NatGe..11..449Z, doi:10.1038/s41561-018-0126-4, S2CID 134251160
- ^ "Yellowstone National Park Earthquake listings". Retrieved April 20, 2013.
- ^ "Yellowstone Earthquake Swarms". Yellowstone Volcano Observatory. Retrieved January 1, 2009.
- ^ a b "January 2010 Yellowstone Seismicity Summary". Retrieved February 1, 2010.
- ^ "Yellowstone Volcano Observatory". volcanoes.usgs.gov . Retrieved April 29, 2020.
- ^ "UUSS Webicorder (Seismogram) at Lake for December 31, 2008". Retrieved January 1, 2009.
- ^ Johnson, Kirk (January 31, 2010). "Hundreds of Quakes Are Rattling Yellowstone". The New York Times . Retrieved January 23, 2014.
- ^ Zuckerman, Laura. "Yellowstone National Park rattled by largest earthquake in 34 years". Reuters . Retrieved March 31, 2014.
Gedeon, Jacqueline (March 31, 2014). "4.8 magnitude earthquake hits Yellowstone National Park". KECI. Montana. Retrieved April 4, 2018. - ^ Zachos, Elaina (February 21, 2018). "Earthquake Swarms Are Shaking Yellowstone's Supervolcano. Here's What That Means". National Geographic . Retrieved April 4, 2018.
Bartels, Meghan (February 20, 2018). "Yellowstone Supervolcano Earthquake Swarm Hits 200 Shakes In Less Than Two Weeks". Newsweek . Retrieved April 4, 2018. - ^ "Undine Falls, Lava Creek, Yellowstone National Park". United States Geological Survey. Retrieved January 2, 2009.
- ^ John Timmer (November 8, 2007). "Yellowstone recharges". arstechnica.com . Retrieved November 8, 2007.
- ^ Smith, Robert B.; Chang, Wu-Lung; Siegel, Lee (November 8, 2007). "Yellowstone rising: Volcano inflating with molten rock at record rate". University of Utah Public Relations (Press release). EurekAlert! (American Association for the Advancement of Science).
- ^ Chang, W.-L.; Smith, R. B.; Wicks, C.; Farrell, J. M.; Puskas, C. M. (November 9, 2007). "Accelerated Uplift and Magmatic Intrusion of the Yellowstone Caldera, 2004 to 2006". Science. 318 (5852): 952–956. Bibcode:2007Sci...318..952C. doi:10.1126/science.1146842. PMID 17991858. S2CID 22478071.
- ^ Molten Rock Fills Yellowstone Volcano at Record Rate Newswise, Retrieved on September 2, 2008.
- ^ "Recent ups and downs of the Yellowstone Caldera". Yellowstone Volcano Observatory. United States Geological Survey. September 28, 2008. Retrieved December 31, 2008.
- ^ Smith, Robert B.; Jordan, Michael; Steinberger, Bernhard; Puskas, Christine M.; Farrell, Jamie; Waite, Gregory P.; Husen, Stephan; Chang, Wu-Lung; O'Connell, Richard (November 20, 2009). "Geodynamics of the Yellowstone hotspot and mantle plume: Seismic and GPS imaging, kinematics and mantle flow" (PDF). Journal of Volcanology and Geothermal Research. 188 (1–3): 26–56. Bibcode:2009JVGR..188...26S. doi:10.1016/j.jvolgeores.2009.08.020.
- ^ Current Alerts for U.S. Volcanoes. volcano.wr.usgs.gov
- ^ GPS Station: WLWY – Data Products – Time Series Plots. unavco.org
- ^ "Monitoring Upgrades Result in New Insight Into Yellowstone's Magma System" (Press release). Yellowstone Volcano Observatory (USGS). December 19, 2013. Retrieved January 2, 2014.
- ^ Burnett, Jim (January 1, 2014). "Reactions To Yellowstone Supervolcano Study Ranged From Hysteria To Ho-Hum". National Parks Traveller . Retrieved January 2, 2014.
- ^ a b Richard A. Lovett (September 20, 2012). "Yellowstone Supervolcano Discovery—Where Will It Erupt?". National Geographic.
- ^ Cox, David. "Nasa's ambitious plan to save Earth from a supervolcano". www.bbc.com . Retrieved April 29, 2020.
- ^ "No, NASA Isn't Going to Drill to Stop Yellowstone from Erupting". Discover Magazine . Retrieved April 29, 2020.
- ^ "Frequently asked questions about recent findings at Yellowstone Lake". Yellowstone Volcano Observatory. United States Geological Survey. September 11, 2008. Retrieved December 31, 2008.
- ^ "Tsunami linked to Yellowstone crater". USA Today. January 14, 2008. Retrieved December 31, 2008.
- ^ "Quake in Alaska Changed Yellowstone Geysers". University of Utah. May 27, 2004. Retrieved December 31, 2008.
- ^ "We're About to Find Out What's Rumbling Below The Yellowstone Supervolcano". Science Alert . Retrieved May 22, 2017.
Further reading [edit]
- Breining, Greg (2007). Super Volcano: The Ticking Time Bomb beneath Yellowstone National Park . St. Paul, MN: Voyageur Press. ISBN978-0-7603-2925-2.
A popularized scientific look at the Yellowstone area's geological past and potential future
- Vazquez, J.A.; Reid, M.R. (2002). "Time scales of magma storage and differentiation of voluminous rhyolites at Yellowstone caldera". Contributions to Mineralogy and Petrology. Wyoming. 144 (3): 274–285. Bibcode:2002CoMP..144..274V. doi:10.1007/s00410-002-0400-7. S2CID 109927088.
- Sutherland, Wayne; Sutherland, Judy (2003). Yellowstone Farewell. Spur Ridge.
A novel looking at an eruption in the Yellowstone Caldera written by a practicing Wyoming geologist. Contains a wealth of technical details on the geology of western Wyoming
External links [edit]
- Media related to Yellowstone Caldera at Wikimedia Commons
- The Snake River Plain and the Yellowstone Hot Spot
- Yellowstone Volcano Observatory
- FAQ relating to the supervolcano
- Supervolcano documentary from BBC
- Interactive: When Yellowstone Explodes from National Geographic
- Canales, Manuel; Chung, Daisy; Santamarina, Daniela; Paniagua, Ronald; Preppernau, Charles; Canellas, Hernan; Umentum, Andrew; Conant, Eve; Sickley, Theodore A. (May 2016). "Inside Yellowstone's Supervolcano". National Geographic. National Geographic Society.
- The Yellowstone magmatic system from the mantle plume to the upper crust (46,000 km3 magma reservoir below chamber)
- Inside Yellowstone's Supervolcano - National Geographic
Where Does Cascadia Subduction Zone Start Dipping Under North American Plate
Source: https://en.wikipedia.org/wiki/Yellowstone_Caldera
0 Response to "Where Does Cascadia Subduction Zone Start Dipping Under North American Plate"
Post a Comment