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The Yellowstone hotspot is a volcano, volcanic hotspot (geology), hotspot in the United States responsible for large scale volcanism in Idaho, Montana, Nevada, Oregon, and Wyoming, formed as the North American Plate, North American tectonic plate moved over it. It formed the eastern Snake River Plain through a succession of caldera-forming eruptions. The resulting calderas include the Island Park Caldera, Henry's Fork Caldera, and the Bruneau-Jarbidge caldera. The hotspot currently lies under the Yellowstone Caldera. The hotspot's most recent caldera-forming supereruption, known as the Lava Creek Eruption, took place 640,000 years ago and created the Lava Creek Tuff, and the most recent Yellowstone Caldera. The Yellowstone hotspot is one of a few volcanic hotspots underlying the North American tectonic plate; another example is the Anahim hotspot.
The Yellowstone Plateau volcanic field is composed of four adjacent calderas. West Thumb Lake is itself formed by a smaller caldera which erupted 174,000 years ago. (See :File:Yellowstone Caldera map2.JPG, Yellowstone Caldera map.) The Henry's Fork Caldera in Idaho was formed in an eruption of more than 1.3 million years ago, and is the source of the Mesa Falls Tuff. The Henry's Fork Caldera is nested inside of the Island Park Caldera and the calderas share a rim on the western side. The earlier Island Park Caldera is much larger and more oval and extends well into Yellowstone Park. Although much smaller than the Island Park Caldera, the Henry's Fork Caldera is still sizeable at long and wide and its curved rim is plainly visible from many locations in the Island Park area.
Of the many calderas formed by the Yellowstone Hotspot, including the later Yellowstone Caldera, the Henry's Fork Caldera is the only one that is currently clearly visible. The Henry's Fork of the Snake River flows through the Henry's Fork Caldera and drops out at Upper and Lower Mesa Falls. The caldera is bounded by the Ashton Hill on the south, Big Bend Ridge and Bishop Mountain on the west, by Thurburn Ridge on the North and by Black Mountain and the Madison Plateau on the east. The Henry's Fork caldera is in an area called Island Park. Harriman State Park (Idaho), Harriman State Park is situated in the caldera.
The Island Park Caldera is older and much larger than the Henry's Fork Caldera with approximate dimensions of 58 miles (93 km) by 40 miles (64 km). It is the source of the Huckleberry Ridge Tuff that is found from southern California to the Mississippi River near St. Louis. This supereruption occurred 2.1 million years BP and produced 2500 km3 of ash. The Island Park Caldera is sometimes referred to as the First Phase Yellowstone Caldera or the Huckleberry Ridge Caldera. The youngest of the hotspot calderas, the Yellowstone Caldera, formed 640,000 years ago and is about 34 miles (55 km) by 45 miles (72 km) wide. Non-explosive eruptions of lava and less-violent explosive eruptions have occurred in and near the Yellowstone Caldera since the last super eruption. The most recent lava flow occurred about 70,000 years ago, while the largest violent eruption excavated the West Thumb of Lake Yellowstone around 150,000 years ago. Smaller steam explosions occur as well – an explosion 13,800 years ago left a 5 kilometer diameter crater at Mary Bay on the edge of Yellowstone Lake.
Both the Heise and Yellowstone volcanic fields produced a series of caldera-forming eruptions characterised by magmas with so-called "normal" oxygen isotope signatures (with heavy Oxygen isotope, oxygen-18 isotopes) and a series of predominantly post-caldera magmas with so-called "light" oxygen isotope signatures (characterised as low in heavy oxygen-18 isotopes). The final stage of volcanism at Heise was marked by "light" magma eruptions. If Heise is any indication, this could mean that the Yellowstone Caldera has entered its final stage, but the volcano might still exit with a climactic fourth caldera event analogous to the fourth and final caldera-forming eruption of Heise (the Kilgore Tuff) – which was also made up of so-called "light" magmas. The appearance of "light" magmas would seem to indicate that the uppermost portion of the continental crust has largely been consumed by the earlier caldera- forming events, exhausting the melting potential of the crust above the mantle plume. In this case Yellowstone could be expiring. It could be another 1–2 million years (as the North American Plate moves across the Yellowstone hotspot) before a new supervolcano is born to the northeast, and the Yellowstone Plateau volcanic field joins the ranks of its deceased ancestors in the Snake River Plain.
A 2020 study suggests that the hotspot may be waning.
*Wapi Lava Field, Wapi Lava field and King's Bowl blowout, northeast of Rupert, Idaho; 2.270 ka ±0.15. (2,270 years ago)
*Hell's Half Acre Lava Field, Hell's Half Acre lava field, west to southwest of Idaho Falls; 3.250 ka ±0.15. (3,250 years ago)
*Shoshone lava field, North of Twin Falls, Idaho; 8.400 ka ±0.3.
*Craters of the Moon National Monument and Preserve; Great Rift of Idaho; the lava field was formed during eight eruptive episodes between about 15 and 2 ka.
**Kings Bowl and Wapi lava fields formed about 2.250 ka.
*Yellowstone Caldera; between 70 and 150 ka; intracaldera rhyolitic lava flows.
**Yellowstone Park
*Yellowstone Caldera (size: 45 x 85 km); 640 ka; VEI 8; more than of Lava Creek Tuff.
*Henry's Fork Caldera (size: 16 km wide); 1.3 Ma; VEI 7; of Mesa Falls Tuff.
**Island Park Caldera
**Harriman State Park (Idaho), Harriman State Park
*Island Park Caldera (size: 100 x 50 km); 2.1 Ma; VEI 8; of Huckleberry Ridge Tuff. to
*Heise volcanic field, Idaho:
**Kilgore Caldera (size: 80 x 60 km); VEI 8; of Kilgore Tuff; 4.45 Ma ±0.05.
**4.49 Ma tuff of Heise
**5.37 Ma tuff of Elkhorn Springs
**5.51 Ma ±0.13 (Conant Creek Tuff) (but Anders (2009): 5.94 Ma)
**5.6 Ma; of Blue Creek Tuff.
**5.81 Ma tuff of Wolverine Creek
**6.27 Ma ±0.04 (Walcott Tuff).
**6.57 Ma tuff of Edie School
**Blacktail Caldera (size: 100 x 60 km); 6.62 Ma ±0.03; of Blacktail Tuff.
*7.48 Ma tuff of America Falls
*8.72 Ma Grey's landing Ignimbrite; VEI 8. At least of volcanic material.
*8.75 Ma tuff of Lost River Sinks
*8.99 Ma, McMullen Supereruption; VEI 8. At least of volcanic material.
*9.17 Ma tuff of Kyle Canyon
*9.34 Ma tuff of Little Chokecherry Canyon
*Twin Falls volcanic field, Twin Falls County, Idaho; 8.6 to 10 Ma.
*Picabo volcanic field, Picabo, Idaho; 10.09 Ma (Arbon Valley Tuff A) and 10.21 Ma ±0.03 (Arbon Valley Tuff B).
*Bruneau-Jarbidge caldera, Bruneau-Jarbidge volcanic field, Bruneau River/ Jarbidge River, Idaho; 10.0 to 12.5 Ma; Ashfall Fossil Beds eruption.
*Owyhee-Humboldt volcanic field, Owyhee County, Idaho, Nevada, and Oregon; around 12.8 to 13.9 Ma.
*McDermitt volcanic field, Orevada rift, McDermitt, Nevada/ Oregon (five overlapping and nested calderas; satellitic to these are two additional calderas), :
**Trout Creek Mountains, East of the Pueblo Mountains, Whitehorse Caldera (size: 15 km wide), Oregon; 15 Ma; of Whitehorse Creek Tuff.
**Jordan Meadow Caldera, (size: 10–15 km wide); 15.6 Ma; Longridge Tuff member 2–3.
**Longridge Caldera, (size: 33 km wide); 15.6 Ma; Longridge Tuff member 5.
**Calavera Caldera, (size: 17 km wide); 15.7 Ma; of Double H Tuff.
**Trout Creek Mountains, Pueblo Caldera (size: 20 x 10 km), Oregon; 15.8 Ma; of Trout Creek Mountains Tuff.
**Hoppin Peaks Caldera, 16 Ma; Hoppin Peaks Tuff.
**Washburn Caldera, (size: 30 x 25 km wide), Oregon; 16.548 Ma; of Oregon Canyon Tuff.
*Yellowstone hotspot (?), Lake Owyhee volcanic field; 15.0 to 15.5 Ma.
*Yellowstone hotspot (?), Northwest Nevada volcanic field, Virgin Valley, High Rock, Hog Ranch, and unnamed calderas; West of the Pine Forest Range, Nevada; 15.5 to 16.5 Ma; Tuffs: Idaho Canyon, Ashdown, Summit Lake, and Soldier Meadow.
*Columbia River Basalt Province: Yellowstone hotspot sets off a huge pulse of volcanic activity, the first eruptions were near the Oregon-Idaho-Washington border. Columbia River and Steens flood basalts, Pueblo, and Malheur Gorge-region, Pueblo Mountains, Steens Mountain, Washington, Oregon, and Idaho; most vigorous eruptions were from 14 to 17 Ma; of lava.
**Columbia River Basalt Group, Columbia River flood basalts,
**Steens flood basalts,
*Crescent volcanics, Olympic Peninsula/ southern Vancouver Island, 50–60 Ma.
**Siletz River Volcanics, Oregon Coast Range, a sequence of basaltic pillow lavas.
*Carmacks Group, Yukon, , 70 Ma.
Yellowstone hotspot interactive
* [https://www.science.org/doi/10.1126/science.aaa5648 The Yellowstone magmatic system from the mantle plume to the upper crust] (46,000 km3 magma reservoir below chamber) {{Hotspots Yellowstone hotspot, Hotspots of North America Volcanism of the Rocky Mountains Volcanism of Idaho Volcanism of Montana Volcanism of Nevada Volcanism of Oregon Volcanism of Washington (state) Volcanism of Wyoming Volcanism of Yukon Landforms of Yellowstone National Park Cretaceous volcanism Paleocene volcanism Eocene volcanism Miocene volcanism Pliocene volcanism Pleistocene volcanism Holocene volcanism Paleogene Idaho Paleogene Montana Paleogene geology of Oregon Paleogene geology of Washington (state) Paleogene geology of Wyoming Neogene Idaho Neogene Montana Neogene geology of Nevada Neogene geology of Oregon Neogene geology of Wyoming Paleocene North America Eocene North America Pleistocene North America Holocene North America Cretaceous United States Miocene United States Pliocene United States Pleistocene United States Quaternary Idaho Quaternary Nevada Quaternary Wyoming Quaternary United States Geological hazards
Snake River Plain
The eastern Snake River Plain is a topographic depression that cuts across Basin and Range Province, Basin and Range Mountain structures, more or less parallel to North American plate motion. Beneath more recent basalts are rhyolite lavas and ignimbrites that erupted as the lithosphere passed over the Hotspot (geology), hotspot. Younger volcanoes that erupted after passing over the hotspot covered the plain with young basalt lava flows in places, including Craters of the Moon National Monument and Preserve. The central Snake River plain is similar to the eastern plain, but differs by having thick sections of interbedded Lake, lacustrine (lake) and fluvial (stream) sediments, including the Hagerman Fossil Beds National Monument, Hagerman Fossil Beds.Nevada–Oregon calderas
Although the McDermitt volcanic field on the Nevada–Oregon border is frequently shown as the site of the initial impingement of the Yellowstone Hotspot, new geochronology and mapping demonstrates that the area affected by this mid-Miocene volcanism is significantly larger than previously appreciated. Three silicic calderas have been newly identified in northwest Nevada, west of the McDermitt volcanic field as well as the Virgin Valley Caldera. These calderas, along with the Virgin Valley Caldera and McDermitt Caldera, are interpreted to have formed during a short interval 16.5–15.5 million years ago, in the waning stage of the Steens flood basalt volcanism. The northwest Nevada calderas have diameters ranging from 15 to 26 km and deposited high temperature rhyolite ignimbrites over approximately 5000 km2. As the hotspot drifted beneath what is now Nevada and Oregon, it increased ecological beta diversity locally by fragmenting previously connected habitats and increasing topographic diversity in western North America. The Bruneau-Jarbidge caldera erupted between ten and twelve million years ago, spreading a thick blanket of Volcanic ash, ash in the Bruneau-Jarbidge event and forming a wide caldera. Animals were suffocated and burned in pyroclastic flows within a hundred miles of the event, and died of slow suffocation and starvation much farther away, notably at Ashfall Fossil Beds, located 1000 miles downwind in northeastern Nebraska, where a foot of ash was deposited. There, two hundred fossilized rhinoceros and many other animals were preserved in two meters of volcanic ash. By its characteristic chemical fingerprint and the distinctive size and shape of its crystals and glass shards, the volcano stands out among dozens of prominent ashfall horizons laid down in the Cretaceous, Paleogene, and Neogene periods of central North America. The event responsible for this fall of volcanic ash was identified as Bruneau-Jarbidge. Prevailing westerlies deposited distal ashfall over a vast area of the Great Plains.Volcanic fields
Twin Falls and Picabo volcanic fields
The Twin Falls and Picabo volcanic fields were active about 10 million years ago. The Picabo Caldera was notable for producing the Arbon Valley, Idaho, Arbon Valley Tuff 10.2 million years ago.Heise volcanic field
The Heise volcanic field of eastern Idaho produced explosive caldera-forming eruptions which began 6.6 million years ago and lasted for more than 2 million years, sequentially producing four large-volume rhyolitic eruptions. The first three caldera-forming rhyolites – Blacktail Tuff, Walcott Tuff and Conant Creek Tuff – totaled at least 2250 km3 of erupted magma. The final, extremely voluminous, caldera-forming eruption – the Kilgore Tuff – which erupted 1800 km3 of ash, occurred 4.5 million years ago.Yellowstone Plateau
The Yellowstone Plateau volcanic field is composed of four adjacent calderas. West Thumb Lake is itself formed by a smaller caldera which erupted 174,000 years ago. (See :File:Yellowstone Caldera map2.JPG, Yellowstone Caldera map.) The Henry's Fork Caldera in Idaho was formed in an eruption of more than 1.3 million years ago, and is the source of the Mesa Falls Tuff. The Henry's Fork Caldera is nested inside of the Island Park Caldera and the calderas share a rim on the western side. The earlier Island Park Caldera is much larger and more oval and extends well into Yellowstone Park. Although much smaller than the Island Park Caldera, the Henry's Fork Caldera is still sizeable at long and wide and its curved rim is plainly visible from many locations in the Island Park area.
Of the many calderas formed by the Yellowstone Hotspot, including the later Yellowstone Caldera, the Henry's Fork Caldera is the only one that is currently clearly visible. The Henry's Fork of the Snake River flows through the Henry's Fork Caldera and drops out at Upper and Lower Mesa Falls. The caldera is bounded by the Ashton Hill on the south, Big Bend Ridge and Bishop Mountain on the west, by Thurburn Ridge on the North and by Black Mountain and the Madison Plateau on the east. The Henry's Fork caldera is in an area called Island Park. Harriman State Park (Idaho), Harriman State Park is situated in the caldera.
The Island Park Caldera is older and much larger than the Henry's Fork Caldera with approximate dimensions of 58 miles (93 km) by 40 miles (64 km). It is the source of the Huckleberry Ridge Tuff that is found from southern California to the Mississippi River near St. Louis. This supereruption occurred 2.1 million years BP and produced 2500 km3 of ash. The Island Park Caldera is sometimes referred to as the First Phase Yellowstone Caldera or the Huckleberry Ridge Caldera. The youngest of the hotspot calderas, the Yellowstone Caldera, formed 640,000 years ago and is about 34 miles (55 km) by 45 miles (72 km) wide. Non-explosive eruptions of lava and less-violent explosive eruptions have occurred in and near the Yellowstone Caldera since the last super eruption. The most recent lava flow occurred about 70,000 years ago, while the largest violent eruption excavated the West Thumb of Lake Yellowstone around 150,000 years ago. Smaller steam explosions occur as well – an explosion 13,800 years ago left a 5 kilometer diameter crater at Mary Bay on the edge of Yellowstone Lake.
Both the Heise and Yellowstone volcanic fields produced a series of caldera-forming eruptions characterised by magmas with so-called "normal" oxygen isotope signatures (with heavy Oxygen isotope, oxygen-18 isotopes) and a series of predominantly post-caldera magmas with so-called "light" oxygen isotope signatures (characterised as low in heavy oxygen-18 isotopes). The final stage of volcanism at Heise was marked by "light" magma eruptions. If Heise is any indication, this could mean that the Yellowstone Caldera has entered its final stage, but the volcano might still exit with a climactic fourth caldera event analogous to the fourth and final caldera-forming eruption of Heise (the Kilgore Tuff) – which was also made up of so-called "light" magmas. The appearance of "light" magmas would seem to indicate that the uppermost portion of the continental crust has largely been consumed by the earlier caldera- forming events, exhausting the melting potential of the crust above the mantle plume. In this case Yellowstone could be expiring. It could be another 1–2 million years (as the North American Plate moves across the Yellowstone hotspot) before a new supervolcano is born to the northeast, and the Yellowstone Plateau volcanic field joins the ranks of its deceased ancestors in the Snake River Plain.
A 2020 study suggests that the hotspot may be waning.Eruptive history
*Wapi Lava Field, Wapi Lava field and King's Bowl blowout, northeast of Rupert, Idaho; 2.270 ka ±0.15. (2,270 years ago)
*Hell's Half Acre Lava Field, Hell's Half Acre lava field, west to southwest of Idaho Falls; 3.250 ka ±0.15. (3,250 years ago)
*Shoshone lava field, North of Twin Falls, Idaho; 8.400 ka ±0.3.
*Craters of the Moon National Monument and Preserve; Great Rift of Idaho; the lava field was formed during eight eruptive episodes between about 15 and 2 ka.
**Kings Bowl and Wapi lava fields formed about 2.250 ka.
*Yellowstone Caldera; between 70 and 150 ka; intracaldera rhyolitic lava flows.
**Yellowstone Park
*Yellowstone Caldera (size: 45 x 85 km); 640 ka; VEI 8; more than of Lava Creek Tuff.
*Henry's Fork Caldera (size: 16 km wide); 1.3 Ma; VEI 7; of Mesa Falls Tuff.
**Island Park Caldera
**Harriman State Park (Idaho), Harriman State Park
*Island Park Caldera (size: 100 x 50 km); 2.1 Ma; VEI 8; of Huckleberry Ridge Tuff. to
*Heise volcanic field, Idaho:
**Kilgore Caldera (size: 80 x 60 km); VEI 8; of Kilgore Tuff; 4.45 Ma ±0.05.
**4.49 Ma tuff of Heise
**5.37 Ma tuff of Elkhorn Springs
**5.51 Ma ±0.13 (Conant Creek Tuff) (but Anders (2009): 5.94 Ma)
**5.6 Ma; of Blue Creek Tuff.
**5.81 Ma tuff of Wolverine Creek
**6.27 Ma ±0.04 (Walcott Tuff).
**6.57 Ma tuff of Edie School
**Blacktail Caldera (size: 100 x 60 km); 6.62 Ma ±0.03; of Blacktail Tuff.
*7.48 Ma tuff of America Falls
*8.72 Ma Grey's landing Ignimbrite; VEI 8. At least of volcanic material.
*8.75 Ma tuff of Lost River Sinks
*8.99 Ma, McMullen Supereruption; VEI 8. At least of volcanic material.
*9.17 Ma tuff of Kyle Canyon
*9.34 Ma tuff of Little Chokecherry Canyon
*Twin Falls volcanic field, Twin Falls County, Idaho; 8.6 to 10 Ma.
*Picabo volcanic field, Picabo, Idaho; 10.09 Ma (Arbon Valley Tuff A) and 10.21 Ma ±0.03 (Arbon Valley Tuff B).
*Bruneau-Jarbidge caldera, Bruneau-Jarbidge volcanic field, Bruneau River/ Jarbidge River, Idaho; 10.0 to 12.5 Ma; Ashfall Fossil Beds eruption.
*Owyhee-Humboldt volcanic field, Owyhee County, Idaho, Nevada, and Oregon; around 12.8 to 13.9 Ma.
*McDermitt volcanic field, Orevada rift, McDermitt, Nevada/ Oregon (five overlapping and nested calderas; satellitic to these are two additional calderas), :
**Trout Creek Mountains, East of the Pueblo Mountains, Whitehorse Caldera (size: 15 km wide), Oregon; 15 Ma; of Whitehorse Creek Tuff.
**Jordan Meadow Caldera, (size: 10–15 km wide); 15.6 Ma; Longridge Tuff member 2–3.
**Longridge Caldera, (size: 33 km wide); 15.6 Ma; Longridge Tuff member 5.
**Calavera Caldera, (size: 17 km wide); 15.7 Ma; of Double H Tuff.
**Trout Creek Mountains, Pueblo Caldera (size: 20 x 10 km), Oregon; 15.8 Ma; of Trout Creek Mountains Tuff.
**Hoppin Peaks Caldera, 16 Ma; Hoppin Peaks Tuff.
**Washburn Caldera, (size: 30 x 25 km wide), Oregon; 16.548 Ma; of Oregon Canyon Tuff.
*Yellowstone hotspot (?), Lake Owyhee volcanic field; 15.0 to 15.5 Ma.
*Yellowstone hotspot (?), Northwest Nevada volcanic field, Virgin Valley, High Rock, Hog Ranch, and unnamed calderas; West of the Pine Forest Range, Nevada; 15.5 to 16.5 Ma; Tuffs: Idaho Canyon, Ashdown, Summit Lake, and Soldier Meadow.
*Columbia River Basalt Province: Yellowstone hotspot sets off a huge pulse of volcanic activity, the first eruptions were near the Oregon-Idaho-Washington border. Columbia River and Steens flood basalts, Pueblo, and Malheur Gorge-region, Pueblo Mountains, Steens Mountain, Washington, Oregon, and Idaho; most vigorous eruptions were from 14 to 17 Ma; of lava.
**Columbia River Basalt Group, Columbia River flood basalts,
**Steens flood basalts,
*Crescent volcanics, Olympic Peninsula/ southern Vancouver Island, 50–60 Ma.
**Siletz River Volcanics, Oregon Coast Range, a sequence of basaltic pillow lavas.
*Carmacks Group, Yukon, , 70 Ma.
Notes
*Harney Basin (Devine Canyon Tuff), McDermitt volcanic field, Owyhee-Humboldt volcanic field, Lake Owyhee volcanic field (or Jordan Valley volcanic field, Lake Owyhee), Jordan Craters, Santa Rosa – Calico volcanic field, Hawkes Valley – Lone Mountain volcanic field, Northwest Nevada volcanic field, Juniper Mountain caldera complex, and Silver City – Delamar caldera complex (Silver City, Idaho) are nested in one area. Geologic landmarks of the area: Steens Mountain, Northern Nevada Rift, Midas Trough, Santa Rosa Mountains, Bull Run Mountains, Bull Run – Tuscarora Mountains, Owyhee Mountains, Oregon-Idaho Graben, and western Snake River Plain. *Other manifestations of the Yellowstone hotspot: Rexburg Volcanic Field (4.3 Ma), West of Rexburg, Idaho; Henry's Lake Volcanism (1.3 Ma), Henry's Lake; Blackfoot Volcanic Field (3 Ma), Northwest of Soda Springs, Idaho; Gem Valley Volcanic Field (600 to 50 ka), near Grace, Idaho. *The initial volcanism is part of the Basin and Range Province and the Oregon-Idaho graben (15.0 to 15.5 Ma).See also
*Timeline of volcanism on EarthNotes
References
Map references
* * *Further reading
* * * * * *External links
Yellowstone hotspot interactive
* [https://www.science.org/doi/10.1126/science.aaa5648 The Yellowstone magmatic system from the mantle plume to the upper crust] (46,000 km3 magma reservoir below chamber) {{Hotspots Yellowstone hotspot, Hotspots of North America Volcanism of the Rocky Mountains Volcanism of Idaho Volcanism of Montana Volcanism of Nevada Volcanism of Oregon Volcanism of Washington (state) Volcanism of Wyoming Volcanism of Yukon Landforms of Yellowstone National Park Cretaceous volcanism Paleocene volcanism Eocene volcanism Miocene volcanism Pliocene volcanism Pleistocene volcanism Holocene volcanism Paleogene Idaho Paleogene Montana Paleogene geology of Oregon Paleogene geology of Washington (state) Paleogene geology of Wyoming Neogene Idaho Neogene Montana Neogene geology of Nevada Neogene geology of Oregon Neogene geology of Wyoming Paleocene North America Eocene North America Pleistocene North America Holocene North America Cretaceous United States Miocene United States Pliocene United States Pleistocene United States Quaternary Idaho Quaternary Nevada Quaternary Wyoming Quaternary United States Geological hazards