Description

Yellowstone National Park has rich human and ecological stories that continue to unfold. People have spent time in the Yellowstone region for more than 11,000 years. Many tribes and bands used the park as their home, hunting grounds, and transportation routes prior to and after European American arrival. Yellowstone was established as the world's first national park in 1872.

Visit Yellowstone and experience the world's first national park. Marvel at a volcano’s hidden power rising up in colorful hot springs, mudpots, and geysers. Explore mountains, forests, and lakes to watch wildlife and witness the drama of the natural world unfold. Discover the history that led to the conservation of our national treasures “for the benefit and enjoyment of the people.”

 

A Long, Long Time Ago: Geologic History of Yellowstone

Graphic with text and illustrations showing two ways heat and magma may have gotten from the core of the earth to the crust.

This diagram shows the general ideas behind two theories of how magma rises to the surface.

Adapted with permission from Windows into the Earth by Robert Smith and Lee J. Siegel, 2000

Most of Earth’s history (from the formation of the earth 4.6 billion years ago to approximately 541 million years ago) is known as the Precambrian time. Rocks of this age are found in northern Yellowstone and in the hearts of the Teton, Beartooth, Wind River, and Gros Ventre ranges. During the Precambrian and the subsequent Paleozoic and Mesozoic eras (541 to 66 million years ago), the western United States was covered at times by oceans, sand dunes, tidal flats, and vast plains. From the end of the Mesozoic through the early Cenozoic, mountain-building processes formed the Rocky Mountains.

During the Cenozoic era (approximately the last 66 million years of Earth’s history), widespread mountain-building, volcanism, faulting, and glaciation sculpted the Yellowstone area. The Absaroka Range along the park’s north and east sides was formed by numerous volcanic eruptions about 50 million years ago. This period of volcanism is not related to the present Yellowstone volcano.

Approximately 30 million years ago, vast expanses of today’s West began stretching apart along an east–west axis. This stretching process increased about 17 million years ago and continues today, creating the modern basin and range topography (north–south mountain ranges with long north–south valleys) characterizing much of the West, including the Yellowstone area.

About 16.5 million years ago, an intense period of volcanism appeared near the intersection of present-day Nevada, Oregon, and Idaho. Repeated volcanic eruptions can be traced across southern Idaho towards Yellowstone. This 500-mile trail of more than 100 calderas was created as the North American plate moved in a southwestern direction over a shallow body of magma. About 2.1 million years ago, the movement of the North American plate brought the Yellowstone area closer to the shallow magma body. This volcanism remains a driving force in Yellowstone today.

 

 Yellowstone Geologic History

542 to 66 Ma: Area covered by inland seas 

50 to 40 Ma: Absaroka volcanics

30 Ma to present: "Basin and Range" forces creating Great Basin topography

16 Ma: Volcanics begin again in present day Nevada and Idaho

2.1 Ma: 1st Yellowstone eruption

1.3 Ma: 2nd Yellowstone eruption

640 ka: 3rd Yellowstone eruption

174 ka: West Thumb eruption

160 to 151 ka: Bull Lake Glaciation underway

20 to 16 ka: Pinedale Glaciation maximum

 

Ma = mega annum, or millions of years ago

ka = kilo annum, or one thousand years ago 

 

Magma and Hot Spots

Magma (molten rock from Earth’s mantle) has been close to the surface in Yellowstone for more than 2 million years. Its heat melted rocks in the crust, creating a magma chamber of partially molten, partially solid rock. Heat from this shallow magma caused an area of the upper crust to expand and rise. The Yellowstone Plateau became a geomorphic landform shaped by episodes of volcanic activity. Stress also caused rocks overlying the magma to break, forming faults and causing earthquakes. Eventually, these faults reached the deep magma chamber. Magma oozed through these cracks, releasing pressure within the chamber and allowing trapped gases to expand rapidly. A massive volcanic eruption then occurred along vents, spewing volcanic ash and gas into the atmosphere and causing fast super-hot debris (pyroclastic) flows on the ground. As the underground magma chamber emptied, the ground above it sunk, creating the first of Yellowstone’s three calderas.

The volume of material ejected during this first eruption is estimated to have been 6,000 times the size of the 1980 eruption of Mt. St. Helens in Washington, and ash has been found as far away as Missouri. Approximately 1.3 million years ago, a second, smaller volcanic eruption occurred within the western edge of the first caldera. Then 640,000 years ago, a third massive volcanic eruption created the Yellowstone Caldera, 30 by 45 miles in size. A much smaller eruption approximately 174,000 years ago forming what is now the West Thumb of Yellowstone Lake. In between and after these eruptions, lava flowed—with the last being approximately 70,000 years ago.

Over time, the pressure from magma has formed two resurgent domes inside the Yellowstone Caldera. Magma may be as little as 3–8 miles beneath Sour Creek Dome and 8–12 miles beneath Mallard Lake Dome; they both lift up and subside as magma or hydrothermal fluids upwell or subside beneath them. The entire caldera floor lifts up or subsides, too, but not as much as the domes. In the past century, the net result has been to tilt the caldera floor toward the south. As a result, Yellowstone Lake’s southern shores have subsided and trees stand in water. Continue: More about the Volcano

 

 

 

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Phone(307) 344-7381
Websitehttps://www.nps.gov/yell/index.htm
Where is this place?
CountryUnited States
StateWyoming
CityYellowstone National Park
AddressP.O. Box 168
Zip/Postal Code82190-0168
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