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Forecasting Volcanic Eruptions

  • Teacher Resource
  • Posted 12.17.05
  • NOVA

Until recently, people living in a volcano's shadow had little help anticipating an eruption. A major volcanic event might strike with no warning at all. In the past 300 years, volcanic eruptions, most of them unexpected, have killed more than 250,000 people. In 2000, experts estimated that 500 million people were living in areas at risk from catastrophic volcanic eruptions. This media-rich essay from NOVA Online describes the strides scientists have made in eruption forecasting in recent years and explores why accurately predicting volcanic events remains difficult.

NOVA Forecasting Volcanic Eruptions
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  • Media Type: Interactive
  • Size: 154.4 KB
  • Level: Grades 9-12

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Source: NOVA: "Volcano Under the City"

This resource can be found on the NOVA: “Volcano Above the Clouds" Web site.

Background

The majority of volcanoes occur along the boundaries of tectonic plates. At these violent places, slabs of solid rock 5 to 100 kilometers (3 to 62 miles) thick are created and destroyed. Subduction zones, where oceanic crust is forced back into Earth's molten mantle, give rise to 80 percent of the world's volcanoes. The circum-Pacific belt, or Ring of Fire, which stretches up the western coasts of South and North America, across the Aleutian Islands, and down the eastern coasts of Asia, is one such zone.

Areas where two plates move away from each other, called rift zones, also give rise to volcanic activity. The East African Rift is a wide crack in Earth's crust that runs for more than 1,930 kilometers (1,200 miles) from Malawi through Tanzania, Kenya, and Ethiopia to the Gulf of Aden. Along this rift is a string of active volcanoes that includes Nyiragongo, a so-called stratovolcano located just north of the city of Goma in the Democratic Republic of Congo. Nyiragongo is one of the world's most active and dangerous volcanoes.

In an effort to forecast volcanic eruptions, vulcanologists monitor three types of activity within and around volcanoes: seismic activity, ground deformation, and gas emission. To measure seismic activity within a volcano, scientists use a seismograph -- the same apparatus used to measure earthquakes -- to record vibrations of Earth's crust. When rocks crack or slip past each other or when magma applies pressure to the inside of a volcano's magma channel, the surrounding rock vibrates much the way a tuning fork vibrates when it is struck. Seismographs record both the intensity and the frequency of the vibration, providing information that helps scientists determine the location, amount, and type of activity within a volcano.

Deformation of the ground on a volcano's slopes and gases emitted from a volcano's vents provide external signs of activity within the volcano. Pressure building inside a volcano's magma chamber or lava tubes may cause the ground surface to bulge outward. Satellite images and sensitive instruments positioned on a volcano's slopes allow scientists to measure elevation changes of a few centimeters or less. Analysis of the composition of gases emitted from a volcano also helps scientists determine the composition of magma inside, an indication of the volcano's explosiveness.

Unfortunately, no two volcanoes are alike. A combination that causes one volcano to erupt violently may cause no such result with another volcano. Having a limited number of cases to study, scientists are only beginning to understand the reasons for these variations.

To learn more about Nyiragongo, check out Anatomy of a Volcano.

To learn about one of the largest and deadliest volcanic eruptions in recent history, check out Mount Pinatubo: Predicting a Volcanic Eruption and Mount Pinatubo: The Aftermath of a Volcanic Eruption.

To learn about the tools used to predict hurricanes, check out Hurricanes: New Tools for Predicting.

Questions for Discussion

    • What are two factors that make forecasting volcanic eruptions difficult?
    • What are the indicators that scientists use to monitor volcanic activity?
    • How might an effort to forecast a volcanic eruption fail even in the absence of a violent eruption?
    • How many potentially active volcanoes are there in the world and what problem does this present in terms of accurately forecasting their eruptions?

Resource Produced by:


					WGBH Educational Foundation

Collection Developed by:


						WGBH Educational Foundation

Collection Credits

Collection Funded by:


						National Science Foundation



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