Volcano forecasting and warning

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News

Highest Alert for Volcano Unleashing Columns of Hot Clouds Nov. 9, 2024, 3:52 AM ET (Newsweek)
Indonesia: Volcano eruption kills several Nov. 4, 2024, 9:09 AM ET (Deutsche Welle)
Volcano erupts in eastern Indonesia, killing 6 Nov. 3, 2024, 3:17 PM ET (South China Morning Post)
Living on a Volcano’s Edge, Italians Practice for Disaster Oct. 27, 2024, 4:15 AM ET (New York Times)

The greatest hazard at potentially active volcanoes is human complacency. The physical hazards can be reliably estimated by studying past eruptive activity as recorded in history or in the prehistoric deposits around a volcano. Volcano observatories can monitor local earthquake activity and the surface deformation of a potentially active volcano and make useful, if not yet precise, forecasts of eruptions. For instance, the measurement of increased earthquake activity beneath Mauna Loa in 1983 led to a forecast of an increase in probability of an eruption for 1984 or 1985; an eruption occurred in March 1984. The major eruption of Mount St. Helens on May 18, 1980, was much larger than anticipated, but a high number of local earthquakes and a visible bulge forming on the north flank of the mountain provided enough warning to encourage a partial evacuation of the surrounding area. Lives were lost, but the toll would have been much higher if access to the area had not been restricted by local authorities. A major problem in reducing volcanic risk is that most explosive volcanoes have such long repose periods that people living nearby consider them extinct rather than dormant.

The correct forecast and evacuation of residents before the 1991 eruption of Mount Pinatubo saved thousands of lives, but the science of eruption forecasting is only beginning and is still fraught with uncertainty. Evacuation of large numbers of people is difficult and expensive. A major evacuation not followed by any major eruption would be a serious mistake, but not evacuating people from a threatening volcano that then erupts catastrophically would be a much worse mistake. It is not a simple problem.

Volcanic landforms

Major types

The common mental image of a volcano is that of a steep symmetrical cone sweeping upward in a concave curve to a sharp summit peak. Mount Fuji in Japan is the archetype of this image, but in reality only a few volcanoes attain this ideal shape. Each of the more than 1,500 potentially active volcanoes or volcanic areas around the world has a distinct form, though most can be generalized into nine categories (see table). These categories are described below in order of their numerical importance.

The most common volcano types of the world
volcano types number prominent examples
Source: Lee Siebert and Tom Simkin, Volcanoes of the World: An Illustrated Catalog of Holocene Volcanoes and Their Eruptions (2002– ), Smithsonian Institution, Global Volcanism Program Digital Information Series, GVP-3, http://www.volcano.si.edu/world.
stratovolcanoes 734 Fuji (Honshu, Japan), Pinatubo (Luzon, Philippines), St. Helens (Washington, U.S.), Cotopaxi (Ecuador), Etna (Sicily, Italy), Ol Doinyo Lengai (Tanzania)
shield volcanoes 171 Fournaise (Réunion), Kilauea (Hawaii, U.S.), Nyamulagira (Congo [Kinshasa]), Tolbachik (Kamchatka, Russia), Tristan da Cunha (South Atlantic)
pyroclastic cones 138 Cerro Negro (Nicaragua), Parícutin (Michoacán, Mexico), Craters of the Moon (Idaho, U.S.)
submarine volcanoes 110 Loihi (Hawaii, U.S.), Vestmanna Islands (Iceland)
volcanic fields 94 Black Rock Desert (Nevada, U.S.), Duruz (Syria), Sikhote-Alin (Russia)
calderas 85 Aso (Kyushu, Japan), Crater Lake (Oregon, U.S.), Krakatoa (Krakatau, Sunda Strait, Indonesia), Ilopango (El Salvador)
complex and compound volcanoes 67 Vesuvius (Campania, Italy), Ontake (Honshu, Japan), Marapi (Sumatra, Indonesia)
lava domes 42 El Chichón (Chiapas, Mexico)
fissure vents and crater rows 26 Lanzarote (Canary Islands, Spain)