Volcanoes . . . IN SPACE!The largest volcano known to humanity is not actually on Earth! Olympus Mons is a dormant shield volcano on Mars that is taller than three Mount Everests and is about as wide as the entire Hawaiian Islands chain.The most volcanically active body in our solar system is not Earth at all. It’s Jupiter’s moon Io. At any one time, Io has 400 active volcanoes, which can shoot plumes up to 500 kilometers (300 miles) into outer space! In 2001, a volcano in Io’s Surt region produced the largest eruption ever recorded, covering 1,900 square kilometers (1,180 square miles), an area larger than the city of Los Angeles.Decade VolcanoesThe “Decade Volcanoes” form a list of what could be considered the most hazardous volcanoes on the planet. The 16 decade volcanoes are:
Subglacial EruptionsOne of the most mysterious types of volcanic eruptions is a subglacial eruption, which takes place on ice-covered volcanoes. Subglacial eruptions often result in flooding, as glaciers are heated by hot magma and volcanic gas. This sudden, violent flooding of glacial meltwater is called a jökulhlaup.Volcanic DeitiesVolcanoes are such powerful forces of nature that many cultures in volcanically active regions have sophisticated mythologies supporting gods and goddesses of volcanoes.
- Avachinsky-Koryaksky, Russia
- Colima, Mexico
- Etna, Italy
- Galeras, Colombia
- Mauna Loa, USA
- Merapi, Indonesia
- Nyiragongo, Dem. Rep. of the Congo
- Rainier, USA
- Sakurajima, Japan
- Santa Maria/Santiaguito, Guatemala
- Santorini, Greece
- Taal, Philippines
- Teide, Spain (Canary Islands)
- Ulawun, Papau New Guinea
- Unzen, Japan
- Vesuvius, Italy
A volcano is a feature in Earth’s crust where molten rock is squeezed out onto the Earth’s surface. This molten rock is called magma when it is beneath the surface and lava when it erupts, or flows out, from a volcano. Along with lava, volcanoes also release gases, ash, and solid rock.Volcanoes come in many different shapes and sizes but are most commonly cone-shaped hills or mountains. They are found throughout the world, forming ridges deep below the sea surface and mountains that are thousands of meters high. About 1,900 volcanoes on Earth are considered active, meaning they show some level of occasional activity and are likely to erupt again. Many others are dormant volcanoes, showing no current signs of exploding but likely to become active at some point in the future. Others are considered extinct.Volcanoes are incredibly powerful agents of change. Eruptions can create new landforms, but can also destroy everything in their path. About 350 million people (or about one out of every 20 people in the world) live within the “danger range” of an active volcano. Volcanologists closely monitor volcanoes so they can better predict impending eruptions and prepare nearby populations for potential volcanic hazards that could endanger their safety.Plate TectonicsMost volcanoes form at the boundaries of Earth’s tectonic plates. These plates are huge slabs of the Earth’s crust and upper mantle, which fit together like pieces of a puzzle. These plates are not fixed, but are constantly moving at a very slow rate. They move only a few centimeters per year. Sometimes, the plates collide with one another or move apart. Volcanoes are most common in these geologically active boundaries.The two types of plate boundaries that are most likely to produce volcanic activity are divergent plate boundaries and convergent plate boundaries.Divergent Plate BoundariesAt a divergent boundary, tectonic plates move apart from one another. They never really separate because magma continuously moves up from the mantle into this boundary, building new plate material on both sides of the plate boundary.The Atlantic Ocean is home to a divergent plate boundary, a place called the Mid-Atlantic Ridge. Here, the North American and Eurasian tectonic plates are moving in opposite directions. Along the Mid-Atlantic Ridge, hot magma swells upward and becomes part of the North American and Eurasian plates. The upward movement and eventual cooling of this buoyant magma creates high ridges on the ocean floor. These ridges are interconnected, forming a continuous volcanic mountain range nearly 60,000 kilometers (37,000 miles)—the longest in the world.Another divergent plate boundary is the East Pacific Rise, which separates the massive Pacific plate from the Nazca, Cocos, and North American plates.Vents and fractures (also called fissures) in these mid-ocean ridges allow magma and gases to escape into the ocean. This submarine volcanic activity accounts for roughly 75% of the average annual volume of magma that reaches the Earth’s crust. Most submarine volcanoes are found on ridges thousands of meters below the ocean surface.Some ocean ridges reach the ocean surface and create landforms. The island of Iceland is a part of the Mid-Atlantic Ridge. The diverging Eurasian and North American plates caused the eruptions of Eyjafjallajökull (in 2010) and Bardarbunga (in 2014). These eruptions were preceded by significant rifting and cracking on the ground surface, which are also emblematic of diverging plate movement.Of course, divergent plate boundaries also exist on land. The East African Rift is an example of a single tectonic plate being ripped in two. Along the Horn of Africa, the African plate is tearing itself into what is sometimes called the Nubian plate (to the west, including most of the current African plate) and the Somali plate (to the east, including the Horn of Africa and the western Indian Ocean). Along this divergent plate boundary are volcanoes such as Mount Nyiragongo, in the Democratic Republic of Congo, and Mount Kilimanjaro, in Kenya.Convergent Plate BoundariesAt a convergent plate boundary, tectonic plates move toward one another and collide. Oftentimes, this collision forces the denser plate edge to subduct, or sink beneath the plate edge that is less dense. These subduction zones can create deep trenches. As the denser plate edge moves downward, the pressure and temperature surrounding it increases, which causes changes to the plate that melt the mantle above, and the melted rock rises through the plate, sometimes reaching its surface as part of a volcano. Over millions of years, the rising magma can create a series of volcanoes known as a volcanic arc.The majority of volcanic arcs can be found in the Ring of Fire, a horseshoe-shaped string of about 425 volcanoes that edges the Pacific Ocean. If you were to drain the water out of the Pacific Ocean, you would see a series of deep canyons (trenches) running parallel to corresponding volcanic islands and mountain ranges. The Aleutian Islands, stretching from Alaska to Russia in the Bering Sea, for instance, run parallel to the Aleutian Trench, formed as the Pacific plate subducts under the North American plate. The Aleutian Islands have 27 of the United States’ 65 historically active volcanoes.The mighty Andes Mountains of South America run parallel to the Peru-Chile Trench. These mountains are continually built up as the Nazca plate subducts under the South American plate. The Andes Mountains include the world’s highest active volcano, Nevados Ojos del Salado, which rises to 6,879 meters (over 22,500 feet) along the Chile-Argentina border.Hot SpotsFor many years, scientists have been trying to explain why some volcanoes exist thousands of kilometers away from tectonic plate boundaries.The dominant theory, framed by Canadian geophysicist J. Tuzo Wilson in 1963, states that these volcanoes are created by exceptionally hot areas fixed deep below Earth’s mantle. These hot spots are able to independently melt the tectonic plate above them, creating magma that erupts onto the top of the plate.In hot spots beneath the ocean, the tectonic activity creates a volcanic mound. Over millions of years, volcanic mounds can grow until they reach sea level and create a volcanic island. The volcanic island moves as part of its tectonic plate. The hot spot stays put, however. As the volcano moves farther from the hot spot, it goes extinct and eventually erodes back into the ocean. A new and active volcano develops over the hot spot, creating a continuous cycle of volcanism—and a string of volcanic islands tracing the tectonic plate’s movement over time.For Wilson and many scientists, the best example of hot spot volcanism is the Hawaiian Islands. Experts think this volcanic chain of islands has been forming for at least 70 million years over a hot spot underneath the Pacific plate. Of all the inhabited Hawaiian Islands, Kauai is located farthest from the presumed hot spot and has the most eroded and oldest volcanic rocks, dated at 5.5 million years. Meanwhile, on the “Big Island” of Hawaii—still fueled by the hot spot—the oldest rocks are less than 0.7 million years old and volcanic activity continues to create new land.Hot spots can also create terrestrial volcanoes. The Yellowstone Supervolcano, for instance, sits over a hot spot in the middle of the North American plate, with a series of ancient calderas stretching across southern Idaho. The Yellowstone hot spot fuels the geysers, hot springs, and other geologic activity at Yellowstone National Park, Wyoming.While some data seem to prove Wilson’s hot spot theory, more recent scientific studies suggest that these hot spots may be found at more shallow depths in the Earth’s mantle and may migrate slowly over geologic time rather than stay fixed in the same spot.Principal Types of VolcanoesWhile volcanoes come in a variety of shapes and sizes, they all share a few key characteristics. All volcanoes are connected to a reservoir of molten rock, called a magma chamber, below the surface of the Earth. When pressure inside the chamber builds up, the buoyant magma travels out a surface vent or series of vents, through a central interior pipe or series of pipes. These eruptions, which vary in size, material, and explosiveness, create different types of volcanoes.StratovolcanoesStratovolcanoes are some of the most easily recognizable and imposing volcanoes, with steep, conic peaks rising up to several thousand meters above the landscape. Also known as composite volcanoes, they are made up of layers of lava, volcanic ash, and fragmented rocks. These layers are built up over time as the volcano erupts through a vent or group of vents at the summit’s crater.Mount Rainier is an impressive stratovolcano that rises 4,392 meters (14,410 feet) above sea level just south of Seattle, Washington. Over the past half million years, Mount Rainier has produced a series of alternating lava eruptions and debris eruptions. These eruptions have given Mount Rainier the classic layered structure and conic shape of a composite volcano. The volcano’s peak has also been carved down by a series of glaciers, giving it a craggy and rugged shape.Volcan de Fuego and Acatenango are a pair of stratovolcanoes that stand more than 3,700 meters (12,000 feet) above sea level near Antigua, Guatemala. While the volcanoes are considered twins because of their similar shape and size, they are made of different types of lava and have distinct eruption histories. While Acatenango erupts infrequently today, Fuego is considered to be the most active volcano in Central America, erupting more than 60 times since 1524.Shield VolcanoesShield volcanoes are built almost exclusively of lava, which flows out in all directions during an eruption. These flows, made of highly fluid basalt lava, spread over great distances and cool in thin layers. Over time, the layers build up and create a gently sloping dome that looks like a warrior’s shield. While they are not as eye-catching as their steep stratovolcano cousins, shield volcanoes are often much larger in volume because of their broad, expansive structure.Shield volcanoes make up the entirety of the Hawaiian Islands. The Kilauea and Mauna Loa shield volcanoes, located on the “Big Island” of Hawaii, rise from the ocean floor more than 4,500 meters (15,000 feet) below sea level. The summit of Mauna Loa stands at 4,168 meters (13,677 feet) above sea level and more than 8,500 meters (28,000 feet) above the ocean floor, making it the world’s largest active volcano—and, by some accounts, the world’s tallest mountain. The smaller volcano, Kilauea, has been erupting continuously since 1983, making it one of the world’s most active volcanoes.The Galapagos Islands are also made up of a series of shield volcanoes. Isabela and Fernandina islands have flatter tops than other shield volcanoes because lava erupts from fissures around their tops and along ridges at their bases. As a result, the volcanoes rise at the top and grow outward at the bottom—but not in the middle, making them look like an “inverted soup bowl.”Pyroclastic ConesPyroclastic cones are the most prolific type of volcano on Earth. They can develop as part of stratovolcanoes, shield volcanoes, or independently. Also known as cinder cones, they form after violent eruptions blow lava into the air. In the atmosphere, the lava fragments solidify and fall as “cinders” around a singular vent. Often formed from a single eruption or short series of eruptions, pyroclastic cones only stand at heights of tens of meters to hundreds of meters.Parícutin, Mexico, is a unique pyroclastic cone. It was the first volcano to be studied for its entire life cycle. Emerging from a cornfield in 1943, Parícutin’s explosive eruptions caused it to reach 80% of its height of 424 meters (1,391 feet) during its first year of activity. In that time, lava and ash buried the nearby town of San Juan. Over the next eight years, Parícutin built the remainder of its cone—and then went quiet. Geologists learned a great deal about the evolution of volcanoes in Parícutin’s short, nine-year life.Lava DomesLava domes are like shield volcanoes in that they are built entirely of lava. This lava, however, is too thick and sticky to move great distances. It just piles up around the volcano vent. Lava domes are often found on the summit or flanks of a volcano, but they can also develop independently. Like pyroclastic cones, they only reach a few hundred meters, as they are formed during singular eruptions or slow lava releases.One of the most iconic lava domes developed after the devastating 1902 eruption of Mount Pelée on the island of Martinique. For almost a year, a lava dome grew out of a summit crater created from the eruption, reaching a height of more than 300 meters (1,000 feet). Known as the Tower of Pelée, the obelisk-shaped structure was twice the height of the Washington Monument. It ultimately collapsed into a pile of rubble after 11 months of growth.Other Important Volcanic FeaturesCalderasSome volcanoes experience such large, explosive eruptions that they release most of the material in their magma chamber. This causes the land around the erupting vent or vents to collapse inwardly, creating circular depressions called calderas. Depending on their intensity and duration, volcanic eruptions can create calderas as much as 100 kilometers wide.Crater Lake, Oregon, is in a caldera about 10 kilometers (6 miles) wide. Crater Lake’s caldera resulted from an eruption that occurred more than 7,000 years ago. The volcano's magma chamber collapsed, then filled with water from rain and snow, creating the lake. Crater Lake is the deepest lake in the United States.Deception Island, located off the coast of Antarctica, experienced a violent eruption roughly 10,000 years ago. The volcano summit collapsed, forming a caldera 7 kilometers (4.4 miles) wide and flooded with seawater. The caldera gives Deception Island its horseshoe shape, which opens to the sea through a narrow channel. Deception Island’s unique geologic structure makes it one of the only places in the world where ocean vessels can sail directly into an active volcano.CratersMuch like calderas, craters are depressions left after a volcano experiences a large eruption. While calderas are formed by the collapse of material inside a volcano, craters are formed as materials explode out from a volcano. Craters are usually much smaller than calderas, only extending to a maximum of about one kilometer (.62 mile) in diameter.Many volcanoes have multiple craters caused by different eruptions. The Maly Semiachik volcano, located on the Kamchatka Peninsula in far eastern Russia, has six craters at its summit. The youngest of these craters, Troitsky, filled in with water and snowmelt, creating a lake 140 meters (459 feet) deep. The lake is highly acidic, as volcanic gases continue to be released into the water from the active volcano below.Lava lakes are also found in volcanic craters. Erta Ale, a volcano in Ethiopia, has a lava lake in its summit crater. Lava lakes are where magma has bubbled up to the surface and pooled in a crater. Volcanologists can fly over Erta Ale’s summit crater to see how the lava lake is behaving and predict future behavior.Types of Volcanic EruptionsVolcanic eruptions are as diverse as volcanoes themselves—which is to say, very diverse! Some of the ways volcanologists have classified these eruptions are based on the heights they reach, the types of materials they eject, and the explosiveness of these ejections.HawaiianHawaiian eruptions are the calmest eruption type. They are characterized by steady lava eruptions known as lava fountains or fire fountains. Lava fountains are able to reach heights of up to 2 kilometers (1.2 miles). The highly fluid lava associated with Hawaiian eruptions flows easily away from the volcano summit, often creating fiery rivers and lakes of lava within depressions on the surrounding landscape.These eruptions are named after the Hawaiian Islands, where they most often occur. Kilauea, which has been erupting continuously since 1983, has produced lava flows covering more than 100 square kilometers (37 square miles) on the island of Hawaii. These flows continuously destroy houses and communities in their path, while also adding new coastline to the island.StrombolianStrombolian eruptions are characterized by short-lived outbursts of lava rather than steady fountaining. The lava is thicker and has a higher gas content than that of Hawaiian eruptions. Large gas bubbles rise from the magma chamber, pushing the pasty lava upward until the bubbles explode at the summit vent. These explosions can reach heights up to 10 kilometers (6.2 miles) although most don’t go higher than a few hundred meters into the air.Strombolian eruptions are named after the Mediterranean island of Stromboli, Italy. Considered by many to be the most active volcano on Earth, Stromboli has been erupting almost continuously for 2,000 years. The island’s eruptions are almost always Strombolian in nature: Small gas explosions eject blobs of lava into the air a couple of times per hour.VulcanianVulcanian eruptions are short-lived but much more explosive than Strombolian eruptions. Very thick lava causes gas pressure to build up in the magma chamber. When this pressure is finally released it creates canon-like explosions that can travel faster than 350 meters per second (800 miles per hour). Lava, rock, and ash are propelled up to 20 kilometers (12.4 miles) in the air, although most eruption columns are between 5 and 10 kilometers high. These plumes of material have the ability to drift moderate distances away from the eruption site.The 2013 vulcanian eruption of Sakurajima, on the island of Kyushu, Japan, covered the nearby city of Kagoshima in a thick coat of ash.PlinianReaching as high as 50 kilometers (35 miles) in the atmosphere, Plinian eruptions are the largest of all eruption types. Much like vulcanian eruptions, they eject materials at speeds of hundreds of meters per second. Plinian eruptions, however, are more sustained than the coughing fits of vulcanian eruptions. These consistent eruptions result from the volcano’s magma and growing gas bubbles rising at a similar velocity.Plinian eruptions are the most destructive type of eruption. They release a deadly mixture of lava, ash, and volcanic rocks such as scoria and pumice, which can fall kilometers away from the eruption site. They are also characterized by pyroclastic flow, a fluid mixture of fragmented materials and extremely hot, toxic gases.In 79 CE, a series of Plinian eruptions from Mount Vesuvius buried the nearby Roman cities of Pompeii and Herculaneum (in what is today Italy). The cities and their 13,000 inhabitants were buried in volcanic ash and rock. Rainfall mixed with the ash and created a concrete-like substance that preserved the city for thousands of years.SurtseyanSurtseyan eruptions occur where magma or lava interacts with water, most often when an undersea volcano reaches the ocean surface. Another term for this sort of interaction is a phreatomagmatic eruption. When heated rapidly by lava, water flashes to steam and expands violently, creating the most explosive of all eruption types. This aggressive interaction between water and heat is able to fragment lava into very fine grains of ash that can reach heights of 20 kilometers (12.4 miles).Tonga’s islands of Hunga Tonga and Hunga Ha'apai are actually the tops of a single, large underwater volcano. In 2009, the volcano erupted for several days, causing steam and ash to explode from the water to altitudes of 5 kilometers (3.1 miles). While the eruptions killed all signs of wildlife on and around the islands, it also added hundreds of square meters of land to Hunga Ha’apai.Volcanic HazardsVolcanoes are some of Earth’s most potent natural hazards and agents of change. They release enormous amounts of energy and material, engaging natural processes that can modify landscapes at a local, regional, and even global scale.Many volcanic materials and processes pose a threat to human, animal, and other ecological communities.Volcanic GasVolcanoes regularly release volcanic gases that can be dangerous at concentrated levels. Carbon dioxide and fluorine can collect in soil or volcanic ash, causing crop failure, animal death and deformity, and human illness.Volcanic eruptions can also release massive amounts of sulfur dioxide, which rises into the stratosphere. There, it reflects incoming solar radiation while absorbing outgoing land radiation, leading to a cooling of the Earth’s temperature.In extreme cases, these “volcanic winters” can cause crop failures and drastically affect weather. The 1815 eruption of Mount Tambora, Indonesia, cooled the average global temperature by as much as 3° Celsius (5.4° Fahrenheit), causing the “year without a summer.”Landslides and LaharsThe enormous energy of volcanic eruptions can cause large landslides that move at speeds of more than 100 kilometers per hour (60 miles per hour). Mount St. Helens, Washington, is a stratovolcano that had an explosive Plinian eruption in 1980. The eruption produced the largest landslide in recorded history, covering a 36-kilometer (14-mile) area of land with ash and rocks. Reaching speeds of 50 to 80 meters (165 to 260 feet) per second, the landslide had enough power to surge over a ridge 400 meters (1,312 feet) high.Landslides can mix with surrounding rivers, ice, snow, or rain to produce watery mixtures called lahars. This mixture of water, rock, and debris creates a sludge that can obliterate almost anything in its path. The 1985 eruption of Nevado del Ruiz, Colombia, caused small lahars of rock, ash, and melted snow to flow down into the surrounding river valleys. The lahars gained momentum and size as they traveled the riverbeds, ultimately destroying more than 5,000 homes and killing more than 23,000 people.Pyroclastic FlowsExplosive eruptions sometimes produce pyroclastic flows, a mixture of hot rock fragments and toxic gases that move almost like a liquid out and away from the volcano. Reaching speeds greater than 80 kilometers per hour (50 miles per hour) and temperatures between 200-700° Celsius (392-1292° Fahrenheit), pyroclastic flows knock down, shatter, bury, or burn anything in their path.Pyroclastic flows are responsible for the haunting figures from Pompeii and Herculaneum, Italy. While many scientists thought residents of Pompeii suffocated to death from volcanic gases released during Mount Vesuvius’ eruption in 79 CE, new studies suggest that they actually died from extreme heat produced by the volcano’s pyroclastic flow.Volcanologist Giuseppe Mastrolorenzo and the Italian National Institute for Geophysics and Volcanology recently discovered that the pyroclastic flow that reached Pompeii produced temperatures of up to 300° Celsius (570° Fahrenheit). These extreme temperatures are able to kill people in a fraction of a second, causing them to spasm in contorted postures like those found amongst the plaster casts of Vesuvius’ victims.Volcanic AshHuge plumes of volcanic ash can spread over large areas of the sky, turning daylight into complete darkness and inhibiting air traffic. (During the eruption of Iceland’s Eyjafjallajökull in 2011, flights to and from northern Europe were suspended for more than a week.) Volcanic ash conducts electricity when wet and can contain concentrated levels of toxic materials, posing threats to humans that come in close contact with it on land.The 1994 double eruption of Vulcan and Tavurvur in Papua New Guinea covered the nearby city of Rabaul in a layer of ash up to 75 centimeters (about 2 feet) deep. Rains turned the ash into a cement-like substance that was heavy enough to collapse 80% of the buildings in the city.Volcanic Monitoring and ResearchVolcanic hazards can be incredibly dangerous to human life. In the United States alone, 54 volcanoes are a very high or high threat to public safety. By closely monitoring volcanic activity, volcanologists can warn people of impending eruptions. While these warnings are not exact predictions, they do provide communities with the valuable time they need to protect themselves against volcanic hazards and ensure their safety.Volcanologists predict volcanic activity by taking real-time measurements and comparing them against what happened in the past. They use a variety of instruments and technologies to monitor temperatures, gas emissions, water levels, ground movements, and changes in the landscape. These measurements paint a clear portrait of a volcano’s current state, which volcanologists then interpret against historical data. Volcanologists issue eruption warnings when these measurements stray far from the norm or mirror those that preceded a historic eruption.Different countries use different systems to issue eruption warnings to the public. All of these systems categorize their alerts based on the probability and severity of an impending eruption. Typical volcanic behavior is often represented by the number 1 or the color green, while an imminent and potentially destructive eruption is typically represented by the number 4 or the color red.A number of international organizations lead the way in volcanic monitoring and research, providing invaluable information to scientists, volcanologists, and the public alike. The Smithsonian Institution’s Global Volcanism Program documents current activity for all the volcanoes on the planet through publicly available data, reports, and images. The program also keeps the world’s only archive of volcanic activity from the last 10,000 years.As part of the UN International Decade for Natural Disaster Reduction, the International Association of Volcanology and Chemistry of the Earth’s Interior (IAVCEI) created a list of 16 "Decade Volcanoes" to study because of the high risk they pose to public safety. Mount Nyiragongo in Democratic Republic of the Congo, for example, is dangerously close to the city of Goma. Its 2002 eruption killed 50 people and forced roughly 450,000 people to evacuate their communities. The Santa María Volcano, which sits right above the city of Quetzaltenango, Guatemala, has been continuously erupting since 2003. The Decade Volcanoes program has brought together geologists, volcanologists, and government officials to closely study these volcanoes and create risk-mitigation plans for potential eruptions.
- Vulcan (for whom volcanoes are named) is a Roman god.
- Hephaestus is a Greek god from whom Vulcan developed.
- Pele is a Hawaiian goddess.
- Ruaumoko is a Maori god.
- Xiahtecuhtli is an Aztec god.
- Ayanju is a Yoruba orisha, or deity.
- Kagu-Tsuchi is a Japanese kami, or spirit.
Term Part of Speech Definition Encyclopedic Entry absorb Verb
to soak up.
chemical compound that reacts with a base to form a salt. Acids can corrode some natural materials. Acids have pH levels lower than 7.
active volcano Noun
volcano that has had a recorded eruption since the last glacial period, about 10,000 years ago.
forceful or offensive.
the distance above sea level.
Encyclopedic Entry: altitude ancient Adjective
layers of gases surrounding a planet or other celestial body.
Encyclopedic Entry: atmosphere basalt Noun
type of dark volcanic rock.
natural or artificial line separating two pieces of land.
Encyclopedic Entry: border boundary Noun
line separating geographical areas.
Encyclopedic Entry: boundary buoyant Adjective
capable of floating.
large depression resulting from the collapse of the center of a volcano.
Encyclopedic Entry: caldera canyon Noun
deep, narrow valley with steep sides.
Encyclopedic Entry: canyon cast Noun
impression formed when a liquid substance is poured into a form or mold, and then hardens into that shape.
to arrange by specific type or characteristic.
waterway between two relatively close land masses.
Encyclopedic Entry: channel cinder cone Noun
hill created by tiny bits of lava blown out of a volcano and fallen down around the volcanic vent. Also called a scoria cone.
edge of land along the sea or other large body of water.
Encyclopedic Entry: coast collapse Verb
to fall apart completely.
to crash into.
strong, vertical support structure, such as a pillar.
items gathered closely together in one place.
hard building material made from mixing cement with rock and water.
to transmit, transport, or carry.
to distort or bend out of shape.
convergent plate boundary Noun
area where two or more tectonic plates bump into each other. Also called a collision zone.
to match or be similar to.
rugged or rocky.
bowl-shaped depression formed by a volcanic eruption or impact of a meteorite.
Encyclopedic Entry: crater crop Noun
Encyclopedic Entry: crop crust Noun
rocky outermost layer of Earth or other planet.
Encyclopedic Entry: crust data Plural Noun
(singular: datum) information collected during a scientific study.
remains of something broken or destroyed; waste, or garbage.
to put out of shape or distort.
having parts or molecules that are packed closely together.
indentation or dip in the landscape.
to ruin or make useless.
very destructive or damaging.
width of a circle.
divergent boundary Noun
area where two or more tectonic plates are moving away from each other. Also called an extensional boundary.
varied or having many different types.
shape that is half of a sphere.
Encyclopedic Entry: dome dominant Adjective
main or most important.
dormant volcano Noun
volcano that has erupted in the past but is unlikely to erupt soon.
length of time.
to get rid of or throw out.
set of physical phenomena associated with the presence and flow of electric charge.
symbolic or representative.
discharge or release.
to put at risk.
capacity to do work.
to wear away.
to explode or suddenly eject material.
to leave or remove from a dangerous place.
limited to a few characteristics.
no longer existing.
narrow opening or crack.
to be or place at the side of something.
overflow of a body of water onto land.
Encyclopedic Entry: flood fluid Noun
material that is able to flow and change shape.
portion or section.
piece or part.
person who studies the physical formations of the Earth.
study of the Earth's physical properties and processes.
natural hot spring that sometimes erupts with water or steam.
Encyclopedic Entry: geyser glacier Noun
mass of ice that moves slowly over land.
Encyclopedic Entry: glacier Hawaiian eruption Noun
relatively gentle volcanic eruption characterized by consistent, effusive flows of low-viscosity lava.
danger or risk.
Horn of Africa Noun
large peninsula in northeast Africa, including the countries of Somalia, Djibouti, Eritrea, and Ethiopia. Also called the Somali Peninsula.
hot spot Noun
intensely hot region deep within the Earth that rises to just underneath the surface. Some hot spots produce volcanoes.
Encyclopedic Entry: hot spot hot spring Noun
small flow of water flowing naturally from an underground water source heated by hot or molten rock.
event or symbol representing a belief, nation, or community.
likely to occur soon.
upcoming or about to happen.
rare or not often.
to live in a specific place.
to slow or prevent.
measure of magnitude.
international organization Noun
unit made up of governments or groups in different countries, usually for a specific purpose.
Encyclopedic Entry: international organization interpret Verb
to explain or understand the meaning of something.
reversed or upside-down.
flow of mud and other wet material from a volcano.
specific natural feature on the Earth's surface.
Encyclopedic Entry: landform landscape Noun
the geographic features of a region.
Encyclopedic Entry: landscape landslide Noun
the fall of rocks, soil, and other materials from a mountain, hill, or slope.
Encyclopedic Entry: landslide lava Noun
molten rock, or magma, that erupts from volcanoes or fissures in the Earth's surface.
lava dome Noun
feature formed as lava hardens over a volcanic vent.
lava fountain Noun
phenomenon where lava is forcefully but not violently ejected from a volcano through a fissure or vent.
lava lake Noun
lava pooled in the center of a volcano's caldera or crater.
state of matter with no fixed shape and molecules that remain loosely bound with each other.
molten, or partially melted, rock beneath the Earth's surface.
Encyclopedic Entry: magma magma chamber Noun
underground reservoir that holds molten rock.
middle layer of the Earth, made of mostly solid rock.
Encyclopedic Entry: mantle massive Adjective
very large or heavy.
process of determining length, width, mass (weight), volume, distance or some other quality or size.
Mid-Atlantic Ridge Noun
underwater mountain range that runs from Iceland to Antarctica.
mid-ocean ridge Noun
underwater mountain range.
to move from one place or activity to another.
process of becoming or making something milder and less severe.
to change or alter.
solid material turned to liquid by heat.
speed, direction, or velocity at which something moves.
to observe and record behavior or data.
mountain range Noun
series or chain of mountains that are close together.
natural hazard Noun
event in the physical environment that is destructive to human activity.
tall, tapering, four-sided stone structure.
to destroy completely.
ocean vessel Noun
ship, boat, submarine, or other vehicle able to travel the ocean.
equal distance apart, and never meeting.
phreatomagmatic eruption Noun
volcanic activity driven by the direct interaction of magma and an external body of water.
paste-like material made of crushed stone (usually lime, gypsum, and sand), water, and fiber.
Plinian eruption Noun
powerful, violent volcanic explosion characterized by pyroclastic flows and ejection of material high into the atmosphere.
single, upward flow of a fluid, such as water or smoke.
to go before.
to know the outcome of a situation in advance.
to assemble or get ready for something.
force pressed on an object by another object or condition, such as gravity.
chance or likelihood of something happening.
very productive or abundant.
people of a community.
type of igneous rock with many pores.
pyroclastic cone Noun
hill created by tiny bits of lava blown out of a volcano and fallen down around the volcanic vent. Also called a cinder cone.
pyroclastic flow Noun
current of volcanic ash, lava, and gas that flows from a volcano.
Encyclopedic Entry: pyroclastic flow radiation Noun
energy, emitted as waves or particles, radiating outward from a source.
Encyclopedic Entry: rain reservoir Noun
natural or man-made lake.
Encyclopedic Entry: reservoir ridge Noun
long, narrow elevation of earth.
break in the Earth's crust created by it spreading or splitting apart.
Ring of Fire Noun
horseshoe-shaped string of volcanoes and earthquake sites around edges of the Pacific Ocean.
Encyclopedic Entry: Ring of Fire river Noun
large stream of flowing fresh water.
Encyclopedic Entry: river river valley Noun
depression in the earth caused by a river eroding the surrounding soil.
natural substance composed of solid mineral matter.
rough pieces of stone.
having an irregular or jagged surface.
type of rough, crusty volcanic rock.
sea level Noun
base level for measuring elevations. Sea level is determined by measurements taken over a 19-year cycle.
Encyclopedic Entry: sea level severity Noun
harshness or intensity.
shield volcano Noun
large, gently sloping volcano made from fluid lava.
important or impressive.
liquid waste, such as that from the coal mining and cleaning process, also called slurry.
precipitation made of ice crystals.
top layer of the Earth's surface where plants can grow.
to make solid.
level of Earth's atmosphere, extending from 10 kilometers (6 miles) to 50 kilometers (31 miles) above the surface of the Earth.
steep volcano made of hardened lava, rock, and ash. Also known as a composite volcano.
Strombolian eruption Noun
mildly violent explosion of a volcano.
to pull downward or beneath something.
subduction zone Noun
area where one tectonic plate slides under another.
to be unable to breathe.
highest point of a mountain.
volcano capable of ejecting more than 1,000 cubic kilometers (240 cubic miles) of material.
surge noun, verb
sudden, strong movement forward.
Surtseyan eruption Noun
phenomenon where a volcano erupts in an ocean, sea, or lake.
to temporarily stop an activity.
to keep going.
tectonic plate Noun
massive slab of solid rock made up of Earth's lithosphere (crust and upper mantle). Also called lithospheric plate.
degree of hotness or coldness measured by a thermometer with a numerical scale.
Encyclopedic Entry: temperature terrestrial Adjective
having to do with the Earth or dry land.
explanation that has not been proven as fact.
device that measures temperature.
Encyclopedic Entry: thermometer toxic Adjective
movement of many things, often vehicles, in a specific area.
long, deep depression, either natural or man-made.
worth a considerable amount of money or esteem.
measurement of the rate and direction of change in the position of an object.
crack in the Earth's crust that spews hot gases and mineral-rich water.
volcanic arc Noun
chain of volcanoes formed at a subduction zone.
volcanic ash Noun
fragments of lava less than 2 millimeters across.
Encyclopedic Entry: volcanic ash volcanic gas Noun
gas such as water vapor or carbon dioxide that is released into the atmosphere by a volcano.
volcanic island Noun
land formed by a volcano rising from the ocean floor.
volcanic winter Noun
drop in global temperatures due to volcanic debris in the atmosphere blocking the sun.
an opening in the Earth's crust, through which lava, ash, and gases erupt, and also the cone built by eruptions.
Encyclopedic Entry: volcano volcano hazard Noun
specific danger posed by an active volcano: gas, lahar, landslide, lava flow, pyroclastic flow, or tephra.
scientist who studies volcanoes.
vulcanian eruption Noun
volcanic eruption characterized by a violent outburst of thick volcanic smoke and gas.
state of the atmosphere, including temperature, atmospheric pressure, wind, humidity, precipitation, and cloudiness.
Encyclopedic Entry: weather wildlife Noun
organisms living in a natural environment.