3 Types Of Volcanoes

The 3 types of volcanoes are stratovolcano (also known as a composite volcano), cinder cone volcano, and shield volcano. Each one is different in its own right and provides unique clues to the geologic history of the region and information about how the volcano formed and what we can expect in the future.

Volcanoes have been around since the beginning of Earth, some 4.54 billion years ago. Through that time volcanoes were constantly being born, dying, and eroding down into low-lying lakes and oceans. Geologists study the life cycle of volcanoes in the past to get a sense of how volcanoes today will behave and hopefully predict better the onset of a volcanic eruption. To do this, however, we must know the three types of volcanoes and what makes them tick.

All civilization has from time to time become a thin crust over a volcano of revolution. – Havelock Ellis

What Is A Volcano?

A volcano is a surface expression of the Earth transferring molten rock or magma from beneath the rust to above the Earth’s crust (lithosphere). Unlike mountains, volcanoes contain conduits through vents, chimneys, and magma chambers, that move magma upward.

A volcano can exist from a number of different situations from hot spots such as the Hawaiian islands to subduction zones that formed Mount St Helens. These are surface expressions of interactions between Earth’s plates and the below lying upper mantle. Convection in the upper mantle and movement of lithospheric and oceanic plates can produce situations in which the molten rock in the upper mantle is able to breach the surface of the Earth and be released as lava.

Characteristics Of A Volcano

You will notice that some volcanoes are constantly erupting lava such as the main island of Hawaii and others build up over decades, centuries, or millennia until erupting. This is largely due to the confining stress and rate of magma chamber filling.

You can imagine that if there is a “leaky” system and you’re constantly filling that system with magma you will see continuous outflow. This is the case in Hawaii where the magma chamber has reached near the surface and there is little confining pressure to limit an eruption or prolong one.

On the other hand, you can have situations such as Mount St. Helens where the magma chamber is overlain with thousands of feet of rock. This will require the magma chamber to build up sufficient pressure to equal and then surpass the overburden pressure. At that point the volcano will erupt in a spectacular fashion, sending the overburden rock, ash, and lava high into the air.

“A volcano is an independent machine… being engaged in its own peculiar business, cooking as it were its special dish, which in due time is to be separately served … pouring out totally different kinds of lava.” — Clarence Dutton

But wait, we’re missing one key component. That is a gas composition within the magma itself.

You will notice that some volcanoes produce liquid like lava that pours down the side of the volcano whereas others explosively erupt sending rock, ash, and lava high into the air. As mentioned before, this is partially due to the overburden pressure required to erupt but also partially due to the presence of gas within the magma.

Imagine if you have a significant amount of gas such as CO2 within the magma. When confined in the magma chamber that gas is in solution and significantly compressed compared to the volume at the surface. As the volcano erupts, the pressure on those gases dramatically decreases which means the volume rapidly increases. This chain reaction acts to explosively expand the gas and causes overlying rock and magma to be ejected high into the atmosphere.

On the other hand, lava such as that at Arenal volcano or Hawaii erupts with little gas, meaning the magma simply runs down the slope of the volcano.

Where Do Volcanoes Form?

Volcanoes form often times at boundaries of plates (convergent or divergent) or hot spots.

Hot Spot: Hawaiian Islands, Yellowstone Supervolcano
Divergent plate boundaries: Mid-ocean ridges, rifts
Convergent plate boundaries: Subduction zones

In the case of hot spots, they can occur anywhere in the world regardless of being nearby a plate boundary. Hot spots are not well understood but the basic premise is that you have upwelling magma in a stationary location, which acts to eventually melt through Earth’s crust and form a volcano. Imagine a blow torch over a piece of bread and, eventually, the blow torch burns through the bread and “erupts” onto the surface.

Divergent Plate Boundary

Divergent plate boundaries are responsible for the opening up of the Atlantic ocean and are associated with plates being pulled or pushed apart. This thins the crust and allows for magma to erupt in the center of the diverging plates. It’s still unclear whether the plates are pulled or pushed apart, but in either situation, this creates a localized ridge of thinner crust and less overburden for the magma to come to the surface.

Convergent plate boundary

The last place volcanoes typically form are convergent plate boundaries. This is similar to what we see on the northwest coast of the United States, the Andes Mountains, and Japan. In fact, the ring of fire along the Pacific Ocean is due to the subduction of the oceanic crust underneath the continental crust through converging plates.

Volcanoes situated along the Ring of Fire

As one plate subducts underneath the other it gets heated and begins to melt, along with rock that holds water within its structure. This water turns to steam, further reduces the melting temperature of the rock and the now buoyant molten rock migrates upward to the surface creating a volcano.

Now that we have a good fundamental background on what volcanoes are, let’s dive into the three major types of volcanoes. We will discuss the key differences in the volcanoes and examples that you have likely heard of.

Volcano Type	Volcano Shape	Size	Volcanic Material	Eruption Style	Example Volcano
Cinder Cone	Steep conical hill with 30- to 40-degree slopes	Small, less than 300m tall	cinders	Explosive	Paricutin
Shield Volcano	Very gentle slopes with a broad base	Large, many 10’s of kilometers across	fluid lava flows, typically mafic (basalt)	Quiet	Mauna Loa
Stratovolcano	Goes from gentle to steep slopes from base to peak	Large, up to 10 km across	many layers of lava and pyroclastics	Explosive	Mount St. Helens

Stratovolcano (Composite Volcano)

A stratovolcano, sometimes referred to as a composite volcano, is an explosive volcano that has built up several layers through continuous eruptions. The volcano is typically conical and large in scale compared to cinder cone volcanoes.

Image by Pxhere is licensed under CC0

The layers are made up of lithified lava, pumice and volcanic ash that have fallen on the volcano during an eruption. Typically, eruptions are explosive with high gas concentrations and significant overburden. Stratovolcanoes are also characterized by steep sides, especially compared to a shield volcano.

Most of the time the magma in stratovolcanoes are felsic and have high concentrations of silica. We see stratovolcanoes all around the world and on other planets such as Mars. These volcanoes are typically thought of when we picture devastating eruptions since they often contain significant gas and erupt spectacularly.

A famous stratovolcano, Mount St. Helens, erupted in 1980 with a plume that extended 3,000 feet above the volcano. These volcanoes are associated with subduction zones typically, as seen along the Pacific Ring of Fire. Other well known stratovolcanoes are Krakatoa, Vesuvius, and Mount Tambora; all of which had major eruptions that killed thousands of people and altered climate on a continental scale. Mount Tambora is responsible for the most powerful volcanic eruption on record, which sent ash plumes around the world dimming the sun and reducing global temperatures by 3.5°C.

Stratovolcanoes Around The World

List of Stratovolcanoes

Alban Hills

Alid Volcano

Anak Krakatoa

Anatahan

Antisana

Aragats

Arenal

Askja

August

Avach

Back River volcanic complex

Baekdu Mounta

Banks Pen

Bárðarbunga

Barren Island (Andaman Islands)

Bazman

Beerenberg

Bombalai Hill

Borawli

Brown Peak

Calbuco

Callaqui

Carihuairazo

Cayambe

Cerro Arenales

Chaitén

Chato

Chich

Chimborazo

Cleveland volcano

Colima

Copahue

Coquihalla Mounta

Corazón

Cotopaxi

Cumbre Vieja

El Altar

El Misti

Eldfell and Helgafell

Eyjafjallajökull

Galeras

Galunggung

Glacier Peak

Green Mounta

Guazapa

Guishan Island

Hekla

Hoodoo Mounta

Irazu

Irruputuncu

Izalco

Jabal al-Tair island off the coast of Yemen

Karymsky

Klyuchevskaya Sopka or Kliuchevskoi

Kollóttadyngja

Korov

Koryaksky

Krakatoa

Kverkfjöll

La Grande Soufrière

Lanín

Lascar Volcano

Lassen Peak

Licancabur

Llaima

Mammoth Mounta

May

Mount Adams

Mount Adatara

Mount Agung and Mount Batur

Mount Akutan

Mount Apo

Mount Ararat and Little Ararat

Mount Arayat

Mount B

Mount Baker

Mount Banahaw

Mount Bird

Mount Boucherie

Mount Bulusan

Mount Camero

Mount Cayley

Mount Churchill

Mount Damavand

Mount Discovery

Mount Edziza

Mount Elbrus

Mount Erciyes

Mount Erebus

Mount Etna

Mount Fogo

Mount Fuji

Mount Garibaldi

Mount Harcourt

Mount Haruna

Mount Hasan

Mount Hood

Mount Huds

Mount Iriga and Mount Isarog

Mount Jeffers

Mount Kanla

Mount Katmai

Mount Kazbek

Mount Kelud

Mount Kenya

Mount Ker

Mount Kilimanjaro

Mount Makil

Mount Mal

Mount Mariveles and Mount Natib

Mount Meager

Mount Melbourne

Mount Merapi

Mount Meru

Mount Mihara

Mount Morn

Mount Ngauruhoe

Mount Nyirag

Mount Overlord

Mount P

Mount Pavlof

Mount Pelée

Mount Pico

Mount Price

Mount R

Mount Ra

Mount Redoubt

Mount Ruapehu

Mount Scenery

Mount Semeru and Mount Bromo

Mount Shasta

Mount Shishald

Mount St

Mount Tambora

Mount Taranaki/Egm

Mount Taylor

Mount Unzen

Mount Vesuvius

Mount Vsevidof

Mount Yufu

Mounts of Cantal

Nevado de Toluca

Nevado del Ruiz

Nevados de Chillán

Northwest side of Mount Ra

Ojos del Salado

Ol Do

Öræfajökull

Pacaya

Par

Peak of Mt

Pengu

Pich

Pico de Orizaba

Poás

Popocatépetl

Puy de Sancy

Reventador

Sabalan

Sahand

Sakurajima

San Francisco Mounta

San Miguel and Ch

San Vicente

Sangay

Santa Ana

Satellite picture of Mount Ararat

Shiveluch

Sierra Nevada

Snæfellsjökull

Soufrière (volcano)

Suchitán

Taburete

Taftan Volcano

Tahual

Tavurvur

Tecuamburro

Teide

The Black Tusk

The Mount Cayley volcanic complex

The Soufriere Hills

The summit of Snæfellsjökull

The Three Sisters

Tungurahua

Turrialba

Ulawun

Villarrica

Volcán Acatenango

Volcán Atitlán

Volcán Barú

Volcán Cerro Quemado (Almol

Volcán Ch

Volcán de Agua

Volcán de Fuego

Volcán Ipala

Volcán Jumay

Volcán Moyuta

Volcán San Pedro

Volcán Santa María

Volcán Siete Orejas

Volcán Tacaná

Volcán Tajumulco Highest po

Volcán Tolimán

Volcanic activity at Anak Krakatau

Vulcano

White Island/Whakaari

Cinder Cone Volcano

A cinder cone volcano, sometimes referred to as a scoria cone, is a small steep sided conical volcano. It is often fairly small with loose volcanic fragments such as ash, scoria, or cinder that has fallen down the sides of the volcano.

“Mauna Kea cinder cone” by the USGS, linked from NASA web page and Wikimedia Commons, is licensed under CC0

They are associated with volcanic vents that erupt and send small fragments of solidified magma into the air that rain down the slopes of the volcano. This produces a very steep-sided mountain between 30 and 40 degrees and almost perfectly canonical with a circular base. You can often find cinder cone volcanoes associated with the other two types of volcanoes, shield and stratovolcano. Typically eruptions are not significant and happen much more frequently.

“A volcano may be considered as a cannon of immense size.” — Oliver Goldsmith

Cinder Cone Volcanoes Around The World

List of Cinder Cone Volcanoes

Albuquerque volcanic field

Alligator Lake volcanic complex

Amboy Crater

Andagua volcanic field

Anticura Group

Atlin Volcanic Field

Austral Volcanic Zone

Big Timothy Mountain

Buck Hill

Caburgua-Huelemolle

Cache Hill

Camp Hill

Capulin Volcano National Monument

Carrán-Los Venados

Central Volcanic Zone

Cinder Mountain

Cinnamon Butte

Cocoa Crater

Coffee Crater

Cracker Creek Cone

Davis Lake volcanic field

Dragon Cone

Easter Island

El Jorullo

El Rojo Norte

El Rojo Sur

Europe

Flourmill Cone

France

Fui Group

Gabrielse Cone

Grand Sarcoui

Hoodoo Butte

Hverfjall

Ibex Mountain

Indian Heaven

Ingakslugwat Hills

Iskut-Unuk River Cones

Itcha Range

Ivao Group

Kana Cone

Karapınar

Kitasu Hill

Koko Crater

Kostakan

Kostal Cone

Kula

Lava Butte

Lomonosov Group

Los Venados Group

Machmel River Cone

Maungakiekie / One Tree Hill

Maungarei / Mount Wellington

Maungawhau / Mount Eden

Mirador

Mono-Inyo Craters

Monte Nuovo

Moraine Cone

Morean Volcano

Mount Elephant

Mount Fox

Mount Fox crater

Mount Gordon

Mount Komezuka

Mount Leura

Mount Omuro

Mount Suribachi

Mount Tabor

Mount Talbert

Mount Tongariro

Nahta Cone

Nazko Cone

Ne Ch’e Ddhawa

Newberry Volcano

Opal Cone

Pali-Aike Volcanic Field

Parícutin

Philippines

Pichi-Golgol Group

Pilot Butte

Pinacate Peaks

Pisgah Crater

Pointed Stick Cone

Powell Butte

Prindle Volcano

Puʻu ʻŌʻō

Puʻu Waʻawaʻa Ahupuaʻa

Puna Pau

Puy de Côme

Puy de la Vache

Puy de Lassolas

Puy de Pariou

Puy des Goules

Puys Chopine et des Gouttes

Puyuhuapi

Ridge Cone

Rocky Butte

Roden Crater

S P Crater

Satah Mountain

Schonchin Butte

Sidas Cone

Sleet Cone

Smith Volcano

South side of Cocoa Crater

Storm Cone

Sunset Crater

Tantalus

The Saucer

Tolmachev Dol

Triplex Cone

Tseax Cone

Tseax Cone lava bed covered with moss and lichen

Twin Buttes

Twin Cone

Vernadskii Ridge

Veyo Volcano

Volcan Rumoka

Volcanic Creek Cone

Vulcan’s Throne

Williams Cone

Wizard Island

Zuni-Bandera volcanic field

Shield Volcano

Shield volcanoes are typically large mafic volcanoes that have wide broad and low relief slopes. The lava erupted from a shield volcano is typically runny and low in gas so the lava simply flows down the side of the volcano during an eruption. Think of lava you’ve seen flowing off the edge of the big island of Hawaii and into the ocean.

“Sierra Grande Shield Volcano (Raton-Clayton Volcanic Field, northeastern New Mexico, USA)” by James St. John via Flickr is licensed under CC BY 2.0.

This almost constant low viscosity lava over time builds up broad sheets of lithified lava to create a shield-shaped volcano. The low viscosity is due to the mineralogy of the lava and is typically mafic in nature. You won’t see large eruptions where lava is ejected high into the air, but the lava can be fast flowing down the slopes, enveloping houses and cars on its way down. Since the lava is runny it can flow for miles from the original source and someone who may think they are safe due to distance from the volcano could see lava at their doorstep.

Shield volcanoes are typical of hot spots, such as the Hawaiian island chain. In fact, if you take the base of Mauna Loa, which is the shield volcano that makes up the big island of Hawaii, it is the tallest mountain in the world from base to peak. However, much of the volcano is under tens of thousands of feet of water. These volcanoes can also be hundreds of miles wide at the base.

Shield Volcanoes Around The World

List of Shield Volcanoes

Alba Mons

Alcedo Volcano

Ambrym

Apoyeque

Arsia Mons

Ascraeus Mons

Ball’s Pyramid

Banks Peninsula

Bermuda Pedestal

Billy Mitchell

Bottom half of Mount Erebus

Bottom half of Mount Etna

Cerro Azul

Dunedin Volcano

Emi Koussi

Erta Ale

Fernandina Island

Haleakalā

Heart Peaks

House Mountain Volcano

Hualālai

Indian Heaven

Itcha Range

Karaca Dağ

Kīlauea

Kohala

Kookooligit Mountains

La Cumbre

La Grille

Loloru

Lord Howe Island

Maat Mons

Masaya

Masaya Volcano

Mauna Kea

Mauna Loa

Medicine Lake Volcano

Menengai

Mount Andrus

Mount Berlin

Mount Karthala

Mount Marsabit

Mount Moulton

Mount Nyamuragira

Mount Sidley

Mount Takahe

Mount Terror

Mount Wrangell

Namarunu

Newberry Volcano

Niuafo’ou

Olympus Mons

Pavonis Mons

Piton de la Fournaise

Piton des Neiges

Poike

Purico Complex

Queen Mary’s Peak

Rabaul

Rangitoto Island

Rano Kau

Sacabaya

Santorini

São Tomé

Sierra Negra

Skjaldbreiður

Syrtis Major Planum

Tamu Massif

Tata Sabaya

Taveuni

Terevaka

The Three Sisters in Oregon

Theia Mons

Tweed Volcano

Verkhovoy

That wraps up the 3 major types of volcanoes and gives you a good basis for understanding more about the background of volcanoes. Volcanic eruptions are something humans need to manage globally, albeit, we are learning to become more predictive and better at managing the risk of an eventual eruption.