Article

Shield Volcanoes

a broad low mountain with gently slopes
The broad shield of Mauna Loa (in the background) rising above the Kīlauea caldera in the foreground. With a summit elevation of 13,677 feet (4169 m) above sea level, Mauna Loa is more than 7,500 feet (2,280 m) in elevation higher than Kīlauea (4,091 feet; 1,247 m).

NPS photo by David Boyle.

Introduction

Although shield volcanoes are the largest volcanoes on Earth, they do not form soaring mountains with conical peaks like composite volcanoes. Instead, they are broad volcanoes with gentle slopes and are shaped somewhat like a warrior’s shield lying flat on the Earth. Shield volcanoes have a convex shape as they are flatter near the summit.

Shield volcanoes are truly massive with volumes that dwarf other types of volcanoes, even large composite volcanoes.

Shield volcanoes are usually constructed almost entirely of basaltic and/or andesitic lava flows which were very fluid when erupted. They are built by repeated eruptions that occurred intermittently over vast periods of time (up to a million years or longer).

photo illustration of Mauna Loa's broad shield shape compared to the much smaller Mount Rainier composite volcano using a photo and line drawing
Shield volcanoes are much wider than they are tall. Mauna Loa’s base on the sea floor is about 100 miles (160 km) wide. Mount Rainier, the tallest composite volcano in the contiguous United States, is about 14,000 feet (4,270) tall, but only about 10 mi ( 16 km) wide. Overall, the bulk of shield volcanoes is substantially greater than that of composite volcanoes.

Photo by U. S. Geolgical Survey. Graphic modified from “A Dynamic Landscape Formed by the Power of Volcanoes,” by Rebecca H. Ashton, M. S. Thesis, Oregon State University, 2003.

National Park Shield Volcanoes

At least 13 national parks contain shield volcanoes, including:

  • Hawai’i Volcanoes National Park contains parts of Mauna Loa and Kīlauea, two of the most active shield volcanoes on Earth. Although these volcanoes are adjacent to one another, they have separate magma systems and are thus independent of one another.

  • Mauna Loa is the largest active volcano on the planet. As measured from its base on the sea floor, the mountain is almost 33,500 feet (10,211 m) tall, with about 19,700 feet (6,000 m) of its total elevation below sea level. The summit of Mauna Loa is slightly lower in elevation than the nearby Mauna Kea volcano, but Mauna Loa has a much greater volume.

photo of a broad, gently sloping volcanic mountain
Mauna Loa viewed from the flank of Mauna Kea. Younger lava flows are darker than older flows. Hawai’i Volcanoes National Park, Hawai’i.

USGS photo.

  • Kīlauea volcano is one of the most active volcanoes on Earth. With the exception of a quiet period between 1924 and 1952, Kīlauea has been in eruption for most of the interval that there are reliable written records (e.g., since 1780 CE (Common Era)). Eruptions have occurred from both the rift zones and the summit caldera.

molten lava flowing down a hillside
Lava flow during the Puʻuʻōʻō eruption in March 2018. The Puʻuʻōʻō eruption on the East Rift Zone lasted from 1983-2018, which was the longest documented eruption of Kīlauea.  Hawai’i Volcanoes National Park, Hawai’i.

NPS Photo by J. Wei.

Kilauea Featured Links

tropical coast with rock wall and bay in the foreground and a gently sloping mountainside in the distance
  • Kaloko-Honokōhau National Historic Park is located on the flank of Hualālai, one of the five shield volcanoes that make up the island of Hawai‘i.

Photo (right): The flank of Hualālai volcano looms over a heiau (temple) and the ‘Ai‘ōpio fishtrap at Kaloko-Honokōhau National Historical Park, Hawai’i.
NPS photo courtesy Jon Jokiel (Kaloko-Honokōhau National Historical Park).
  • Wrangell-St. Elias National Park in Alaska contains eight andesitic shield volcanoes, including Mount Wrangell which is the youngest. Mount Wrangell is considered active since it is reported to have experienced a short explosive eruption in 1930. Most of the older volcanoes in the park, including Capital Mountain, Tanada Peak, Mount Jarvis, and Mount Blackburn, have been eroded and no longer retain their shield shape, and some are poorly understood because of the extensive glaciation in this volcanic field.

photo with forested foreground an a large dome shaped mountain in the distance
Mount Wrangell with active fumaroles.

Photo by Anchorage resident Mike Case.

  • The Espenberg volcanic field in Bering Land Bridge National Monument (Alaska) contains five small shield volcanoes that formed during the Pleistocene.

photo of flat arctic landscape with several lakes and a broad mountain on the distant horizon
Devil Mountain is the youngest shield volcano in Bering Land Bridge National Preserve, Alaska.

Photo by Tim Orr, Alaska Volcano Observatory.

  • Lava Beds National Monument (California) is on the northern flank of Medicine Lake Volcano, a large shield volcano. The basaltic lava flows in the monument range in age from about 114,000 to 1,000 years old .

photo with agricultural canal and fields in the foreground and a broad gently sloping mountain in the distance
Medicine Lake Volcano, California.

USGS photo.

illustration of a shield volcano showing several lava features illustration of a shield volcano showing several lava features

Left image
Schematic diagram of a shield volcano.
Credit: USGS illustration.

Right image
Diagram with feature labels.
Credit: USGS illustration.

Shield volcanoes have very gentle slopes of only a few percent that become even more gentle near the summit. The great width of these volcanoes relative to their height is the result of the low viscosities of erupted lavas that produce thin widespread lava flows, eruptions from both the summit and fissure vents on the volcano’s flanks, and widening and subsidence along the summit and rift zones. Lava flows may travel in channels or in lava tubes great distances from the vent where they were erupted.

Large shield volcanoes typically have calderas at their summits which may contain long-lasting lava lakes. Shield volcanoes may also have pit craters, which are smaller collapse structures, often with vertical sides.

Large shield volcanoes are polygenetic, meaning that they experience many eruptions during their lifetime.

map graphic showing the areas of several historic lava flows in different colors
Kīlauea’s Southwest Rift Zone and the East Rift Zone. More than 90% of Kīlauea’s surface is covered by lava flows that were erupted within the last 1,000 years.

USGS graphic, Hawaiian Volcano Observatory.

Magma Composition

Shield volcanoes are usually basalt but can be constructed of mostly andesitic lava flows. Mauna Loa and Kīlauea erupt almost exclusively basaltic lavas. Shield volcanoes in Wrangell-St. Elias National Park, are made up of andesitic lava flows.

Eruption Types and Classification

historic black and white photo of groups of people watchin a large steam cloud erupt from a volcano

Most shield volcano eruptions are nonexplosive (effusive), usually 0-1 on the Volcanic Explosivity Index (VEI), typically in the Hawaiian eruptive style. These eruptions produce fluid lava flows and may produce fire-fountains. High rates of eruptions help produce lava flows that travel fast and can cover large areas.

Rarely, more explosive phreatic or phreatomagmatic eruptions may occur. Powerful phreatomagmatic eruptions at Kīlauea have occurred at intervals during its history. One interval lasted until about 1000 CE and another from about 1500 to 1800 CE. Explosive eruptions also took place in 1924 in the Kīlauea caldera.

Photo (right): Steam explosion in Halemauʻmaʻu on May 22, 1924 as seen from Volcano House.
Photographer Tai Sing Loo.

Occurrence

Shield volcanoes occur anywhere where there is basaltic (and sometimes andesitic) volcanism, including at oceanic hot spot tracks such as in the Hawaiian Islands. They may also be present at mid-ocean spreading ridges. They are present in a wide variety of continental environments, including adjacent to subduction zones, in continental rift zones, and in other intercontinental settings.

Geologic Features on Shield Volcanoes

Summit Calderas

Collapse calderas are usually located at the summit of large shield volcanoes. These calderas form via subsidence caused by removal of magma from the shallow magma chamber underneath the summit by eruption or intrusion, commonly on the flank of the volcano.

A shield volcano may have many summit calderas during its lifespan as they may become filled with lava. Summit calderas are dynamic as they may change due to further subsidence, have active lava lakes, and/or contain pit craters.

photo of a volcanic crater with plumes of steam

Kīlauea’s summit caldera dramatically changed in 2018. The lava lake in the Halema‘uma‘u pit crater drained and then the pit crater subsided due to magma withdrawal from the magma chamber beneath it. This image shows ground cracks caused by the subsidence. The obvious flat surface in the center of the image is the former floor of Halema‘uma‘u.
USGS photo.

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Lava Lakes

Lava lakes may form in some calderas or other vents on shield volcanoes when there is good connectivity between the vent and the magma supply. Mauna Loa and Kīlauea in Hawai’i Volcanoes National Park have both had persistent lava lakes in their calderas at various points during historical eruptions.

volcanic crater with lava lake in the bottom
The snow-capped Mauna Loa behind the active lava lake in the Halemaʻumaʻu pit crater in the Kīlauea caldera.

USGS photo taken by M. Patrick on January 28, 2021.

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Rift (Fissure) Zones

Eruptions that occur along rift (fissure) zones are a major feature of some shield volcanoes, particularly the shield volcanoes that make up Hawai‘i. The presence of rift zones are responsible for these shield’s elongated shapes. Rift zones and summit vents typically share the same magmatic source with magma moving laterally from the shallow magma chamber beneath the summit to feed rift eruptions.

The rift zones on Mauna Loa and Kīlauea contain vents, fissures, pit craters, spatter cones, cinder cones, and grabens. Kīlauea’s rift zones are oriented parallel to the mobile southern flank that accommodates spreading and widening since Kīlauea is buttressed against Mauna Loa on its northern flank. Eruptions occur along rift zones because they are areas of weakness, hence allow pathways for magma to travel within the volcanoes.

map of Hawaii showing the volcanic peaks and rift zones
The rift zones on Mauna Loa and Kīlauea. Kīlauea’s East Rift Zone is the most active of these two volcanoes’ rift zone, experiencing eruptions from 1983 to 2018. Historical lava flows are shown in red.

Modified from the USGS map https://pubs.usgs.gov/imap/2809/.

Lava Flows

Shield volcanoes are constructed primarily of thin lava flows that cover large areas. Basaltic shield volcanoes such as Mauna Loa and Kīlauea in Hawai’i Volcanoes National Park erupt primarily pāhoehoe and ‘a‘ā lavas. Pāhoehoe lava flows have a smooth ropy surface and ‘a‘ā has a rough rubbly or fragmented surface crust.

photo of smooth lava flow over a rough blocky lava surface
: A pāhoehoe flow on top of an older ‘a‘ā lava flow at Kīlauea volcano.

USGS photo.

Lava Tubes

Lava tubes form when molten lava flows in channels underneath a solidified crust of a lava flow. Empty tubes can be left when lava drains out when it is redirected or upon the end of an eruption.

In Hawai’i, lava tubes have great cultural importance. They provided shelter to Native Hawaiians, and were central in some ceremonies and burials.

photo of the inside of a lava tube with electric lights
Nāhuku (Thurston Lava Tube) is in a 500-year-old lava tube in Hawai’i Volcanoes National Park.

NPS Photo / J. Wei.

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Landslides

Landslides can play a significant role in shaping shield volcanoes. Landslides are a major part of the life cycles of the shield volcanoes in Hawai’i, including Mauna Loa and Kīlauea.

Volcanic Hazards

Vog (volcanic smog) consists of SO2 (sulfur dioxide) gas and aerosols produced by active shield volcanoes. It presents a hazard both in the immediate area and to people who are downwind.

Landslides along the flank of the volcano, subsidence at calderas and pit craters, and active fumaroles may also present volcanic hazards.

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National Park Sites with Shield Volcanoes

  1. Bering Land Bridge National Preserve (BELA), Alaska—[BELA Geodiversity Atlas] [BELA Park Home] [BELA npshistory.com]

  2. Crater Lake National Park (CRKA), Oregon—[CRLA Geodiversity Atlas] [CRLA Park Home] [CRLA npshistory.com]

  3. Craters of the Moon National Monument (CRMO), Idaho—[CRMO Geodiversity Atlas] [CRMO Park Home] [CRMO npshistory.com]

  4. El Malpais National Monument (ELMA), New Mexico—[ELMA Geodiversity Atlas] [ELMA Park Home] [ELMA npshistory.com]

  5. Haleakala National Park (HALE), Hawaii—[HALE Geodiversity Atlas] [HALE Park Home] [HALE npshistory.com]

  6. Hawai’i Volcanoes National Park (HAVO), Hawai’i—[HAVO Geodiversity Atlas] [HAVO Park Home] [HAVO npshistory.com]

  7. Kalaupapa National Historical Park (KALA), Hawai’i—[KALA Geodiversity Atlas] [KALA Park Home] [KALA npshistory.com]

  8. Lassen Volcanic National Park (LAVO), California—[LAVO Geodiversity Atlas] [LAVO Park Home] [LAVO npshistory.com]

  9. Lava Beds National Monument (LABE), California—[LABE Geodiversity Atlas] [LABE Park Home] [LABE npshistory.com]

  10. National Park of American Samoa (NPSA), American Samoa—[NPSA Geodiversity Atlas] [NPSA Park Home] [NPSA npshistory.com]

  11. Santa Monica Mountains National Recreation Area (SAMO), California—[SAMO Geodiversity Atlas] [SAMO Park Home] [SAMO npshistory.com]

  12. Wrangell-St. Elias National Park and Preserve (WRST), Alaska—[WRST Geodiversity Atlas] [WRST Park Home] [WRST npshistory.com]

  13. Yellowstone National Park (YELL), Wyoming—[YELL Geodiversity Atlas] [YELL Park Home] [YELL npshistory.com]



Part of a series of articles titled Volcano Types.

Bering Land Bridge National Preserve, Crater Lake National Park, Craters Of The Moon National Monument & Preserve, El Malpais National Monument, Haleakalā National Park, Hawaiʻi Volcanoes National Park, Kalaupapa National Historical Park, Lassen Volcanic National Park, Lava Beds National Monument, National Park of American Samoa, Santa Monica Mountains National Recreation Area, Wrangell - St Elias National Park & Preserve, Yellowstone National Park more »

Last updated: April 17, 2023