Langbahn Team – Weltmeisterschaft

List of volcanoes in the Hawaiian–Emperor seamount chain

Raised-relief map of the Pacific basin, showing seamounts and islands trailing the Hawaiʻi hotspot in a long line terminating near the Russian island of Kamchatka Peninsula in Russia.
The Hawaiian–Emperor seamount chain. The two straight sections, the Emperor and Hawaiian strands, are separated by a large L-shaped bend at the Northwestern Hawaiian islands.
Map of the youngest Hawaiian Islands showing progression in selected erupted lava ages along the island chain
(Ma = million years)
Map of the Hawaiian Islands and some of the Emperor seamounts showing progression in selected erupted lava ages along the chain
(Ma = million years)

The Hawaiian–Emperor seamount chain is a series of volcanoes and seamounts extending about 6,200 km (3,900 mi) across the Pacific Ocean.[n 1]

The chain was produced by the movement of the ocean crust over the Hawaiʻi hotspot, an upwelling of hot rock from the Earth's mantle.

As the oceanic crust moves the volcanoes farther away from their source of magma, their eruptions become less frequent and less powerful until they eventually cease to erupt altogether. At that point, erosion of the volcano and subsidence of the seafloor cause the volcano to gradually diminish.

As the volcano sinks and erodes, it first becomes an atoll island and then an atoll. Further subsidence causes the volcano to sink below the sea surface, becoming a seamount. Once a seamount is 600 m (2,000 ft) or more under the surface, it is also classed as a guyot.[failed verification][1] This list documents the most significant volcanoes in the chain, ordered by distance from the hotspot, but there are many others that have yet to be properly studied.

The chain can be divided into three subsections. The first, the main windward Hawaiian islands consist of the eight youngest and easternmost Hawaiian islands. This is the youngest part of the chain and includes volcanoes with ages ranging from 400,000 years[2] to 5.1 million years.[3] The island of Hawaiʻi comprises five volcanoes, of which two (Kilauea and Mauna Loa) are still active. Kamaʻehuakanaloa Seamount (formerly Lōʻihi) continues to grow offshore, and is the only known volcano in the chain in the submarine pre-shield stage.[1]

The second part of the chain is composed of the Northwestern Hawaiian Islands, collectively referred to as the Leeward isles, the constituents of which are between 7.2 and 27.7 million years old.[3] Erosion has long since overtaken volcanic activity at these islands, and most of them are atolls, atoll islands, and extinct islands. They contain many of the most northerly atolls in the world, including Kure Atoll, the northernmost atoll in the world.[4]

The oldest and most heavily eroded part of the chain are the Emperor seamounts, which are 39[5] to 85 million years old.[6]

The Emperor and Hawaiian chains are separated by a large L-shaped bend that causes the orientations of the chains to differ by about 60 degrees. This bend was long attributed to a relatively sudden change in the direction of plate motion, but research conducted in 2003 suggests that it was the movement of the hotspot itself that caused the bend.[7] As of 2006, the issue is still under debate.[8][needs update?]

All of the volcanoes in this part of the chain have long since subsided below sea level, becoming seamounts and guyots (see also: the seamount and guyot stages of Hawaiian volcanoes). Many of the volcanoes are named after former emperors of Japan.[citation needed] The seamount chain extends to the West Pacific, and terminates at the Kuril–Kamchatka Trench, a subduction zone at the border of Russia.[9]

Hawaiian archipelago

Name Island Last eruption Coordinates Age (years) Notes
Kamaʻehuakanaloa Seamount (formerly Lōʻihi) Seamount 1996 (active)[2] 18°55′N 155°16′W / 18.92°N 155.27°W / 18.92; -155.27 400,000[2] The seamount is a submarine volcano approximately 35 km (22 mi) southeast of Hawaiʻi. It may eventually breach sea level and become the newest Hawaiian island.[2]
Kīlauea Big Island 2021–ongoing (active)[10] 19°25′N 155°17′W / 19.417°N 155.283°W / 19.417; -155.283 300,000–600,000[11] Kīlauea is considered one of the most active volcanoes on Earth.[12]

Kīlauea, was in near-continuous eruption on its East Rift Zone from January 3, 1983, to September 4, 2018, making it the longest-lived rift-zone eruption of the last six centuries.[13]

Mauna Loa Big Island 2022-ongoing (active)[14] 19°28′46″N 155°36′10″W / 19.47944°N 155.60278°W / 19.47944; -155.60278 700,000–1 million[15] Largest subaerial volcano on Earth[14]
Hualālai Big Island 1800–1801 (active)[16] 19°41′32″N 155°52′02″W / 19.69222°N 155.86722°W / 19.69222; -155.86722 > 300,000[16] Lies on the western edge of the Big Island[16]
Mauna Kea Big Island 4460 BP (dormant) 19°49′14″N 155°28′05″W / 19.82056°N 155.46806°W / 19.82056; -155.46806 ~1 million[17] World's tallest mountain if below-sea elevation is counted[18]
Kohala Big Island 120,000 BP (extinct)[19] 20°05′10″N 155°43′02″W / 20.08611°N 155.71722°W / 20.08611; -155.71722 ~ 120,000–1 million[19] Oldest volcano that remains part of the island of Hawaiʻi[19]
Māhukona Seamount 470,000 BP (extinct) 20°01′N 156°01′W / 20.017°N 156.017°W / 20.017; -156.017 K-Ar 298,000±25,000 and 310,000±31,000[20][n 2] Submerged, having long since disappeared into the sea[21]
Haleakalā Maui between A.D. 1480 and 1600, oldest currently active volcano in the Hawaiian - Emperor seamount chain[22] 20°42′35″N 156°15′12″W / 20.70972°N 156.25333°W / 20.70972; -156.25333 ~ 2 million[22] Forms more than 75% of Maui[22]
West Maui Maui less than 320,000 BP (extinct) 20°54′N 156°37′W / 20.900°N 156.617°W / 20.900; -156.617 K-Ar 1.32±0.04 million[3] Very eroded shield volcano that makes up the western quarter of Maui
Kahoʻolawe Kahoʻolawe ~1 MYA 20°33′N 156°36′W / 20.550°N 156.600°W / 20.550; -156.600 K-Ar > 1.03±0.18 million[3][23] Smallest of the 8 principal Hawaiian islands;[19] uninhabited[24]
Lānaʻi Lānaʻi 1.2 MYA 20°50′N 156°56′W / 20.833°N 156.933°W / 20.833; -156.933 K-Ar date of 1.28±0.04 million[3] Sixth-largest island[25] The only town is Lānaʻi City, a small settlement.
East Molokai Molokaʻi 1.3 MYA 21°7′N 156°51′W / 21.117°N 156.850°W / 21.117; -156.850 K-Ar 1.76±0.04 million[3] The northern half of this volcano suffered a large collapse 1.5 million years ago.[26] Only the southern half remains above the sea today.[19]
West Molokaʻi Molokaʻi 1.76 MYA 21°9′N 157°14′W / 21.150°N 157.233°W / 21.150; -157.233 K-Ar date of 1.9±0.06 million[3]
Penguin Bank Seamount
20°55′N 157°40′W / 20.917°N 157.667°W / 20.917; -157.667 ~ 2.2 million[27] The seamount is a submarine volcano, southwest of Molokaʻi. The submarine volcano used to be part of Maui Nui, a prehistoric island made from seven shield volcanoes.
Koʻolau Range Oʻahu <32,000 BP (possibly dormant)[n 3] 21°19′N 157°46′W / 21.317°N 157.767°W / 21.317; -157.767 2.7 million[28] A fragmented remnant of the eastern or windward shield volcano, which also suffered a large collapse sometime before the Molokaʻi collapse[26]
Waiʻanae Range Oʻahu ~2.5 MYA[29] 21°30′N 158°09′W / 21.500°N 158.150°W / 21.500; -158.150 ~1.7–3.9 million; K-Ar 3.7±0.1 million[3][28][29] The eroded remains of a shield volcano that comprised the western half of the island[29]
Kaʻena Ridge Oʻahu <3.0 MYA[30] 21°42′N 158°22′W / 21.700°N 158.367°W / 21.700; -158.367[30] ~3.5–4.9 million[30] The eroded remains of a shield volcano west of Waiʻanae that has since subsided below sea level[30]
Kaʻula Kaʻula >2 MYA 21°39′N 160°32′W / 21.650°N 160.533°W / 21.650; -160.533 K-Ar 4.0±0.2 million[3] Tiny crescent-shaped barren island; uninhabited except for divers and fishermen[31]
Niʻihau Niʻihau 2 MYA 21°54′N 160°10′W / 21.900°N 160.167°W / 21.900; -160.167 K-Ar 4.89±0.11 million[3][32] Smallest inhabited island;[33]
Kauaʻi Kauaʻi 1.41 MYA[n 3] 22°05′N 159°30′W / 22.083°N 159.500°W / 22.083; -159.500 K-Ar 5.1±0.2 million[3][34] Oldest and fourth largest of the main islands, and home to Mount Waialeale, one of the wettest areas on Earth in terms of precipitation[35]

Northwestern Hawaiian islands

Name Type Coordinates Age[36] Notes
Unnamed seamount Guyot 22°42′N 161°02′W / 22.700°N 161.033°W / 22.700; -161.033 5.1 to 7.2 million[n 4] at a depth of 40 m (130 ft) below sea level
Nihoa Extinct Island 23°03′N 161°55′W / 23.050°N 161.917°W / 23.050; -161.917 K-Ar 7.2±0.3 million[3] Small rocky island which supported a small population around 1000 CE; features over 80 cultural sites, including religious places, agricultural terraces, and burial caves[37]
Unnamed seamount Guyot 22°59′N 162°14′W / 22.983°N 162.233°W / 22.983; -162.233 7.2 to 10.3 million[n 4] at a depth of 10 m (33 ft) below sea level
Unnamed seamount Guyot 23°14′N 162°37′W / 23.233°N 162.617°W / 23.233; -162.617 7.2 to 10.3 million[n 4] at a depth of 229 m (751 ft) below sea level
Unnamed seamount Guyot 23°14′N 162°57′W / 23.233°N 162.950°W / 23.233; -162.950 7.2 to 10.3 million[n 4] at a depth of 5 m (16 ft) below sea level
Unnamed seamount Guyot 23°12′N 163°10′W / 23.200°N 163.167°W / 23.200; -163.167 7.2 to 10.3 million[n 4] at a depth of 44 m (144 ft) below sea level
Unnamed seamount Guyot 23°18′N 163°16′W / 23.300°N 163.267°W / 23.300; -163.267 7.2 to 10.3 million[n 4] at a depth of 413 m (1,355 ft) below sea level
Necker Island Extinct Island 23°34′35″N 164°42′0″W / 23.57639°N 164.70000°W / 23.57639; -164.70000 K-Ar 10.3±0.4 million[3] Small deserted island with Hawaiian religious shrines and artifacts[38]
French Frigate Shoals Atoll 23°52′08″N 166°17′10″W / 23.8689°N 166.2860°W / 23.8689; -166.2860 12 million[39] Largest atoll in the northwestern Hawaiian islands[40]
East Brooks Bank Guyot 23°59′N 166°42′W / 23.983°N 166.700°W / 23.983; -166.700 12 to 12.3 million[n 4] at a depth of 51 m (167 ft) below sea level
Central Brooks Bank Guyot 24°07′N 166°49′W / 24.117°N 166.817°W / 24.117; -166.817 12 to 12.3 million[n 4] at a depth of 29 m (95 ft) below sea level
West Brooks Bank Guyot 24°12′N 166°57′W / 24.200°N 166.950°W / 24.200; -166.950 12 to 12.3 million[n 4] at a depth of 24 m (79 ft) below sea level
Saint Rogatien Bank Guyot 24°19′N 167°08′W / 24.317°N 167.133°W / 24.317; -167.133 12 to 12.3 million[n 4] at a depth of 20 m (66 ft) below sea level
Gardner Pinnacles Atoll Island 25°01′N 167°59′W / 25.017°N 167.983°W / 25.017; -167.983 K-Ar 12.3±1.0 million[3] Two barren rock outcrops surrounded by a reef[41]
Raita Bank Guyot 25°33′N 169°27′W / 25.550°N 169.450°W / 25.550; -169.450 12.3 to 19.9 million[n 4] at a depth of 13 m (43 ft) below sea level
Maro Reef Atoll 25°25′N 170°35′W / 25.417°N 170.583°W / 25.417; -170.583 12.3 to 19.9 million[n 4] Largest coral reef of the northwestern Hawaiian islands[42]
Laysan Atoll Island 25°46′03″N 171°44′00″W / 25.7675°N 171.7334°W / 25.7675; -171.7334 K-Ar 19.9±0.3 million[3] Originally named "Kauō" meaning egg, referring to its shape, and home to one of only five natural lakes in all of Hawaiʻi[43]
Unnamed seamount Guyot 25°22′N 172°03′W / 25.367°N 172.050°W / 25.367; -172.050 19.9 to 20.6 million[n 4] at a depth of 1 m (3.3 ft) below sea level
Northampton Seamount Guyot 25°30′N 172°24′W / 25.500°N 172.400°W / 25.500; -172.400 19.9 to 20.6 million[n 4] at a depth of 6 m (20 ft) below sea level
Unnamed seamount Guyot 25°39′N 172°56′W / 25.650°N 172.933°W / 25.650; -172.933 19.9 to 20.6 million[n 4] at a depth of 872 m (2,861 ft) below sea level
Pioneer Tablemount Guyot 25°59′N 173°24′W / 25.983°N 173.400°W / 25.983; -173.400 19.9 to 20.6 million[n 4] at a depth of 5 m (16 ft) below sea level
Lisianski Island Atoll Island 26°3′49″N 173°57′57″W / 26.06361°N 173.96583°W / 26.06361; -173.96583 19.9 to 20.6 million[n 4] A small island surrounded by a huge coral reef nearly the size of Oahu;[44] named after a captain in the Russian navy whose ship ran aground there in 1805[45]
Unnamed seamount Guyot 26°18′N 174°32′W / 26.300°N 174.533°W / 26.300; -174.533 19.9 to 20.6 million[n 4] at a depth of 67 m (220 ft) below sea level
Unnamed seamounts Guyot 26°56′N 175°36′W / 26.933°N 175.600°W / 26.933; -175.600 19.9 to 20.6 million[n 4] pair of guyots at a depth of 115 m (377 ft) and 1,207 m (3,960 ft) below sea level
Unnamed seamount Guyot 27°09′N 176°10′W / 27.150°N 176.167°W / 27.150; -176.167 19.9 to 20.6 million[n 4] at a depth of 1,233 m (4,045 ft) below sea level
Salmon Bank Guyot 26°56′N 176°25′W / 26.933°N 176.417°W / 26.933; -176.417 19.9 to 20.6 million[n 4] at a depth of 54 m (177 ft) below sea level
Pearl and Hermes Atoll Atoll Island 27°48′N 175°51′W / 27.800°N 175.850°W / 27.800; -175.850 K-Ar 20.6±2.7 million[3] A collection of small, sandy islands, with a lagoon and coral reef; named after two whaling ships which were wrecked on the reef in 1822[46]
Unnamed seamount Guyot 28°05′N 176°54′W / 28.083°N 176.900°W / 28.083; -176.900 20.6 to 27.7 million[n 4] at a depth of 1,640 m (5,380 ft) below sea level
Ladd Seamount Guyot 28°31′45″N 176°40′00″W / 28.52917°N 176.66667°W / 28.52917; -176.66667 20.6 to 27.7 million[n 4] at a depth of 64 m (210 ft) below sea level
Midway Atoll Atoll Island 28°12′N 177°21′W / 28.200°N 177.350°W / 28.200; -177.350 K-Ar 27.7±0.6 million[3] Consists of a ring-shaped barrier reef and two large islets; named "Midway" because of its strategic location in the center of the Pacific Ocean, and was the site of a key battle during World War II[47]
Nero Seamount Guyot 27°57′55″N 177°57′50″W / 27.96528°N 177.96389°W / 27.96528; -177.96389 27.7 to 38.7 million[n 4] at a depth of 67 m (220 ft) below sea level
Kure Atoll Atoll 28°25′N 178°20′W / 28.417°N 178.333°W / 28.417; -178.333 27.7 to 38.7 million[n 4] Northernmost coral atoll in the world[4]

Emperor seamounts

Name Type Summit Depth Coordinates[48] Age Notes
East Windward Guyot 124 m (407 ft) 28°54′N 178°37′W / 28.900°N 178.617°W / 28.900; -178.617 27.7 to 38.7 million[n 4]
Academician Berg Guyot 182 m (597 ft) 28°51′N 178°52′W / 28.850°N 178.867°W / 28.850; -178.867 27.7 to 38.7 million[n 4]
West Windward Guyot 254 m (833 ft) 28°49′50″N 179°07′50″W / 28.83056°N 179.13056°W / 28.83056; -179.13056 27.7 to 38.7 million[n 4]
Helsley Guyot 159 m (522 ft) 28°54′N 179°34′W / 28.900°N 179.567°W / 28.900; -179.567 27.7 to 38.7 million[n 4] Named after Charles Helsley, a researcher at the University of Hawaii. Also named Zapadnaya Seamount.
East Townsend Cromwell Seamount 506 m (1,660 ft) 29°41′N 179°20′E / 29.683°N 179.333°E / 29.683; 179.333 27.7 to 38.7 million[n 4]
Townsend Cromwell Seamount 209 m (686 ft) 29°47′N 179°03′E / 29.783°N 179.050°E / 29.783; 179.050 27.7 to 38.7 million[n 4] Named after Townsend Cromwell, a prominent oceanographer.
Hancock Seamount 298 m (978 ft) 30°15′N 178°50′E / 30.250°N 178.833°E / 30.250; 178.833 27.7 to 38.7 million[n 4]
De Veuster Seamount 474 m (1,555 ft) 30°22′30″N 177°34′00″E / 30.37500°N 177.56667°E / 30.37500; 177.56667 27.7 to 38.7 million[n 4] possibly named after Father Damien (born Jozef De Veuster), a Roman Catholic Priest in Hawaii during the late 19th century.
Colahan Seamount 232 m (761 ft) 31°15′N 176°0′E / 31.250°N 176.000°E / 31.250; 176.000 K-Ar 38.7±0.2 million[5]
Abbott Seamount 1,680 m (5,510 ft) 31°48′N 174°18′E / 31.800°N 174.300°E / 31.800; 174.300 K-Ar 41.5±0.3 million[5]
Daikakuji Guyot 1,050 m (3,440 ft) 32°05′N 172°18′E / 32.083°N 172.300°E / 32.083; 172.300 K-Ar 42.4±2.3[3] and 46.7±0.1 million[5] Located at the bend in the L-shaped chain of seamounts. Also the name of a Japanese temple
Kammu Guyot 319 m (1,047 ft) 32°10′N 173°00′E / 32.167°N 173.000°E / 32.167; 173.000 42.4 to 43.4 million[n 4] Named after Emperor Kammu, former ruler of Japan (781–806)
Yuryaku Guyot 492 m (1,614 ft) 32°40.2′N 172°16.2′E / 32.6700°N 172.2700°E / 32.6700; 172.2700 K-Ar 43.4±1.6 million[3] Named after Emperor Yūryaku, former ruler of Japan (~456–479)
Goshirakawa Guyot 3,203 m (10,509 ft) 32°39′N 171°34′E / 32.650°N 171.567°E / 32.650; 171.567 ~40 million Named after Emperor Go-Shirakawa, former ruler of Japan (1155–1158)
Gosanjo Guyot 2,620 m (8,600 ft) 32°54′N 171°34′E / 32.900°N 171.567°E / 32.900; 171.567 ~40 million Named after Emperor Go-Sanjō, former ruler of Japan (1068–1073)
Toba Guyot 963 m (3,159 ft) 33°14′N 171°39′E / 33.233°N 171.650°E / 33.233; 171.650 ~40 million Named after Emperor Toba, former ruler of Japan (1107–1123)
Genji Seamount 2,550 m (8,370 ft) 33°20′N 172°14′E / 33.333°N 172.233°E / 33.333; 172.233 ~40 million Named after Hikaru Genji, the protagonist of the classic Japanese work, The Tale of Genji.
Kimmei Seamount 222 m (728 ft) 33°41′N 171°38′E / 33.683°N 171.633°E / 33.683; 171.633 K-Ar 39.9±1.2[3] and 47.9±0.2 million[5] Named after Emperor Kimmei, former ruler of Japan (539–571)
Unnamed Seamount Seamount 82 m (269 ft) 34°57′00″N 171°35′40″E / 34.95000°N 171.59444°E / 34.95000; 171.59444 same as Koko Guyot
Koko Guyot 247 m (810 ft) 35°15′N 171°35′E / 35.250°N 171.583°E / 35.250; 171.583 K-Ar 48.1±0.8,[3] 50.4±0.1 (south side),[5] and 52.6±0.8 (north side) million[5] Named after Emperor Kōkō, former ruler of Japan (884–887)
Unnamed Guyot Guyot 84 m (276 ft) 36°47′45″N 171°21′50″E / 36.79583°N 171.36389°E / 36.79583; 171.36389 48.1 to 55.2 million[n 4]
Ojin Guyot 197 m (646 ft) 37°58.2′N 170°22.8′E / 37.9700°N 170.3800°E / 37.9700; 170.3800 K-Ar 55.2±0.7 million[3] Named after Emperor Ōjin, former ruler of Japan (~270–310)
Jingu Guyot 588 m (1,929 ft) 38°50′N 171°15′E / 38.833°N 171.250°E / 38.833; 171.250 K-Ar 55.4±0.9 million[49] Named after Empress Jingū, former ruler of Japan (~201–269)
Nintoku Guyot 589 m (1,932 ft) 41°4.8′N 170°34.2′E / 41.0800°N 170.5700°E / 41.0800; 170.5700 K-Ar 56.2±0.6 million[3] Named after Emperor Nintoku, former ruler of Japan (~313–399)
Ninigi Seamount 1,549 m (5,082 ft) 41°44′N 170°12′E / 41.733°N 170.200°E / 41.733; 170.200 56.2 to 59.6 million[n 4] Named after Ninigi-no-Mikoto, a god in Japanese mythology.
Godaigo Seamount 1,560 m (5,120 ft) 41°51′N 170°33′E / 41.850°N 170.550°E / 41.850; 170.550 56.2 to 59.6 million[n 4] Named after Emperor Go-Daigo, former ruler of Japan (1318–1339)
Yomei Guyot 543 m (1,781 ft) 42°18′N 170°24′E / 42.300°N 170.400°E / 42.300; 170.400 56.2 to 59.6 million[n 4] Named after Emperor Yōmei, former ruler of Japan (540–587)
Showa Guyot 387 m (1,270 ft) 42°59′N 170°21′E / 42.983°N 170.350°E / 42.983; 170.350 56.2 to 59.6 million[n 4] Named after Hirohito (Emperor Shōwa), former ruler of Japan (1926–1989)
Soga Guyot 68 m (223 ft) 43°24′N 169°59′E / 43.400°N 169.983°E / 43.400; 169.983 56.2 to 59.6 million[n 4] Named after Emperor Saga, former ruler of Japan (809–823)
Suiko Seamount 995 m (3,264 ft) 44°35′N 170°20′E / 44.583°N 170.333°E / 44.583; 170.333 K-Ar 59.6±0.6 (southern),[3][50] 64.7±1.1 (central),[3][50] and 60.9±0.3[5] million Named after Empress Suiko, former ruler of Japan (592–628)
Winnebago Guyot 1,680 m (5,510 ft) 48°10′N 168°20′E / 48.167°N 168.333°E / 48.167; 168.333 60–81 million[n 4]
Tenji Guyot 1,599 m (5,246 ft) 48°50′N 168°30′E / 48.833°N 168.500°E / 48.833; 168.500 60–81 million[n 4] Named after Emperor Tenji, former ruler of Japan (661–672)
Detroit Seamount 1,498 m (4,915 ft) 51°29′N 167°36′E / 51.483°N 167.600°E / 51.483; 167.600 ~ 81 million[6] Well-documented seamount, second-oldest. Rock from lava flows show that while Detroit Seamount was on the hotspot, activity coming from the volcano continued for the next 18 million years.
Meiji Seamount 2,720 m (8,920 ft) 53°12′N 164°30′E / 53.200°N 164.500°E / 53.200; 164.500 85 million[6] Named after Emperor Meiji, former ruler of Japan (1867–1912); oldest known seamount in the chain

Notes

  1. ^ The great-circle distance, or shortest distance from Kamaʻehuakanaloa Seamount at the southern end of the chain to Meiji Seamount at the northern end of the chain, via the chain bend at Daikakuji Seamount, is 5,976 km (3,713 mi). (source: NOAA Latitude/Longitude Distance Calculator Archived 2020-05-29 at the Wayback Machine).
  2. ^ The error estimate is given for two standard deviations (95% of data contained within this range). Each of the dates is an average of dates from each of two separate volcanic cones that are part of Māhukona.
  3. ^ a b These volcanoes experienced a 'rejuvenation' phase significantly after their primary eruptions ended, for reasons unknown. Ko'olau originally erupted from 2.5-1.7 MYA, before entering into a dormancy period until roughly 500,000 years ago, and may possibly remain active. Kaua'i similarly erupted mainly 5 MYA, with a notably short period of secondary eruptions 1,430,000 to 1,410,000 years ago.
  4. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap The age of the volcano is unknown, but will be somewhere between the ages of the volcanoes on either side of it in the chain.

References

  1. ^ a b "Evolution of Hawaiian Volcanoes". Hawaiian Volcano Observatory (USGS). September 8, 1995. Archived from the original on February 8, 2012. Retrieved March 7, 2009.
  2. ^ a b c d Michael O. Garcia; Jackie Caplan-Auerbanch; Eric H. De Carlo; M.D. Kurz; N. Becker (September 20, 2005). "Geology, geochemistry and earthquake history of Lōʻihi Seamount, Hawaiʻi". Chemie der Erde - Geochemistry. This is the pre-press version of a paper that was published on 2006-05-16 as "Geochemistry, and Earthquake History of Lōʻihi Seamount, Hawaiʻi's youngest volcano", in Chemie der Erde – Geochemistry (66) 2:81–108. 66 (2). University of Hawaii – School of Ocean and Earth Science and Technology: 81–108. Bibcode:2006ChEG...66...81G. doi:10.1016/j.chemer.2005.09.002. hdl:1912/1102. Pre-press version Archived 2013-11-05 at the Wayback Machine
  3. ^ a b c d e f g h i j k l m n o p q r s t u v w x y Rubin, Ken. "The Formation of the Hawaiian Islands". Hawaii Center for Vulcanology. Archived from the original on March 9, 2008. Retrieved May 18, 2009.
  4. ^ a b "Kure Atoll". Public Broadcasting System – KQED. March 22, 2006. Archived from the original on January 20, 2022. Retrieved June 13, 2009.
  5. ^ a b c d e f g h Sharp, W. D.; Clague, DA (2006). "50-Ma Initiation of Hawaiian-Emperor Bend Records Major Change in Pacific Plate Motion". Science. 313 (5791): 1281–84. Bibcode:2006Sci...313.1281S. doi:10.1126/science.1128489. PMID 16946069. S2CID 43601673. Archived from the original on 2020-01-11. Retrieved 2019-08-25.
  6. ^ a b c Regelous, M.; Hofmann, A.W.; Abouchami, W.; Galer, S.J.G. (2003). "Geochemistry of Lavas from the Emperor Seamounts, and the Geochemical Evolution of Hawaiian Magmatism from 85 to 42 Ma" (PDF). Journal of Petrology. 44 (1): 113–140. Bibcode:2003JPet...44..113R. doi:10.1093/petrology/44.1.113. Archived from the original (PDF) on July 19, 2011. Retrieved July 23, 2010.
  7. ^ John Roach (August 14, 2003). "Hot Spot That Spawned Hawaii Was on the Move, Study Finds". National Geographic News. Archived from the original on March 5, 2014. Retrieved March 9, 2009.
  8. ^ Sharp et al., 2006, Initiation of the bend near Kimmei seamount about 50 million years ago (MA) was coincident with realignment of Pacific spreading centers and early magmatism in western Pacific arcs, consistent with formation of the bend by changed Pacific plate motion.
  9. ^ G. R. Foulger & Don L. Anderson. "The Emperor and Hawaiian Volcanic Chains: How well do they fit the plume hypothesis?". MantlePlumes.org. Archived from the original on January 16, 2012. Retrieved April 1, 2009.
  10. ^ "Hawaiian Volcano Observatory Daily Update (Monday, October 10, 2022)". US Geological Survey. Archived from the original on 2022-10-10. Retrieved 10 October 2022.
  11. ^ "Kilauea - Perhaps the World's Most Active Volcano". United States Geological Survey - Hawaiian Volcano Observatory. May 7, 2009. Archived from the original on March 1, 2013. Retrieved May 12, 2009.
  12. ^ "Volcano Watch: The most active volcano on Earth?". United States Geological SurveyHawaiian Volcano Observatory. March 12, 2002. Archived from the original on December 11, 2011. Retrieved December 11, 2011.
  13. ^ "The Pu'u 'O'o-Kupaianaha Eruption of Kīlauea Volcano, Hawai'i, 1983 to 2003". United States Geological Survey. December 2, 2002. Archived from the original on May 11, 2009. Retrieved June 7, 2009.
  14. ^ a b School Specialty Publishing (2006). World Atlas (Illustrated ed.). School Specialty Publishing. p. 13. ISBN 0-7696-4260-8. Archived from the original on October 21, 2022. Retrieved December 13, 2009.
  15. ^ "Mauna Loa Earth's Largest Volcano". United States Geological Survey – Hawaiian Volcano Observatory. Archived from the original on August 9, 2015. Retrieved July 3, 2009.
  16. ^ a b c "Hualalai: Hawai'i's Third Active Volcano". Other Volcanoes. USGS Hawaiian Volcano Observatory. 18 June 2001. Archived from the original on 27 May 2010. Retrieved 23 January 2010.
  17. ^ "Mauna Kea Hawai'i's Tallest Volcano". United States Geological Survey. Archived from the original on October 21, 2006. Retrieved May 14, 2009.
  18. ^ Staff authors. "Highest Mountain in the World". Geology.com. Archived from the original on April 2, 2016. Retrieved July 4, 2009.
  19. ^ a b c d e David R. Sherrod; John M. Sinton; Sarah E. Watkins; Kelly M. Brunt (2007). "USGS Open-File Report 2007–1089 (pamphlet to accompany geologic map)" (PDF). Geological Map of the State of Hawaii. United States Geological Survey. pp. 41–43. Archived from the original on January 18, 2016. Retrieved April 12, 2009.
  20. ^ Clague, David A.; Calvert, Andrew T. (2008). "Postshield stage transitional volcanism on Mahukona Volcano, Hawaii". Bulletin of Volcanology. 71 (5): 553–559. Bibcode:2009BVol...71..533C. doi:10.1007/s00445-008-0240-z. S2CID 128983099.
  21. ^ Clague, D.A. & Moore, J.G. (1991). Geology and Petrology of Mahukona Volcano, Hawaii. Vol. 53. Bulletin of Volcanology. pp. 159–172.
  22. ^ a b c "East Maui, or Haleakala—A Potentially Hazardous Volcano". United States Geological Survey. February 2003. Archived from the original on January 15, 2007. Retrieved May 13, 2009.
  23. ^ Block Group 9, Census Tract 303.02, Maui County United States Census Bureau
  24. ^ "The State of Hawaii Data Book 2004" (PDF). Hawaii.gov. 2004. Archived (PDF) from the original on March 25, 2009. Retrieved May 17, 2009.
  25. ^ a b "Hawaiian Landslides". Monterey Bay Aquarium Research Institute. February 5, 2009. Archived from the original on May 27, 2009. Retrieved June 13, 2009.
  26. ^ Xu, G.; Blichert-Toft, J.; Clague, D. A.; Cousens, B.; Frey, F. A.; Moore, J. G. (2007). "Penguin Bank: A Loa-Trend Hawaiian Volcano". AGU Fall Meeting Abstracts. 2007. American Geophysical Union, Fall Meeting 2007, abstract #V33A-1174: V33A–1174. Bibcode:2007AGUFM.V33A1174X.
  27. ^ a b "Hawaii's Coastline – Oahu". University of Hawaii – School of Ocean and Earth Science and Technology. Archived from the original on July 15, 2009. Retrieved May 18, 2009.
  28. ^ a b c "O'ahu, Ni'ihau, and Kaua'i". United States Geological Survey. September 29, 1995. Archived from the original on May 10, 2009. Retrieved June 13, 2009.
  29. ^ a b c d Sinton, John M.; Eason, Deborah E.; Tardona, Mary; Pyle, Douglas; Zander, Iris van der; Guillou, Hervé; Clague, David; Mahoney, John J. (2 May 2014). "Ka'ena Volcano—A precursor volcano of the island of O'ahu, Hawai'i". Geological Society of America Bulletin. 126 (9–10). Geological Society of America: 1219–1244. Bibcode:2014GSAB..126.1219S. doi:10.1130/B30936.1.
  30. ^ "Offshore Island Restoration Committee – Kaula". Offshore Island Restoration Committee. Archived from the original on January 6, 2009. Retrieved June 11, 2009.
  31. ^ "Hawaii's Coastline – Niihau". University of Hawaii – School of Ocean and Earth Science and Technology. Archived from the original on March 5, 2012. Retrieved May 18, 2009.
  32. ^ "Main Hawaiian Islands: Ni'ihau". University of Hawaii – School of Ocean and Earth Science and Technology. Archived from the original on September 19, 2009. Retrieved June 13, 2009.
  33. ^ "Hawaii's Coastline – Kauai". University of Hawaii – School of Ocean and Earth Science and Technology. Archived from the original on March 30, 2009. Retrieved May 18, 2009.
  34. ^ "Kaua'i". University of Hawaii – School of Ocean and Earth Science and Technology. June 17, 2008. Archived from the original on September 19, 2009. Retrieved June 13, 2009.
  35. ^ "The Formation of the Hawaiian Islands". Hawaii Center for Volcanology. Archived from the original on March 9, 2008. Retrieved March 10, 2009.
  36. ^ "Nihoa Island". Northwestern Hawaiian Islands Multi-Agency Education Project. Archived from the original on July 20, 2008. Retrieved June 14, 2009.
  37. ^ "Necker Island (Mokumanamana)". Northwestern Hawaiian Islands Multi-Agency Education Project. Archived from the original on July 20, 2008. Retrieved June 13, 2009.
  38. ^ Darby Dyar (April 22, 2008). "Hotspots and Plate Motion". Mount Holyoke College. Archived from the original on June 7, 2011. Retrieved April 4, 2009.
  39. ^ "French Frigate Shoals Reserve Preservation Area" (PDF). National Oceanic and Atmospheric Administration. Archived from the original (PDF) on May 6, 2009. Retrieved June 13, 2009.
  40. ^ "Voyage to Kure: The Northwestern Hawaiian Islands: Gardner Pinnacles". PBS. 22 March 2006. Archived from the original on 30 August 2008. Retrieved 1 May 2010.
  41. ^ "Maro Reef (Ko'anako'a)". Northwestern Hawaiian Islands Multi-Agency Education Project. Archived from the original on July 5, 2008. Retrieved June 13, 2009.
  42. ^ "Laysan Island". Public Broadcasting System – KQED. March 22, 2006. Archived from the original on October 10, 2008. Retrieved June 13, 2009.
  43. ^ "Lisianski Island". Northwestern Hawaiian Islands Multi-Agency Education Project. Archived from the original on December 17, 2019. Retrieved June 14, 2009.
  44. ^ "Lisanski Island". Public Broadcasting System – KQED. March 22, 2006. Archived from the original on September 30, 2007. Retrieved June 13, 2009.
  45. ^ "Pearl and Hermes Atoll". Public Broadcasting System – KQED. March 22, 2006. Archived from the original on December 24, 2007. Retrieved June 13, 2009.
  46. ^ "Midway Atoll". Public Broadcasting System – KQED. March 22, 2006. Archived from the original on October 12, 2008. Retrieved June 13, 2009.
  47. ^ "Seamount Catalog". Seamounts database. EarthRef, a National Science Foundation project. Archived from the original on November 22, 2012. Retrieved April 10, 2009.
  48. ^ Dalrymple, G.B.; Garcia, M.O.; Jackson, E.D.; Koizumi, I.; Avdeiko, G.; Butt, A.; Clague, D.; Greene, H.G.; Karpoff, A.M.; Kirkpatrick, R.J.; Kono, M.; Hsin Yi, L.; McKenzie, J.; Morgan, J.; Takayama, T. (1980). "Age and chemistry of volcanic rocks dredged from Jingu Seamount, Emperor seamount chain". Reports of the Deep Sea Drilling Project 55: 685–693. Archived from the original on July 16, 2011. Retrieved April 4, 2009.
  49. ^ a b Clague, D. A. and Dalrymple, G. B. (1989) Tectonics, geochronology, and origin of the Hawaiian-Emperor Chain Archived 2011-06-11 at the Wayback Machine in Winterer, E. L. et al. (editors) (1989) The Eastern Pacific Ocean and Hawaii, Boulder, Geological Society of America, page 199. Accessed July 23, 2010
  • This abstract contains preliminary data for several of the seamount dates; these dates are revised in the subsequent paper (as reported above):