List of large volcanic eruptions
Appearance
(Redirected from List of volcanic eruptions)
This article needs additional citations for verification. (July 2017) |
This is a sortable list of large eruptions that occurred between 11.7 Ka and 450+ Ma. Uncertainties as to dates and tephra volumes are not restated, and references are not repeated. The inclusion criteria here only covers entries with a Volcanic explosivity index (VEI) of 5 or greater. The given values for events in the Miocene epoch sometimes lack references, and are given as VEI-equivalent, as an estimate of the erupted tephra volume.
11.7 to 49KA
[edit]VEI | Volcano/complex | Volcanic arc/belt, subregion, or hotspot |
Material volume (km3) | Age in Ka[1] | Tephra or eruption name |
---|---|---|---|---|---|
6 | Lolobau Island | Bismarck Volcanic Arc | 50 | 12 | caldera formation |
6 | Menengai | Great Rift Valley, Kenya | < 25 | 12.3 | Ruplax Tuff |
6 | Nevado de Toluca | Trans-Mexican Volcanic Belt | 20 | 12.5 | Upper Toluca Pumice |
6 | Sakurajima | Kyūshū | 11 | 12.8 | Sakurajima-Satsuma Tuff |
6 | Laacher See | Eifel hotspot | 20 | 12.9 | |
6 | Nigorigawa | Hokkaidō | 10.9 | 14.6 | |
6 | Phlegraean Fields | Campanian volcanic arc | 79 | 14.9 | Neapolitan Yellow Tuff |
6 | Maly Semyachik | Kamchatka | 17.5 | 15 | |
6 | Towada | Honshū | 56 | 15.6 | eruption episode L |
7 | Phlegraean Fields | Campanian volcanic arc | Unknown | 15.7 | |
5 | Mount Vesuvius | Campanian volcanic arc | 1.3 | 19.3 | Green Pumice |
7 | Long Island, PNG | Bismarck Volcanic Arc | 100 | 19.3 | Kiau Ignimbrite |
7 | Zavaritzki Caldera | Simushir, Kuril Islands | 200 | 20 | |
6 | Rabaul | Bismarck Volcanic Arc | >10 | 21 | Kulau Ignimbrite |
6 | Menengai | Great Rift Valley, Kenya | 26.1 | 21 | Caldera formation 2 |
6 | Cape Riva Caldera, Santorini | South Aegean Volcanic Arc | >20 | 21.8 | Cape Riva |
5 | Mount Vesuvius | Campanian volcanic arc | 1.9 | 22 | Basal Pumice |
6 | Mount Katmai | SW Alaska, Aleutian Arc | ⩾10 | 22.8 | Late Pleistocene rhyodacite pumice fall and ignimbrite |
8 | Taupō Volcano | Taupō Volcanic Zone | 1170 | 26.5 | Oruanui eruption[a] |
6 | Morne Diablotins | Dominica, Lesser Antilles island arc | 14 | 26.6 | Grand Savanne Ignimbrite |
? | Laguna Caldera | Luzon Volcanic Arc | Unknown | 27-29 | |
5 | Mount Vesuvius | Campanian volcanic arc | 2.2 | 28.6 | Codola Pumice |
6 | Phlegraean Fields | Campanian volcanic arc | ≥10 | 29.1 | Y3 |
6 | Emmons Lake caldera | SW Alaska, Aleutian Arc | 50 | 29.3 | Dawson Tephra |
6 | Nemrut yanardağı | Turkey | 65.4 | 29.7 | |
7-8 | Aira Caldera | Kyūshū | [2] | 940 - 1,04030[3] | Ito Ignimbrite |
6 | Nemo Peak | Onekotan, Kuril Islands | 10 | 30.8 | Nemo III |
6 | Shiveluch | Kamchatka | >30 | 32.2 | caldera formation |
6 | Volcán Los Azufres | Trans-Mexican Volcanic Belt | 11 | 32.8 | Cieneguillas Ignimbrite |
6 | Morne Trois Pitons | Dominica, Lesser Antilles island arc | 58 | 33.3 | Roseau Tuff/Ignimbrite |
7 | Lake Ranau | Sunda Arc, Sumatra | 150 | 33.6 | Ranau Tuff |
6 | Nemo Peak | Onekotan, Kuril Islands | 31.3 | 34 | Nemo II |
6 | Mount Batur | Sunda Arc, Bali | 84 | 34.6 | Ubud Ignimbrite |
6 | Ksudach | Kamchatka | 25 | 35 | Caldera II |
6 | Lake Mashū | Hokkaidō | 10 | 35.3[4] | Nu-p |
6 | Menengai | Great Rift Valley, Kenya | 26.1 | 35.6 | Menengai Tuff |
6 | Towada | Honshū | 46 | 36 | eruption episode N |
6 | Lake Mashū | Hokkaidō | 10 | 38.3[4] | Nu-r |
7 | Gorely | Kamchatka | 120 | 39 | Southern sea cliffs |
7 | Kussharo | Hokkaidō | 170 | 39.3 | Kp-1, Kutcharo Shoro Ash |
7 | Phlegraean Fields | Campanian volcanic arc | 430 - 680 | 39.9 | Campanian Ignimbrite Eruption |
5 | Galeras | Andes, Northern Volcanic Zone | Unknown | 40 | |
6 | Ksudach | Kamchatka | 40 | 40 | Caldera I |
6 | Ugashik-Peulik | SW Alaska, Aleutian Arc | 30 | 40 | Caldera formation |
6? | Ulleung | South Korea | 10? | 40[3] | Ulleungdo-Yamato tephra |
6 | Irosin Caldera | Bicol-Leyte Volcanic Arc | 70 | 41 | Irosin Ignimbrites |
6 | Qualibou | Saint Lucia, Lesser Antilles island arc | 11 | 42.3 | Choiseul Tuff |
6 | Mount St. Helens | Cascade Volcanic Arc | 10.3 | 42.5 | C (Cs, Cy, Cm, Cw, Ct) (Ape Canyon) |
6 | Kuttara | Hokkaidō | [4] | 14.4 DRE43[6] | Kt-1 |
7 | Uzon-Geyzernaya calderas | Kamchatka | 150 | 43.6 | Uzon ignimbrite - northern field |
6 | Golovnin | Kunashir, Kuril Islands | 15 | 43.7 | Kn III-5 Tephra |
6 | Mount Akagi | Honshū | 25.9 | 44 | Akagi-Kanuma pumice |
6 | Mendeleev | Kunashir, Kuril Islands | 60 | 44.5 | caldera formation |
7 | Opala | Kamchatka | 225 | 44.5 | caldera formation |
5-6 | Naruko | Honshū | [4] | 5 - 1045 | Yanagisawa Tuff |
7 | Nemo Peak | Onekotan, Kuril Islands | >115 | 45 | Nemo I |
6 | Smith Island | Izu–Bonin–Mariana Arc | 49 | 45 | |
7 | Shikotsu | Hokkaidō | [7] | 350 - 39046 | caldera formation |
50 to 99KA
[edit]VEI | Volcano/complex | Volcanic arc/belt, subregion, or hotspot |
Material volume (km3) | Age in Ka[8] | Tephra or eruption name |
---|---|---|---|---|---|
6 | Kuttara | Hokkaidō | 10.2 DRE | 50 | Kt-2 |
7 | Ōkataina Volcanic Complex | Taupō Volcanic Zone | [9] | >100 DRE50 | Rotoiti Ignimbrite |
6 | Phlegraean Fields | Campanian volcanic arc | 13.1 | 51 | Santa Lucia Tephra |
7 | Lake Maninjau | Sunda Arc, Sumatra | 235 | 52 | Maninjau paroxysmal welded and unwelded tuffs |
6 | Mount Kujū | Kyūshū | [10] | 1253.5 | Kuju-Handa pyroclastic flow (Kj-Hd), Kuju-1 Pumice (Kj-P1) |
6 | Skaros Caldera, Santorini | South Aegean Volcanic Arc | 13.75 | 54 | Upper Scoriae 2 |
6 | Kuttara | Hokkaidō | 20.1 DRE | 50 - 60 | Kt-3 |
5[11] | Torfajökull[12] | Iceland | [11] | 4 DRE55.4[12] | Þórsmörk ignimbrite and Greenland II-RHY-1[12] |
6 | Ischia | Campanian volcanic arc | ≥ 10 | 56 | X2 |
6 | Ischia | Campanian volcanic arc | 40 | 56 | Monte Epomeo Green Tuff |
6 | Daisen | Honshū | 40 | 59.6[3] | Daisen-Kurayoshi Pumice |
6 | Shikotsu | Hokkaidō | 50 | 60 | Shadai eruption |
6 | Towada | Honshū | 10 | 61 | eruption episode Q |
6 | Newberry Volcano | Cascade Volcanic Arc | > 12.5 | 62.5 | Olema tephra, Paulina tephra |
6 | Hakone | Honshū | 20 | 66 | Hakone-Tokyo Pumice |
6 | Akademia Nauk | Kamchatka | 12.5 | 69.4 | Odnoboky O2 tuffs |
6 | Los Humeros | Trans-Mexican Volcanic Belt | 37 | 69 | Zaragoza Tuff |
6 | Los Humeros | Trans-Mexican Volcanic Belt | 24 | 70 | Faby Tuff |
6 | Pico do Fogo | Cape Verde | Unknown | 73 | |
5-6 | Naruko | Honshū | 5 - 10 | 73 | Nisaka Tuff |
8 | Lake Toba Caldera | Sunda Arc, Sumatra | [13] | 2,800 - 5,30074 | Youngest Toba Tuff[b] |
6 | Barrier Volcano | Great Rift Valley, Kenya | 10 | 74 | caldera formation |
6 | Kuttara | Hokkaidō | > 11 DRE | 75 | Kt-4 |
6 | Phlegraean Fields | Campanian volcanic arc | 12.35 | 80 | CA-1a Tephra |
6 | Bolshoy Semyachik | Kamchatka | 42 | 80 | Bol'shoi Semiachik Caldera II |
6 | Hakone | Honshū | 10 | 80 | Hakone-Obaradai Pumice |
7? | Mount Pinatubo | Luzon Volcanic Arc | 25 | 81 | Inararo Tuff |
6 | Etna | Campanian volcanic arc | 10 | 82.8 | X4; I-7 |
7 | Lago de Atitlán | Central America Volcanic Arc, Guatemala | 300 | 84 | Los Chocoyos eruption |
6 | Kuttara | Hokkaidō | 16.8 DRE | 84 | Kt-6 |
6 | Kussharo | Hokkaidō | 25 | 85 | Kp-2/3 |
6 | Kuttara | Hokkaidō | 10.8 DRE | 84 - 87 | Kt-7 |
7-8 | Mount Aso | Kyūshū | [2] | 930 - 1,86087 | Aso-4 Ignimbrite |
6 | Kuttara | Hokkaidō | 9.9 DRE | 87 - 106 | Kt-8 |
100 to 299KA
[edit]VEI | Volcano/complex | Volcanic arc/belt, subregion, or hotspot |
Material volume (km3) | Age in Ka[15] | Tephra or eruption name |
---|---|---|---|---|---|
7 | Kikai Caldera | Ryukyu Islands | Unknown | 100 | Tozurahara eruption |
6 | Sierra la Primavera | Trans-Mexican Volcanic Belt | 90 | 100 | Tala Tuff |
6 | Skaros Caldera, Santorini | South Aegean Volcanic Arc | 14 | 100 | Middle Pumice |
6 | Ontake | Honshū | 50 | 100 | Ontake-1 Pumice |
6 | Rabaul | Bismarck Volcanic Arc | 10? | 100 | Boroi Ignimbrites |
6 | Rabaul | Bismarck Volcanic Arc | 10? | 100 | Malaguna Pyroclastics |
7 | Ata Caldera | Kyūshū | 350 | 100[3] | Ata pyroclastic deposits |
6 | Sanbe | Honshū | 20 | 105 | Sanbe-Kisuki pumice |
6 | Tangkuban Perahu | Sunda Arc, Java | ≥ 10 | 105 | Sunda Caldera |
7 | Lake Tōya | Hokkaidō | 230 – 310[2] | 106 | |
6 | Santo Antão | Cape Verde | 10.33 | 106 | Cão Grande I |
6 | Phlegraean Fields | Campanian volcanic arc | ≥ 10 | 106.2 | X5 |
6 | Phlegraean Fields | Campanian volcanic arc | ≥ 10 | 108.9 | X6 |
7 | Kussharo | Hokkaidō | 175 | 117.5 | Kp-4, Kutcharo Haboro Ash |
7 | Emmons Lake caldera | SW Alaska, Aleutian Arc | 220 | 124 | Old Craw Tephra |
7 | Mount Aso | Kyūshū | > 150 | 130 | Aso-3 Ignimbrite |
6 | Mount Aso | Kyūshū | 50 | 141 | Aso-2 Ignimbrite |
6 | Yellowstone Caldera | Yellowstone hotspot | 23? | 143 | Cold Mountain Creek Tuff |
7 | Calabozos | Andes, Southern Volcanic Zone | Unknown | 150 | Loma Seca Tuff-Unit S |
5 | Galeras | Andes, Northern Volcanic Zone | Unknown | 150 | |
7 | Kos-Nisyros Caldera | South Aegean Volcanic Arc | 110 | 161 | Kos Plateau Tuff |
7 | Los Humeros | Trans-Mexican Volcanic Belt | 290 DRE[16] | 164 | Xáltipan Ignimbrite |
7 | Lake Akan | Hokkaidō | 56.8 (DRE) | 175 | AK-2 |
6 | Yellowstone Caldera | Yellowstone hotspot | 50 | 176 | Bluff Point Tuff |
7 | Southern Caldera, Santorini | South Aegean Volcanic Arc | Unknown | 180 | |
7 | Awasa Caldera | Main Ethiopian Rift | 103.5 | 182.3 | |
7 | Phlegraean Fields | Campanian volcanic arc | Unknown | 205 | |
7 | Rotorua Caldera | Taupō Volcanic Zone | Unknown | 230 | Mamaku Ignimbrite |
7 | Maroa Caldera | Taupō Volcanic Zone | Unknown | 230 | Ohakuri Ignimbrite |
7 | Reporoa Caldera | Taupō Volcanic Zone | Unknown | 230 | Kaingaroa Ignimbrite |
7 | Ata Caldera | Kyūshū | > 150 | 240 | Torihama eruption |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 240 | Ohakui Ignimbrite |
7 | O'a Caldera | Ethiopia | 276 | 240 | Qi3 Pumice |
8 | Maroa Caldera | Taupō Volcanic Zone | Unknown | 254 | Whakamaru Ignimbrite |
6 | Mount Aso | Kyūshū | Unknown | 266 | Aso-1 Ignimbrite |
6 | Uzon-Geyzernaya calderas | Kamchatka | 46 | 278 | Uzon ignimbrite - southern field |
7 | Haroharo Caldera | Taupō Volcanic Zone | Unknown | 280 | Matahina Ignimbrite |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 280 | Pakai Ignimbrite |
7 | Lake Maninjau | Sunda Arc, Sumatra | 175 | 280 |
300 to 999KA
[edit]VEI | Volcano/complex | Volcanic arc/belt, subregion, or hotspot |
Material volume (km3) | Age in Ka[17] | Tephra or eruption name |
---|---|---|---|---|---|
7 | Calabozos | Andes, Southern Volcanic Zone | Unknown | 300 | Loma Seca Tuff-Unit V |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 300 | Chimpanzee Ignimbrite |
7 | Vulsini | Campanian volcanic arc | 460 | 300 | Bolsena Caldera |
7 | Phlegraean Fields | Campanian volcanic arc | Unknown | 320 | |
7 | Kakutō Caldera | Kyūshū | Unknown | 321 | Kakuto Ignimbrite |
7? | Suiendani | Honshū | Unknown | 370 | Okuhida Pyroclastics |
7 | Lake Bracciano | Lazio, Italy | > 200 | 370 | Mophi Tephra |
6 | Roccamonfina Caldera | Campanian volcanic arc | Unknown | 390 | |
6-7 | Medvezhia | Iturup, Kuril Islands | 90 | 410 | Medvezhia Ignimbrite |
7 | Toussidé | Tibesti Mountains | 150 | 430 | Yirrigué Ignimbrite |
7 | Pauzhetka Caldera | Kamchatka | 375 | 440 | Golygin Ignimbrite |
7 | Tumalo | Oregon | Unknown | 440 | Tumalo tuff |
7 | Aira Caldera | Kyūshū | Unknown | 450 | Oda Ignimbrite |
7 | Diamante Caldera | Andes, Southern Volcanic Zone | Unknown | 450 | |
7 | Aira Caldera | Kyūshū | Unknown | 500 | Yoshino Ignimbrite |
7 | Toba Caldera | Sunda Arc, Sumatra | 138 | 500 | Middle Toba Tuff |
7 | Kobayashi Caldera | Kyūshū | Unknown | 520 | Kobayashi Ignimbrite |
6 | Galeras | Andes, Northern Volcanic Zone | Unknown | 560 | |
7 | Mount Kirishima | Kyūshū | Unknown | 580 | Hiwaki Ignimbrite |
6? | Hōhi Volcanic Zone | Kyūshū | Unknown | 600 | Yufugawa Ignimbrite |
6 | Mount Lassen | Cascade Volcanic Arc | > 75 | 610 | Rockland Caldera formation |
8 | Yellowstone Plateau Volcanic Field | Yellowstone hotspot | ⩾ 1,000 | 631 | Lava Creek Tuff |
7 | Acatlán Volcanic Field | Trans-Mexican Volcanic Belt | 150 | 650 | Acatlán Ignimbrite |
7 | Hōhi Volcanic Zone | Kyūshū | Unknown | 650 | Seiganji-Toga Tephra |
7 | Kamitakara | Honshū | Unknown | 650 | |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 680 | Matahana A |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 710 | Waiotapu Ignimbrite |
7 | Long Valley Caldera | Eastern California | 790 | 760 | Bishop Tuff |
7 | Kapenga Caldera | Taupō Volcanic Zone | Unknown | 830 | Matahana B |
7 | Calabozos | Andes, Southern Volcanic Zone | Unknown | 840 | Loma Seca Tuff-Unit L |
8 | Lake Toba Caldera | Sunda Arc, Sumatra | 5,290[13] | 840 | Toba Tuff |
7 | Shishimuta Caldera | Kyūshū | Unknown | 870 | Imaichi Ignimbrite |
7 | Tondano Caldera | North Sulawesi, Sulawesi | 600 - 950 | 870 | |
7 | Mangakino Caldera | Taupō Volcanic Zone | Unknown | 950 | Marshall Ignimbrite |
7 | Mangakino Caldera | Taupō Volcanic Zone | Unknown | 970 | Unit E |
1 to 9.9MA
[edit]10MA and older
[edit]VEI | Volcano/complex | Volcanic arc/belt, subregion, or hotspot |
Material volume (km3) | Age in Ma[22] | Tephra or eruption name | |
---|---|---|---|---|---|---|
? | Picabo volcanic field | Yellowstone hotspot | Unknown | 10 – 10.2 | Arbon Valley Tuffs | |
7-8 | Bruneau-Jarbidge caldera | Yellowstone hotspot | 950
|
10 – 12.5 | Ashfall Fossil Beds eruption | |
7 | Timber Mountain caldera complex | Southwest Nevada volcanic field | Unknown | 11.45 | Timber Mountain Tuff - Ammonia Tanks member | |
8 | Timber Mountain caldera complex | Southwest Nevada volcanic field | Unknown | 11.6 | Timber Mountain Tuff - Rainer Mesa member | |
8 | Paintbrush Caldera | Southwest Nevada volcanic field | Unknown | 12.7 | Paintbrush Tuff - Topopah Spring member | |
8 | Paintbrush Caldera | Southwest Nevada volcanic field | Unknown | 12.8 | Paintbrush Tuff - Tiva Canyon member | |
7 | Mount Sobo | Kyūshū | Unknown | 12.8 | ||
? | Owyhee-Humboldt volcanic field | Yellowstone hotspot | Unknown | 13.9-12.8 | ||
7 | Mount Katamuki | Kyūshū | Unknown | 13 | ||
7 | Silent Canyon caldera complex | Southwest Nevada volcanic field | Unknown | 13 | Belted Range Tuff | |
7 | Crater Flat Group | Southwest Nevada volcanic field | Unknown | 13.25 | Crater Flat Tuff, Bullfrog member | |
7 | Shitara Caldera | Honshū | Unknown | 15.1-13.1 | ||
8 | Ōdai Caldera | Honshū | Unknown | 13.7 | Murō Ignimbrite | |
8 | Mount Ōkue | Kyūshū | Unknown | 13.7 | Okueyama volcano-plutonic complex | |
7 | Mount Ishizuchi | Shikoku | Unknown | 14 | ||
8 | Kumano Caldera | Honshū | Unknown | 14.4 | Kumano Acidic rocks | |
8 | Source unknown | Andes, Central Volcanic Zone | 1100
|
15 | Huaylillas Ignimbrite | |
7 | McDermitt volcanic field, North | Yellowstone hotspot | Unknown | 15 | Whitehorse Creek Tuff | |
? | Lake Owyhee volcanic field | Yellowstone hotspot? | Unknown | 15 | ||
8 | Mount Osuzu | Kyūshū | Unknown | 15.1 | Osuzuyama volcano-plutonic complex | |
? | Northwest Nevada volcanic field | Yellowstone hotspot? | Unknown | 16.5-15.5 | ||
7 | McDermitt volcanic field, South | Yellowstone hotspot | Unknown | 15.6 | Longridge Tuff member 2-3 | |
7 | McDermitt volcanic field, South | Yellowstone hotspot | Unknown | 15.6 | Longridge Tuff member 5 | |
7 | McDermitt volcanic field, South | Yellowstone hotspot | Unknown | 15.7 | Double H Tuff | |
7 | McDermitt volcanic field, North | Yellowstone hotspot | Unknown | 15.8 | Trout Creek Mountains Tuff | |
? | McDermitt volcanic field, South | Yellowstone hotspot | Unknown | 16 | Hoppin Peaks Tuff | |
7 | McDermitt volcanic field, South | Yellowstone hotspot | Unknown | 16.5 | Oregon Canyon Tuff | |
8 | Oxaya Formation | Andes, Central Volcanic Zone | 3000
|
19 | Oxaya Ignimbrite | |
7 | Mount Belknap Caldera | Marysvale volcanic field | Unknown | 19 | Joe Lott member | |
^^^^Neogene^^^^
| ||||||
7 | Monroe Peak Caldera | Marysvale volcanic field | Unknown | 23 | Osiris Tuff | |
8 | La Garita Caldera | San Juan volcanic field | 5000
|
27.8 | Fish Canyon Tuff[c] | |
8? | Bachelor | San Juan volcanic field | 1000
|
28 | Carpenter Ridge Tuff | |
8 | San Juan | San Juan volcanic field | Unknown | 28 | Sapinero Mesa Tuff | |
8? | Uncompahgre | San Juan volcanic field | 1000
|
28.1 | Dillon & Sapinero Mesa Tuffs | |
8? | Platoro | San Juan volcanic field | 1000
|
28.2 | Chiquito Peak Tuff | |
8 | Bursum | Southern New Mexico | Unknown | 28.5 | Apache Springs Tuff | |
8 | White Rock Caldera | Indian Peak-Caliente Caldera Complex | Unknown | 29.2 | Lund Tuff | |
8 | Sana'a Ignimbrite | Afro-Arabian | Unknown | 29.5 | Tephra 2W63 | |
8 | Iftar Alkalb | Afro-Arabian | Unknown | 29.5 | Tephra 4 W | |
8 | Sam Ignimbrite | Yemen | Unknown | 29.5 | Green Tuff | |
8 | Jabal Kura'a Ignimbrite | Yemen | Unknown | 29.6 | ||
8 | Wah Wah Springs Caldera | Indian Peak-Caliente Caldera Complex | 5900
|
30.06 | Wah Wah Springs Tuff[d] | |
8 | Windows Butte Tuff | Central Nevada | Unknown | 33 | Windows Butte Tuff | |
8 | Emory Caldera | Southwestern New Mexico | Unknown | 34.9 | Kneeling Nun Tuff, City of Rocks State Park | |
8 | Mount Princeton | Thirtynine Mile volcanic area, Colorado | Unknown | 35.3 | Wall Mountain Tuff | |
7 | Bennett Lake Volcanic Complex | Skukum Group | Unknown | 50 | ||
^^^^Paleogene^^^^
| ||||||
8 | Deccan Traps | West-central India | Unknown | 66 | This volcanic episode occurred about 300,000 years after the Chicxulub meteor impact, and may have been another contributing factor towards the extinction of the dinosaurs | |
8 | Source unknown | Honshū | Unknown | 70 | Noi Rhyolite | |
8 | Ontong-Java-Manihiki-Hikurangi Plateau | Southwestern Pacific Ocean, north of the Solomon Islands | Unknown | 121 | Existence as a single volcano is controversial. Possibly a volcanic chain. | |
8 | Guarapuava-Tamarana-Sarusas | Paraná and Etendeka traps | Unknown | 132 | Existence as a single volcano is controversial. Possibly a volcanic chain. | |
8 | Santa Maria Fria | Paraná and Etendeka traps | Unknown | 132 | Existence as a single volcano is controversial. Possibly a volcanic chain. | |
8 | Guarapuava-Ventura | Paraná and Etendeka traps | Unknown | 132 | Existence as a single volcano is controversial. Possibly a volcanic chain. | |
8 | High Island Caldera | Hong Kong | Unknown | 140 | ||
^^^^Cretaceous^^^^
| ||||||
8 | Ora Caldera | Southern Alps, Italy | Unknown | 277–274 | Ora Formation | |
7 | Altenberg–Teplice Caldera[23] | The Altenberg-Teplice Volcanic Complex | Unknown | 325-317[23] | Teplice Rhyolite intra-caldera deposits | |
8 | Cerberean Caldera | Rubicon Valley | Unknown | 374[24] | Cerberean Caldera now forms the northern part of the Marysville Igneous Complex in central Victoria at Lake Eildon National Park.[24][25] | |
8 | Glen Coe | Scotland | Unknown | 420[26] | ||
8 | Scafells | Lake District | Unknown | 450+[27] |
Notes
[edit]- ^ First documented Supervolcanic eruption, and last known volcanic eruption with a VEI of 8.
- ^ The eruption of Lake Toba was the biggest volcanic eruption in the Quaternary period.[14]
- ^ Second biggest explosive eruption in the last 100 million years
- ^ The biggest explosive eruption in the last 100 million years
See also
[edit]- Geologic time scale
- Timeline of volcanism on Earth
- List of large volume volcanic eruptions in the Basin and Range Province
References
[edit]- ^ start from 1950 CE
- ^ a b c Shinji Takarada; Hideo Hoshizumi (2020). "Distribution and Eruptive Volume of Aso-4 Pyroclastic Density Current and Tephra Fall Deposits, Japan: A M8 Super-Eruption". Frontiers in Earth Science. 8: 170. Bibcode:2020FrEaS...8..170T. doi:10.3389/feart.2020.00170.
- ^ a b c d Victoria C. Smith; et al. (2013-05-01). "Identification and correlation of visible tephras in the Lake Suigetsu SG06 sedimentary archive, Japan: chronostratigraphic markers for synchronising of east Asian/west Pacific palaeoclimatic records across the last 150 ka". Quaternary Science Reviews. 67: 121–137. Bibcode:2013QSRv...67..121S. doi:10.1016/j.quascirev.2013.01.026.
- ^ a b c d Yamamoto, Takahiro (2014). "Cumulative volume step-diagrams for eruptive magmas from major Quaternary volcanoes in Japan". gsj.jp (in Japanese). National Institute of Advanced Industrial Science and Technology. Retrieved 2021-01-04.
- ^ Mitsuhiro Nakagawa; Mizuho Amma-Miyasaka; Daisuke Miura; Shimpei Uesawa (2018). "Tephrostratigraphy in Ishikari Lowland, Southwestern Hokkaido". The Journal of the Geological Society of Japan (in Japanese). 124 (7): 473–489. doi:10.5575/geosoc.2018.0038.
- ^ The up is covered with Shikotsu caldera formation deposits.[5]
- ^ "Volcanic activities and eruption sequence of the large-scale eruption at Shikotsu, Toya, Nigorikawa and Daisen Volcanoes" (PDF) (in Japanese). Geological Survey of Japan, AIST. 2020. Retrieved 2021-01-03.
- ^ start from 1950 CE
- ^ Bouvet de Maisonneuve, C.; Forni, F.; Bachmann, O. (2021). "Magma reservoir evolution during the build up to and recovery from caldera-forming eruptions – A generalizable model?". Earth-Science Reviews. 218: 103684. doi:10.1016/j.earscirev.2021.103684. hdl:10356/161241. ISSN 0012-8252. S2CID 236237501.
- ^ Yoshihisa Kawanabe; Hideo Hoshizumi; Jun'ichi Itoh; Seiko Yamasaki (2015). "Kuju : Geological Maps of Japan". Geological Survey of Japan, AIST.
- ^ a b "Thórsmörk Ignimbrite(correlated to Ash Zone 2)". VOGRIPA. Retrieved 27 May 2024. This source has not yet been updated by post 2019 knowledge.
- ^ a b c Moles, J.D.; McGarvie, D.; Stevenson, J.A.; Sherlock, S.C.; Abbott, P.M.; Jenner, F.E.; Halton, A.M. (2019). "Widespread tephra dispersal and ignimbrite emplacement from a subglacial volcano (Torfajökull, Iceland)". Geology. 47 (6): 577–580. doi:10.1130/G46004.1.
- ^ a b Antonio Costa; Victoria C. Smith; Giovanni Macedonio; Naomi E. Matthews (2014). "The magnitude and impact of the Youngest Toba Tuff super-eruption". Frontiers in Earth Science. 2: 16. Bibcode:2014FrEaS...2...16C. doi:10.3389/feart.2014.00016.
- ^ Chad L.Yost; Lily J.Jackson; Jeffery R.Stone; Andrew S.Cohen (2018). "Subdecadal phytolith and charcoal records from Lake Malawi, East Africa imply minimal effects on human evolution from the ~74 ka Toba supereruption". Journal of Human Evolution. 116: 75–94. doi:10.1016/j.jhevol.2017.11.005. PMID 29477183.
- ^ start from 1950 CE
- ^ Jaime Alberto Cavazos-Álvarez; Gerardo Carrasco-Núñez (2020). "Anatomy of the Xáltipan ignimbrite at Los Humeros Volcanic Complex; the largest eruption of the Trans-Mexican Volcanic Belt". Journal of Volcanology and Geothermal Research. 392: 106755. Bibcode:2020JVGR..39206755C. doi:10.1016/j.jvolgeores.2019.106755. S2CID 213394831.
- ^ start from 1950 CE
- ^ start from 1950 CE
- ^ a b c Teruki Oikawa (2003). "The Spatial and Temporal Relationship between Uplifting and Magmatism in the Hida Mountain Range, Central Japan". Quaternary Research (in Japanese). 42 (3): 141–156. doi:10.4116/jaqua.42.141. Retrieved 2021-01-04.
- ^ Toshiki Haji; Takashi Kudo; Sota Niki; Takafumi Hirata (2023). "The Age of the Lower Tuff in the Utaosa Rhyolite, Teragi Cauldron, southwest Japan:Uranium‒lead dating of Late Pliocene zircon using femtosecond laser ablation-inductively coupled multi-collector ICP mass spectrometry". The Journal of the Geological Society of Japan (in Japanese). 129 (1): 341–354. doi:10.5575/geosoc.2023.0002.
- ^ a b Knott, Thomas; Branney, M.; Reichow, Marc; Finn, David; Tapster, Simon; Coe, Robert (June 2020). "Discovery of two new super-eruptions from the Yellowstone hotspot track (USA): Is the Yellowstone hotspot waning?". Geology. 48 (9): 934–938. Bibcode:2020Geo....48..934K. doi:10.1130/G47384.1. Retrieved 21 June 2022.
- ^ start from 1950 CE
- ^ a b Casas-García, Raymundo; Rapprich, Vladislav; Breitkreuz, Christoph; Svojtka, Martin; Lapp, Manuel; Stanek, Klaus; Hofmann, Mandy; Linnemann, Ulf (2019-11-15). "Lithofacies architecture, composition, and age of the Carboniferous Teplice Rhyolite (German–Czech border): Insights into the evolution of the Altenberg-Teplice Caldera". Journal of Volcanology and Geothermal Research. 386: 106662. Bibcode:2019JVGR..38606662C. doi:10.1016/j.jvolgeores.2019.106662. ISSN 0377-0273. S2CID 202913004.
- ^ a b Clemens, J. D.; Birch, W. D. (2012-12-15), "Assembly of a zoned volcanic magma chamber from multiple magma batches: The Cerberean Cauldron, Marysville Igneous Complex, Australia", Lithos, 155: 272–288, Bibcode:2012Litho.155..272C, doi:10.1016/j.lithos.2012.09.007, ISSN 0024-4937
- ^ Birch, W. D. (1970), An investigation of the Upper Devonian Cerberean Cauldron complex in central Victoria, University of Melbourne
- ^ "Glencoe – Geology". Archived from the original on 11 May 2009. Retrieved May 12, 2023.
- ^ P. J. Brenchley (2006). Timing and Duration of The Volcanism and Related Intrusions. Geological Society of London. p. 116. ISBN 9781862392007.
{{cite book}}
:|work=
ignored (help)
Bibliography
[edit]- Ward, Peter L. (2 April 2009). "Sulfur Dioxide Initiates Global Climate Change in Four Ways" (PDF). Thin Solid Films. 517 (11): 3188–3203. Bibcode:2009TSF...517.3188W. doi:10.1016/j.tsf.2009.01.005. Archived from the original (PDF) on 20 January 2010. Retrieved 2010-03-19.
- Supplementary Table I: "Supplementary Table to P.L. Ward, Thin Solid Films (2009) Major volcanic eruptions and provinces" (PDF). Teton Tectonics. Archived from the original (PDF) on 2010-01-20. Retrieved 2010-03-16.
- Supplementary Table II: "Supplementary References to P.L. Ward, Thin Solid Films (2009)" (PDF). Teton Tectonics. Archived from the original (PDF) on 2010-01-20. Retrieved 2010-03-16.
- "Large Holocene Eruptions". Global Volcanism Program, Smithsonian Institution. Retrieved 2010-04-17.
Further reading
[edit]- Scott E. Bryan; Ingrid Ukstins Peate; David W. Peate; Stephen Self; Dougal A. Jerram; Michael R. Mawby; J.S. Marsh; Jodie A. Miller (2010). "The largest volcanic eruptions on Earth" (PDF). Earth-Science Reviews. 102 (3–4): 207–229. Bibcode:2010ESRv..102..207B. doi:10.1016/j.earscirev.2010.07.001.
- Volcano Global Risk Identification and Analysis Project Website "VOGRIPA".
- Lee Siebert; Tom Simkin; Paul Kimberly (2011). Volcanoes of the World. University of California Press. ISBN 9780520268777.