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Geology of the Big Island of Hawai‘i

Geology of the Big Island of Hawai‘i. Island of Hawai‘i. The Big Island of Hawai‘i. Youngest Hawaiian island Five volcanoes above sea level: Kohala, Mauna Kea, Hualalai, Mauna Loa, and Kilauea Two submarine volcanoes: Mahukona and Lo ‘ ihi Submarine rift zones Giant submarine landslides

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Geology of the Big Island of Hawai‘i

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  1. Geology of the Big Island of Hawai‘i

  2. Island of Hawai‘i

  3. The Big Island of Hawai‘i • Youngest Hawaiian island • Five volcanoes above sea level: Kohala, Mauna Kea, Hualalai, Mauna Loa, and Kilauea • Two submarine volcanoes: Mahukona and Lo‘ihi • Submarine rift zones • Giant submarine landslides • PahalaAsh • a layer of weathered ash found all over the island • may come from more than one volcano • Mauna Kea in the north • Kilauea in the south • has been used to try to correlate age of Big Island volcanoes

  4. submarineland slides submarine rift zones submarineland slides Lō‘ihi Seamount submarine rift zone

  5. Kohala Mauna Kea Hualālai Mauna Loa Kīlauea

  6. distribution and thickness ofPāhalaAsh

  7. Kohala Volcano • Oldest of the Big Island volcanoes • A single set of rift zones (two total) • No exposed caldera--probably buried by postshield lavas • Shield Stage rocks: • Pololo Member, 500 to 300 k.y.a. (k.y.a. = thousand years ago) • tholeiitic basalt, exposed in valley walls • alkalic basalts appear toward end of shield stage • Postshield Stage rocks: • Hawi Member, 260 to 60 k.y.a. • mostly mugearite, some trachyite (alkalic rocks more felsic than hawaiite) • Amphitheater-headed valleys, such as Waipi‘o Valley • are drowned valleys; were cut when local sea level was lower • Giant submarine landslides

  8. Kohala Volcano

  9. cinder cones near the summit of Kohala Volcano

  10. Waipi‘o Valley before the tsunami of 1946

  11. Mauna Kea Volcano • Three rift zones (postshield stage) • Filled caldera • Shield Stage rocks • Hamakua Member, 380 k.y.a. to ? • tholeiitic basalts grading upwards into alkalic rocks (alkalic basalts and hawaiiites) • exposed in sea cliffs along the HamākuaCoast • Postshield Stage rocks • Laupahoehoe Member, ? to 4 k.y.a • buries most of the shield stage rocks • mostly hawaiite • eruptions restricted to upper slopes of the volcano • most eruptions also formed large cinder cones • form a steep-sided “cap” on the surface of the old shield volcano • Had ice-age glaciers on its summit

  12. grooves cut by the motion of glaciers

  13. Hualalai Volcano • end of Subaerial Shield Stage/start of Postshield Stage • Hualalai Member, 13 k.y.a. to present (1801 A.D.) • alkalic basalts, a few hawaiites, and a trachyte • no tholeiitic rocks are exposed at the surface! • Lavas commonly contain pieces of country rocks called xenoliths • many are highly crystalline, phaneritic rocks • represent pieces of an older, solidified magma chamber • gabbro (plagioclase and pyroxene) and peridotites (mostly olivine and pyroxene) • Pu‘u Wa‘awa‘a • a trachyte pumice cone; also contains obsidian • produced a very thick lava flow • produced from an isolated magma chamber? • Since this volcano has been active at the same time as Mauna Loa, its lava flows are interbedded with Mauna Loa lava flows

  14. trachyte lava flow Pu‘u Wa‘awa‘a

  15. Mauna Loa Volcano • Largest volcano on earth • has a caldera and two main rift zones • normal faulting, especially along southwest rift zone • giant submarine landslides off its southwestern flank • only has Subaerial Shield Stage rocks exposed • all rocks are tholeiitic basalts • Ninole Member, ~540 k.y.a. • oldest exposed rocks on the island of Hawai‘i • may represent an extinct earlier volcano or an early stage of Mauna Loa • named for the Ninole Hills, former ridges between amphitheater-headed valleys that have been overrun by later Mauna Loa eruptions • Kahuku Member (unknown age) • lavas that bury the Ninole Member • separated from younger lavas by an erosional surface • Ka‘u Member, 300 k.y.a. to present • produced by current eruptive activity • covers the surface of most of the volcano • may be nearing the end of main shield-building activity since it has less frequent eruptions than Kilauea

  16. fault scarp Nīnole Hills fault scarp

  17. Mauna Kea Mauna Loa Kīlauea

  18. Ninole Hills

  19. Kealakeua Bay fault scarp

  20. South Point fault scarp

  21. Kilauea Volcano • Most active volcano on earth • has been continuously erupting since 1983 from vents on the east rift zone • has a caldera and two main rift zones • caldera bounded by normal fault scarps • faulting produces benches in the caldera walls • rift zones have small lava shields, spatter cones, and cinder cones • slumping of southern (seaward) flank produces normal faulting • results from expansion of rift zones due to dike injection • seaward flank has dropped more than 600 meters • can produce large earthquakes and tsunamis • only has Subaerial Shield Stage rocks exposed • all rocks are tholeiitic basalts • Hilina Member, 100 to 31 k.y.a • Pahala Ash, ~31 k.y.a. • contains Pele’s tears and Pele’s hair • Puna Member, 30 k.y.a. to present

  22. motion of south flank fault scarps

  23. Mauna Loa Kilauea Caldera

  24. Kilauea Caldera

  25. fumaroles in Kilauea Caldera

  26. Southwest Rift Zone

  27. Southwest Rift Zone

  28. Current Eruptive Activity

  29. lava flows faultscarps

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