1 / 48

Volcanic hazards

Volcanic hazards. >1300 volcanoes known to have erupted in Holocene (last 10 000 years) ~500 classified as ‘active’ (i.e. known to have erupted in recorded history)

csayler
Download Presentation

Volcanic hazards

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Volcanic hazards • >1300 volcanoes known to have erupted in Holocene (last 10 000 years) • ~500 classified as ‘active’ (i.e. known to have erupted in recorded history) • Remainder classified as ‘dormant’ (may become active again) or ‘extinct’ (not expected to erupt again), but Vesuvius was thought to be extinct before AD 79! Plus new vents: e.g. Paricutin (Michoacan, Mexico) shown erupting in 1943 (graphic by Diego Rivera)

  2. Distribution of active volcanoes 60% around Pacific; 20% in Mediterranean region

  3. Major volcanic eruptions since AD1600 (>8000 deaths)

  4. Volcanoes • Eruptive style and hazard depends on: • Tectonic setting • Depth of magma formation • Rate of magma movement to the surface • Percent and type of volatiles (gases)

  5. Volcanoes - tectonic settings examples?

  6. Oceanic ridge, SubductionHotspots zone • Basic/Mafic volcanics • Low SiO2 • Fluid lava (10 m/s) • Low gas pressure(little explosive activity) • Acidic/Felsic volcanics • High SiO2 • Viscous lava (3 m/s) • High gas pressure(explosive activity)

  7. Classification of volcanic eruptions (after Scheidegger) Low RiskHigh RiskGas Pressure Low Lava Type High Oceanic ridge,Subduction Hotspots zone

  8. VEIVolume of tephra Eruption (m3) type Eruptionmagnitude= Volcanic Explosivity Index 0 nonexplosive Icelandic/ Hawaiian <105 ~106 Strombolian ~107 Vulcanian ~108 Vesuvian ~109 Plinian ~1010 Peléan ~1011 ~1012 “supereruption”

  9. Types of volcanic hazard http://volcanoes.usgs.gov/Hazards/What/hazards.html

  10. Volcanic hazards:deaths (AD 1900-2000)

  11. Basaltic lava flows “Aa” (blocky lava) flow, Hawai “Pahoehoe” (ropy lava) flow, Reunion Hazards - property burnt and buried by lava

  12. Recent major lava flows, Hawai’i

  13. Volcanic hazards - Hawai’i Five active volcanoes; hazards are mainly lava flows, although tephra and gas emissions also occur. Hazard profile similar for all three.

  14. Volcanoes of the Mediterranean

  15. Mount Vesuvius: recent major eruptions • A.D. 79: destruction of Pompeii and Herculaneum; • 80 eruptions since then -most violently in 1631 and 1906; quiet since 1944

  16. Mt. Vesuvius modern Herculaneum excavated area of Roman Herculaneum (20 m below modern city)

  17. Volcanic ash Yakima, WA (May, 1980) Fine-grained volcanic ash can cause health problems in susceptible people, clog ventilation systems, cause electrical short circuits, damage crops, and wreck jet engines (e.g. the BA 747 that lost all 4 engines and dropped 4 km after encountering an ash cloud over Indonesia in 1982).

  18. Spurr Cleveland Okmok Kasatochi Visit the AVO website [http://puff.images.alaska.edu/] for animations of current eruptions

  19. Ash cloud from the eruption of Mt. Spurr (Alaska) in 1992

  20. Dominant wind directions,Mt. Baker

  21. Pyroclastic flow (nuée ardente) Ruins of St. Pierre, Martinique. Pyroclastic flow (>700°C; ~200 km/h) from Mt. Pelée in 1902 killed 30 000 people; 2 survived. Collapse of eruption column (Mt. MayonPhillipines, 1968)

  22. Lake Nyos (Cameroon, 1986). More than 1700 people killed as a result of a massive release of CO2; formed a ‘river’about 50m deep that flowed for 25 km. L. Nyos currently contains about 350 M m3 of CO2. Similar event at L. Monoun (Cameroon) in 1984 resulted in 37 deaths. Volcanic gases In 1783 a massive fissure eruption near Laki, Iceland released huge amounts of basaltic lava (5 000 m3/s), and a ‘dry fog’ rich in SO2 and flourine. Some 75% of stock animals in Iceland died, the subsequent famine killed 10 000 people.

  23. Lahars: volcanic mudflows • Eruptive“volcanic rain” (e.g. Herculaneum) melting of summit snow/ice (e.g. Nevado del Ruiz) • Post-eruptiveintense rainstorms (e.g. Hurricane Mitch)

  24. Lahar resulting from volcanic rain

  25. Nevado del Ruiz, Colombia

  26. Lahars, Mt Rainier Osceola lahar: age: 5600 yrs BPlength: 120 kmvolume: 40x Ruiz depth: 20mvelocity: >70 km/hpop: 100 000

  27. Jokulhlaups(e.g. Vatnajokull, Iceland) In 1996 a subglacial eruption released 4 km3 of meltwater

  28. Identification of high-risk volcanoes • Frequency and nature of past eruptions • Distribution and nature of eruptive products • Population density and property value in vicinity of volcano

  29. Why wasn’t Vesuvius recognized as high-risk by the Romans? From data in: Andronico, D. and Cioni, R. 2002. Bull. Volcanology 64, 372-391.

  30. Identification of high-risk volcanoes (1984) SE Asia and Pacific = 42 Americas and Caribbean = 40 Africa and Europe - 7 Total = 89 (of ~500 active volcanoes) • Caveat: “low ratings may simply reflect incomplete or incorrect information, not necessarily low risk. In fact, volcanoes not listed should be the focus of... investigation” [Yokohama et al. (1984)] • Omissions (Nevado del Ruiz ~25000 killed in1985!)

  31. Monitoring techniques

  32. Gas sampling at vents (craters, fumaroles)

  33. Monitoring and prediction(Mt St Helens, 1982)

  34. “Super-volcanoes”

  35. Continental caldera formation

  36. Since 1980 some 2M m3 of CO2 released and substantial earthquake activity (some quakes M ~ 6)associated with intrusion of magma tongue 10 km

  37. The last super-eruption from Long Valley caldera Bishop Tuff

  38. Volcanic hazards in the Naples region Campi Flegrei La Solfatara

  39. Tectonic deformation, Campi Flegrei (1982-1985 pulse)

  40. Ruins of Roman market, Pozzuoli; inundated by sea, uplifted by 2m in <10 years as a result of volcano-tectonic forces beneath Campi Flegrei caldera 1976 1984

  41. Earthquake damage, Church of Purgatory, Puzzuoli 1982

  42. City of Naples La Solfatara, one of several small active craters in the Campi Flegrei

  43. The after-effects of a super-eruption(Rampino, 2002, Icarus, v.156, p. 562) • Stratospheric loading of ~1000 Mt of SO2 and sulphate aerosols • Aerosol veil persists for 5 - 10 years • Global cooling of 3-5°C (locally 15°C) • Collapse of agricultural production for several years --> famine --> conflict • Last great supereruption (Toba, ~73,000 BP) may have reduced human population to ~10,000 people (Ambrose, 1998, J. Human Evolution., v. 34, 623)

More Related