Презентация на тему "Volcanic Eruptions and Hazards"

Презентация: Volcanic Eruptions and Hazards
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Скачать презентацию (8.3 Мб). Тема: "Volcanic Eruptions and Hazards". Предмет: иностранные языки. 50 слайдов. Добавлена в 2017 году. Средняя оценка: 2.0 балла из 5.

  • Формат
    pptx (powerpoint)
  • Количество слайдов
    50
  • Слова
    английский язык
  • Конспект
    Отсутствует

Содержание

  • Презентация: Volcanic Eruptions and Hazards
    Слайд 1

    Volcanic Eruptions and Hazards

  • Слайд 2

    What is a volcano?

    A volcano is a vent or 'chimney' that connects molten rock (magma) from within the Earth’s crust to the Earth's surface. The volcano includes the surrounding cone of erupted material. vent cone magma chamber conduit

  • Слайд 3

    How and why do volcanoes erupt?

    Hot, molten rock (magma) is buoyant (has a lower density than the surrounding rocks) and will rise up through the crust to erupt on the surface. Same principle as hot air rising, e.g. how a hot air balloon works When magma reaches the surface it depends on how easily it flows (viscosity) and the amount of gas (H2O, CO2, S) it has in it as to how it erupts. Large amounts of gas and a high viscosity (sticky) magma will form an explosive eruption! Think about shaking a carbonated drink and then releasing the cap. Small amounts of gas and (or) low viscosity (runny) magma will form an effusive eruption Where the magma just trickles out of the volcano (lava flow).

  • Слайд 4

    Explosive Eruptions

    Mt. Redoubt Explosive volcanic eruptions can be catastrophic Erupt 10’s-1000’s km3 of magma Send ash clouds >25 km into the stratosphere Have severe environmental and climatic effects Hazardous!!! Above: Large eruption column and ash cloud from an explosive eruption at Mt Redoubt, Alaska

  • Слайд 5

    Three products from an explosive eruption Ash fall Pyroclastic flow Pyroclastic surge Pyroclastic flows on Montserrat, buried the capital city.

  • Слайд 6

    Direct measurements of pyroclastic flows are extremely dangerous!!!

  • Слайд 7

    Effusive Eruptions

    Effusive eruptions are characterised by outpourings of lava on to the ground. Hawaii

  • Слайд 8

    Practical Exercise 1.

    What controls the violence of an eruption? How fast is magma ejected out of the volcano?

  • Слайд 9

    Volcano Monitoring and Hazard Mitigation

  • Слайд 10

    92,000 Tambora, Indonesia 1815 36,000 Krakatau, Indonesia 1883 29,000 Mt Pelee, Martinique 1902 15,000 Mt Unzen, Japan 1792 Volcanic Fatalities But, volcanoes cause fewer fatalities than earthquakes, hurricanes and famine. Courtesy of www.swisseduc.ch

  • Слайд 11

    Volcanic Hazards

    Pyroclastic flow Lahars/Mud flows Pyroclastic fall Lava flow Noxious Gas Earthquakes Courtesy of www.swisseduc.ch

  • Слайд 12

    Pyroclastic Flow

    For example, eruption of Vesuvius in 79 AD destroyed the city of Pompeii

  • Слайд 13

    Pompeii (79AD)

    On August 24, 79AD Mount Vesuvius literally blew its top, erupting tonnes of molten ash, pumice and sulfuric gas miles into the atmosphere. Pyroclastic flows flowed over the city of Pompeii and surrounding areas.

  • Слайд 14

    Pyroclastic flows of poisonous gas and hot volcanic debris engulfed the cities of Pompeii, Herculaneum and Stabiae suffocating the inhabitants and burying the buildings.

  • Слайд 15

    The cities remained buried and undiscovered for almost 1700 years until excavation began in 1748. These excavations continue today and provide insight into life during the Roman Empire.

  • Слайд 16

    Vesuvius today

    Vesuvius remains a hazardous volcano with heavily populated flanks: around 1.5 million people live in the city of Naples alone Naples is situated approx. 30 km from Vesuvius Pyroclastic flows can flow up to 100 km from source! Bay of Naples Vesuvius Naples Courtesy of www.swisseduc.ch

  • Слайд 17

    An eruption of Mt Peleé in 1902 produced a pyroclastic flow that destroyed the city of St. Pierre. before after Mt Peleé, Martinique (1902)

  • Слайд 18

    29,000 people died…. Only 2 survived! Why?

  • Слайд 19

    How do pyroclastic flows cause devastation?

  • Слайд 20

    Pyroclastic Flow - direct impact

    Courtesy of www.swisseduc.ch

  • Слайд 21

    Pyroclastic Flow - burial

  • Слайд 22

    Pyroclastic Flow - burns

  • Слайд 23

    Pyroclastic Flow - lahars

    Hot volcanic activity can melt snow and ice Melt water picks up rock and debris Forms fast flowing, high energy torrents Destroys all in its path

  • Слайд 24

    Pyroclastic Fall

    Ash load Collapses roofs Brings down power lines Kills plants Contaminates water supplies Respiratory hazard for humans and animals

  • Слайд 25

    Lava Flow

    It is not just explosive volcanic activity that can be hazardous. Effusive (lava) activity is also dangerous.

  • Слайд 26

    Lava Flow - Heimaey, Iceland

    Iceland, January 23,1973. Large fissure eruption threatened the town of Vestmannaeyjar.

  • Слайд 27

    The lava flows caught the inhabitants by surprise Before the eruption was over, approximately one-third of the town of Vestmannaeyjer had been destroyed

  • Слайд 28

    However, the potential damage was reduced by spraying seawater onto the advancing lava flows. This caused them to slow and/or stop, or diverted them away from the undamaged part of the town.

  • Слайд 29

    Practical Exercise 2.

    Assessing Volcanic Hazards

  • Слайд 30

    So…. How do we minimize the risk of active volcanoes?

  • Слайд 31

    Volcano Monitoring

    Volcano Observatories are set up on all active volcanoes that threaten the human population. These are designed to monitor and potentially to predict the eruptive behaviour of the volcano in question.

  • Слайд 32

    Seismicity Deformation Gas Output (on volcano and remote sensing techniques) These three things are the most important precursors to an eruption.

  • Слайд 33

    Seismic Activity

    Earthquake activity commonly precedes an eruption Result of magma pushing up towards the surface Increase volume of material in the volcano shatters the rock This causes earthquakes

  • Слайд 34

    Earthquake activity is measured by Seismographs Seismographs are stationed on the flanks of the volcano These record the frequency, duration and intensity of the earthquakes and report it back to the volcano observatory.

  • Слайд 35

    Deformation Monitoring

    “Tiltmeters” are used to measure the deformation of the volcano The tiltmeters measure changes in slope as small as one part per million. A slope change of one part per million is equivalent to raising the end of a board one kilometer long only one millimeter!

  • Слайд 36

    Tilltmeters can tell you when new material enters the magma chamber. Note the presence of earthquakes in relation to the deformation. Often it is a combination of events that fore-warns of an eruption. A B

  • Слайд 37

    Gas Monitoring

    Commonly gas output from a volcano increases or changes composition before an eruption. As magma rises to the surface it releases (exsolves) much of its gas content. This can be measured

  • Слайд 38

    Gas samples are collected from fumaroles and active vents. Gas levels may also be monitored by remote sensing techniques

  • Слайд 39

    In Summary..

    Volcanoes are extremely hazardous. However, the volcano can be studied, monitored and understood. Each volcano is different, and offers a unique set of dangers Plans may be emplaced to help control potential damage.

  • Слайд 40

    Post-lecture Question:

    What should geologists do about volcanic eruptions in the future? Study volcanoes to find out more about how and why they erupt Monitor the volcanoes Develop hazard mitigation plans Understand the population around volcanoes, i.e. why do people choose to live near volcanoes? Education

  • Слайд 41

    Additional (Optional) Material

  • Слайд 42

    Are there other volcano related hazards?

  • Слайд 43

    Noxious Gas

    1,700 people living in the valley below Lake Nyos in northwestern Cameroon mysteriously died on the evening of August 26, 1986.

  • Слайд 44

    Lake Nyos is a crater lake inside a dormant volcano. The lake had become laden with carbon dioxide gas. This gas had suddenly bubbled out of the lake and asphyxiated nearly every living being in the surrounding valley.

  • Слайд 45

    A management plan has been developed to remove gas from the lake to prevent a further tragedy. An artificial vent to the lake surface was created with pipe. Water is pumped from the bottom of the lake to the surface through the pipe, where it can degas.

  • Слайд 46
  • Слайд 47
  • Слайд 48

    The Lake Nyos incident was not unique. Two years earlier, Lake Monoun, 60 miles to the southeast, released a heavy cloud of toxic gas, killing 37 people. A third lake, Lake Kivu, on the Congo-Rwanda border in Central Africa, is also known to act as a reservoir of carbon dioxide and methane, which is a valuable natural gas that is gathered from the lake and used locally.

  • Слайд 49

    Earthquakes

    Large volumes of magma moving through the shallow crust can cause large earthquakes. This can lead to building collapse, slope failure and avalanches

  • Слайд 50

    Destruction after a volcanic induced earthquake in Japan

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