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واضح آرشیو وب فارسی:فان پاتوق: Volcanic Hazards The section below describes different types of volcanic hazards. It is taken from a USGS brochure and gives you some idea of the terminology used and associated properties. The information is for reference only.
**Eruption Columns An explosive eruption blasts molten and solid rock fragments (tephra) into the air with tremendous force. The largest fragments (bombs) fall back to the ground near the vent, usually within 3 km. The smallest rock fragments (ash) continue rising into the air, forming a huge, billowing eruption column. Volcanic ash is composed of fragments of rock, minerals, and glass that are less than 2 millimeters in diameter. Eruption columns can be enormous in size and grow rapidly, reaching more than 12 miles above a volcano in less than 30 minutes. Once in the air, the volcanic ash and gas form an eruption cloud. Eruption clouds pose a serious hazard to aviation. During the past 15 years about 80 commercial jets have been damaged by inadvertently flying into ash, and several have nearly crashed. Large eruption clouds can travel hundreds of miles downwind from a volcano, resulting in ash fall over enormous areas. Ash from the May 18, 1980, eruption of Mount St. Helens was deposited over 22,000 square miles of the western United States. With increasing distance downwind from a volcano, the ash particles become smaller and the thickness of the resulting layer decreases. Minor ashfall can be a nuisance to people and damage crops, electronics, and machinery; heavy ashfall can collapse buildings. Even when a volcano is not erupting, cracks in the ground allow gases to vent into the atmosphere through fumaroles. The most common volcanic gases are water vapor (90%), carbon dioxide, sulfur dioxide, hydrogen sulfide, and hydrogen. Sulfur dioxide gas can react with water droplets in the atmosphere downwind and fall as acid rain, causing corrosion and adversely affecting vegetation. Carbon dioxide is heavier than air and tends to collect in depressions, where on occasion it can accumulate in lethal concentrations and cause people and animals to suffocate. Sometimes, toxic concentrations of fluorine are adsorbed onto ash and ingested by livestock or leached into domestic water supplies. Large eruptions inject sulfur dioxide gas into the stratosphere, where it combines with water to form an aerosol of sulfuric acid. By reflecting solar radiation, the sulfur aerosols can lower Earth"s average surface temperature by a few degrees Fahrenheit. These aerosols also hasten ozone destruction by altering chlorine and nitrogen chemical species in the stratosphere.
**Pyroclastic Flows High-speed avalanches of hot ash, rock fragments, and gas move down the sides of a volcano during explosive eruptions or when the steep edge of a dome breaks apart and collapses. These pyroclastic flows, which can reach 1500 degrees F and move at 100-150 miles per hour, are capable of knocking down and burning everything in their paths. A more energetic and dilute mixture of searing gas and rock fragments is called a pyroclastic surge. Surges move easily up and over ridges; flows tend to follow valleys. The May 18, 1980 eruption of Mount St. Helens generated a horizontally directed series of explosions that formed a lateral blast. This blast destroyed an area of 230 square miles. Trees 6 feet in diameter were mowed down like blades of grass as far as 15 miles from the volcano. The blast exhibited characteristics of both pyroclastic flows and surges.
**Lava Flows Molten rock (magma) that pours or oozes onto the Earth"s surface is called lava. The higher a lava"s silica (Si) content, the more viscous (stickier) it becomes. For example, low-silica basalt lava can form fast-moving (15-50 km per hour), narrow lava streams or spread out in broad sheets up to several miles wide. Between 1983 and 1993, basalt lava flows erupted at Kilauea Volcano in Hawaii destroyed nearly 200 houses and severed the coast highway along the volcano"s south flank. In contrast, higher-silica andesite and dacite lava flows tend to be thick, move slowly, and travel short distances from a vent. Dacite and rhyolite lava flows often form mound-shaped features called domes. Between 1980 and 1986, Mount St. Helens built a lava dome about 300 m high and 1500m in diameter.
**Debris Flows and Landslides Lahars, the technical term for debris flows, are mixtures of water, rock, sand, and mud that rush down valleys leading away from a volcano. They can travel over 75 km downstream, commonly reaching speeds between 30 and 60 km per hour. Sometimes they contain so much rock debris (60-90% by weight) that they look like fast-moving rivers of wet concrete. Close to the volcano they have the strength to rip huge boulders, trees, and houses from the ground and carry them down valley. Further downstream they simply entomb everything in mud. Historically, lahars have been among the most deadly volcanic hazards. Lahars can form in a variety of ways, either during an eruption or when a volcano is quiet. Some examples include the following: (1) rapid release of water from the breakout of a summit crater lake; (2) generation of water by melting snow and ice, especially when a pyroclastic flow erodes a glacier; (3) flooding following intense rainfall; and (4) transformation of a volcanic landslide into a lahar as it travels downstream. A landslide is a rapid downslope movement of rock, snow, and ice. Landslides range in size from small movements of loose debris on the surface of a volcano to massive failures of the entire summit or flanks of a volcano. Volcanic landslides are not always associated with eruptions; heavy rainfall or a large regional earthquake can trigger a landslide on steep slopes. Volcanoes are susceptible to landslides because they are composed of layers of weak, fragmented, volcanic rocks that tower above the surrounding terrain. Furthermore, some of these rocks have been altered to soft, slippery, clay minerals by hot, acidic ground water inside the volcano. At least five large landslides have swept down the slopes of Mount Rainier during the past 6,000 years. The largest volcanic landslide in historical time occurred at Mount St. Helens on May 18, 1980.
**Monitoring The most common methods to study volcanic activity are measurement of changes in the shape of the volcano, determination of the location and magnitude of earthquakes, and measurement of changes in volcanic-gas composition and magnetic field. **
Measurement of changes in the shape of a volcano Volcanoes gradually swell or "inflate" in building up to an eruption because of the influx of magma into the volcano"s reservoir or "plumbing system." With the onset of eruption, pressure is immediately relieved and the volcano rapidly shrinks or "deflates." A wide variety of instruments, including precise spirit-levels, electronic tiltmeters, and electronic-laser beam instruments, can measure changes in the slope or "tilt" of a volcano or in vertical and horizontal distances with a precision of only a few parts in a million.
**Precise determination of the location and magnitude of earthquakes by a well-designed seismic network As a volcano inflates by the rise of magma, the enclosing rocks are deformed to the breaking point to accommodate magma movement. When the rock ultimately fails to permit continued magma ascent, earthquakes result. By carefully mapping out the variations with time in the locations and depths of earthquake foci, scientists in effect can track the subsurface movement of magma, horizontally and vertically.
**Measurement of changes in volcanic-gas composition and in magnetic field The rise of magma high into the volcanic edifice may allow some of the associated gases to escape along fractures. Thus the composition of the gases (measured at the surface) differs from that usually measured when the volcano is quiescent and the magma is too deep to allow gas to escape. Changes in the Earth"s magnetic field have been noted preceding and accompanying some eruptions, and such changes are believed to reflect temperature effects and/or the content of magnetic minerals in the magma
**Summary Earthquakes can be categorized according to their location (focus & epicenter), intensity, magnitude, and energy. Seismic waves are created by the release of energy stored in rocks. The speed at which different types of seismic waves travel can be used to determine the epicenter of an earthquake. Volcanoes erupt as a result of high-pressure gas and magma below the surface of the Earth. The magma forms through heating, depressurizing, and water introduction. Eruptions of volcanoes produce pyroclastic flows, lava flows, debris flows, and landslides. Although these natural disasters have been studied extensively and their causes are well-understood, predicting such events over short time scales remains difficult.

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[مشاهده در: www.funpatogh.com]
[تعداد بازديد از اين مطلب: 13850]

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