Sunday, June 27, 2010

Nature

VOLCANOES


A volcano is generally a conical-shaped hill or mountain built by accumulations of lava flows, tephra, and volcanic ash. About 95% of active volcanoes occur at the plate subduction zones and at the mid-oceanic ridges (Figure 1). The other 5% occur in areas associated with lithospheric hot spots. These hot spots have no direct relationships with areas of crustal creation or subduction zones. It is believed that hot spots are caused by plumes of rising magma that have their origin within the asthenosphere.


Figure 2: Location of major volcanic deposits laid down during the last 2 million years. (Source: PhysicalGeography.net)
Over the last 2 million years, volcanoes have been depositing lava, tephra, and ash in particular areas of the globe (Figure 2). These areas occur at hot spots, rift zones, and along plate boundaries where tectonic subduction is taking place.

Not all volcanoes are the same. Geologists have classified five different types of volcanoes. This classification is based on the geomorphic form, magma chemistry, and the explosiveness of the eruption.

The least explosive type of volcano is called a basalt plateau. These volcanoes produce a very fluid basaltic magma with horizontal flows. The form of these volcanoes is flat to gently sloping and they can occupy an area from 100,000 to 1,000,000 square kilometers. Deposits of these volcanoes can be as thick as 1,800 meters. Large basalt plateaus are found in the Columbia River Plateau, western India, northern Australia, Iceland, Brazil, Argentina, and Antarctica.


Figure 3: Low viscosity basaltic lava flow. (Source: US Geological Survey)
Some basaltic magmas can produce very large slightly sloping volcanoes, 6 to 12°, that have gently flowing magmas called shield volcanoes. Shield volcanoes can be up to 9,000 meters tall. The volcanoes of the Hawaiian Islands are typical of this type. Extruded materials from this type of volcano mainly consist of low-viscosity basaltic lava flows (Figure 3).


Figure 4: Cinder cone volcano in the Mojave National Preserve, California. (Source: US Geological Survey)
A cinder cone is a small volcano, between 100 and 400 meters tall, made up of exploded rock blasted out of a central vent at a high velocity (Figure 4). These volcanoes develop from magma of basaltic to intermediate composition (andesite). They form when large amounts of gas accumulate within rising magma. Examples of cinder cones include Little Lake Volcano in California and Paricutin Volcano in Mexico.

Composite volcanoes are made from alternate layers of lava flows and exploded rock. Their height ranges from 100 to 3,500 meters tall. The chemistry of the magma of these volcanoes is quite variable ranging from basalt to granite. Magmas that are more granitic tend to be very explosive because of their relatively higher water content. Water at high temperatures and pressures is extremely volatile. Examples of composite volcanoes include Italy's Vesuvius, Japan's Mount Fuji, and Washington State's Mount Rainier and Mount St. Helens (Figures 5).


Figure 5: Mount St. Helens eruption on May 18, 1980. (Source: U.S. Geological Survey, photograph by Austin Post).
The most explosive type of volcano is the caldera. The cataclysmic explosion of these volcanoes leaves a huge circular depression at the Earth's surface. This depression is usually less than 40 kilometers in diameter. These volcanoes form when "wet" granitic magma quickly rises to the surface of the Earth. When it gets to within a few kilometers of the surface the top of the magma cools to form a dome. Beneath this dome the gaseous water in the magma creates extreme pressures because of expansion. When the pressure becomes too great the dome and magma are sent into the Earth's atmosphere in a tremendous explosion. On the island of Krakatau, a caldera-type volcano exploded in 1883 ejecting 75 cubic kilometers of material in the air and left a depression in the ground some 7 kilometers in diameter.


Figure 6: Map of the location of the Yellowstone caldera. Several large earthquakes have occurred in the last century in the vicinity of the caldera indicating that significant volcanic activity is occurring beneath the ground surface. (Source: U.S. Geological Survey - Yellowstone Volcano Observatory).
A potentially very destructive caldera covering an area of about 2,000 square kilometers exists under Yellowstone National Park in the United States (Figure 6). Investigations have discovered that over the last 2 million years this volcano has exploded on a regular interval of about 700,000 years. The last eruption occurred 630,000 years ago and the next could take place anytime. When the Yellowstone caldera last erupted, it blasted 1,000 cubic kilometers of volcanic ash and rock into the atmosphere. The ash ejected into the atmosphere created climatic havoc on a global scale. The ash would have blocked sunlight from being received at the ground surface for a few years. A reduction in the reception of solar radiation would have caused the globle climate to cool significantly. Over time this ash settled back to the Earth's surface covering more than half of North America

Tuesday, June 22, 2010

Our First Essay Ever Together

Task 1

The graph shows the percentage terms of the variations of domestic access to modern technology in homes in the United Kingdom.

According to the graph,it indicated that the growth of CD players is rising steadily throughout the year from 1996/97 until 2002/03,while home computers are also rising gradually. The CD player had the biggest percentage among all of the other modern technologies,with 60 percent at 1996/97 and about 82 percent at 2002/03. The reason that they are both rising gradually is because there are no advanced technologies such as laptops and thumb drives that can be used outside their home and even in restaurants and stalls.

Whereas since the internet access only started at 1998/99,it showed the least percentage among them all with around 10 percent but rising smoothly because internet access has a lot of advantage and privilege in terms of searching for information and connecting with other faces of the world. Plus,using internet are easier than posting mails to other people or even call them. The fact that internet access count was taken a year after everything else was counted shows that before that time,not many people had the privilege of using it.

The last one is the mobile phones which have the most interesting trend among the other three modern technologies. The mobile phones flunctuated wildly but in an upward trend. The graph also shows that the usage of mobile phone has the highest increase of percentage between the others and it is a fact that it has grown to the extent that the two technologies have merged,that is the mobile phone and internet access because a mobile phone can also be used to access the internet.