With these three kinds of boundaries and two different types of crusts, many scenarios can potentially occur. Whether it is ocean to continent transformal, continent to continent divergent, or continent to ocean convergent, but the key to unlock volcanic islands is oceanic to oceanic convergent boundary where two ocean plates collide. When this happens the older plate carrying the heavier oceanic crust will plunge under since the older plate becomes more dense as it cools and travels farther from the mid ocean ridge, while the younger and lighter plate will glide over on top of it creating a subduction zone (1, Ref). Within this subduction zone the denser plate diving into the asthenosphere is heated from the gases and pressure causing it to melt. Since molten rock is less dense, the lava rises up and creates an underwater volcano. As millions of years go by, the volcano continues to erupt underwater as long as there is a supply of magma. This generates an underwater mountain, known as a seamount (4, Trujillo). Eventually the underwater volcano piles so much erupted material, which cools on top of itself, that it breaks sea level thus creating a volcanic island, also known as an island arc. They’re named island arcs because an elegant shape of an arc is made as the volcano chain creates islands (1, Ref). An example of an Island chain is the Aleutian Islands which are located off the coast of Alaska.
All along the mid ocean ridges lies countless amounts of seamounts that couldn’t reach up to the surface to become an island. Since the mid ocean ridge is a divergent plate boundary, the plates consistently move away from the volcanic activity as new lava seeps up and cools. Existing seafloor is pushed away as new seafloor is produced; also known as seafloor spreading (4, Trujillo). This creates a small time span for the submarine mountain to develop enough molten basaltic rock into an island which is rare alongside the mid ocean ridge. Although it is rare, small islands can emerge from their seamount state along this divergent boundary. As a result of weather, wind and water crash against the small protruding island which eventually erodes it away until the island is no longer breaking the surface
(2, Rubin). “After this process occurs, the battered down island is no longer an island or a seamount because any seamount that eventually extends beyond the surface of the ocean and is eroded away, until the peak sits just under sea level, is called a guyote or tablemount.” (1, Ref) Very few islands are found near ocean ridges due to the fact of seafloor spreading. The majority of volcanic islands are created from oceanic convergent plate boundaries, but there is yet another source of volcanic made islands. A major exception of islands found on mid ocean ridges is Iceland, the largest island in the world. This massive land mass is significant because of the size and location in the ocean. After researching all the information previously given of how few islands are created over a mid ocean ridge, there’s no way the largest island in the world could have formed from just that. Not only was Iceland nourished with new molten material through the mid-ocean ridge but also from what is called a hot spot. According to the theory of J. Tuzo Wilson in 1963, a hot spot is, “a fixed location in the earth’s mantle where thermal plumes penetrate the crust.” This means that any plate passing over the fixed hot spot will heat up and melt, causing an up rise. Iceland was generated over a mid ocean ridge, while at the same time passing over a hot spot (6, Watson). These two sources together supplied this unique island with enough molten rock to become what it is today. For roughly 55 million years this hotspot deep in the mantle contributed volcano after volcano to the upwelling of Iceland. Although the hotspot has since cooled, the mid Atlantic ridge remains vigorously active. Iceland is one of the few places on Earth where a mid-ocean ridge has risen to the land 's surface and become visible.
The Hawaiian Islands are of volcanic origin but with no plate boundary for miles. This island arc was composed from another hotspot which is presently beneath the big island of Hawaii. Since the hotspot is stationary in the mantle, the plates move over this fixed spot where magma forms and a new volcano can punch through this plate and create an island (2, Rubin). Each island is made up of at least one primary volcano, although many islands are composites of more than one. The Big Island, for instance, is constructed of 5 major volcanoes: Kilauea, Mauna Loa, Mauna Kea, Hualalai and Kohala (2, Rubin). Mauna Loa is the largest active volcano on Earth. Kilauea is presently one of the most productive volcanoes on Earth (in terms of how much lava it erupts each year). The primary volcano on each of the islands are known as shield volcanoes, which are gently sloping mountains produced from a large number of generally high fluid lava flows. As the plate continues to slither on by the volcano becomes inactive and a new one takes its place and so on and so forth. With time, the islands will drift westward as they age due to the moving seafloor and relative volcanism stops; ultimately leading to shrinking of the island, from erosion, and its inevitable fate of submersion (2, Rubin). The farther a volcanic island moves from a hotspot the older that island becomes. The relationship between the islands and there distance from the hotspot indicates the relative age of each island. Currently, the Hawaiian Island arc consists of 8 major islands Loihi, Hawaii, Maui, Molokai, Oahu, Kauai, Nihau, and Nihoa all in chronological order of youngest to oldest. Beyond Nihoa exists an even older chain of underwater tablemounts called the Emperor Seamounts which were previously islands that have been long eroded away. When an island arc has active volcanism, that specific island is called the back arc and may be followed by a trail of non-volcanic islands called the front arc. In this case with the Hawaiian arc, Hawaii is the back arc (shown in #4 volcano) while the further older islands are the front arc (5, Rothman). The chart shown below gives an excellent layout of the Hawaiian arc as well as the Emperor Seamounts and their age relativity.
After millions of years of creation and destruction, colliding and shifting the Earth today is a miraculous piece of art. Every portion of the planet’s crust has its own unique tale to tell, whether it be an uprising island, a sea mount, or even a deep ocean water trench. All in all creation of volcanic islands is in fact an extensive process, which in turn allows the Earth to beautifully mold each and every one inimitably. As years go by many people will remain skeptical of these “geological monsters” and never see their true valued importance, but all in all there is more than meets the eye when it comes to this rare occurrence.
Bibliography
1.) http://science.jrank.org/pages/3705/Island.html
(<a href="http://science.jrank.org/pages/3705/Island.html">Island - How Many Islands?, Island Formation, Coral Islands, Island Biogeography, Island Economics - Island types</a>)
2.) Ken Rubin. http://www.soest.hawaii.edu/GG/HCV/haw_formation.html
3.) http://www.platetectonics.com/
4.) Essentials of Oceanography. Alan P. Trujillo
5.) Dr. Robert Rothman. http://www.rit.edu/~rhrsbi/GalapagosPages/Vulcanism2.html
6.) Jm Watson. http://pubs.usgs.gov/gip/dynamic/hotspots.html
Bibliography: 1.) http://science.jrank.org/pages/3705/Island.html (<a href="http://science.jrank.org/pages/3705/Island.html">Island - How Many Islands?, Island Formation, Coral Islands, Island Biogeography, Island Economics - Island types</a>) 2.) Ken Rubin. http://www.soest.hawaii.edu/GG/HCV/haw_formation.html 3.) http://www.platetectonics.com/ 4.) Essentials of Oceanography. Alan P. Trujillo 5.) Dr. Robert Rothman. http://www.rit.edu/~rhrsbi/GalapagosPages/Vulcanism2.html 6.) Jm Watson. http://pubs.usgs.gov/gip/dynamic/hotspots.html
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