Plate Tectonic, Volcanoes and Earthquakes What is the relationship between volcanoes, earthquakes, and plate-tectonics? Plate tectonics is the over-lying theory presently used by most Earth Scientists to describe motion within the outer-most layer of the solid Earth also know as the lithosphere.
The drawing above is a cross section of the earth showing the components that lie within plate tectonic theory.
Note the continental craton stable continent in the middle of the drawing. Note the line under the craton; that is the lower boundary of the plate. Everything above that line is the plate. All similar lines in the cross section mark the bottom of the plates. Technically, everything above that line is lithosphere, the rigid, brittle shell of the earth.
Everything below is asthenosphere, the hot, plastic interior of the earth. Within the asthenosphere are convection cells, slowly turning over hot, plastic rock.
Movement is about 10 centimeters a year. When the convection cells reach the base of the lithosphere they release heat to the surface at the divergent plate boundary to escape to space. It is this turning over of the convection cells the drives the plate movements.
Observe that 7 different plates are labeled in the cross section. Plates are combinations of two units, continents and ocean basins. It is possible a plate could be a continent alone, but for this to occur all edges of the continent would have to be a plate boundary very rare, perhaps not practically possible.
Plate interact at these boundaries. Two divergent margins plate boundaries are present in the cross section, one labeled as such to the right of the continental craton, and the other on the left side.
The left side divergent margin is labeled Back Arc Marginal Basin. Back arc basins are formed by minor convection cells above subduction zones. Divergent plate boundaries always create new ocean floor that is, new oceanic lithosphere, called the ophiolite suite. Three convergent boundaries are present, all of them one way or another involving a subduction zone.
In the continent-continent collision the subduction zone is now extinct but can be seen below the surface. Subduction zones generate lots of igneous magma that rises to the surface to form volcanic mountains volcanic arcs; also island arcs.
The igneous batholiths that feed the volcanoes are the beginning of generation of new continental crust. Continents are created above subduction zones as small proto- and microcontinents. They enlarge by colliding and fusing together, or suturing onto a larger continent, at a convergent plate boundary.
At convergent boundaries oceanic lithosphere is always destroyed by descending into a subduction zone. This is because oceanic rock is heavy, compared to the continents, and sinks easily. Because oceanic lithosphere is created and destroyed so easily ocean basins are young; the oldest we have is only about million years old.
Continents, on the other hand, composed of light weight rock never subducts. Thus, continental rock once formed is more or less permanent; the oldest continental fragment is 3.
Only one transform boundary is present, on the left side of the drawing. At transform boundaries two plates just slide past one another horizontally, and quietly compared to convergent and divergent plate boundaries.
Most of these are found in the ocean basins, but the San Andreas fault in California and Mexico is an example coming on land. Thus, any time there is a divergent plate boundary where two plates are separating, there must be a convergent plate boundary subduction zone where the earth comes together again.
And convergent boundaries always, eventually, lead to collisions between continents, or continents and terranes island arcs plus or minus microcontinents. Observe the subduction zones in the cross section. Next to each one is a remnant ocean basin ROB. An ROB is one that is disappearing down a subduction zone; it is a remnant of its former self.
But all subduction zones must eventually disappear completely and when they do the floating blocks on either side will collide, and create a mountain range. The continent-continent collision in the cross section is a case where the collision has already occurred.
But in the larger picture, it is common for a divergent plate boundary to come into existence and create a new ocean basin, and then for that ocean basin to close again along a convergent plate boundary until two continents collide.
This opening and closing of ocean basins is the Wilson Cycle, and is the simplest model we have of how the earth operates historically.identify the relationship between the general composition of igneous rocks and plate boundary type.
outline the main stages involved in the growth of the Australian continent over geological time as a result of plate tectonic Observation of the direction of plate movement over the hot spot can assist in predicting where new volcanos. Scientists now have a fairly good understanding of how the plates move and how such movements relate to earthquake activity.
Most movement occurs along narrow zones between plates where the results of plate-tectonic forces are most evident. Thus, any time there is a divergent plate boundary where two plates are separating, there must be a convergent plate boundary (subduction zone) where the earth comes together again.
And convergent boundaries always, eventually, lead to collisions between continents, or continents and terranes (island arcs plus or minus microcontinents). Plate Tectonics, the Cause of Earthquakes The plates consist of an outer layer of the Earth, the lithosphere, which is cool enough to behave as a more or less rigid initiativeblog.comonally the hot asthenosphere of the Earth finds a weak place in the lithosphere to rise buoyantly as a plume, or hotspot.
The satellite image below shows the volcanic islands of the Galapagos hotspot. Start studying Oceanography Chapter 2. Learn vocabulary, terms, and more with flashcards, games, and other study tools.
Search. What is the relationship between continent edges and plate boundaries? A volcanic arc is associated with a convergent plate boundary. In a volcanic arc, any of the volcanoes can be active at any time.
Subject: Plate Tectonic, Volcanoes and Earthquakes What is the relationship between volcanoes, earthquakes, and plate-tectonics? Plate tectonics is the over-lying theory presently used by most Earth Scientists to describe motion within the outer-most layer of the solid Earth (also know as the lithosphere).