PLATE TECTONICS
Introduction
The younger age of the oceanic crust as well as the fact that the spreading of one ocean does not cause the shrinking of the other, made Hess concept termed Plate Tectonic.
A tectonic plate (also called a lithospheric plate) is a massive, irregularly-shaped slab of solid rock, generally composed of both continental and oceanic lithosphere.
Plates move horizontally over the asthenosphere as rigid units. The lithosphere includes the crust and top mantle with its thickness range varying between 5-100 km in oceanic parts and about 200 km in the continental areas.
A plate may be referred to as the continental plate or oceanic plate depending on which of the two occupy a larger portion of the plate.
The Pacific plate is largely an oceanic plate whereas the Eurasian plate may be called a continental plate.
The theory of plate tectonics proposes that the earth’s lithosphere is divided into seven major and some minor Young Fold Mountain ridges, trenches, and/or faults surround these major plates.
These plates have been constantly moving over the globe throughout the history of the earth.
It is not the content that moves as believed by Wegener. Continents are part of a plate and what moves is the plate.
Moreover, it may be noted that all the plates, without exception, have moved in the geological past, and shall continue to move in the future period as well.
Wegener had thought of all the continents to have initially existed as a supercontinent in the form of Pangaea.
However, later discoveries reveal that the continental masses, resting on the plates, have been wandering all through the geological period, and Pangaea was a result of the converging of different continental masses that were parts of one or the other plates.
Scientists using the paleomagnetism data have determined the positions held by each of the present continental landmasses in different geological periods.
The position of the Indian sub-continent (mostly Peninsular India) is traced with the help of the rocks analyzed from the Nagpur area.
The major plates are as follows:
- Antarctica and the surrounding oceanic plate
- North American (with western Atlantic floor separated from the South American plate along with the Caribbean islands) plate
- South American (with western Atlantic floor separated from the North American plate along with the Caribbean islands) plate
- Pacific plate
- India-Australia-New Zealand plate
- Africa with the eastern Atlantic floor plate
- Eurasia and the adjacent oceanic plate.
Some important minor plates are listed below:
- Cocos plate: Between Central America and Pacific plate
- Nazca plate: Between South America and Pacific plate
- Arabian plate: Mostly the Saudi Arabian landmass
- Philippine plate: Between the Asiatic and Pacific plate
- Caroline plate: Between the Philippine and Indian plate (North of New Guinea)
- Fuji plate: North-east of Australia.
PLATE BOUNDARIES
There are three types of plate boundaries:
DIVERGENT BOUNDARIES
In Divergent boundaries, a new crust is generated as the plates pull away from each other.
The sites where the plates move away from each other are called spreading sites.
The best-known example of divergent boundaries is the Mid- Atlantic Ridge.
At this, the American Plate(s) is/are separated from the Eurasian and African Plates.
CONVERGENT BOUNDARIES
Where the crust is destroyed as one plate dived under another.
The location where the sinking of a plate occurs is called a subduction zone.
There are three ways in which convergence can occur.
These are: (i) between an oceanic and continental plate; (ii) between two oceanic plates; and (iii) between two continental plates
TRANSFORM BOUNDARIES
Where the crust is neither produced nor destroyed as the plates slide horizontally past each other.
Transform faults are the planes of separation generally perpendicular to the mid-oceanic ridges.
As the eruptions do not take all along the entire crest at the same time, there is a differential movement of a portion of the plate away from the axis of the earth.
Also, the rotation of the earth has an effect on the separated blocks of the plate portions.
RATES OF PLATE MOVEMENT
The strips of the normal and reverse magnetic fields that parallel the mid-oceanic ridges help scientists determine the rates of plate movement.
These rates vary considerably.
The Arctic Ridge has the slowest rate (less than 5 cm/yr), and the East Pacific Rise near Easter Island, in the South Pacific about 3,400 km west of Chile, has the fastest rate (more than 15 cm/yr).
FORCE FOR THE PLATE MOVEMENT
At the time that Wegener proposed his theory of continental drift, most scientists believed that the earth was a solid, motionless body.
However, concepts of seafloor spreading and the unified theory of plate tectonics have emphasized that both the surface of the earth and the interior are not static and motionless but are dynamic.
The fact that the plates move is now a well-accepted fact.
The mobile rock beneath the rigid plates is believed to be moving in a circular manner.
The heated material rises to the surface, spreads and begins to cool, and then sinks back into deeper depths.
This cycle is repeated over and over to generate what scientists call a convection cell or convective flow.
Heat within the earth comes from two main sources: radioactive decay and residual heat. Arthur Holmes first considered this idea in the 1930s, which later influenced Harry Hess’s thinking about seafloor spreading.
The slow movement of the hot, softened mantle that lies below the rigid plates is the driving force behind the plate movement.
MOVEMENT OF THE INDIAN PLATE
The Indian plate includes Peninsular India and the Australian continental portions.
The subduction zone along the Himalayas forms the northern plate boundary in the form of continent-continent convergence.
In the east, it extends through the Rakinyoma Mountains of Myanmar towards the island arc along the Java Trench.
The eastern margin is a spreading site lying to the east of Australia in the form of an oceanic ridge in South West Pacific and the Western margin follows the Kirthar Mountain of Pakisthan.
It further extends along the Makrana coast and joins the spreading site from the Red Searift southeastward along the Chagos Archipelago.
The boundary between India and the Antarctic plate is also marked by an oceanic ridge (divergent boundary) running in roughly West-East direction and merging into the spreading site, a little south of New Zealand.
India was a large island situated off the Australian coast, in a vast ocean.
The Tethys Sea separated it from the Asian continent till about 225 million years ago.
India is supposed to have started its northward journey about 200 million years ago at the time when Pangaea broke.
India collided with Asia about 40- 50 million years ago causing rapid uplift of the Himalayas. The positions of India from about 71 million years till the present.
It also shows the position of the Indian subcontinent and the Eurasian plate.
About 140 million years before the present, the subcontinent was located as south as 50°S latitude.
The two major plates were separated by the Tethys Sea and the Tibetan block was closer to the Asiatic landmass.
During the movement of the Indian plate towards the Asiatic plate, a major event that occurred was the outpouring of lava and the formation of the Deccan Traps
This started somewhere around 60 million years ago and continued for a long period of time.
Note that the subcontinent was still close to the equator.
From 40 million years ago and thereafter, the event of formation of the Himalayas took place.
Scientists believe that the process is still continuing and the height of the Himalayas is rising even to this date.