Discontinuities Inside the Earth

Earth’s interior is made of different kinds of materials. Each of  those materials are different from each other by their physical and chemical properties, such as temperature, density etc. Unique layers are there according to their characteristics inside the earth. All those layers are separated from each other through a transition zone. These  transition zones are called discontinuities.

      There are five discontinuies inside the earth.

Conrad Discontinuity:  Transition  zone between SIAL and SIMA.

Mohorovicic Discontinuity:  Transition zone between the Crust  and Mantle.

Repiti Discontinuity: Transition zone between Outer mantle and Inner mantle.

Gutenberg Discontinuity: Transition zone between Mantle and Core.

Lehman Discontinuity: Transition zone between Outer core and Inner core.



Conrad Discontinuity:

   The transition zone between thee upper and lower part of the lithosphere, is called as Conrad discontinuity. The name come from the Austrian geophysicist  Vector Conrad . Up to the middle 20thcentury the upper crust in the continental region was seen to consist of felsic rock such as granite and the lower one consist of more magnesium rich mafic rocks such as basalt. Therefore, the seismologists of that time considered that Conrad discontinuity should correspond to a sharply defined contact between the chemically distinct  layers of  SIAL and SIMA.  In passing through the Conrad discontinuity the velocity of longitudinal seismic waves increases abruptly from approximately 6to6.5km/sec.


Mohorovicic Discontinuity:

  The transition zone  between the crust and mantle is called as mohorovicic discontinuity. The mohorovicic discontinuity was  discovered by Andrija Mohorovicic in the year of 1909. The Moho lies at the depth of 35km beneath the continents and 8km beneath the oceanic crust. The Moho separates both the continental crust and the oceanic crust from underlying mantle. The Moho lies almost  entirely within the lithosphere, only beneath the Mid Oceanic Ridge does it define lithosphere and asthenosphere boundary. Immediate above the Moho velocity of the P wave is 6km/sec and just below the Moho it becomes 8km/sec. Moho   is characterised  by up to 500km thick.

Gutenberg Discontinuity:

   The mantle –core transition zone is called Gutenberg discontinuity. In the year of 1912  Weichert Gutenberg was discovered this discontinuity at the depth of 2900km beneath the earth surface. In this zone the velocity of seismic waves changes suddenly. The velocity of P wave decreases and S wave completely disappear at this depth. S wave shear material and cannot transmit through liquid. So, it is believed that the part of above the discontinuity is solid and part of beneath then discontinuity is liquid or molten form. This molten section is thought to be 700°c, hotter than the overlying mantle. It is also denser, probably due to a  greater percentage of iron.

          It is a narrow ,uneven zone and contains undulations which may be up to 5-8km wide. This undulation is affected by the heat driven convection activity within the overlying mantle. These undulations are  also affected by the underlying eddies and current within the outer core iron rich fluids, which are ultimately responsible for earth magnetic field. Here it must be mentioned that the mantle core boundary does not remain constant. As the heat of the earth’s interior constantly but slowly dissipated, the molten core within earth solidifies and shrinks, causing the core mantle boundary to slowly move deeper and deeper within the earth’s core.

Repiti Discontinuity

it is the transition zone between Outer mantle and Inner mantle.

Lehmann discontinuity

It is the transition zone between outer and inner core. The Lehmann discontinuity is an abrupt increase of P-wave and S-wave velocities at the depth of 220±30 km, discovered by seismologist Inge Lehmann.It appears beneath continents, but not usually beneath oceans, and does not readily appear in globally averaged studies. Several explanations have been proposed: a lower limit to the pliable asthenosphere, a phase transition,[and most plausibly, depth variation in the  shear wave anisotropy.


Knowledge of Geography



About Rashid Faridi

I am Rashid Aziz Faridi ,Writer, Teacher and a Voracious Reader.
This entry was posted in Class Notes, earth, Geographers, Physical geography. Bookmark the permalink.

3 Responses to Discontinuities Inside the Earth

  1. Pingback: Structure and composition of the Earth | Rashid's Blog

  2. Raiz Ahmed says:

    Thank u srr….quiet informative and helpful…


  3. Pingback: Asthenosphere | Rashid's Blog

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