The as well as natural surface features

The crust is one of the three main concentric layers which make up the Earth’s interior. It is a very thin layer of solid rock which forms the outermost shell of the planet that supports living organisms as well as natural surface features such as rivers, lakes and mountains.

The Crust is significantly thinner than both the core and the mantle (the other two main layers making up the Earth’s interior). As a matter of fact, the crust accounts for less than 1 % of the earth’s total volume. Figure 1-Image showing  Properties and compositionThe crust not only varies in thickness with the other concentric layers but also differs due to its properties and composition.

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The solid crust is not only significantly thinner when compared to the other layers but is also less dense and less hot. Due to its solid nature, relative thinness and low density, the crust is brittle and prone to cracking. Moreover, the crust is also not uniform in its thickness with some of its regions being less thick 1 km thick and other regions being more than 80 km thick. The crust consists of mixture of chemical elements, minerals and rock types.      The most abundant elements present in the crust are oxygen (47%), silicon (8.1%) , aluminium (8.1%) and iron (5.

0%) . Other elements such as calcium, sodium, potassium and magnesium are also present, however these are present in more minute quantities. The elements in the crust are often found combined with one another to form various compounds. Such compounds give rise to minerals.Minerals are the building blocks of rock. By definition, minerals are naturally occurring inorganic solids with definite chemical compositions and well-ordered internal structures. Minerals are generally composed of 2 or more elements. The crust is made up of over 2000 different minerals.

However, many of these are present in very small quantities. As a matter of fact, the crust is mainly composed of 6 minerals which are feldspar (50%) , quartz (12%) , pyroxene (11%), amphibole (5%)  mica (5%)  and olivine (3%)Feldspar is the most abundant mineral present in the crust. It consists of silicon, oxygen and other metallic elements such as sodium, potassium, calcium and aluminium. Feldspar may exist in different varieties according to which metal element is present.

Two main types of feldspar exist which are known as plagioclase (39%) and alkali feldspar (12%). This mineral has a light cream to salmon pink colour. The second most abundant mineral is quartz. Quartz is one of the primary components of granite and sand.

It is a hard, water insoluble mineral which mainly consists of silica (SiO2). Quartz is usually colourless or white. Other minerals such as pyroxene , amphibole ,mica and olivine are also present however in smaller abundances. Figure 3- Pie chart showing the composition of the Earths’ crust with respect to mineralsThe minerals present in the crust (mainly feldspar and quartz) mix together to form different rock types. Rocks can be classified into three groups which are igneous rocks, sedimentary rocks and metamorphic rocks.Igneous rock is the most abundant rock type found in the Earth’s crust.

Rocks of this type form when molten rock such as magma or lava cools and solidifies. Igneous rocks are sometimes called the ‘primary rocks’ or the ‘parents of all rocks’ since they formed the Earth’s first crust and gave rise to all other types of rock. Igneous rocks can be classified as being either intrusive or extrusive based on the mode of formation and occurrence. Intrusive rocks are those rocks which form when magma solidifies beneath the earth’s surface. Some examples of this type of rock include granite, diorite and gabbro. Extrusive rocks on the other hand refer to rocks which form when lava cools on the earth’s surface. Such rocks include basalt, andesite and rhyolite.Sedimentary rock forms from the accumulation of sediment and organic matter.

Sediments come from weathered or eroded previously existing igneous or metamorphic rock. When sediments accumulate, increased pressure causes the sediments to compress and form sedimentary rocks. This process is known as Lithification. Sedimentary rocks are found mainly in the upper parts of the crust since such types of rock are not very stable under high temperatures and high pressure.  Some examples of sedimentary rock are shale, sandstone and limestone.Metamorphic rock refers to rock which forms when igneous or sedimentary rocks undergo changes in their structure due to high pressure and high temperatures. The influence of heat and pressure causes recrystallization and reorganisation of molecules within original rocks which results in overall changes in the rocks’ hardness and colour. This process is known as metamorphism.

This explains why sedimentary rock is not very stable in lower parts of the crust. Examples of metamorphic rock include marble (originating from limestone), quartzite (originating from sandstone) and blueschist (originating from basalt).Formation of the crustDifferent types of crustThe crust can be divided into two types – continental crust and oceanic crust. In general continental crust is the part of the crust which gives rise to continents whereas oceanic crust is the part of the crust which underlies the earth’s oceans. These types of crust differ from one another in terms of thickness and density and composition.Continental crust covers approximately 40% of the planet. This type of crust is mostly exposed to the air. It is older and thicker than oceanic crust.

In fact, continental crust is around 2 billion years old and is on average 35-40 km thick. The rocks of continental crust are sometimes referred to as ‘Sial’ by some geologists. This is due to the fact that continental crust is mainly composed of granite which has silica (SiO2) and alumina (AlO3) as its most abundant chemicals. Contitnental crust has a higher amount of oxygen when compared to oceanic crust. This is due to continental crust being more exposed to the atmosphere. Due to the chemical composition of granitic rocks, continental crust has a relatively low density when compared to oceanic crust. In fact continental crust has an average density of 2.

7-3.0 g/cm3. In terms of its minerals continental crust can be described as being felsic sice the most abundant minerals in granite are feldspar and quartz whereas minerals such as pyroxene and olivine are only present in trace amounts. Oceanic crust covers approximately 60% of the planet.

This type of crust is thin and relatively young. It is no more than about 20 km thick and is on average 7-10km thick.  Moreover, it no older than 180 million years (approximately). Old oceanic crust is destroyed at subduction zones. Oceanic crust is formed at mid-ocean ridges as a result of the process of seafloor spreading whereby whereby plates are pulled apart. This causes pressure in the underlying mantle to be released.

This pressure causes part of the peridotite (igneous rock present in the mantle) to melt. The melted peridotite gives rise to basaltic lava, which rises and forms new oceanic crust.


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