Mass wasting is the down slope movement of Earth's material with respect to gravity action, landslide is a general term used for mass wasting.
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Factors
The factors in consideration for the mass wasting are:
Steepness of the slope
Steepness is an obvious factor in mass wasting. A rock when breaks from its body will fall down the valley but if the slope is gentle so rock is less likely to roll down.
Types and orientation of rocks
Sedimentary rocks in slope, the upper layer or rock will slide over lower one. Consider
The above figures shown the direction of sedimentary rocks. In (a) the orientation of the rocks is shown, in this direction if the Earth is cut so the sedimentary rock will slide over lower (b). If the orientation of the rocks is cut through (c) so even if it is cut, will not slide (d).
Nature of unconsolidated materials
For the unconsolidated materials the angle of repose varies. Angle of repose is the highest angle at which unconsolidated materials are stable. Rounded grains fall often and irregular materials locks up so they rarely slides.
Water and vegetation
Water effects the stability of the grains. Water binds the grains of sand by the electrical charges on the water and sand grains attract each other. If the water is greater then it will saturate and because excess water lubricate the sand grains it will fall down the slope. When water is collected on impermeable layer so the above rocks can move easily.
Plants role is that its roots hold the sediments and as it absorb water, they hold the soil. A well vegetated area is more stable at same slope than barren one.
Mass wasting types
Mass wasting types depends on its speed. It is characterized in three types. Flow, slide and fall. Flow is when unconsolidated sediments comes down the slope and it flows. Slide is when rock breaks down along fracture and is slides down. Fall is the fastest type of mass wasting where rock falls freely.
Flow
There are types of flows which include creep, debris flow, mud flow, earth flow and solifluction.
Creep
Creep is the slowest movement where rock or soil moves by the action of gravity. Its movement is as slow as 1 cm/yr but wet soil can moves rapidly. The soil upper layer moves rapid than the lower portion. Trees by nature grown straight but due to creeping soil trees are tilted in J shape which are called pistol butt. Creep is also resulted by freeze thaw cycle where water freezes and its expansion pushes the soil at right angle to the slope. When sun melts water particles move downward.
Debris flow, mud flow and earth flow
In debris, mud and earth flow wet soil moves downward as a semi fluid. Heavy rains saturate soil and along with rock particles a slurry mixture is generated which then flows as a semi fluid. All these flows are characterized by the particle sizes as in debris flow half particles are are larger than sand and is consisted of clay, sand and rock fragments. Mud flow and earth flow consists of clay and sand. Some mud flow have high speed about 100 km/hr and difference between mud flow and earth flow is the high water content in mud flow and earth flow is less wet.
Solifluction
Solifluction is the soil water logged areas especially in perma frost regions where ice forms a permanent layer of water logged soil and water logged soil down slope movement is solifluction.
Slide
Sliding down slope as a coherent mass of a huge rock block or sometimes entire mountainside is called slide. It has two types: slump and rockslide.
Slump
Slump occurs when mass of block slide over a gentle slope hill. Trees as deep rooted are maintained on the blocks and when it slide down trees are tilted backward which distinguish it from the creep.
Rockslide
In a rockslide or rock avalanche the block slides down slope over a fracture plane.
Fall
Several factors are involved in the detaching of rock from blocks and when these rock freely fall under the action of gravity rapidly, this is called fall.
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