LANDFORM AND PROCESS ASSOCIATED
WITH WIND
The earth is surrounded by an envelop of gases
called the atmosphere. The movement of the atmosphere in a direction parallel
to the earth surface is wind.i.e the air in motion is called wind whereas the
vertical movement s of the atmosphere are termed as air currents.
Erosion
by wind and developed features:
Wind
erosion is generally caused by two erosion processes:
i) Deflation
ii) Abrasion.
Deflation:
Deflation is the process of simply removing the
loose sand and dust sized particles from as area, by fast moving winds. Wind
deflation can successfully operate in comparatively dry regions with little or
no rainfall and where the mantle is unprotected due to absence of vegetation.
Such a removal of loose fine particles may at certain places
leave a denuded surface consisting mostly of hard rocks or coarse materials
like gravel and is called lag gravel. This gravel layer prevents further
deflation.
Abrasion:
The wind loaded with such particles attains a
considerable erosive power which helps a considerable er4osive power which
helps in eroding the rock surfaces by rubbing and grinding actions and produce
many changes. This type of wind erosion is known as abrasion.
Vertical
column of rocks are thus more readily worm out towards their lower portions and
a result pedestal rocks are formed which wider tops have supported on
comparatively narrower bases. Such type of rock formations is called Pedestal
or Mushroom rocks.
Transportation by wind:
The total sediment load carried by a wind can be
divided into two parts. a) Bed load
b) Suspended load
The larger and heavier particles
such as sands or gravels, which are moved by the winds but not lifted more than
30 to 60 cm of the earth surface constitute the bed load. Whereas the finer
clay
or dust particles which are
lifted by the moving winds by a distance of hundreds of meters above the earths
surface constitute the suspended load.
Deposition of sediment by wind and the developed
features:
The sediments get dropped and
deposited forming what are known as Aeolian deposits. There are two types of
Aeolian deposits;
a) Sand dunes b) Loess
Sand dunes:
Sand dunes are huge heaps of sand
formed by the natural deposition of wind blown sand sometimes of
characteristics and recognizable shape. Such deposits are often found to
migrate from one place to another due to change in the direction and velocity
of wind.
The active dunes can be divided into three types:
a) Barchans or Crescent shaped dunes b) Transverse dunes
c) Longitudinal dunes
Barchans:
These dunes that look like a new
moon in plan are of most common occurrence. They are triangular in section with
the steep side facing away from the wind direction and inclined
at an angle of about 300 to 330 to the
horizontal.
The gently sloping side lies on the windward side, and makes
an angle of about 10 to 150
with the
horizontal. They may have variable sizes, with a generally maximum height of
about 335 meters and horn to horn width of say 350 meters.
Transverse Dunes:
A transverse dune is similar to a
barchans in section but in plan it is not curved like barchans such that its
longer axis is broadly transverse to the direction of the prevailing winds.
Longitudinal dunes:
Longitudinal dunes are the elongated ridges of sand with their
longer axis broadly
parallel to the direction of the
prevailing wind. When seen in the side view they will appear to be triangular
on an average they may be 3 m height and 200 m long.
Loess:
The finest particles of dust
travelling in suspension with the wind are transported to a considerable distance.
When dropped down under favourable conditions these have been found to
accumulate in the different constituents the form of paper-thin laminae, which
have aggregated together to form a massive deposit known as Loess.
Engineering considerations:
In general no site is selected
for any type of important work on the moving dunes because such dunes are
always a source of trouble to an engineer. It has been experienced that
sometimes the moving dunes damage certain important works. But if an engineer
is compelled to select such a site, special methods should be adopted to check
the motion of the moving dunes. For ex:
Either to
construct wind breaks or growing vegetation on the surrounding areas.
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