What is Soil Erosion?
The wearing away of the topsoil is driven by
erosion agents including the natural physical forces of wind and water, each
contributing a substantial quantity of soil loss annually. Farming activities
such as tillage also significantly contribute to soil erosion.
Thus, soil erosion is a continuous
process and may occur either at a relatively unnoticed rate or an alarming rate
contributing to copious loss of the topsoil. The outcomes of soil erosion are
reduced agricultural productivity, ecological collapse, soil degradation, and
the possibility of desertification.
Causes
of Soil Erosion
All soils undergo soil erosion,
but some are more vulnerable than others due to human activities and other
natural causal factors. The severity of soil erosion is also dependent on the
soil type and the presence of vegetation cover. Here are few of the major
causes of soil erosion.
Greater duration and intensity of rainstorm means
greater potential for soil erosion. Rainstorm produces four major types of soil
erosion including rill erosion, gully erosion, sheet erosion, and splash
erosion. These types of erosions are caused by the impacts of raindrops on the
soil surface that break down and disperse the soil particles, which are then
washed away by the storm water runoff.
Over time, repeated rainfall can lead to significant
amounts of soil loss. Rapidly moving storm water, flash floods, and flooding
may also occur because of excess surface water runoff, thus, causing extreme
local erosion by plucking bed rocks, forming rock cut-basins, creating
potholes, and washing away the loosened soil particles.
2.
Rivers and Streams
The flow of rivers and streams causes valley
erosion. The water flowing in the rivers and streams tend to eat away the soils
along the water systems leading to a V-shaped erosive activity. When the rivers
and streams are full of soil deposits due to sedimentation and the valley
levels up with the surface, the water ways begin to wash away the soils at the
banks.
This erosive activity is termed as lateral erosion
which extends the valley floor and brings about a narrow floodplain. This
erosive activity is evident in most rivers or streams especially during heavy
rainfall and rapid river channel movement.
2.
High Winds
High winds can contribute to soil erosion,
particularly in dry weather periods or in the arid and semi-arid (ASAL)
regions. The wind picks up the loose soil particles with its natural force and
carries them away to far lands, leaving the soil sculptured and denudated. It
is severe during the times of drought in the ASAL regions. Hence, wind erosion
is a major source of soil degradation and desertification.
4.
Overgrazing,
Overstocking and Tillage Practices
The transformation of natural ecosystems to pasture
lands has largely contributed to increased rates of soil erosion and the loss
of soil nutrients and the top soil. Overstocking and overgrazing has led to
reduced ground cover and break down of the soil particles, giving room for
erosion and accelerating the erosive effects by wind and rain. This reduces
soil quality and agricultural productivity.
5.
Deforestation,
Reduced Vegetation Cover, and Urbanization
Deforestation and urbanization destroy the
vegetation land cover. Agricultural practices such as burning and clearing of
vegetation also reduce the overall vegetation cover. As a result, the lack of
land cover causes increased rates of soil erosion.
6.
Mass Movements
and Soil Structure/Composition
The outward and downward movements
of sediments and rocks on slanting or slope surfaces due to gravitational pull
qualify as an important aspect of the erosion process. This is because mass
movements aids in the breakdown of the soil particles that makes them venerable
to water and wind erosion. Soil structure and composition is another factor
that determines erosivity of wind or rainfall.
For instance, clay soils tend to
be more resistant to soil erosion compared to sandy or loose silt soils. Soil
moisture content and organic matter make up are some of the soil component
aspects that determine erosivity of wind or rainfall.
Effects
of Soil Erosion
The consequences of soil erosion
are primarily centered on reduced agricultural productivity as well as soil quality.
Water ways may also be blocked, and it may affect water quality. This means
most of the environmental problems the world face today arises from soil
erosion. The effects of soil erosion include:
1.
Loss of Arable
Land
Lands used for crop production have
been substantially affected by soil erosion. Soil erosion eats away the top
soil which is the fertile layer of the land and also the component that
supports the soil’s essential microorganisms and organic matter. In this view,
soil erosion has severely threatened the productivity of fertile cropping areas
as they are continually degraded.
Because of soil erosion, most of
the soil characteristics that support agriculture have been lost, causing
ecological collapse and mass starvation. It is likely that most of the
cultivated areas around the globe are vulnerable to soil erosion.2. Water Pollution and Clogging of Waterways
Soils eroded from agricultural
lands carry pesticides, heavy metals, and fertilizers which are washed into
streams and major water ways. This leads to water pollution and damage to
marine and freshwater habitats. Accumulated sediments can also cause clogging
of water ways and raises the water level leading to flooding.
The water quality of various
streams, rivers, and coastal areas has also been deteriorated as a result of
soil erosion, eventually affecting the health of the local communities.
3.
Sedimentation
and Threat to Aquatic Systems
Apart from polluting the water
systems, high soil sedimentation can be catastrophic to the survival of aquatic
life forms. Silt can smother the breeding grounds of fish and equally lessens
their food supply since the siltation reduces the biodiversity of algal life
and beneficial aquatic plants. Sediments may also enter the fish gills,
affecting their respiratory functions.
4.
Air Pollution
Wind erosion picks up dust
particles of the soil and throws them into the air, causing air pollution. Some
of the dust particles may contain harmful and toxic particles such as petroleum
and pesticides that can pose a severe health hazard when inhaled or ingested.
Dust plumes from the deserts or
dry areas can cause large and widespread air pollution as the winds move. Such
a case is evident in North America where dust winds from the Gobi Desert have
recurrently been a serious problem.
5.
Destruction of
Infrastructure
Soil erosion can affect
infrastructural projects such as dams, drainages, and embankments. The
accumulation of soil sediments in dams/drainages and along embankments can
reduce their operational lifetime and efficiency. Also, the silt up can support
plant life that can, in turn, cause cracks and weaken the structures. Soil
erosion from surface water runoff often causes serious damage to roads and
tracks, especially if stabilizing techniques are not used.
6.
Desertification
Soil erosion is a major driver of
desertification. It gradually transforms a habitable land and the ASAL regions
into deserts. The transformations are worsened by the destructive use of the
land and deforestation that leaves the soil naked and open to erosion. This
usually leads to loss of biodiversity, alteration of ecosystems, land
degradation, and huge economic losses.
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