• Skip to main content
  • Skip to footer

SoilErosion.com

Soil Erosion Problems and Solutions

  • The Ultimate Guide to Soil Erosion
    • Water Erosion
    • Wind Erosion
    • Tillage Erosion
    • Soil Erosion: By the Numbers
  • Understanding the Different Types of Soil
    • A Guide to How Soil is Formed
  • Recent Posts
  • Contact Us

Economic Effects

Sep 20 2019

Economic Effects of Soil Erosion

In today’s changing climate, the effects of soil erosion are prevalent. While forest land, or land that is surrounded by or covered with vegetation, usually sees little effects of soil erosion, cultivated land certainly does. The practice of clearing land for agriculture serves to increase its vulnerability as unprotected land is susceptible to frequent and sustained soil erosion.

Erosion occurs when the land’s soil is not adequately covered in order to protect it from wind, water, and sand. This erosion causes the soil’s health to decline as well as affects surrounding resources such as air and water quality. Heavy flooding or storms can exacerbate the problem or be the cause of erosion in the first place. Overall, erosion can reduce the land’s ability to produce harvests and lead to economic hardship.

Economic Effects of Soil Erosion

In the United States alone, soil erosion accounts for $12 billion in losses. In comparison, Asia and Europe tally $3.5 and $4.5 billion respectively. Several industries are affected by the loss of soil quality or the degradation of crops and their yields. 

  • Meat and Dairy: Chicken, cattle, and swine are all affected by soil erosion. As the quality of their feed depletes, the quality of meat declines. Animals may be drinking water contaminated by runoff or their feed might not contain enough nutrients.
  • Fruits and Vegetables: When crops don’t produce their expected yield, prices go up. Supply and demand still rule the day and if production is reduced or quality degraded, prices may spike for produce that is usable.
  • Grains: Since grains are converted into feed for livestock and processed into bread and flour, the degradation of their quality has a trickle-down effect and finds its way into the bread on the dinner table.

Effects of Soil Erosion on the Environment

Rattan Lal, from the School of Natural Resources at The Ohio State University, describes the condition as such: “Soil erosion exacerbates soil degradation and vice versa. In some cases decline in soil quality, especially the weakening of structural units, precedes erosion. In others, erosion may lead to a decline in soil quality and set in motion the degradative trend. In fact, soil erosion can be a manifestation of soil degradation because it involves physical removal of soil in a vertical and/or horizontal direction and degrades soil quality. It is a natural process that has shaped the landscape and led to formations of fertile alluvial and loess soils. However, the acceleration of the process through anthropogenic perturbations can have severe impacts on soil and environmental quality.”

Those impacts include damage to lakes and streams from runoff. As disturbed soil is washed away and deposited elsewhere, natural water resources are inevitably impacted. This erosion wreaks havoc on the land by removing the topsoil and over time, reducing its depth. This depth reduction causes roots to struggle to take hold. Topsoil degradation means soil loses its ability to trap and filter water, diminishing its benefits.

The soil’s fertility is called into question as well as nutrients are washed away. Young plants might not stand a chance from the onslaught of wind and rain and may be lost altogether.

Sediment is a serious impact of soil erosion as the runoff has to go somewhere and turn into something. Nearby roads and neighboring properties might find sediment deposits. Long-term excessive erosion can lead to weakened bridges and other infrastructure. Sediment deposits might also accumulate downstream and cause flood hazards while disrupting fish spawning grounds. Sediment might carry pesticides and fertilizers in its make-up, leaving poisons in its devastating wake.

The economic impacts on environmental shifts caused by erosion are vast in possibility and depend on the affected area’s economic and industrial output.

Effects of Soil Erosion on Agriculture

Although it is difficult to assess agricultural losses because of the unpredictability of climate change and accompanying weather patterns, estimates of economic loss are heavy and impactful. Since tilled soil is more vulnerable than untilled soil, it usually suffers the worst effects of erosion and influences agriculture by lessening the land’s ability to produce crops.

Erosion carries away not just soil but also the nutrients it contains. Studies show that each ton of soil that erodes might contain the equivalent of 2.32 pounds of nitrogen and one pound of phosphorous. When these elements are carried away, they are deposited in places adversely affected by excess nitrogen and phosphorous, not to mention pesticides. Per-acre dollar estimates work out to fertilizer losses at a cost of $2.10 per ton of soil loss.

The impact on agriculture in terms of time is also weighty. Farmers spend crucial growing time preventing erosion or repairing its damage. Eroded areas must be leveled with additional cultivation as well as filling gullies created by runoff. Gradually, topsoil suffers and depth is lost. Seeds and seedlings might also be washed away, adding to crop and economic losses.

Conservation Practices and Erosion Control

There are methods to minimize the damage of soil erosion and possibly prevent it from occurring in the first place. The time to put these into practice is before the next rainy season or the next predicted storm.

  • Crop rotation: Alternating crops on the same land can maintain soil productivity.
  • Contour farming: Sloped land can be tilled to make elevations more consistent and furrows can be created to serve as reservoirs. Terraced planting has a similar effect as crops are planted in graduated platforms to deter erosion.
  • Strip cropping: Alternating crops to be cultivated with strips of sod-forming or matting textiles like coir blankets and logs can also work to minimize erosion.
  • Subsoiling: This method works by circulating the soil to increase root aeration and give water a place to go, providing better access to crops that need it for survival. 

Lal goes on to say that, “Estimates of the global extent of soil erosion are tentative and subjective, and need to be improved by using remote sensing, GIS and other modern techniques. Developing a credible database is crucial to identifying management strategies. Erosional hot spots of the world … are in need of coordinated efforts at the global scale to restore degraded ecosystems.’

Soil erosion and shifting climates both affect the viability of soil used in necessary, everday industries. With conservation methods and soil stabilization products, erosion can be reduced and prevented, salvaging one of the most important resources.

Written by soilerosionst · Categorized: Soil Education, Soil Erosion · Tagged: Economic Effects, Erosion Control, Farming Practices, Soil Conservation, Soil Erosion

Sep 20 2019

Products to Help Prevent Soil Erosion

Soil erosion is usually caused by one of two environmental events — wind or water.

Wind erosion occurs in flat, bare areas where land may have recently been cultivated or in dry, sandy areas where soil might be loose or unstable. Wind erosion lifts soil particles into the air and deposits sediment over great distances. Preventing soil erosion due to wind involves stabilizing the soil, increasing its moisture content, and encouraging it to form clumps and clods, making it more difficult to move.

Soil erosion caused by water produces drastic changes across a landscape. As surface soil is washed away, vital nutrients go with it, compromising seed and plant growth. Cultivated land is susceptible to sheet erosion when the soil becomes overwhelmed by the rush of water and can’t absorb moisture or filter the water. Combatting erosion from water involves shoring up ditches and culverts, as well as creating dams to divert water’s progress or slow it down.

Causes of Soil Erosion

Rainfall and runoff contribute to soil erosion by carrying soil away and leaving behind sediment, pesticides, and fertilizers in its path. Wind does much the same, except dust clouds from suspension erosion can travel vast distances to blanket regions or smother crops with sediment.

Soil’s vulnerability to erosion might dictate how extensive damage might be but may also provide clues to preventing erosion or minimizing its impacts.

Slope length, land topography, and elevation contribute to soil erosion. Mudslides are a common sight when erosion from water sends sheets of topsoil to slide over itself and dislodge. Accumulating structures like sand dunes created from deposits left from wind erosion are likely to be lifted and carried into the air over and over during a wind event.

Vegetation, or the lack of it, plays a vital role in keeping soil stable and stationary. Roots from growing plants help bind soil together to make it harder to move. Trees can provide soil protection from the wind by making it more difficult for wind to reach the soil.

Effects of Soil Erosion

Economic impacts include crop loss, loss of soil fertility, and repairs or restorations to regions affected by soil erosion. Infrastructure might be weakened and roadways compromised due to accumulating sediment or runoff.

The environmental impacts of soil erosion can be seen in several influences. Wind erosion might strip the land of its topsoil surface and compromise substructures or rooting plants. Water erosion can stress rivers and streams and cause their protective banks to collapse under water’s driving force. 

In regard to the impacts on human health, wind erosion can cause dust and dirt particles to be lifted into the air and possibly blown through windows, exacerbating allergies or upper-respiratory issues. Water erosion compromises agriculture and might result in low-quality produce. Both types of erosion wash away fertilizers and pesticides, carrying them over the land to deposit in rivers or streams or via wind, tainting air and water quality. 

Preventative Measures

Today’s market offers many soil erosion control products in varying applications that can help minimize the impact. Whether their use is for road construction or to provide stabilization and filtration, there are products that can meet and exceed expectations. 

Geotextiles help control erosion and come in several different shapes, types, and textures depending on the purpose it will serve. Geotextiles come in three main forms: woven, non-woven, and coir. These textiles are useful in the preventative practices of strip farming and terracing.

Woven Geotextiles

Woven geotextiles and fabrics are made from several different fiber types. Their tight construction stabilizes soil and are effective for erosion control. These geotextiles are often used in road construction and shoreline erosion control. Woven geotextiles are put to work in regions of heavy erosion, in riprap, and on embankments and slopes to minimize runoff and wall collapse.

Non-woven Geotextiles

Non-woven geotextiles are used for their smooth, felt-like surface that allows water to flow through the fabric while still filtering particles. Non-woven geotextiles are used in areas that require subsurface filtration and stabilization and provide adequate drainage. Non-woven geotextiles are often found in asphalt overlays and in the understructure of ponds. 

Coir textiles

Coir textiles are made from the husk of the coconut and provide a natural solution to erosion control. Coir textiles allow for deep rooting and provide nutrients to support the growth and development of vegetation. Coir supplies adequate aeration and drainage to allow for permanent vegetation to grow through. Coir works to hold seeds and saplings in place and is safe for wildlife. Coir needs no chemical treatment. 

Coir is used to create check dams — small dam constructions across ditches or swales to slow the flow of water or divert its movement. It also adds to existing contours in order to build up the land or fill rills or gullies. Because coir’s life span is two to five years, it is used for short-term, temporary, and semi-permanent solutions. Coir comes in various forms in order to utilize it to its full potential. 

  • Coir wattles create a natural barrier to filter water. Coir wattles are used for their strength and filtration qualities and make wattles ideal for new construction sites to minimize impact. They’re also found in restoration projects to help prevent future damage.
  • Coir erosion control blankets are used to increase soil stability. They are effective in decreasing the effects of wind and water erosion and are often used on slopes or areas sensitive to erosion. In climates where there is a lot of shade or cold temperatures increase seed germination time, coir erosion blankets are used to protect and nurture seeds.
  • Coir logs work in the same way as wattles and blankets, but their shape makes them ideal for use in areas of erosion and runoff such as hills, banks, and shorelines.

More is understood today about how soil erosion impacts the environment, economy, and health. With this knowledge in mind, products on the market are designed to perform various functions in order to stem the tide and offset the wind.

Written by soilerosionst · Categorized: Drainage, Erosion Control, Geotextile, Soil Erosion · Tagged: Coir, Coir Erosion Mat, Coir Logs, Coir wattles, Economic Effects, Erosion Control, Soil Erosion

Footer

  • Facebook
  • Instagram
  • Twitter
  • The Ultimate Guide to Soil Erosion
  • Understanding the Different Types of Soil
  • Recent Posts
  • Contact Us
SoilErosion.com ©2025