Preventing Erosion// here is the normal content // ?>
Revision Date: 31 January 2009
Rebecca Pineo, Botanic Gardens Intern
Susan Barton, Extension Specialist
University of Delaware
A crucial role of sustainable sites is to reduce erosion, the physical wear of soil and surface rocks by water and wind. Eroded soil, called sediment, is the number one pollutant of our waterways. By taking measures to prevent erosion on your property, you can help alleviate a host of problems caused by erosion in manmade and natural environments.
What are the effects of erosion?
- Degrades soil quality. Erosion washes away the topsoil, the nutrient-rich surface layer that supports all plants, beneficial organisms, and human populations. National Geographic reports that the world’s six billion people depend on only 11% of the world’s land for all of its food needs—and only 3% of the planet’s soils are still fertile, making erosion control essential.
- Pollutes our water bodies. As the soil washes away, it carries with it a myriad of pollutants ranging from fertilizers and pesticides to oils, heavy metals, chemicals, and animal waste. This mixture ends up in our natural water bodies with great costs to the environment as well as to public health.
- Disturbs fragile aquatic and wetland eco-systems. Sediment clouds the water and reduces the ability of underwater plants and animals to get the light they require for survival. The introduction of high nutrient levels from runoff fertilizer causes dense algae growth, which removes oxygen from the water and exacerbates the problem of inadequate sunlight.
- Causes sedimentation of waterways and increases the need for dredging. Sedimentation, (settling of eroded particles) makes waterways shallower. Collapsed banks undercut by erosion make them narrower. Shallow and narrow waterways disrupt water traffic, reducing economic and recreational opportunities. Dredging to ease this problem wreaks havoc on aquatic plant and animal communities.
- Increases maintenance costs of stormwater management systems. Sediment clogs storm sewers, making them less effective and prone to overflowing. Increased maintenance translates to increased need for tax dollars.
- Creates dangerous conditions on pathways and roadways. Erosion can undercut and cause bank failure on pedestrian and vehicle routes, increasing risk of injury and death.
What are the main factors contributing to erosion?
- Removal of natural vegetation as a precursor to soil disturbance. Plant roots keep soil bound together, and leaves shield the ground from the eroding splash of rain drops. When wind or rain pelts unprotected, un-vegetated soil, it washes away loose particles. Vehicle and foot traffic, construction, landscaping, farming, and other human activities further disturb the soil, making it even more susceptible to erosion. The effects of erosion are accelerated when these activities are carried out on slopes, where the effects of gravity quicken the flow of stormwater runoff.
- Confluence of stormwater runoff from impermeable surfaces, increasing flood events. Impermeable surfaces in urban and suburban areas cause rainwater to run off into storm drains and eventually into surface waterways. During large storm events, the influx of large quantities of water from storm drains can cause rivers to flood their banks. Rapidly flowing floodwaters accelerate bank erosion, eventually causing bank failure.
- Natural weathering processes. Erosion does occur naturally due to certain climatic, geologic, topographic, and soil conditions. Human activity, however, accelerates this process, disturbing the delicate equilibrium between erosion and sedimentation.
Erosion Control for Home Builders
Home-A-Syst Environmental Risk Assessment Guide: How to Manage and Control Storm Water
“Our Good Earth” by Charles C. Mann. National Geographic Magazine, September 2008, pg. 80-107.
Soil Erosion: Causes and Effects
Dartmoor National Park Authority. (2007). Erosion on public rights of way and on public open space within Dartmoor National Park. Retrieved November 13, 2008 from http://www.dartmoor-npa.gov.uk/lab-erosion.html.
Johnson, Carolyn. (1999). Erosion Control for Home Builders. University of Wisconsin-Extension. Retrieved November 13, 2008 from http://clean-water.uwex.edu/pubs/pdf/storm.erosio.pdf
Mann, Charles C. (2008). Our Good Earth. National Geographic Magazine. September 2008. 214:3. National Geographic Society: Washington, DC. pp. 80-107.
Mellis, Steve and Don Schuster. (Unknown date). Fact Sheet 2: How to Manage and Control Storm Water Runoff. Home-A-Syst Environmental Risk Assessment Guide, University of Missouri Extension Publications. Retrieved
November 13, 2008 from http://extension.missouri.edu/explorepdf/envqual/EQM102f.pdf
Napa County Resource Conservation District. (Unknown date). Understanding Napa County Watersheds: Soil Erosion and Sedimentation. Retrieved November 13, 2008 from
Wall, G., C.S. Baldwin, and I.J. Shelton. (2003). Soil Erosion: Causes and Effects. Ontario Ministry of Agriculture,
Food and Rural Affairs. Retrieved November 13, 2008 from http://www.omafra.gov.on.ca/english/engineer/facts/87-040.htm
Cooperative Extension Education in Agriculture and Home Economics, University of Delaware, Delaware State University and the United States Department of Agriculture cooperating. Distributed in furtherance of Acts of Congress of May 8 and June 30, 1914. It is the policy of the Delaware Cooperative Extension System that no person shall be subjected to discrimination on the grounds of race, color, sex, disability, age, or national origin.
Disclaimer: Reference to commercial products or trade names does not imply endorsement by University of Delaware Cooperative Extension or bias against those not mentioned.