Two Bioswales for a
housing development. The foreground one is under construction while the background one is established.
'Bioswales' are
landscape elements designed to remove
silt and
pollution from
surface runoff water. They consist of a swaled drainage course with gently sloped sides (less than six percent) and filled with
vegetation,
compost and/or
riprap. The water's flow path, along with the wide and shallow ditch, are designed to maximize the time water spends in the
swale, which aids the trapping of pollutants and silt. Depending upon the geometry of land available, a bioswale may have a meandering or almost straight channel alignment. Biological factors also contribute to the breakdown of certain pollutants.
A common application is around
parking lots, where substantial
automotive pollution is collected by the paving and then flushed by rain. The bioswale, or other type of
biofilter, wraps around the parking lot and treats the runoff before releasing it to the
watershed or
storm sewer.
Contaminants addressed
There are several classes of
water pollutants that may be arrested with bioswales. These fall into the categories of silt, inorganic contaminants, organic chemicals and pathogens. In the case of silt, these effects are resultant
turbidity to receiving waters. Inorganic compounds may be metallic compounds such as
lead,
chromium,
cadmium and other heavy metals. Lead is the most prevalent chemical of this class, deriving from automotive residue (e.g. surface spillage of leaded gasoline). Other common inorganic compounds are
macronutrients such as
phosphates and
nitrates. Principal sources of these nutrients are excess fertilization, which can cause
eutrophication in receiving waters. Chief organic chemicals are
pesticides, frequently over-dosed in
agricultural and
urban landscaping. These chemicals can lead to a variety of
organism poisoning and
aquatic ecosystem disturbance. Pathogens typically derive from surface runoff containing animal wastes and can lead to a variety of
diseases in humans and aquatic organisms.
Examples
Two early examples of scientifically designed bioswales for large scale applications are found in the western United States. In 1996 for Willamette River Park in
Portland, Oregon a total of 2330 lineal feet of bioswale was designed and installed to capture pollutant runoff from entering the
Willamette River. Intermittent
check dams were installed to further abet silt capture, with the outcome of reducing 50 percent of all suspended solids entering the river system (France, 2002).
A second example of a large scale designed bioswale is at the Carneros Business Park,
Sonoma County, California. Starting in 1997 the project design team worked with the
California Department of Fish and Game and County of Sonoma to produce a detailed design to channel surface runoff at the perimeter of a large parking area.
Surface runoff consists of building roof runoff, parking lot runoff and overland flow from properties to the north of the project site. A total of two lineal miles of bioswale was designed into the project. The purpose of the bioswale was to minimize runoff contaminants from entering
Sonoma Creek. The designed bioswale channel is grass-lined, but almost linear in form. Downslope gradient is approximately four percent and cross-slope gradient is approximately six percent.
References
★ ''Design Schematics for a Sustainable Parking Lot'', TR-03-12,
USACE Research and Development Center. (
3.4MB .pdf)
★ Robert Lawrence France, ''Handbook of Water Sensitive Planning and Design'', CRC Press LTD (2002) ISBN 1-56670-562-2
★ Lumina Technologies, ''Hydrology and biology studies for Carneros Business Park'', prepared for the William A. Saks Company pursuant to requirements of the County of Sonoma, 1998
See also
★
Infiltration
★
Riparian zone
★
Soil contamination
★
Rain gardens
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