This page lists some of the fundamental factors you should consider
when designing a rain garden for a housing
development. These facts can guide you when modifying the basic AutoCAD file to
suit your particular site. Detailed design and construction information can be
found in The Bioretention Manualref1 available
from Prince George's County Department of Environmental Resources Programs and
Planning Division. The County also has available in bulk form for distribution
various materials that can educate the homeowner about their rain garden.
These include the pamphlet Rain Gardens: The Natural Solution and the
booklet How Does your Garden Grow? A Reference Guide to Enhancing your Rain
Garden. Please call the County at (301) 883-5834 for more information.
The success of a rain garden is extremely dependent on both a designer developing
proper installation specifications and a contractor properly implementing them.
Remember that poor construction techniques can cause the best-designed facility to
fail prematurely. Construction technique and inspection are critical to ensure
proper landscaping, soil mixtures, and grading around the facility, as well as
the use of approved materials. Keep in mind that the plant and soil
components are crucial elements of the facility and are the key to the bioretention cell's basic function. A plant list of 150 suitable perennials is
provided in The Bioretention Manual and should be used when selecting
plants for mid-Atlantic regions. Soil mixture guidelines are also provided in the
manual and should be followed closely.
maximum 6" recommended for soils with an infiltration rate of at
least 2"/hr
maximum 3 to 4" recommended for soils with low infiltration rates or
high hydraulic loadings (combine with a smaller drainage area)
ponding depth may be increased if using sandy soils and underdrains to
increase filtration
any pooled water should be drawn down within 4-6 hours after a storm event
Plants
must be able to tolerate
expected pollutant loadings
highly variable soil moisture conditions
ponding water fluctuations
cannot be an invasive species
the use of native species is recommended
minimum recommended caliper size for trees is 1"
a minimum of 3 species of trees and 3 species of shrubs is recommended to
insure diversity
avoid species that require regular maintenance
Soil
homogeneous mix of
50% construction sand
20-30% topsoil with less than 5% maximum clay content
20-30% organic leaf compost
pH between 5.5 and 6.5
recommended minimum depth of 2 to 2.5 feet without large tree plantings
recommended depth of 4 to 4.5 feet with large trees
soil infiltration rate should exceed 1.5"/hr
Mulch
maximum 2 to 3 inches deep
should be fresh, not aged
apply uniformly, do not pile around the base of trees
do NOT use grass clippings
Groundwater
depth below the facility invert at least 2'
Slope
if greater than 15%, technique not recommended or use a weep-garden design
(see The Bioretention Manual)
Pollutant Concerns
common homeowner pollutants include lawn fertilizers and driveway oils
for the primary pollutants of concern, (nitrogen and phosphorus), the
removal efficiency increases with depth suggesting that deeper cells
reaching approximately 2 to 3 feet should be used (see
Watershed Benefits...)
Underdrain
***required for all rain gardens in residential areas
build with a cleanout well that is accessible by the homeowner
do not locate within the groundwater zone of saturation
must have a hydraulic capacity greater than the planting soil infiltration
rate
may outfall to a suitable location such as a common space area, stream
valley, drainage swale, roadside open-section, or existing enclosed
drainage system
Surface Overflow
typically not a design problem in residential settings due to
small drainage areas
surrounding grass provides a naturally safe, non-erosive surface for
overflow
design is off-line, already utilizing an overland flow path
House Considerations
if using on a lot with a basement, make sure that
there is a minimum 25 foot setback from the home's foundation
the rain garden's invert is lower than the proposed basement floor
elevation
the rain garden is located downgrade from the home
Lot Considerations
ensure that the rain garden is constructed entirely within lot boundaries
maintain a minimum of 2 feet between rain garden and property lines
if one lot's rain garden is planned to treat cross-lot drainage, a surface
easement must be provided and no more than 2 lots' drainage can be involved
to maintain typical use of the property, locate rain gardens near the
perimeters and edges of the lots, away from traveled areas
private rain gardens cannot be located in public right of ways without
first obtaining permission from the Department of Public Works and
Transportation
do not plan a rain garden where wooded areas must be cleared to make room
for the facility
odifying the basic AutoCAD file to
suit your particular site. Detailed design and construction information can be
found in The Bioretention Manual
member that poor construction techniques can cause the best-designed facility to
fail prematurely. Construction technique and inspection are critical to ensure
proper landscaping, soil mixtures, and grading around the facility, as well as
the use of approved materials. Keep in mind that the plant and soil
components are crucial elements of the facility and are the key to the bioretention cell's basic function. A plant list of 150 suitable perennials is
provided in The Bioretention Manual and should be used when selecting
plants for mid-Atlantic regions. Soil mixture guidelines are also provided in the
manual and should be followed closely.