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Reducing the Impacts of Urban
Runoff
with Alternative Site Design Approaches
NIPC Bulletin - May 1997
How to Get the Full
Report:
This topic is covered in much greater detail in a report titled
Reducing the
Impacts of Urban Runoff: The Advantages of Alternative Site Design
Approaches. This report, which includes extensive
references, is available from NIPC's Publications Department
(312-454-0400 extension 210).
The Problem
Conventional urban development dramatically increases the amount of
stormwater runoff generated by the landscape. The principal causes of this
effect are impervious surfaces -- streets, parking lots, and
buildings -- and compaction of the soil due to construction activities.
Instead of soaking into the ground, rainfall is converted quickly to
runoff and is then eliminated from the site via sewers and man made
channels.
Some common site development standards may actually worsen stormwater
runoff problems. For example, modern standards which require wide streets,
expansive parking lots, and artificial drainage systems produce even more
runoff than similar developments of 40 to 50 years ago.
In recognition of the effect that increased runoff has had on flooding,
new development often incorporates stormwater detention to slow the
release to downstream rivers. Unfortunately, this still leaves several
runoff-related problems inadequately addressed.
- Stormwater runoff is contaminated with various water pollutants
which are byproducts of urban activities such as automobile use, lawn
care, and industrial fallout. If unchecked, these pollutants will damage
the aquatic life, including fish, in downstream lakes, streams, and
wetlands
- Water which runs off of urban landscapes can no longer recharge
groundwater supplies. For communities which depend on locally recharged
aquifers, resultant water shortages could limit future development and
necessitate sprinkling bans and other restrictions.
- Urban runoff causes instability in the drainage system by 1)
increasing the high flows, which can cause streams to rapidly erode and
2) decreasing the low flows (or baseflows), which literally
causes small streams and lakes to dry up and concentrates pollutants to
damaging levels.
- While stormwater detention can effectively reduce runoff
rates, thereby controlling localized flooding, it does little to
control the increased volume of runoff caused by urbanization. As
a consequence, flooding continues to worsen on larger drainage systems,
such as the Des Plaines and Fox rivers.
A Solution -- Alternative Site
Designs
Fortunately, there are development options involving alternative
stormwater drainage and site design approaches which can substantially
reduce the identified impacts. These alternative development techniques,
commonly called best management practices, or BMPs, involve
measures which accomplish two basic objectives:
- reduce the amount of impervious surface area, thereby reducing
runoff and
- utilize the landscape to naturally filter and infiltrate runoff
before it leaves the development site.
Interestingly, the recommended alternatives reflect both old and new
design philosophies. Some mirror a design philosophy which existed prior
to the 1950s-1960s when "modern" subdivisions began to spread across the
landscape. Older developments, for example, often utilized natural
drainage approaches and narrower street widths. In other instances the
alternative approaches, such as landscaping with native vegetation,
emulate conditions prior to the arrival of European settlers. Also
recommended are innovative planning approaches, such as cluster
developments, which have not yet been widely implemented in this
region.
Recommended Site Design Alternatives
- Natural drainage measures: Use of drainage swales, vegetated filter
strips, and other natural drainage approaches -- in contrast to storm
sewers, lined channels, and curbs and gutters -- will reduce runoff
volumes and greatly enhance the removal of pollutants from runoff water.
- Natural detention basin designs: Natural detention designs
incorporate features of natural wetland and lake systems, such as
gradual shoreline slopes, a border of wetland vegetation, and areas of
open water -- in contrast to conventional designs which feature dry
bottoms or riprap-edged wet basins. Natural designs are much more
effective in removing stormwater pollutants than conventional wet and
dry bottom basins.
- Infiltration practices: Where soils are sufficiently permeable,
infiltration trenches and basins dramatically reduce surface runoff
volumes and naturally recharge groundwater.
- Permeable paving: The use of permeable paving blocks is a
recommended alternative for low traffic parking areas, emergency access
roads, and driveways to reduce runoff volumes and pollutant loads.
- Natural landscaping: Natural landscaping approaches utilize native
plants, particularly wildflowers, prairie grasses, and wetland species,
as an alternative to conventional turf grass and ornamental plants, to
reduce stormwater runoff and to reduce the maintenance needs of
conventional turf grass landscaping.
- Reduced imperviousness via alternative residential streetscapes: The
area of impervious surfaces in a residential development can be reduced
in several ways: utilizing narrower streets; reducing setbacks between
streets and homes, thereby reducing the length of driveways; and by
reducing sidewalk widths.
- Reduced imperviousness via alternative parking lot designs:
Impervious surfaces also can be reduced in parking lots by downsizing
individual parking stalls, sharing parking between adjacent users,
adjusting peak demand assumptions, and/or banking parking until it is
needed.
- Cluster development/PUDs: Cluster development increases densities on
portions of a development site to preserve natural land amenities and
common open space, resulting in substantially less overall impervious
area. Planned unit developments (PUDs) provide for greater flexibility
in the site planning process, allowing the inclusion of many of the site
design alternatives described above.
Summary of Benefits
When used in combination on a development site, these techniques can
remarkably reduce both stormwater-related impacts and construction costs.
Based on assessments of case studies in northeastern Illinois and other
parts of the country, it is estimated that alternative site design
approaches can:
- reduce stormwater runoff volumes by 20 to 70 percent (in comparison
to conventional development);
- reduce runoff pollutant loads by 60 to 90 percent;
- reduce site development costs by $1,000 to over $4,000 per lot for
residential developments and by $4,000 to $10,000 per acre for
commercial/industrial developments.
Other documented benefits of these approaches include reduced
infrastructure maintenance and replacement costs, improved protection of
sensitive natural areas, enhanced site aesthetics, improved property
values, and greater flexibility of site design.
Tradeoffs
Clearly, not all of the recommended site design approaches are
applicable on all development sites. While the recommended alternatives
have obvious documented benefits, they also may have some disadvantages.
From a developer's perspective, some of these approaches may entail a more
difficult and time consuming local government approval process. From a
local government perspective, acceptance of some of these approaches will
require education of local residents and still might result in complaints
from some residents about "standing water" or "weedy conditions." Some
local planners or engineers may be hesitant because there is relatively
little experience in northeastern Illinois with certain alternative design
practices.
Ultimately, it is hoped that local officials and developers will
thoroughly consider the tradeoffs between conventional and alternative
site design approaches. In this consideration they should weigh all the
relevant factors, including construction costs, maintenance needs, public
safety, aesthetics, marketing considerations, as well as the obvious
environmental benefits
.
Conclusion
The floods of 1996 and 1997 which caused damage in much of the region,
are recent reminders of the need to better control the effects of new
development. Experts, both regional and national, are coming to the
realization that while engineered solutions are important tools in flood
prevention, over-reliance on artificial drainage approaches has serious
negative consequences. This truth actually has been known for quite some
time as evidenced by the following observation contained in a joint
publication of the Urban Land Institute, American Society of Civil
Engineers, and National Association of Homebuilders from 1975:
"Past philosophy sought maximum convenience at an individual site
by the most rapid possible elimination of excess surface water after a
rainfall and the containment and disposal of that water as quickly as
possible through a closed system. The cumulative effects of such
approaches have been a major cause of increased frequency of downstream
flooding, often accompanied by diminishing groundwater supplies." --
from Residential Storm Water Management
This document was prepared using U.S.
Environmental Protection Agency funds under Section 604(b) of the Clean
Water Act distributed through the Illinois Environmental Protection
Agency. The findings and recommendations contained herein are not
necessarily those of the funding
agencies
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