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Public Act 096-0026
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| SB1489 Enrolled |
LRB096 10752 JDS 20941 b |
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AN ACT concerning safety.
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Be it enacted by the People of the State of Illinois,
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represented in the General Assembly:
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Section 1. Short title. This Act may be cited as the Green |
Infrastructure for Clean Water Act.
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Section 5. Definitions. As used in this Act: |
"Agency" means the Illinois Environmental Protection |
Agency. |
"Green infrastructure" means any storm water management |
technique or practice employed with the primary goal of |
preserving, restoring, or mimicking natural hydrology. Green |
infrastructure includes, but is not limited to, methods of |
using soil and vegetation to promote soil percolation, |
evapotranspiration, and filtration. Green infrastructure |
includes the preservation and restoration of natural landscape |
features, such as forests, floodplains, headwaters, and |
wetlands. Green infrastructure also includes rain gardens, |
permeable pavements, green roofs, infiltration planters, trees |
and tree boxes, and rainwater harvesting for non-potable uses, |
such as toilet flushing and landscape irrigation.
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Section 10. Legislative findings. |
(a) The General Assembly finds that: |
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(1) urban storm water, when not properly controlled and |
treated, can cause pollution of the waters of the State, |
threaten public health, and damage property by carrying |
pollutants from our highways, streets, roads, parking |
lots, driveways, sidewalks, alleys, lawns, and other |
surfaces of low permeability into lakes, rivers, streams, |
and ponds; |
(2) development can increase storm water runoff by |
increasing the size and number of paved and other |
impervious surfaces within a watershed and decreasing the |
extent of vegetated and other permeable surface areas that |
control storm water runoff through natural infiltration |
and evapotranspiration and groundwater recharge; |
(3) current urban storm water related threats to the |
State's water resources include pollution, increased water |
temperatures, flooding, groundwater depletion, loss of |
habitat, stream bank erosion, sewer overflows, basement |
backups, contaminated drinking water sources, and |
sedimentation of waterways; and |
(4) some studies show that preserving and expanding |
natural and built green infrastructure can minimize |
negative impacts and enhance the resilience of water |
infrastructure and water bodies. |
(b) The General Assembly also finds that there are a number |
of potential benefits from the use of green infrastructure, |
including: |
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(1) Cleaner Water. Green infrastructure can reduce the |
volume of storm water runoff in combined and separate sewer |
systems, and the concentrations of pollutants in those |
discharges. |
(2) Enhanced Water Supplies. Most green infrastructure |
approaches allow at least a portion of storm water to |
infiltrate surrounding soil, where it recharges the |
groundwater and stream base flows, contributing to |
drinking water supplies and helping to stabilize aquatic |
ecosystems. Green infrastructure systems that capture and |
reuse storm water also help to conserve other water |
sources. |
(3) Reduced Flooding. Green infrastructure can help |
control surface flooding and stabilize local hydrology by |
reducing peak flows. |
(4) Cleaner Air. Trees and vegetation improve air |
quality by filtering many airborne pollutants, thereby |
helping to reduce the incidence of respiratory illness. |
(5) Increased Energy Efficiency. Trees and other |
vegetation create shade, reduce the amount of heat |
absorbing materials, and emit water vapor, which controls |
surface temperature, thus helping to alleviate the urban |
heat island effect. Limiting impervious surface, using |
light colored impervious surfaces and green roofs also |
mitigates extreme urban temperatures. By helping to lower |
ambient temperatures and, when incorporated on and around |
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buildings, helping to shade and insulate buildings from |
wide temperature swings, green infrastructure can reduce |
the energy needed for heating and cooling. Green roofs and |
shade can increase the life span of roofs, thus reducing |
the need for production and transportation of conventional |
roof materials. Energy use associated with pumping and |
treating can be reduced as storm water is diverted from |
wastewater collection, conveyance, and treatment systems. |
(6) Mitigation of and Adaptation to Impacts of Climate |
Change. Green infrastructure strategies can reduce energy |
demands and, thus, greenhouse gas emissions by reducing |
storm water volume and the associated treatment required, |
reducing the amount of potable water needed, providing |
thermal insulation and shade for buildings, mitigating the |
urban heat island effect, and sequestering carbon. These |
strategies can also help with adaptation to projected |
climate change impacts, including increased storm |
intensity, flood potential, and impacts on the quantity of |
surface and ground water supplies. |
(7) Wildlife Habitat. Stream buffers, wetlands, parks, |
meadows, and other forms of green infrastructure increase |
biodiversity within the urban environment. |
(8) Community Benefits. Trees and plants improve urban |
aesthetics and community livability by providing |
recreational and scenic wildlife areas. Studies show that |
property values are higher, violence is reduced, and crime |
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is reduced when trees and other vegetation are present. |
(9) Health Benefits. Studies show that people who have |
access to the open space provided by green infrastructure |
in their communities get more exercise, live longer, and |
report better health in general. Exposure to green |
infrastructure (even through a window) improves mental |
functioning, reduces stress, and reduces recovery time |
from surgery. |
(10) Green Jobs. Designing, installing, and |
maintaining green infrastructure creates new jobs for |
architects, designers, engineers, construction workers, |
maintenance workers, landscape architects, landscapers, |
nurseries, and related services. |
(11) Cost Savings. Using green infrastructure in |
certain situations can save or reduce (i) capital costs |
associated with paving, constructing curbs and gutters, |
and building large collection and conveyance systems; (ii) |
operating and maintenance expenses for treatment plants, |
pumping stations, pipes, and other hard infrastructure; |
(iii) energy costs for pumping water; (iv) costs associated |
with treatment during wet weather; and (v) costs of |
repairing the damage caused by storm water, such as stream |
bank restoration and flood damage.
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Section 15. IEPA Study. By June 30, 2010, the Illinois |
Environmental Protection Agency, in consultation with the |
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Illinois Department of Natural Resources, the Illinois |
Department of Transportation, the Capital Development Board, |
storm water management agencies, and other interested parties |
that the Agency deems appropriate to include, shall submit to |
the General Assembly and the Governor a report that reviews the |
latest available scientific research and institutional |
knowledge to evaluate and document the following: |
(a) The nature and extent of urban storm water impacts on |
water quality in watersheds in Illinois; |
(b) Potential urban storm water management performance |
standards to address flooding, water pollution, stream |
erosion, habitat quality, and the effectiveness of green |
infrastructure practices to achieve such standards; |
(c) The prevalence of green infrastructure use in Illinois; |
(d) The costs and benefits of green versus grey |
infrastructure; |
(e) Existing and potential new urban storm water management |
regulatory programs and methods and feasibility of integrating |
a State program with existing and potential regional and local |
programs in Illinois; |
(f) Findings and recommendations for adopting an urban |
storm water management regulatory program in Illinois which |
includes performance standards and encourages the use of green |
infrastructure to achieve those standards; and |
(g) The feasibility and consequences of devoting 20% of the |
Water Revolving Fund to green infrastructure, water and energy |