Bioretention: Difference between revisions

Bioretention[edit]

Bioretention is a stormwater management practice that uses the natural processes of soil and plants to capture and treat runoff. It is a sustainable and effective method for managing stormwater in urban environments, where impervious surfaces like roads and buildings prevent water from naturally infiltrating into the ground.

Overview[edit]

Bioretention systems, often referred to as rain gardens, are designed to mimic the natural hydrology of an area. They are typically shallow, vegetated basins that collect and treat stormwater runoff from nearby impervious surfaces. The primary components of a bioretention system include a vegetated surface, a soil layer, and an underdrain system.

Components[edit]

• Vegetated Surface: The top layer of a bioretention system is planted with a variety of vegetation, including grasses, shrubs, and trees. These plants help to slow down the flow of water, promote infiltration, and uptake nutrients and pollutants.
• Soil Layer: Below the vegetation is a specially engineered soil mix that facilitates infiltration and supports plant growth. This layer is crucial for filtering pollutants and providing a medium for microbial activity.
• Underdrain System: In some designs, an underdrain system is installed to collect and convey treated water to the storm sewer system or a nearby water body. This is particularly important in areas with poorly draining native soils.

Benefits[edit]

Bioretention systems offer numerous environmental and social benefits:

• Water Quality Improvement: By filtering stormwater through soil and vegetation, bioretention systems remove pollutants such as sediments, nutrients, heavy metals, and hydrocarbons.
• Flood Mitigation: These systems reduce the volume and rate of stormwater runoff, helping to mitigate flooding in urban areas.
• Habitat Creation: The vegetation in bioretention areas provides habitat for wildlife, including birds and pollinators.
• Aesthetic and Recreational Value: Bioretention areas can enhance the visual appeal of urban landscapes and provide recreational opportunities for communities.

Design Considerations[edit]

When designing a bioretention system, several factors must be considered:

• Site Selection: The location should be chosen based on topography, soil type, and proximity to impervious surfaces.
• Soil Composition: The soil mix should be engineered to balance infiltration capacity with nutrient retention.
• Plant Selection: Native plants are often preferred for their adaptability and ecological benefits.
• Maintenance: Regular maintenance is required to ensure the system functions properly, including removing debris, replacing mulch, and managing plant health.

Also see[edit]

• Stormwater Management
• Green Infrastructure
• Rain Garden
• Sustainable Urban Drainage Systems

Template:Stormwater management Template:Sustainable design

Bioretention[edit]

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  Bioretention cell rain garden US winter