147
edits
Changes
Jump to navigation
Jump to search
Line 21:
Line 21: + + Line 37:
Line 39: − + + + + Line 101:
Line 106: − + − + Line 139:
Line 144: − +
→Planning considerations
==Planning considerations==
==Planning considerations==
''Note Site Considerations from the Bioretention Fact Sheet [https://sustainabletechnologies.ca/app/uploads/2013/02/Bioretention.pdf] in the 2010 CVC/TRCA LID Stormwater Management Planning Design are detailed below and within links included''
===Infiltration===
===Infiltration===
Some form of stormwater landscaping (bioretention) can be fitted into most spaces. Although there are some [[Infiltration#Constraints|constraints]] to infiltrating water, it is preferable to do so where possible.
Some form of stormwater landscaping (bioretention) can be fitted into most spaces. Although there are some [[Infiltration#Constraints|constraints]] to infiltrating water, it is preferable to do so where possible.
:For ease of construction and to ensure that the vegetation has adequate space, cells should be no narrower than 0.6 m at any point.
:For ease of construction and to ensure that the vegetation has adequate space, cells should be no narrower than 0.6 m at any point.
:The maximum width of a facility is determined by the reach of the construction machinery, which must not be tracked into the cell.
:The maximum width of a facility is determined by the reach of the construction machinery, which must not be tracked into the cell.
The principles of bioretention can be applied in any scenario where planting or vegetation would normally be found.
*Setback from Buildings: A typical four (4) metre setback is recommended from building foundations. If an impermeable liner is used, no setback is needed.
*Proximity to Underground Utilities and Overhead wires - consult with local utility companies regards to horizontal and vertical clearance required between storm drains, ditches, and surface water bodies. Further, check whether the future tree canopy height in the bioretention area will not interfere with existing overhead wires
The principles of bioretention can be applied in any scenario where planting or vegetation would normally be found.
===Private sites===
===Private sites===
In single family residential sites [[Rain gardens|rain gardens]] most often take the form of a soft edged, traditional perennial planting bed.
In single family residential sites [[Rain gardens|rain gardens]] most often take the form of a soft edged, traditional perennial planting bed.
#*Plants with dense root structure and /or vegetative cover are favoured for their ability to act as pollution filters and tendency to slow water velocity
#*Plants with dense root structure and /or vegetative cover are favoured for their ability to act as pollution filters and tendency to slow water velocity
#*Be advised these practices are not constructed wetlands and are designed to fully drain within 48 hours.
#*Be advised these practices are not constructed wetlands and are designed to fully drain within 48 hours.
#Mid Zone -- This zone is inundated less frequently (2 – 100 year storm events) and has periodically high levels of moisture in the soil. The ecology of this zone is a transition from the Mineral Meadow Marsh/Beach-type community to an upland community.
#'''Mid Zone''' -- This zone is inundated less frequently (2 – 100 year storm events) and has periodically high levels of moisture in the soil. The ecology of this zone is a transition from the Mineral Meadow Marsh/Beach-type community to an upland community.
#*Plants able to survive in soils that are seasonally saturated, yet can also tolerate periodic drought.
#*Plants able to survive in soils that are seasonally saturated, yet can also tolerate periodic drought.
#*Species include grasses and groundcovers, as well as low shrub species.
#*Species include grasses and groundcovers, as well as low shrub species.
#High Zone -- The ecology of this zone is terrestrial due to its elevation in relation to the filter bed. The zone most closely resembles a Cultural Meadow or a Cultural Thicket community, depending on the mix of grasses, herbaceous material, shrubs and trees utilized.
#'''High Zone''' -- The ecology of this zone is terrestrial due to its elevation in relation to the filter bed. The zone most closely resembles a Cultural Meadow or a Cultural Thicket community, depending on the mix of grasses, herbaceous material, shrubs and trees utilized.
#*Plants should have deep roots for structure, be drought-tolerant and capable of withstanding occasional soil saturation.
#*Plants should have deep roots for structure, be drought-tolerant and capable of withstanding occasional soil saturation.
#*Trees and large shrubs planted in this zone will aid in the infiltration and absorption of stormwater.
#*Trees and large shrubs planted in this zone will aid in the infiltration and absorption of stormwater.
==External links==
==External links==
*[http://hlw.org.au/u/lib/mob/20150715140823_de4e60ebc5526e263/wbd_2014_bioretentiontdg_mq_online.pdf|Bioretention Design Guidelines (2014) Healthy Waterways]
*[https://hlw.org.au/download/bioretention-technical-design-guidelines/ Bioretention Design Guidelines (2014) Healthy Waterways]
----
----
[[Category:Infiltration]]
[[Category:Infiltration]]
[[Category:Green infrastructure]]
[[Category:Green infrastructure]]