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mLine 12:
Line 12: rect 195 1151 528 1235 [[Bioretention:_Filter_media|Filter media]]rect 195 1235 528 1250 [[Choking layer]]rect 195 1250 528 1305 [[Reservoir_gravel|Reservoir]]
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</imagemap>Line 47:
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rect 188 1298 156 1071 [[Overflow]]
rect 188 1298 156 1071 [[Overflow]]
rect 200 1118 498 1146 [[Mulch]]
rect 200 1118 498 1146 [[Mulch]]
rect 152 1166 340 1189 [[mulch]]
rect 152 1166 340 1189 [[mulch]]
rect 369 972 483 1162 [[Shrubs]]
rect 369 972 483 1162 [[Shrubs]]
poly 139 1158 149 1155 151 1303 352 1343 542 1305 541 1165 550 1161 553 1311 354 1355 139 1311 [[Liner]]
poly 139 1158 149 1155 151 1303 352 1343 542 1305 541 1165 550 1161 553 1311 354 1355 139 1311 [[Liner]]
</imagemap>
Over subsurface infrastructure, soils prone to subsidence, or pollution hotspots, it may be necessary to prevent all [[infiltration]]. These BMPs can also be squeezed into tight urban spaces, adjacent to buildings and within the usual setbacks required for infiltrating facilities. Stormwater planters can also be used as a means of providing building-integrated LID by capturing a portion of the rainwater from the rooftop.
Over subsurface infrastructure, soils prone to subsidence, or pollution hotspots, it may be necessary to prevent all [[infiltration]]. These BMPs can also be squeezed into tight urban spaces, adjacent to buildings and within the usual setbacks required for infiltrating facilities. Stormwater planters can also be used as a means of providing building-integrated LID by capturing a portion of the rainwater from the rooftop.
This type of cell can be constructed above grade in any waterproof and structurally sound container, e.g. in cast concrete or a metal tank.
This type of cell can be constructed above grade in any waterproof and structurally sound container, e.g. in cast concrete or a metal tank.
==Design==
==Design==
{{:Planters:Sizing}}
===Storage media===
===Storage media===