m
m
Line 27: Line 27:
 
<td>Rain tank/cistern</td>
 
<td>Rain tank/cistern</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*Above ground tanks are preferred to below ground.
+
<td>
 +
*Above ground tanks are preferred to below ground.
 
*Overflow of tank should extend at least 15 feet from building foundation.
 
*Overflow of tank should extend at least 15 feet from building foundation.
 
</td>
 
</td>
Line 34: Line 35:
 
<td>Rooftop disconnect</td>
 
<td>Rooftop disconnect</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*15 feet foundation set back.
+
<td>
 +
*15 feet foundation set back.
 
*Runoff should be spread diffusely across landscape.
 
*Runoff should be spread diffusely across landscape.
 
</td>
 
</td>
Line 41: Line 43:
 
<td>Green roofs</td>
 
<td>Green roofs</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*Runoff should be spread diffusely across landscape.</td>
+
<td>
 +
*Runoff should be spread diffusely across landscape.</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td>Dry swale or grassed channel</td>
 
<td>Dry swale or grassed channel</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*Line with underdrains.
+
<td>
 +
*Line with underdrains.
 
*Incorporate compost amendments into the bottom of the channel to improve runoff reduction for vegetative uptake, and transpiration.
 
*Incorporate compost amendments into the bottom of the channel to improve runoff reduction for vegetative uptake, and transpiration.
 
*Do not incorporate check dams unless the swale or channel incorporates an underdrain.  Otherwise small areas of infiltration would develop in the zones upgradient of the check dam where the water is captured without adequate outlet.
 
*Do not incorporate check dams unless the swale or channel incorporates an underdrain.  Otherwise small areas of infiltration would develop in the zones upgradient of the check dam where the water is captured without adequate outlet.
Line 54: Line 58:
 
<td>Media filter</td>
 
<td>Media filter</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*Recommended practice in areas of shallow bedrock and soil.</td>
+
<td>
 +
*Recommended practice in areas of shallow bedrock and soil.</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td>Vegetative filter</td>
 
<td>Vegetative filter</td>
 
<td>Preferred</td>
 
<td>Preferred</td>
<td>*Recommended practice in areas of shallow bedrock and soil.</td>
+
<td>
 +
*Recommended practice in areas of shallow bedrock and soil.</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
Line 69: Line 75:
 
<td>Small scale infiltration/micro-bioinfiltration</td>
 
<td>Small scale infiltration/micro-bioinfiltration</td>
 
<td>Adequate</td>
 
<td>Adequate</td>
<td>*Create multiple small sized infiltration BMPs to infiltrate impervious areas of 250 to 2,500 square feet.
+
<td>
 +
*Create multiple small sized infiltration BMPs to infiltrate impervious areas of 250 to 2,500 square feet.
 
*Not recommended for sites identified as a stormwater hotspot.
 
*Not recommended for sites identified as a stormwater hotspot.
 
</td>
 
</td>
Line 81: Line 88:
 
<td>Infiltration trench or basin</td>
 
<td>Infiltration trench or basin</td>
 
<td>Adequate</td>
 
<td>Adequate</td>
<td>*Surface area to depth ratios of practices may need to be larger than typical basin designs to minimize depth of the BMP.  
+
<td>
 +
*Surface area to depth ratios of practices may need to be larger than typical basin designs to minimize depth of the BMP.  
 
*Confirm suitability  with supporting geotechnical investigations and calculations.
 
*Confirm suitability  with supporting geotechnical investigations and calculations.
 
*Not recommended for sites identified as a stormwater hotspot.
 
*Not recommended for sites identified as a stormwater hotspot.
Line 90: Line 98:
 
<td>Constructed wetlands</td>
 
<td>Constructed wetlands</td>
 
<td>Adequate</td>
 
<td>Adequate</td>
<td>*Requires larger surface area to drainage area ratios to limit the depth of the wetland.
+
<td>
 +
*Requires larger surface area to drainage area ratios to limit the depth of the wetland.
 
*Bedrock should act like a liner and help to maintain a permanent pool, unless fracture zone is present.
 
*Bedrock should act like a liner and help to maintain a permanent pool, unless fracture zone is present.
 
*Use liner and liner cells.
 
*Use liner and liner cells.
Line 98: Line 107:
 
<td>Dry extended detention (ED) ponds and wet ponds</td>
 
<td>Dry extended detention (ED) ponds and wet ponds</td>
 
<td>Adequate</td>
 
<td>Adequate</td>
<td>*Requires larger surface area to drainage area ratios to limit the depth of the basin or pond. If analysis shows that the soils can support the weight of a pond then a liner should be used.to prevent infiltration</td>
+
<td>
 +
*Requires larger surface area to drainage area ratios to limit the depth of the basin or pond. If analysis shows that the soils can support the weight of a pond then a liner should be used.to prevent infiltration</td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
Line 108: Line 118:
 
<td>Large scale infiltration</td>
 
<td>Large scale infiltration</td>
 
<td>Discouraged</td>
 
<td>Discouraged</td>
<td>*Use small scale infiltration practices instead.</td>
+
<td>
 +
*Use small scale infiltration practices instead.</td>
 
</tr>
 
</tr>
 
</table>
 
</table>
  
 
<noinclude>[[category:table]]</noinclude>
 
<noinclude>[[category:table]]</noinclude>

Revision as of 19:57, 3 June 2015

Stormwater BMP selection in karst settings. Sources Karst Working Group, 2009; Minnesota Stormwater Wiki; Tennessee Permanent Stormwater Management and Design Guidance.
Link to this table

BMP Suitability in karst regions Karst considerations
Impervious area disconnect Preferred
  • Strongly recommended for most residential lots less than 6,000 square feet.
  • Discharge point from the disconnect should extend at least 15 feet from any building foundation.
Bioretention with underdrain (biofiltration) Preferred
  • Requires 3 foot minimum separation distance between practice bottom and bedrock. If this is not possible, an underdrain should be used to convey the water away.
  • It’s recommended that the drainage area to an individual bioretention BMP be kept less than 20,000 square feet.
  • Larger designs that rely on exfiltration of treated runoff into the soils below are not recommended.
Rain tank/cistern Preferred
  • Above ground tanks are preferred to below ground.
  • Overflow of tank should extend at least 15 feet from building foundation.
Rooftop disconnect Preferred
  • 15 feet foundation set back.
  • Runoff should be spread diffusely across landscape.
Green roofs Preferred
  • Runoff should be spread diffusely across landscape.
Dry swale or grassed channel Preferred
  • Line with underdrains.
  • Incorporate compost amendments into the bottom of the channel to improve runoff reduction for vegetative uptake, and transpiration.
  • Do not incorporate check dams unless the swale or channel incorporates an underdrain. Otherwise small areas of infiltration would develop in the zones upgradient of the check dam where the water is captured without adequate outlet.
Media filter Preferred
  • Recommended practice in areas of shallow bedrock and soil.
Vegetative filter Preferred
  • Recommended practice in areas of shallow bedrock and soil.
Soil compost amendment Adequate
Small scale infiltration/micro-bioinfiltration Adequate
  • Create multiple small sized infiltration BMPs to infiltrate impervious areas of 250 to 2,500 square feet.
  • Not recommended for sites identified as a stormwater hotspot.
Permeable pavement Adequate
Infiltration trench or basin Adequate
  • Surface area to depth ratios of practices may need to be larger than typical basin designs to minimize depth of the BMP.
  • Confirm suitability with supporting geotechnical investigations and calculations.
  • Not recommended for sites identified as a stormwater hotspot.
  • Incorporate pre-treatment to limit risk of groundwater contamination in the event of future failure of the BMP associated with development of a karst feature. Local review authority should be consulted for approval.
Constructed wetlands Adequate
  • Requires larger surface area to drainage area ratios to limit the depth of the wetland.
  • Bedrock should act like a liner and help to maintain a permanent pool, unless fracture zone is present.
  • Use liner and liner cells.
Dry extended detention (ED) ponds and wet ponds Adequate
  • Requires larger surface area to drainage area ratios to limit the depth of the basin or pond. If analysis shows that the soils can support the weight of a pond then a liner should be used.to prevent infiltration
Wet swale Discouraged Not feasible
Large scale infiltration Discouraged
  • Use small scale infiltration practices instead.