Landscape BMPs

The effectiveness of pollutant removal by landscape BMPs is a function of the following:

  • physical, chemical, and biological processes
  • the fraction of runoff treated by the BMP
  • the nature of the pollutant being removed

Thus, an effective BMP train is one that treats 100% of runoff by physical, chemical, and biological processes. The table below shows relative removal efficiencies of infiltration basins, vegetated filter strips, grass swales, wet ponds, and storm water wetlands for five variables (total suspended solids, total phosphorus, total nitrogen, pesticides, and chemical oxygen demand).

By including as many removal mechanisms as possible, the probability of success for removal of a particular pollutant is increased. These factors should be considered as follows:

  1. BMPs that use settling and filtering processes are relatively effective at removing sediment and pollutants that are bound to sediment particles.
  2. Turf buffers are very effective filters that allow drainage of water from the course and, at the same time, effective filtering to improve water quality.
  3. Turf density, leaf texture, and canopy height are physical factors that restrain soil erosion and sediment loss by dissipating impact energy from rain and irrigation water droplets providing a resistance to surface movement of water over turf.
  4. Ponds and infiltration BMPs can achieve 60 to 100% removal efficiencies for sediment.
  5. Infiltration BMPs are capable of similar removal efficiencies for sediment, but are subject to clogging if sediment inputs are excessive.

Wet ponds and extended-detention ponds with shallow marshes have a moderate to high capability for removing both soluble and particulate pollutants because they use settling and biological uptake and degradation of pesticides.

Stormwater pollutant removal efficiencies, urban BMP designs (Sources: Schueler 1987 and NYSDEC, 1993)

BMP/Design TSS* TP TN Zn Pb BOD
Extended Detention Pond
“First flush” runoff volume produced by 1.0 inch storm, detained for 24 hours
75%
50%
35%
55%
55%
40%
Runoff volume produced by 1.0 inch storm detained for 24 hours or more with shallow marsh added in bottom stages
80%
70%
55%
75%
75%
50%
Wet Pond
Permanent pool equal to 0.5 inch of runoff per watershed acre
55%
35%
25%
25%
45%
25%
Permanent pool equal to 2.5 times the volume of runoff from the mean storm (0.5 inch)
75%
55%
40%
40%
70%
40%
Water Quality Basin
Infiltration basin which exfiltrates “first flush” of 0.5 inch runoff/impervious acre
70%
50%
50%
50%
50%
70%
Filter Strip
25 to 50 foot turf strip
40%
20%
20%
40%
40%
20%
100 foot wooded strip
90%
50%
50%
90%
90%
70%
25 to 50 foot wooded strip
80%
40%
40%
80%
80%
60%
Grassed Swale
High slopes with check dams
20%
20%
20%
10%
10%
20%
Low gradient
30%
30%
30%
20%
20%
30%
*TSS= Total Suspended Solids; TP=Total Phosphorus; TN= Total Nitrogen; Zn=Zinc; Pb=Lead; BOD=Biological Oxygen Demand

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