Difference between revisions of "Filter strips: Performance"

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Performance of filter strips has also been evaluated based on the Roadside Vegetated Treatment Sites Study <ref name='Barrett2003'/> and the BMP Retrofit Pilot Study <ref>California Department of Transportation (Caltrans). 2004. BMP Retrofit Pilot Program, Final Report, CTSW-RT-01-050. Sacramento, CA.</ref>. These studies concluded that concentration reductions consistently occur for TSS and total heavy metals and frequently for [[heavy metals|dissolved metals]]. [[Water quality#Nutrients|Nutrients]] concentrations remained generally unchanged. When vegetation cover on the filter strip is below 80% water quality performance declines.
Performance of filter strips has also been evaluated based on the Roadside Vegetated Treatment Sites Study <ref name='Barrett2003'/> and the BMP Retrofit Pilot Study <ref>California Department of Transportation (Caltrans). 2004. BMP Retrofit Pilot Program, Final Report, CTSW-RT-01-050. Sacramento, CA.</ref>. These studies concluded that concentration reductions consistently occur for TSS and total [[heavy metals]] and frequently for dissolved metals. [[Water quality#Nutrients|Nutrients]] concentrations remained generally unchanged.  
'''NOTE''' When vegetation cover on the filter strip is below 80% water quality performance declines.


[[Category:Water quality]]
[[Category:Water quality]]

Revision as of 02:30, 6 November 2017

Vegetated filter strips are primarily a practice used to achieve water quality improvements although some infiltration can occur, depending on the soil type and infiltration rate.

Ability of vegetated filter strips to meet SWM objectives
Water balance benefit Water quality improvement Erosion control benefit
Partial: depending on soil infiltration rate Partial: depending on soil infiltration rate and length of flow path over the pervious area Partial: depending on soil infiltration rate

Water balance[edit]

Research indicates that runoff reduction from vegetated filter strips is a function of soil type, slope, vegetative cover and flow path length across the pervious surface. A conservative runoff reduction rate for vegetated filter strips is 25% for HSG C and D soils and 50% for HSG A and B soils. These values apply to filter strips that meet the design criteria outlined in this section.

Volumetric runoff reduction achieved by vegetated filter strips
Location Runoff reduction
2 - 5 m 8 - 15 m
Guelph, ON[1] 20 % 62 %
California, USA[2] 40 % 70 %

Water Quality[edit]

Vegetated filter strips can provide moderate pollutant removal from runoff. Research suggests that runoff pollutant concentrations and loads decrease when treated with filter strips and that steady state pollutant levels are typically achieved within 5 m of the pavement edge [3]. Based on a synthesis of performance monitoring studies as of 2000, it was reported that pollutant removal efficiencies of vegetated filter strips are highly variable. For this reason, filter strips should be used in conjunction with other water quality best management practices (e.g., as pretreatment).

Pollutant removal efficiencies of vegetated filter strips
Total suspended solids (TSS) 20 - 80 %
Total Nitrogen 20 - 60 %
Total Phosphorus 20 - 60 %
Total heavy metals 20 - 80 %

Performance of filter strips has also been evaluated based on the Roadside Vegetated Treatment Sites Study [2] and the BMP Retrofit Pilot Study [4]. These studies concluded that concentration reductions consistently occur for TSS and total heavy metals and frequently for dissolved metals. Nutrients concentrations remained generally unchanged. NOTE When vegetation cover on the filter strip is below 80% water quality performance declines.

  1. Abu-Zreig, M. Rudra, M. Lalonde. H. Whitely and N. Kaushik. 2004. Experimental investigation of runoff reduction and sediment removal by vegetated filter strips. Hydrologic Processes. 18: 2029-2037.
  2. 2.0 2.1 Barrett, M. 2003. Roadside Vegetated Treatment Sites (RVTS) Study Final Report, Report # CTSW-RT-03-028. California Department of Transportation. Sacramento, CA.
  3. Barrett, M., Lantin, A., Austrheim-Smith, S. 2004. Stormwater pollutant removal in roadside vegetated buffer strips. Transportation Research Record. No. 1890, pp. 129-140.
  4. California Department of Transportation (Caltrans). 2004. BMP Retrofit Pilot Program, Final Report, CTSW-RT-01-050. Sacramento, CA.