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Home My WebLink AboutEA 09-07; Coastal Rail Trail Reach 1; Administrative Permits (ADMIN) (5)I Storm Water Management Plan (SWMP) (Non-Priority Project) Project Identification: Applicant: SWMP Prepared by: Coastal Rail Trail -Reach 1 Carlsbad, CA Contract No. 3455 City of Carlsbad 1635 Faraday Avenue Carlsbad, CA 92008 Contact Person: Jon Schauble Phone: (760) 602-2762 CONSULTING Contact Person: RBF Consulting 5050 Avenida Encinas. Suite 260 Carlsbad, California 92008-4386 760.476.9193 telephone I 760.476.9198 fax Katharine E. Maker, RCE 75061 RBF JN 55-100827.001 Initial Preparation Date: September 17.2012 Revision Date(s): ' . \ ( This page intentionally left blank . . Table of Contents 1 PURPOSE AND SCOPE ............................................................................................. 1 2 PROJECT INFORMATION ....................................................................................... 2 2.1 Project Description .................................................................................................. 2 2.2 Project Activities ..................................................................................................... 3 3 WATER QUALITY POLLUTANTS OF CONCERN ............................................... 5 3.1 Potential Pollutants .................................................................................................. 5 3.2 Primary Pollutants of Concern ................................................................................. 8 4 WATER QUALITY CONDITIONS OF CONCERN ............................................... 10 5 STANDARD STORMWATERREQUIREMENTS ................................................. 11 5.1 Minimize Impervious Surfaces .............................................................................. 11 5.2 Disconnect Impervious Discharges ........................................................................ 11 5.3 Conserve Natural Areas ......................................................................................... 11 5.4 Stenciling Inlets and Signage ................................................................................. 11 5.5 Landscape Design .................................................................................................. 11 5.6 Water Efficient Landscaping .................................................................................. 11 5.7 Protect Slopes and Channels .................................................................................. 12 5.8 Trash Receptacles .................................................................................................. 12 5.9 Material Storage Areas .......................................................................................... 12 5.10 Vegetated Buffer Strip ........................................................................................ 12 5 .11 Drain Inserts....................................................................................................... 12 6 BMP MAINTENANCE PROVISIONS ..................................................................... 13 6.1 Landscape Maintenance ......................................................................................... 13 6.2 Vegetated Buffer Strip Maintenance ...................................................................... 13 6.3 Drain Inserts Maintenance ..................................................................................... 14 Table of Figures Figure 2.1 Vicinity Map ........................................................................................................ 4 List of Tables Table 3-1 Anticipated and Potential Pollutants Generated by Land Use Type ........................ 5 Table 3-2 Summary of Receiving Surface Waters ................................................................. 8 Appendix Appendix A-Storm Water Standards Questionnaire Appendix B-BMP Fact Sheets Appendix C-BMP Site Plan . . This page intentionally left blank . ' 1 PURPOSEANDSCOPE Storm Water Management Plan Coastal Rail Trail-Reach 1 The City of Carlsbad's Storm Water Management and Discharge Control Ordinance (Carlsbad Municipal Code Chapter 15.12) requires all development permit applications to complete the storm water standards questionnaire (E-34). The purpose of the questionnaire is to determine what type of storm water requirements the project must meet. For the Carlsbad Coastal Rail Trail, Reach 1 the project is considered a significant redevelopment and therefore Section 2 of the questionnaire was completed. It was determined that the project is not a priority project and is subject to 'Standard Stormwater Requirements' only, and shall incorporate methods to minimize the introduction of pollutants generated by urban runoff from the project. 1 2 PROJECT INFORMATION 2.1 Project Description Storm Water Management Plan Coastal Rail Trail-Reach 1 The project is located along State Street and Carlsbad Boulevard/Coast Highway, from Eaton Street in the City of Oceanside to Oak Avenue, in the City of Carlsbad, CA. A roundabout is proposed at the State Street I Carlsbad Boulevard intersection. Figure 2.1 provides a location map for the project. The county-wide Coastal Rail Trail project proposes a non-motorized trail, primarily within the San Diego Northern Railroad (SDNR) right-of-way (R/W). The trail includes segments of 8' wide multi-use Class I paved paths, 5' wide Class II bike lanes, and Class III bike routes within existing roadways. The Class I pathway will be separated by a 3' barrier and run the length of the project corridor, proposed amenities include landscaping, irrigation, trash containers, bicycle racks, and signs. In the City of Carlsbad the Coastal Rail Trail is divided into 5 reaches. This report supports the construction ofthe Reach I portion, which begins at Eaton Street in the City of Oceanside and extends south through the State Street and Carlsbad Boulevard intersection. The trail continues as a Class III bike route along State Street until the Oak A venue and State Street Intersection, where the trail accesses the eastern edge of the railroad right-of-way. The proposed improvements include the construction of a 1 0' wide Class I bike path, Class II bike lanes, and Class III bike routes. A single-lane roundabout is proposed at the State Street and Carlsbad Boulevard intersection. 2 . ' 2.2 Project Activities Storm Water Management Plan Coastal Rail Trail-Reach 1 The project is considered a road narrowing and sidewalk and bike facility improvement project, and activities on the site will be typical of such development (i.e. travel lanes, bike facilities, walkways, landscaped areas). The project is not anticipated to generate significant food or animal waste products. It is important to note, the project is divided into two drainage areas (See BMP Concept Plan in Appendix C). Drainage Area A extends from Eaton Street to the existing bridge. Drainage Area B extends from the existing bridge to Laguna Drive, along State Street, and to the existing bridge over the N.C.T.D. tracks along Carlsbad Boulevard. Within Drainage Area A, an increase of approximately 9,200 SF of impervious area is proposed. However, the impervious area is attributed to the construction of the 10' wide Class I bike path and, therefore, will not produce the pollutants associated with a roadway project (i.e. oils and greases, heavy metals, and nutrients and pesticides (since no formal landscaping is proposed within Drainage Area A). Within Drainage Area B, there is an overall decrease in impervious area of approximately 2,000 SF. A majority of the improvements within this drainage area will be constructed within the existing limits of pavement and therefore will not generate_any new pollutants. Proposed storm drain improvements include the installation of two curb inlets along State Street, as well as the relocation of the existing headwall on the west side of the proposed roundabout. A 36" square pre-cast inlet is proposed in the northbound approach median on Carlsbad Boulevard. 3 Figure 2.1 Vicinity Map (Reference Thomas Bros. 1106) Storm Water Management Plan Coastal Rail Trail-Reach 1 4 Storm Water Management Plan Coastal Rail Trail-Reach 1 3 WATER QUALITY POLLUTANTS OF CONCERN 3.1 Potential Pollutants The Coastal Rail Trail Reach 1 project falls in the "Streets, Highways, and Freeways" category as highlighted in Table 3-1. Although many constituents are generally anticipated for projects in this category the proposed project is not expected to generate significant amounts of pollutants, Table 3-1 Anticipated and Potential Pollutants Generated ./ Anticipated Pollutants p Potential Pollutants General Pollutant Categories 00 Q) (.) s:: ~ ..... 00 ..0 ::s en 00 bll -o s:: s:: Project Categories ::s .:;!l :.a 0 '"' ~ Q) 0.. ..0 00 00 e Q) e ~ ~ Cl Q) 0 Q) '"' ..... 0 00 Q) u -o Cl ..... 00 ~ s:: t= (.) ~ I -o Q) ·~ s:: s:: e Q) ;;.-.. Q) ·c > ..s:: bll ~ :.a 00 ~ .:!l ..... ~ bll ~ Q) ::s Q) '"' '"' 0 en z ::c: 0 f-< 0 Detached Residential ./ ./ ./ ./ ./ Attached Residential ./ ./ ./ p<l) p(2) Commercial (> 100,000 sf) p(l) p(l) p(2) ./ p(5) ./ Heavy industry I industrial ./ ./ ./ ./ ./ ./ Auto Repair Shops ./ ./(4)(5) ./ ./ Restaurants ./ ./ ./ Hillside Development ./ ./ ./ ./ ./ 000 p(l) p(l) ./ ./ p(l) ./ (1) A potential pollutant if landscaping exists on-site; (2) A potential pollutant if the project includes uncovered parking areas; (3) A potential pollutant if land use involved food or animal waste products; (4) Including petroleum hydrocarbons; (5) Including solvents. 00 Q) 00 ::s '"' > -o s:: ~ 00 ~ Q) ·c -o "() Q) ..... -~ (.) ~ Q) c:o ~ ./ ./ p ./ p(3) p(5) ./ 5 Storm Water Management Plan Coastal Rail Trail-Reach 1 As indicated in Section 2.1, the project consists of narrowing the existing roadway and constructing a roundabout, bike lanes, a bike route and sidewalks that will facilitate bicycle and pedestrian traffic. Potential pollutants of concern associated with this project category include: Drainage Area A: • Sediments (since the trail will be constructed adjacent to existing landscaped areas); • Organic Compounds (since dog walking is possible); • Litter and trash collecting in the drainage systems; • Oxygen-demanding substances including biodegradable organic material and chemicals; Drainage Area B: • Sediments (since there will be landscaped areas on site); • Nutrients (since there will be landscaped areas on site); • Heavy Metals (limited to occasional maintenance trucks); • Organic Compounds (since dog walking is possible); • Litter and trash collecting in the drainage systems; • Oxygen-demanding substances including biodegradable organic material and chemicals; • Pesticides used to control nuisance landscape growth; • Oils, grease, and other hydrocarbons emanating from paved areas on the site. As noted in Section 1, this project is not a "Priority Project" and is required to meet the 'Standard Stormwater Requirements' only. Therefore, no calculable level of treatment is required for the Coastal Rail Trail -Reach 1 project. Additionally, the anticipated pollutants listed for Drainage Area Bare already being generated by the existing roadway. The proposed project does not generate any new pollutants of concern. 3.1.1 Sediment Sediments are soils or other surface materials eroded and then transported or deposited by the action of wind, water, ice, or gravity. Sediments can increase turbidity, clog fish gills, reduce spawning habitat, lower young aquatic organisms survival rates, smother bottom dwelling organisms, and suppress aquatic vegetation growth. 3.1.2 Nutrients Nutrients are inorganic substances, such as nitrogen and phosphorus. They commonly exist in the form of mineral salts that are either dissolved or suspended in water. Primary sources of nutrients in urban runoff are fertilizers and eroded soils. Excessive discharge of nutrients to water bodies and streams can cause excessive aquatic algae and plant growth. Such excessive production, referred to as cultural eutrophication, may lead to excessive decay of organic matter in the water body, loss of oxygen in the water, release of toxins in sediment, and the eventual death of aquatic organisms. 6 3.1.3 Metals Storm Water Management Plan Coastal Rail Trail-Reach 1 Metals are raw material components in non-metal products such as fuels, adhesives, paints, and other coatings. The primary sources of metal pollution in storm water are typically commercially available metals and metal products. Metals of concern include cadmium, chromium, copper, lead, mercury, and zinc. Lead and chromium have been used as corrosion inhibitors in primer coatings and cooling tower systems. At low concentrations naturally occurring in soil, metals are not toxic. However, at higher concentrations, certain metals can be toxic to aquatic life. Humans can be impacted from contaminated groundwater resources, and bioaccumulation of metals in fish and shellfish. Environmental concerns, regarding the potential for release of metals to the environment, have already led to restricted metal usage in certain applications. 3.1.4 Organic Compounds Organic compounds are carbon-based (commercially available or naturally occurring) substances found in pesticides, solvents, and hydrocarbons. Organic compounds can, at certain concentrations, indirectly or directly constitute a hazard to life or health. When rinsing off objects, toxic levels of solvents and cleaning compounds can be discharged to storm drains. Dirt, grease, and grime retained in the cleaning fluid or rinse water may also adsorb levels of organic compounds that are harmful or hazardous to aquatic life. 3.1.5 Trash and Debris Trash (such as paper, plastic, polystyrene packing foam, and aluminum materials) and biodegradable organic matter (such as leaves, grass cuttings, and food waste) are general waste products on the landscape. The presence of trash and debris may have a significant impact on the recreational value of a water body and aquatic habitat. Excess organic matter can create a high biochemical oxygen demand in a stream and thereby lower its water quality. Also, in areas where stagnant water exists, the presence of excess organic matter can promote septic conditions resulting in the growth of undesirable organisms and the release of odorous and hazardous compounds such as hydrogen sulfide. 3.1.6 Oxygen-demanding Substances This category includes biodegradable organic material as well as chemicals that react with dissolved oxygen in water to form other compounds. Proteins, carbohydrates, and fats are examples of biodegradable organic compounds. Compounds such as ammonia and hydrogen sulfide are examples of oxygen-demanding compounds. The oxygen demand of a substance can lead to depletion of dissolved oxygen in a water body and possibly the development of septic conditions. 3.1.7 Pesticides Pesticides (including herbicides) are chemical compounds commonly used to control nuisance growth of organisms. Excessive application of a pesticide may result in runoff containing toxic levels of its active component. 7 3.1.8 Oil and Grease Storm Water Management Plan Coastal Rail Trail-Reach 1 Oil and grease are characterized as high-molecular weight organic compounds. The primary sources of oil and grease are petroleum hydrocarbon products, motor products from leaking vehicles, esters, oils, fats, waxes, and high molecular-weight fatty acids. Introduction ofthese pollutants to the water bodies are very possible due to the wide uses and applications of some of these products in municipal, residential, commercial, industrial, and construction areas. Elevated oil and grease content can decrease the aesthetic value of the water body, as well as the water quality. 3.2 Primary Pollutants of Concern The Environmental Protection Agency (EPA) is the primary federal agency responsible for management of water quality in the United States. The Clean Water Act (CWA) is the federal law that governs water quality control activities initiated by the EPA and others. Section 303 ofthe CWA requires the adoption ofwater quality standards for all surface water in the United States. Under Section 303(d), individual states are required to develop lists of water bodies that do not meet water quality objectives after required levels of treatment by point source dischargers. Total maximum daily loads (TMDLs) for all pollutants for which these water bodies are listed must be developed in order to bring them into compliance with water quality objectives. The project site is located in the 14,437-acre (22.6 square mile) Buena Vista Creek Hydrologic Area (HA 904.2), which is part of the Carlsbad Hydrologic Unit (HU 904.00). The most immediate receiving waters for the project site are the Buena Vista Lagoon and the Pacific Ocean. According to the California 2006 303(d) list published by the San Diego Regional Water Quality Control Board (RWQCB Region 9), Buena Vista Lagoon is impaired by bacteria indicators, nutrients and sedimentation. The Pacific Shoreline, located approximately half a mile downstream, is listed as impaired by bacteria indicator. Refer to Table 3-2 for the impairments of the downstream waterbodies. It is highly unlikely that the potential pollutants from the project site would have a significant detrimental effect on the listed impairments downstream, but the impairments should be kept in mind when determining the appropriate program of BMPs. Table 3-2 summarizes the receiving waters and their classification by the RWQCB Region 9. Table 3-2 Summary of Receiving Surface Waters Receiving Water Buena Vista Lagoon Pacific Ocean Shoreline (Buena Vista Creek) Hydrologic Unit Code 904.21 904.21 Approximate Distance From Site Omi 0.5mi 303(d) lmpairment(s) Sedimentation, Bacteria Indicators, Nutrients Bacteria Indicators Receiving waters downstream of the project site are impaired by bacteria indicators, nutrients, and sedimentation as shown in Table 3-2. The proposed project activities are anticipated to produce sediment, nutrients, metals (limited), organic compounds, trash debris, pesticides and 8 Storm Water Management Plan Coastal Rail Trail-Reach 1 oil and grease, as shown in Table 3-1. Therefore, the primary pollutants of concern associated with the project are nutrients, and sediment. The remaining anticipated pollutants are considered secondary pollutants of concern. 9 Storm Water Management Plan Coastal Rail Trail-Reach 1 4 WATER QUALITY CONDITIONS OF CONCERN According to the City of Carlsbad SUSMP, a change to a priority project site's hydrologic regime would be considered a condition of concern if the change would negatively impact downstream channels and habitat integrity. However, the hydrologic regime described here will not be negatively impacted with the proposed project. The existing condition of the Reach 1 Corridor is a paved roadway and is mostly impervious. The proposed plan adds new impervious area, with comparable runoffvalues. A drainage report has been prepared for this project and it has been determined that the existing storm drain system will not be adversely impacted by the revised layout. The integrity of downstream channels and existing habitats will also be maintained. Since runoff from the project discharges into new and existing drainage facilities that are verified and/or designed to accommodate peak runoff flow rates from a 1 00-year storm event, there are no conditions of concern associated with the project. The Federal Insurance Rate Map (FIRM) (Panel 761 of 2375) for this area shows that the project's location is not within of the 1 00-year floodplain. 10 Storm Water Management Plan Coastal Rail Trail-Reach 1 5 STANDARD STORMWATER REQUIREMENTS Standard Stormwater Requirements involve incorporating the following applicable techniques into the project design: 5.1 Minimize Impervious Surfaces Using excessive impervious surfaces tend to increase the potential of pollutant contact with urban runoff and increase runoff. The overall project decreases the area of pollutant- generating impervious surfaces. Additionally, the construction of a roundabout will improve traffic flow, as well as cut down vehicular emissions and fuel consumption by reducing the vehicle idle time (opportunity for oils and greases to drip) at intersections, thereby creating an overall positive impact on the environment. 5.2 Disconnect Impervious Discharges Using vegetated areas in the landscape design to intercept and filter runoff is an encouraged approach. Within Drainage Area B, the project proposes the use of vegetated strips, as described in the following section. Additionally, runoff generated from the 10' wide bike path within Drainage Area A will be directed to the natural vegetated area adjacent to the proposed improvements, providing an opportunity for filtration and infiltration prior to discharging to the Buena Vista Lagoon. 5.3 Conserve Natural Areas The majority ofthe project footprint is to be constructed within the existing limits of roadway, therefore preserving and protecting the natural features directly adjacent to the project. No constructed improvements are proposed between the proposed roundabout and Oak A venue. 5.4 Stenciling Inlets and Signage All new storm drain grate inlets constructed as part of this project will be signed with the message ''No Dumping-I live downstream" or equivalent message, as directed by the City. The project also proposes signs with descriptive language prohibiting dumping into the Buena Vista Lagoon. 5.5 Landscape Design Efficient landscape design can be an effective source-control to prevent pollution in storm water and dry-weather flows. Within Drainage Area B, the completed project will incorporate native plants and implement principles of runoff-minimizing landscape design and an effective landscape maintenance plan to the maximum extent practicable. No new landscaping is proposed within Drainage Area A. 5. 6 Water Efficient Landscaping Landscape designs that group plants with similar water requirements can reduce excess irrigation runoff and promote surface infiltration. Within Drainage Area A, the landscape design will utilize non-invasive native plant species and drought tolerant plants. No new landscaping (including irrigation) is proposed within Drainage Area A. 11 5. 7 Protect Slopes and Channels Storm Water Management Plan Coastal Rail Trail-Reach 1 As mentioned previously, the majority of the project footprint is to be constructed within the existing limits of roadway, therefore preserving and protecting the natural features directly adjacent to the project. The proposed vegetated strip will act as a buffer area and aid in safely conveying runoffto adjacent drainage course. 5.8 Trash Receptacles Trash storage areas shall be paved with an impervious surface, designed not to allow run-on from adjoining areas, and have attached lids to prevent off-site transport of trash and rain from entering the container. 5.9 Material Storage Areas No material storage will take place at the proposed project site. 5.10 Vegetated Buffer Strip Although, the construction of treatment control BMPs are not required, vegetated strips will be constructed within Drainage Area B, along Carlsbad Boulevard between the existing bridge and the proposed roundabout. Vegetated strips are vegetated surfaces that are designed to treat sheet flow from adjacent surfaces. Strips function by slowing runoff velocities and allowing sediment and other pollutants to settle and by providing some infiltration into underlying soils. The Drainage Area B runoff flows north and west and will enter the strips onsite. Flow then travels slowly north-west through the natural vegetated area before being discharged into the Buena Vista Lagoon. 5.11 Drain Inserts To provide additional treatment and removal of potential pollutants, drainage inlet inserts will be installed in all storm drain inlets. Bio-Clean Environmental® round curb inlet baskets (or approved equal) will be specified to treat runoff for hydrocarbons and trash/debris. Surface runoff enters the inlet and passes over/through an adsorbent material to remove hydrocarbons, while sediments and trash/debris are collected in the hanging basket. 12 6 BMP MAINTENANCE PROVISIONS Storm Water Management Plan Coastal Rail Trail-Reach 1 To ensure long-term maintenance of project BMPs, the City of Carlsbad will maintain, repair and replace the storm water BMP as necessary into perpetuity. The site shall be kept in a neat and orderly fashion with a regularly scheduled landscape maintenance crew in charge of keeping gutters and inlets free of litter and debris. The landscape crew will also maintain the landscaping to prevent soil erosion and minimize sediment transport. Maintenance records shall be retained for at least 5-years. 6.1 Landscape Maintenance The landscape maintenance plan should include a regular sweeping program of impervious surfaces, litter pick-up, and proper equipment maintenance (preferably off-site), and proper use of chemicals to help eliminate sources of storm water pollutants. Common elements of an effective landscape maintenance plan include: • A regularly rotating schedule of maintenance ensures the property is in a perpetual state of good cleanliness. Maintenance obligations include regular sweeping of sidewalks, driveways, and gutters, and staff members' job duties include perpetual litter pick-up. The City will provide convenient trash receptacles for public use located throughout the trail. • Avoid using water to clean sidewalks, driveways, and other areas. • All landscape maintenance equipment is cleaned off-site. Minimize water use and do not use soaps or chemicals. • Keep all landscape equipment in good working order. Fix all leaks promptly, and use drip pans/drip cloths when draining and replacing fluids. Perform all repairs and equipment maintenance offsite. Protect all nearby storm water inlets. Keep regular logs of major equipment repairs. All spent fluids are to be collected and disposed of properly. • Materials with the potential to pollute runoff (soil, pesticides, herbicides, fertilizers, detergents, petroleum products, and other materials) are handled, delivered, applied, and disposed of with care following manufacturer's labeled directions and in accordance with all applicable Federal, state, and local regulations. Volatile chemicals are stored and locked in isolated storage sheds with paved flooring. • Pesticides and fertilizers, if used, will be applied according to manufacturer's directions and will not be applied prior to a forecast rain event. Any material broadcast onto paved surfaces (e.g. parking areas or sidewalks) will be promptly swept up and properly disposed. 6.2 Vegetated Buffer Strip Maintenance Usually, strips require little more than normal landscape maintenance activities such as irrigation and mowing to maintain pollutant removal efficiency. Strips can become a nuisance due to mosquito breeding in standing water if obstructions develop (i.e. debris accumulation, 13 Storm Water Management Plan Coastal Rail Trail-Reach 1 invasive vegetation) and/or if proper drainage slopes are not implemented and maintained. The application of fertilizers and pesticides should be minimized. 6.3 Drain Inserts Maintenance Recommended maintenance consists oftwo to four inspections per year (depending on street traffic and sediment load) plus replacement of the adsorbent when it is more than 50% coated with pollutants and removal of excessive sediment/debris. Each inlet insert costs about $845- $1,000 and is available locally through Bio-Clean Environmental Services (760-433-7640). The inserts can be installed by Bio-Clean Environmental Services for additional cost or by the project construction contractor. Maintenance costs are estimated at about $79-$110 per cleaning. 14 Appendix A -Storm Water Standards Questionnaire "~'~'\ ''· ~~:-~ CITY OF CARLSBAD STORM WATER STANDARDS QUESTIONNAIRE E-34 INSTRUCTIONS: If you answered YES, you ARE a significant redevelopment, you Development Services Land Development Engineering 1635 Faraday Avenue 760-602-2750 www.carlsbadca.gov X X PROJECT requirements. Please check the "meets PRIORITY DEVELOPMENT PROJECT requirements" box in Section 3 below. Review SUSMP to find out if SUSMP requirements apply to your project envelope or the entire project site. If you answered NO, then you ARE NOT a significant redevelopment and your project is subject to STANDARD STORMWATER REQUIREMENTS. Please check the "does not meet PDP requirements" box in Section 3 below. 4 on page 2 D My project meets PRIORITY DEVELOPMENT PROJECT (PDP) requirements and must comply with additional stormwater criteria per the SUSMP and I understand I must prepare a Storm Water Management Plan for submittal at time of application. I understand flow control (hydromodification) requirements may apply to my project. Refer to SUSMP for details. ~ My project does not meet PDP requirements and must only comply with STANDARD STORMWATER REQUIREMENTS per the SUSMP. As of these I will low Applicant Information and Signature Box This Box for City Use Only Address: Assessor's Parcel Number(s): City Concurrence: I YES I NO I I Applicant Name: Applicant Title: By: Date: Applicant Signature: Date: Project ID: E-34 Page 3 of3 REV 1114111 Appendix B-BMP Fact Sheets Vegetated Buffer Strip Description Grassed buffer strips (vegetated filter strips, filter strips, and grassed filters) are vegetated surfaces that are designed to treat sheet flow from adjacent surlaces. Filter strips function by slowing runoff velocities and allowing sediment and other pollutants to settle and by providing some infiltration into underlying soils. Filter strips were originally used as an agricultural treatment practice and have more recently evolved into an urban practice. With proper design and maintenance, filter strips can provide relatively high pollutant removal. In addition, the public views them as landscaped amenities and not as stormwater infrastructure. Consequently, there is little resistance to their use. ~alifornia Experience Caltrans constructed and monitored three vegetated buffer strips in southern California and is currently evaluating their perlormance at eight additional sites statewide. These strips were generally effective in reducing the volume and mass of pollutants in runoff. Even in the areas where the annual rainfall was only about 10 inchesjyr, the vegetation did not require additional irrigation. One factor that strongly affected perlormance was the presence of large numbers of gophers at most of the southern California sites. The gophers created earthen mounds, destroyed · vegetation, and generally reduced the effectiveness of the controls for TSS reduction. Advantages • Buffers require minimal maintenance activity (generally just erosion prevention and mowing). • If properly designed, vegetated, and operated, buffer strips can provide reliable water quality benefits in conjunction with high aesthetic appeal. January 2003 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com TC-31 Design Considerations • Tributary Area • Slope • Water Availability • Aesthetics Targeted Constituents ~ Sediment • ~ Nutrients • ~ Trash ... ~ Metals • ~ Bacteria • ~ Oil and Grease • ~ Organics ... legend (Removal Etrectlveness} • Low • High .&. Medium 1 of8 TC-31 Vegetated Buffer Strip • Flow characteristics and vegetation type and density can be closely controlled to maximize BMP effectiveness. • Roadside shoulders act as effective buffer strips when slope and length meet criteria described below. Limitations • May not be appropriate for industrial sites or locations where spills may occur. • Buffer strips cannot treat a very large drainage area. • A thick vegetative cover is needed for these practices to function properly. • Buffer or vegetative filter length must be adequate and flow characteristics acceptable or water quality performance can be severely limited. • Vegetative buffers may not provide treatment for dissolved constituents except to the extent that flows across the vegetated surface are infiltrated into the soil profile. • This technology does not provide significant attenuation of the increased volume and flow rate of runoff during intense rain events. Design and Sizing Guidelines • Maxinmm length (in the direction of flow towards the buffer) of the tributary area should be 6o feet. • Slopes should not exceed 15%. • Minimum length (in direction of flow) is 15 feet. • Width should be the same as the tributary area. • Either grass or a diverse selection of other low growing, drought tolerant, native vegetation should be specified. Vegetation whose growing season corresponds to the wet season is preferred. Construction/Inspection Considerations • Include directions in the specifications for use of appropriate fertilizer and soil amendments based on soil properties determined through testing and compared to the needs of the vegetation requirements. • Install strips at the time of the year when there is a reasonable chance of successful establishment without irrigation; however, it is recognized that rainfall in a given year may not be sufficient and temporary irrigation may be required. • If sod tiles must be used, they should be placed so that there are no gaps between the tiles; stagger the ends of the tiles to prevent the formation of channels along the strip. • Use a roller on the sod to ensure that no air pockets form between the sod and the soil. 2of8 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com January 2003 Vegetated Buffer Strip TC-31 • Where seeds are used, erosion controls will be necessary to protect seeds for at least 75 days after the first rainfall of the season. Performance Vegetated buffer strips tend to provide somewhat better treatment of stormwater runoff than swales and have fewer tendencies for channelization or erosion. Table 1 documents the pollutant removal observed in a recent study by Caltrans (2002) based on three sites in southern California. The column labeled "Significance" is the probability that the mean influent and effluent EMCs are not significantly different based on an analysis of variance. The removal of sediment and dissolved metals was comparable to that observed in much more complex controls. Reduction in nitrogen was not significant and all of the sites exported phosphorus for the entire study period. Tiri.s may have been the result of using salt grass, a warm weather species that is dormant during the wet season, and which leaches phosphorus when dormant. Another Cal trans study (unpublished) of vegetated highway shoulders as buffer strips also found substantial reductions often within a very short distance of the edge of pavement. Figure 1 presents a box and whisker plot of the concentrations ofTSS in highway runoff after traveling various distances (shown in meters) through a vegetated filter strip with a slope of about 10%. One can see that the TSS median concentration reaches an irreducible minimum concentration of about 20 mg/L within 5 meters of the pavement edge. Table 1 Pollutant Reduction in a Vegetated Buffer Strip Constituent TSS NOs-N TKN-N TotalNI DissolvedP TotalP TotalCu Total Ph TotalZn Dissolved Cu Dissolved Pb Dissolved Zn January 2003 MeanEMC Removal Influent Emuent % (mg/L) (mg/L) 119 31 74 0.67 o.ss 13 2-50 2.10 16 3-17 2.68 15 0.15 0.46 -206 0.42 0.62 -52 o.osS 0.009 84 0.046 o.oo6 88 0.245 o.oss 78 0.029 0.007 77 0.004 0.002 66 0.09') 0-035 65 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com Significance p <0.000 0.367 0.542 0.047 0.035 <0.000 <0.000 <0.000 0.004 o.oo6 <0.000 3of8 TC-31 Vegetated Buffer Strip 100 90 so 70 * * +-' 60 ::J 0 (J)I 50 * (J) 40 * t- 30 ~ 20 8 10 0 length 0 ""': <'! <'! ~ ci ...,. co (0 Filter strips also exhibit good removal of litter and other floatables because the water depth in these systems is well below the vegetation height and consequently these materials are not easily transported through them. Unfortunately little attenuation of peak runoff rates and volumes (particularly for larger events) is normally observed, depending on the soil properties. Therefore it may be prudent to follow the strips with another practice than can reduce flooding and channel erosion downstream. Siting Criteria The use of buffer strips is limited to gently sloping areas where the vegetative cover is robust and diffuse, and where shallow flow characteristics are possible. The practical water quality benefits can be effectively eliminated with the occurrence of significant erosion or when flow concentration occurs across the vegetated surface. Slopes should not exceed 15 percent or be less than 1 percent. The vegetative surface should extend across the full width of the area being drained. The upstream boundary of the filter should be located contiguous to the developed area. Use of a level spreading device (vegetated berm, sawtooth concrete border, rock trench, etc) to facilitate overland sheet flow is not normally recommended because of maintenance considerations and the potential for standing water. Filter strips are applicable in most regions, but are restricted in some situations because they consume a large amount of space relative to other practices. Filter strips are best suited to treating runoff from roads and highways, roof downspouts, small parking lots, and pervious surfaces. They are also ideal components of the "outer zone" of a stream buffer or as pretreatment to a structural practice. In arid areas, however, the cost of irrigating the grass on the practice will most likely outweigh its water quality benefits, although aesthetic considerations may be sufficient to overcome this constraint. Filter strips are generally impractical in ultra-urban areas where little pervious surface exists. Some cold water species, such as trout, are sensitive to changes in temperature. While some treatment practices, such as wet ponds, can warm stormwater substantially, filter strips do not 4of8 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com January 2003 Vegetated Buffer Strip TC-31 are not expected to increase stormwater temperatures. Thus, these practices are good for protection of cold-water streams. Filter strips should be separated from the ground water by between 2 and 4ft to prevent contamination and to ensure that the filter strip does not remain wet between storms. Additional Design Guidelines Filter strips appear to be a minimal design practice because they are basically no more than a grassed slope. In general the slope of the strip should not exceed tsfc% and the strip should be at least 15 feet long to provide water quality treatment. Both the top and toe of the slope should be as flat as possible to encourage sheet flow and prevent erosion. The top of the strip should be installed 2-5 inches below the adjacent pavement, so that vegetation and sediment accumulation at the edge of the strip does not prevent runoff from entering. A major question that remains unresolved is how large the drainage area to a strip can be. Research has conclusively demonstrated that these are effective on roadside shoulders, where the contributing area is about twice the buffer area. They have also been installed on the perimeter of large parking lots where they perlormed fairly effectively; however much lower slopes may be needed to provide adequate water quality treatment. The filter area should be densely vegetated with a mix of erosion-resistant plant species that effectively bind the soil. Native or adapted grasses, shrubs, and trees are preferred because they generally require less fertilizer and are more drought resistant than exotic plants. Runoff flow velocities should not exceed about 1 fps across the vegetated surlace. For engineered vegetative strips, the facility surlace should be graded flat prior to placement of vegetation. Initial establishment of vegetation requires attentive care including appropriate watering, fertilization, and prevention of excessive flow across the facility until vegetation completely covers the area and is well established. Use of a permanent irrigation system may help provide maximal water quality perlormance. In cold climates, filter strips provide a convenient area for snow storage and treatment. If used for this purpose, vegetation in the filter strip should be salt-tolerant (e.g., creeping bentgrass), and a maintenance schedule should include the removal of sand built up at the bottom of the slope. In arid or semi-arid climates, designers should specify drought-tolerant grasses to minimize irrigation requirements. Maintenance Filter strips require mainly vegetation management; therefore little special training is needed for maintenance crews. Typical maintenance activities and frequencies include: • Inspect strips at least twice annually for erosion or damage to vegetation, preferably at the end of the wet season to schedule summer maintenance and before major fall run-off to be sure the ~p is ready for winter. However, additional inspection after periods of heavy run- off is most desirable. The strip should be checked for debris and litter and areas of sediment accumulation. • Recent research on biofiltration swales, but likely applicable to strips {Colwell et al., 2000 ), indicates that grass height and mowing frequency have little impact on pollutant removal; January 2003 california Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com 5of8 . . TC-31 Vegetated Buffer Strip consequently, mowing may only be necessary once or twice a year for safety and aesthetics or to suppress weeds and woody vegetation. • Trash tends to accumulate in strip areas, particularly along highways. The need for litter removal should be determined through periodic inspection but litter should always be removed prior to mowing. • Regularly inspect vegetated buffer strips for pools of standing water. Vegetated buffer strips can become a nuisance due to mosquito breeding in level spreaders (unless designed to dewater completely in 48-72 hours), in pools of standing water if obstructions develop (e.g. debris accumulation, invasive vegetation), and/or if proper drainage slopes are not implemented and maintained. Cost Construction Cost Little data is available on the actual construction costs of filter strips. One rough estimate can be the cost of seed or sod, which is approximately 30¢ per ft2 for seed or 70¢ per ft2 for sod. This amounts to between $13,000 and $30,000 per acre of filter strip. This cost is relatively high compared with other treatment practices. However, the grassed area used as a filter strip may have been seeded or sodded even if it were not used for treatment. In these cases, the only additional cost is the design. Typical maintenance costs are about $350/acrejyear (adapted from SWRPC, 1991). This cost is relatively inexpensive and, again, might overlap with regular landscape maintenance costs. The true cost of filter strips is the land they consume. In some situations this land is available as wasted space beyond back yards or adjacent to roadsides, but this practice is cost-prohibitive when land prices are high and land could be used for other purposes. Maintenance Cost Maintenance of vegetated buffer strips consists mainly of vegetation management (mowing, irrigation if needed, weeding) and litter removal. Consequently the costs are quite variable depending on the frequency of these activities and the local labor rate. References and Sources of Additional Information Caltrans, 2002, BMP Retrofit Pilot Program Proposed Final Report, Rpt. CTSW-RT-m-oso, California Dept. of Transportation, Sacramento, CA. Center for Watershed Protection (CWP). 1996. Design of Stormwater Filtering Systems. Prepared fot Chesapeake Research Consortium, Solomons, MD, and EPA Region V, Chicago, IL. Desbonette, A., P. Pogue, V. Lee, and N. Wolff. 1994-Vegetated Buffers in the Coastal Zone: A Summary Review and Bibliography. Coastal Resources Center. University of Rhode Island, Kingston, Rl Magette, W., R Brinsfield, R. Palmer andJ. Wood. 1989. Nutrient and Sediment Removal by Vegetated Filter Strips. Transactions of the American Society of Agricultural Engineers 32(2): 663-667. 6of8 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com January 2003 Vegetated Buffer Strip TC-31 Metzger, M. E., D. F. Messer, C~ L. Beitia, C. M. Myers, and V. L. Kramer. 2002. The Dark Side Of Stonnwater Runoff Management: Disease Vectors Associated With Structural BMPs. Stonnwater 3(2): 24-39. Southeastern WlSconsin Regional Planning Commission (SWRPC). 1991. Costs of Urban Nonpoint Source Water Pollution Control Measures. Technical report no. 31. Southeastern Wisconsin Regional Planning Commission, Waukesha, Wl Yu, S., S. Barnes and V. Gerde. 1993-Testing of Best Management Practices for Controlling Highway Runoff FHWA/VA93-R16. Virginia Transportation Research CounCil, Charlottesville, VA Iriformation Resources Center for Watershed Protection (CWP). 1997. Stormwater BMP Design Supplement/or Cold Climates. Prepared for U.S. Environmental Protection Agency Office of Wetlands, Oceans and Watersheds. Washington, DC. Maryland Department of the Environment (MDE). 2000. Maryland Stormwater Design Manual. http://www.mde.state.md.us/environment/wm.a/stormwatermanuaL Accessed May 22,2001. January 2003 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com 7of8 TC-31 Pavcme:at ANa 8of8 Vegetated Buffer Strip -i: * * .. i -. * * .. .. PikllrStdp .. * -* i • Note: Not to Scale callfurnJa Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com January 2003 Drain Inserts Description Drain inserts are manufactured filters or fabric placed in a drop inlet to remove sediment and debris. There are a multitude of inserts of various shapes and configurations, typically falling into one of three different groups: socks, boxes, and trays. The sock consists of a fabric, usually constructed of polypropylene. The fabric may be attached to a frame or the grate of the inlet holds the sock. Socks are meant for vertical (drop) inlets. Boxes are constructed of plastic or wire mesh. Typically a polypropylene "bag" is placed in the wire mesh box. The bag takes the form of the box. Most box products are one box; that is, the setting area and filtration through media occur in the same box. Some products consist of one or more trays or mesh grates. The trays may hold different types of media. Filtration media vacy by manufacturer. Types include polypropylene, porous polymer, treated cellulose, and activated carbon. California Experience The number of installations is unknown but likely exceeds a thousand. Some users have reported that these systems require considerable maintenance to prevent plugging and bypass. Advantages • Does not require additional space as inserts as the drain inlets are already a component of the standard drainage systems. • Easy access for inspection and maintenance. • As there is no standing water, there is little concern for mosquito breeding. • A relatively inexpensive retrofit option. Limitations Performance is likely significantly less than treatment systems that are located at the end of the drainage system such as ponds and vaults. Usually not suitable for large areas or areas with trash or leaves than can plug the insert. Design and Sizing Guidelines Refer to manufacturer's guidelines. Drain inserts come any many configurations but can be placed into three general groups: socks, boxes,. and trays. The sOck consists of a fabric, usually constructed of polypropylene. The fabric may be attached to a frame or the grate of the inlet holds the sock. Socks are meant for vertical (drop) inlets. Boxes are constructed of plastic or wire mesh. Typically a polypropylene "bag" is placed in the wire mesh box. The bag takes the form of the box. Most box products are January 2003 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com MP-52 Design Considerations • Use with other BMPs • Fit and Seal Capacity within Inlet Targeted Constituents ~ Sediment ~ Nutrients ~ Trash ~ Metals Bacteria ~ Oil and Grease ~ Organics Removal El'fecfiveneH See New Development and Redevelopment Handbook-Section 5. MP-52 Drain Inserts one box; that is, the setting area and filtration through media occurs in the same box. One manufacturer has a double-box. Stormwater enters the first box where setting occurs. The stormwater flows into the second box where the filter media is located. Some products consist of one or more trays or mesh grates. The trays can bold different types of media. Filtration media vary with the manufacturer: types include polypropylene, porous polymer, treated cellulose, and activated carbon. Constructionjlnspection Considerations Be certain that installation is done in a manner that makes certain that the stormwater enters the unit and does not leak around the perimeter. Leakage between the frame of the insert and the frame of the drain inlet can easily occur with vertical (drop) inlets. Performance Few products have perfom1ance data collected under field conditions. Siting Criteria It is recommended that inserts be used only for retrofit situations or as pretreatment where other treatment BMPs presented in this section area used. Additional Design Guidelines Follow guidelines provided by individual manufacturers. Maintenance Likely require frequent maintenance, on the order of several times per year. Cost • The initial cost of individual inserts ranges from less than $100 to about $2,000. The cost of using multiple units in curb inlet drains varies with the size of the inlet. • The low cost of inserts may tend to favor the use of these systems over other, more effective treatment BMPs. However, the low cost of each unit may be offset by the number of units that are required, more frequent maintenance, and the shorter structural life (and therefore replacement). References and Sources of Additional Information Hrachovec, R., and G. Minton, 2001, Field testing of a sock-type catch basin insert, Planet CPR, Seattle,~ashington Interagency Catch Basin Insert Committee, Evaluation of Commercially-Available Catch Basin Inserts for the Treatment ofStormwater Runoff from Developed Sites, 1995 Larry Walker Associates, June 1998, NDMP Inlet/In-Line Control Measure Study Report Manufacturers literature Santa Monica (City), Santa Monica Bay Municipal Stormwater/Urban Runoff Project- Evaluation of Potential Catch basin Retrofits, ~oodward Clyde, September 24, 1998 2of3 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com January 2003 Drain Inserts MP-52 Woodward Clyde, June 11~ 1996, Parking Lot Monitoring Report, Santa Clara Valley Nonpoint Source Pollution Control Program. January 2003 California Stormwater BMP Handbook New Development and Redevelopment www.cabmphandbooks.com 3of3 Appendix C-BMP Site Plan EX LllotlTSOF!t.PERVIOIJSFOOTPRINT LINtTOFORAINAGEARE:A LJNITS0Ft£WUFERVIOIJSAR(A ~ 10' IJOC Bl.fTER STRIP ITihiJ FU..L-ta'THPAVOENTSLCTION CJ cctiCRffiSIOCJIALX ~ ASPHALTBII<EPATH - niSTl~STCAoiORAlN ffia>OSEDST!A.lalAIN Bl..£NA V ISlA LAGOO'I 10'WIDEBII<EPATHTOBE!t.PERVJOUS ASPHALT. AREAWIU.DRAINT ' 0~ I ·-------------' r I I I I J -----------------1; ;;-;;;;-R-- ALLROADJIAYRUNQFFTOORAINTOEUTE:R AN:! ~ACE FLOW TO ADJACENT LAN:ISCAPE AM::A. AOJA.CENTL»l!SC"('EAR(A. - I I I I I I I BUENA VISTA LAGOON