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Home My WebLink About12_Biological_Assessment_2015BIOLOGICAL ASSESSMENT UPDATE I-405/SR 167 Direct Connector Project Renton, WA WIN # 1405504C Prepared by: Northwest Region Design Build Project Office May 2015 EXECUTIVE SUMMARY The I-405 Tukwila to Renton Improvement Project (Project) is a Washington State Department of Transportation (WSDOT) project that utilized multiple construction stages and smaller projects to provide improvements to the Interstate-405 (I-405) and State Route 167 (SR 167) corridors in and around the cities of Renton and Tukwila, Washington. All elements of the project were subject to ESA consultation which concluded with a Biological Opinion issued jointly by the National Marine Fisheries Service (NMFS) and the U.S. Fish and Wildlife Service (USFWS) on March 3rd, 2008 (NMFS Tracking No: 2007/04219, USFWS Log No: 13410-2007-F-0416). Since that time, the I-405, SR 515 Interchange Project, a portion of the overall project, was constructed between 2008 and 2011, as described in the original BA. An additional portion of the project, the I-405, SR 167 High Occupancy Vehicle Direct Connect Ramp Project, was included in the consultation, but never funded for construction. As of 2015 that project, now referred to as the Direct Connector Project, is yet unfunded for construction, but NEPA has been re-evaluated and a permit application has been prepared for all federal, state, and local permits needed for construction. The re-evaluation process revealed that there are new listings under ESA that were not addressed in the original consultation. This Biological Assessment Update provides the most current Direct Connector Project information to determine the effect on yellow-billed cuckoo (Coccyzus americanus) and the Oregon spotted frog (Rana pretiosa). The BA Update will also address potential project effects to proposed Puget Sound Steelhead Critical Habitat, and provide a provisional effect determination, as critical habitat is expected to be designated in 2015. This BA Update does not address the streaked horned lark (Eremophila alpestris strigata) or the Taylor’s checkerspot butterfly (Euphydryas editha taylori), both listed in 2013. They are not documented or known to occur within the project action area, and suitable habitat is not present. The Effect Determinations from the Direct Connector Project on listed species and proposed critical habitat are as follows: I-405/SR 167 Direct Connector Project Page i Table 1. ESA-Listed Species and Effects Determinations Species Status Agency Effect Determination Critical Habitat Effect Determination Yellow-billed cuckoo (Coccyzus americanus) Threatened USFWS May effect, not likely to adversely affect None designated in Washington State N/A Puget Sound DPS Steelhead trout (Oncorhynchus mykiss) Threatened NMFS May effect, likely to adversely affect (unchanged from original consultation) Proposed Will not destroy or adversely modify.(Provisional) No Effect Oregon spotted frog (Rana pretiosa) Threatened USFWS No Effect Proposed N/A (no critical habitat proposed in King County) I-405/SR 167 Direct Connector Project Page i TABLE OF CONTENTS EXECUTIVE SUMMARY .................................................................................................i TABLE OF CONTENTS .................................................................................................ii LIST OF TABLES ...........................................................................................................iii LIST OF FIGURES .........................................................................................................iii INTRODUCTION .............................................................................................................. 1 Background and Consultation History ...................................................................... 1 PROJECT DESCRIPTION ............................................................................................. 1 Project Overview .......................................................................................................... 1 Stormwater .................................................................................................................... 4 Fish Passage ................................................................................................................ 5 Road Construction ....................................................................................................... 7 Project Schedule .......................................................................................................... 7 PROJECT VICINITY........................................................................................................ 7 Streams and Stream Crossings ................................................................................. 7 Wetlands ........................................................................................................................ 8 Project Action Area .................................................................................................... 10 Environmental Setting ............................................................................................... 12 LIST OF SPECIES ......................................................................................................... 13 SPECIES AND HABITAT ............................................................................................. 15 Oregon Spotted Frog ................................................................................................. 15 Yellow-Billed Cuckoo ................................................................................................. 17 Puget Sound Steelhead Critical Habitat ................................................................. 19 EFFECTS of the Action ............................................................................................... 20 Direct Effects ............................................................................................................... 20 Salmonid Species .................................................................................................. 22 Vegetation and Wildlife.......................................................................................... 22 Indirect Effects ............................................................................................................ 22 Interrelated and Interdependent Actions ................................................................ 23 Minimization MEASURES .......................................................................................... 24 Mitigation ..................................................................................................................... 24 EFFECT DETERMINATIONS ...................................................................................... 25 Yellow-Billed Cuckoo ................................................................................................. 25 Oregon Spotted Frog ................................................................................................. 25 Puget Sound Steelhead Proposed Critical Habitat ............................................... 26 REFERENCES ..................................................................................................................i Personal Communications .........................................Error! 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APPENDIX A – Hydraulic Summary ..........................................................................ii APPENDIX B – Rolling Hills Creek Restoration Plan ............................................i APPENDIX C – Existing Conditions Plan Sheets ...................................................i I-405/SR 167 Direct Connector Project Page ii LIST OF TABLES Table 1 – ESA Listed Species and Effect Determinations Table 2 – Summary of Wetlands in the Direct Connector Project Vicinity Table 3 – Species and Critical Habitats Addressed in this BA Update Table 4 – Species and Critical Habitats Not Addressed in this BA Update Table 5 – Wetland Impact Summary Table 6 – Stream Impact Summary Table 7 – Buffer Impact Summary LIST OF FIGURES Figure 1 – Project Area Map Figure 2 – Fish Passage/Stream Relocation Map Figure 3 – Project Action Area Map I-405/SR 167 Direct Connector Project Page iii INTRODUCTION This Biological Assessment (BA) update for the Interstate 405 (I-405) I-5 to State Route (SR) 169 Stage 2 – Widening and SR 515 Interchange Project was prepared to address new listings and proposed critical habitat under the Endangered Species Act (ESA). In addition to addressing newly listed species and habitats, current project information is being provided on the I-405, SR 167 High Occupancy Vehicle Direct Connect Ramp Project (Direct Connector Project), which was addressed in the original BA, but has not been funded for construction. The project has been re-evaluated for NEPA compliance which facilitated the need for an update to ESA documentation. Background and Consultation History The original BA was submitted on June 26th, 2007, and requested consultation for the following species/critical habitats and effect determinations: Species x Chinook salmon (Oncorhynchus tshawytscha) – May affect, likely to adversely affect x Steelhead trout (Oncorhynchus mykiss) – May affect, likely to adversely affect x Bull trout (Salvelinus confluentus) – May affect, likely to adversely affect Critical Habitats x Puget Sound ESU Chinook salmon – May affect, likely to adversely affect x Coastal-Puget Sound ESU Bull trout – May affect, likely to adversely affect A Biological Opinion (BiOp) (USFWS Log No: 12410-2007-F-0416; NMFS Tracking No: 2007/04219) was prepared jointly by the United States Department of Fish and Wildlife (USFWS), and National Marine Fisheries (NMFS) and submitted to WSDOT March 3rd, 2008. The BiOp indicated that both services concurred with the findings in the BA and an incidental take statement was provided. PROJECT DESCRIPTION Project Overview The Direct Connector Project will construct a portion of the project elements evaluated in the I-405, Tukwila to Renton (I-5 to SR 169 – Phase 2) Environmental Assessment (March 2008) and Finding of No Significant Impact and Final Section 4(f) Evaluation (July 2008). This project will construct a new direct connector ramp for a high occupancy vehicle (HOV)/express toll lane (ETL) operation in each direction between SR 167 south leg high occupancy toll (HOT) lanes and I-405 north leg HOV lanes. I-405/SR 167 Direct Connector Project Page 1 The project will reconstruct sections of northbound I-405 and northbound and southbound SR 167 to open up the medians to make room for the new direct connector ramps, construct a new HOV/ETL structure between SR 167 and I- 405, widen/replace the I-405 bridge over SR 515 (Bridge Number 405/016), construct new retaining walls, and relocate a noise barrier. The project will modify local roadways, including East Valley Road and S 14th Street, related to the interchange improvements and I-405/SR167 widening. Other elements include: sign bridges; ITS and tolling equipment; storm water management facilities; Rolling Hills Creek channel realignment along the east side of SR 167 (MP 25.93 to I-405); and installation of a fish passable water crossing structure for Rolling Hills Creek under SR 167 at the S 19th Street alignment (Figure 1). I-405/SR 167 Direct Connector Project Page 2 Figure 1. Project Area Map The project is being completed using the Design-Build method of delivery. All descriptions of project actions and construction methods herein are based on a preliminary design concept which is subject to change as part of the final design process. Once selected, the Design-Builder will be responsible for producing a final design which WSDOT will review and approve before it is released for construction. I-405/SR 167 Direct Connector Project Page 3 Stormwater The design of the Project stormwater improvements will generally utilize as much of existing drainage system as possible and provide treatment facilities that conform to accepted best management practices (BMPs) outlined in the current WSDOT Highway Runoff Manual (HRM). Final design will identify the work involved with highway runoff collection and conveyance, so the extent of reused and new systems is not known at this time. All sites selected for flow control facilities will be placed outside of the 100-year floodplain. Final design may result in changes to the proposed stormwater treatment system, but no stage of the project, including the Direct Connector Project, will increase pollutant concentrations discharged to receiving waterbodies. Additionally, the construction of any new stormwater facilities will be timed such that the loading and concentration targets will be met for the Direct Connector Project as well as each future construction stage/project. The entire project addressed in the original BA was expected to increase the pollutant generating impervious surface (PGIS) area by 69.60 acres across three drainage basins. The Direct Connector Project occurs entirely within the Lower Green River and Springbrook Creek sub-basins and includes approximately 7.36 acres of the total new PGIS. The final design of the Direct Connector Project may result in changes to the number, type, size, and location of the proposed drainage facilities for the Project as long as the total BMP catchment area from the original consultation is achieved, along with the HRM requirements. The conceptual design for the Direct Connector Project includes the following stormwater components: x Existing stormwater collection and conveyance systems will be modified or additional systems will be constructed as required for the new roadway geometry and as required for stormwater management using equivalent catchment areas. x Three new flow control facilities will be constructed. x WSDOT HRM compliant enhanced runoff treatment BMPs will be constructed or modified as required to meet environmental commitments made through NEPA and prior ESA consultation on the project. x One culvert under SR 167 will be replaced by a new fully fish passable structure. x A section of Rolling Hills Creek will be extended for stream impact mitigation east of the widened section of SR 167. Additional details on the stormwater design concept for the Direct Connector Project are provided in a hydraulic summary (Appendix A). I-405/SR 167 Direct Connector Project Page 4 Fish Passage The Direct Connector Project will address one fish passage barrier on Rolling Hills Creek which crosses SR 167 at milepost (MP) 26.08 through a 3 foot by 4 foot box culvert. The existing culvert has been identified as a partial barrier to fish passage due to flow velocity. The conceptual design for a fully fish passable structure includes moving the crossing to the south, to MP 25.93 in order to daylight approximately 1,400 feet of stream rather than piping the stream for long distances under local roads and parking lots as in its current configuration. The new crossing structure will include a minimum channel width of 10 feet, and will be constructed first, allowing the stream to remain in its current location until construction is complete. A map of the stream relocation is provided in Figure 2. I-405/SR 167 Direct Connector Project Page 5 Figure 2. Fish Passage/Stream Relocation Map A new stream channel will be constructed from a culvert outlet along the northbound I-405 on-ramp from SR 167, to the location where the new culvert will be constructed. The new channel will be stabilized with appropriately sized streambed sediment and gravel, and woody riparian planting and seeding. Once I-405/SR 167 Direct Connector Project Page 6 the new channel is graded, planted, stabilized, and connected to the new fully fish passable structure, flow will be slowly introduced from the existing channel at the upstream end. After flow has been completely diverted to the new channel and crossing, the existing channel be filled for future widening and the remaining box culvert will be re-purposed as a stormwater facility. A restoration plan depicting a conceptual layout of the new stream channel and associated riparian vegetation is provided in Appendix B. Road Construction The Direct Connector Project will reconstruct portions of the I-405 and SR 167 interchange to accommodate direct connector ramps and tolling infrastructure. This work will involve significant use of heavy equipment for earthwork, ground improvements (including pile driving), demolition, paving, and utility work. New flyover ramps will be supported by columns most likely installed in drilled shafts. A gas pipeline that runs parallel to SR 167 will be relocated approximately 200 feet to the east, to remain outside of the paved roadway through all remaining construction phases. Project Schedule The Direct Connector Project is not funded for construction. Should funding become available, the project will be completed utilizing the Design Build method of delivery, including final design and construction. The project would be constructed over 2-3 years. PROJECT VICINITY Streams and Stream Crossings There are two tributaries to Springbrook Creek that occur within the project vicinity. Rolling Hills Creek (Stream 09.SC-2.8) and East Fork Panther Creek (Stream 09.SC-25.7) are small urban streams that are heavily manipulated as a result of development in and around the City of Renton. Stream locations within the project area can be seen in Appendix C (Existing Conditions Sheets). From its headwaters southeast of the junction of I-405 and Talbot Road, Rolling Hills Creek eventually flows northward between Talbot Road and S Puget Drive and into the project area approximately 200 feet south of I-405. From this intersection, Rolling Hills Creek flows through a series of culverts under several commercial parking lots to where it ultimately daylights on the north side of I-405 into an open channel between I-405 and a parking lot associated with several local businesses including the Renton Cinema 8 and Triton Tower One. The creek then flows south in a culvert under the I-405/SR 167 Interchange, into an I-405/SR 167 Direct Connector Project Page 7 open channel that runs parallel to the NB SR 167 ramp to NB I-405 for approximately 520 feet, under SR 167 and local streets, that eventually outlets to Springbrook Creek approximately 2,600 feet downstream. During high flow events, a portion of the flow from the section of Rolling Hills Creek between I-405 and the Renton Cinema 8 parking lot is directed into an overflow culvert that also flows south under the I-405/SR 167 Interchange, before daylighting in the Panther Creek Wetlands complex. This stream contains no ESA-listed fish but potentially has resident fish including sculpin, three-spined stickleback, cutthroat trout, as well as coho salmon. The East Fork of Panther Creek flows out of the Panther Creek Wetlands near SR 167 milepost 25.66 through a fully fish passable culvert (constructed by WSDOT in 2012) under SR 167. After flowing under SR 167 and East Valley Road, Panther Creek enters a large wetland complex west of East Valley Road containing forested vegetation. The creek continues through this wetland to where it flows into Springbrook Creek approximately 2,600 feet to the west. The east fork of Panther Creek has a limited stream buffer, mostly established by WSDOT as part of a previous project. This creek may be used by coho and Chinook salmon and cutthroat and steelhead trout as rearing habitat because of its association with Springbrook Creek. Wetlands There are 13 wetlands in the Direct Connector Project vicinity. The majority of them are small, palustrine scrub-shrub and emergent wetlands with limited habitat value or hydrologic function. A summary of wetlands in the vicinity is provided in Table 2. I-405/SR 167 Direct Connector Project Page 8 Table 2. Summary of Wetlands in the Direct Connector Project Vicinity Notes: 1)Washington State Wetland Rating System for Western Washington (Ecology 2006) 2) City of Renton Critical Area Requirements (RMP 4-3-050) 3) From Classifications of Wetlands and Deep Water Habitats of the United States (Cowardin 1979) PEM=Palustrine emergent; PSS=Palustrine Scrub-Shrub; PFO=Palustrine Forested, PAB=Palustrine Aquatic Bed. The highest quality wetlands are Wetlands 24.7R-A, B, and C. This interconnected wetland complex is locally referred to as the Panther Creek Wetlands, although the complex includes portions of both Panther Creek and Rolling Hills Creek. The complex is divided into three units by berms with cross culverts running through them. This wetland complex is over sixty acres in size and includes forested zones, as well as some permanently ponded areas dominated by aquatic bed vegetation. Common herbaceous vegetation includes reed canarygrass (Phalaris arundinacea), cattails (Typha latifolia) and soft rush (Juncus effuses). Shrub-dominated areas typically include Sitka willow (Salix sitchensis), redosier dogwood (Cornus stolonifera) and large stands of Himalayan blackberry (Rubus armeniacus). The remaining wetlands tend to be small and confined by adjacent impervious surfaces. Wetland 2.2R-B and 2.31R are small depressions in roadside ditches. Wetland 2.31 is dominated by roadside grasses and receives SR 167 runoff. Wetland 2.2R-B is located in a deep ditch along the I-405 off ramp to southbound SR 167 and contains a few shrubs, with a blackberry understory extending over the wetland from the steep embankments. Wetlands 25.0L, 25.7L, and 25.8L are linear features adjacent to SR 167 that provide drainage for adjacent paved surfaces. They typically have shrubby communities of alder and willow with intermittent pockets of herbaceous vegetation at the lowest elevations. Wetland/Stream Size (ft2)Ecology RatingA Local RatingB Cowardin ClassificationC 2.2R-B 856 IV N/A PSS 2.31R 309 IV N/A PEM 2.6R 6,424 III 3 PSS, PEM 2.7R 10,890 III 3 PSS, PEM 2.9L 45,738 III N/A PSS 2.82R 2,454 IV 3 PFO,PSS, PEM 24.7R-A 1,948,747 II 1 PFO, PSS, PEM 24.7R-B 419,200 II 1 PFO, PSS, PEM 24.7R-C 302,750 II 1 PFO, PSS, PEM, 25.0L 180,316 III 3 Forested 25.7L 12,702 III 3 PSS 25.8L 501,508 III 3 PSS, PEM 25.9L 4,499 III 3 PSS I-405/SR 167 Direct Connector Project Page 9 Himalayan blackberry is dominant in the buffers (and extending into the wetlands) of most of the wetlands in the project vicinity. Wetland 2.6R is located just south of I-405 near Talbot Road. It is a small depressional wetland with steep sides dominated by Himalayan blackberry. The wetland includes a stand of shrubs on the west side and reed canarygrass at the lowest points. None of the wetland areas are known to be occupied by listed fish, amphibian, or other vertebrate species. Project Action Area This section describes the action area for the Project. The action area is defined as the geographic area potentially affected by the Project (Figure 3). The action area established in the original consultation has not changed. The furthest reaches of the action area can be affected by the high noise activities associated with pile driving for ground improvements. Construction noise will extend a maximum distance of one mile from the immediate work area before attenuating to background levels. The aquatic portion of the action area for the Direct Connector Project includes the Rolling Hills Creek crossing within the Panther Creek Wetland complex. There is potential for sediment mobilization associated with the fish passage work, but sediments will not extend more than 300 feet downstream because the stream is piped and mixes with significant amounts of drainage from the City of Renton. I-405/SR 167 Direct Connector Project Page 10 Figure 3. Project Action Area Aquatic action area I-405/SR 167 Direct Connector Project Page 11 Environmental Setting The project environmental baseline is described in detail in the original BA. This section of the BA Update will focus on the specific conditions of drainage basin surrounding the Direct Connector Project area. The bulk of the project work occurs in the Springbrook Creek sub-basin of Water Resource Inventory Area (WRIA) 9. The Springbrook Creek subbasin enters the mainstem Green River via the Black River at RM 11.0. With an estimated mainstem stream length of 12.0 miles, and approximately 19.1 miles of tributary streams and 3.8 miles of drainage ditches, it is the largest subbasin in the lower Green River Basin (Williams et al. 1975). The Springbrook Creek subbasin drains an area of about 15,763 acres. The basin is comprised of two distinct physical settings. In the eastern half of the subbasin, rolling hills rise to elevations of about 525 feet above the valley floor. In this area, the origins of stream courses are often not well defined. Slopes in the subbasin range from near 0 to 70 percent. One significant lake is present (Panther Lake) along with several smaller ponds and wetlands. Creeks originating from these upland sources drop abruptly through sharply defined steep canyons to the valley floor where stream gradients flatten quickly. Typically, these canyons are short, with high gradients and generally are not accessible to anadromous salmonids (Kerwin 2001). In 1958, an earthen dam was constructed on the Black River approximately 1,000 feet upstream of the confluence with the Green River. This blocked passage of anadromous fish into Springbrook Creek. Besides impeding salmonid migration into the Springbrook Creek system, this dam blocked flows from the Green River from backwatering into the remnant Black River, which could have provided some refuge habitat for salmonids during high flows. In 1972, the U.S. Soil Conservation Service replaced the dam with the Black River Pumping Station (BRPS), which currently is operated by King County. Although it is equipped with upstream and downstream fish passage facilities, the BRPS can act as a barrier to migration of juvenile and adult salmonids due to inadequate screening, fish weir design, and operation schedule (Kerwin 2001). There are several barriers along Springbrook Creek and associated tributaries. Between the SR 167 crossing and Talbot Road, the creek flows through a private trout farm that presents a barrier for migrating anadromous salmonids under most stream flow conditions. Several sections of Springbrook Creek are so choked with invasive reed canarygrass and vegetation that they serve as partial barriers. If the bypass reach is dewatered, then it would also serve as a barrier to downstream migration. Upstream of the trout farm, Springbrook Creek flows through a 30-foot-long I-405/SR 167 Direct Connector Project Page 12 culvert and standpipe that is sloped at approximately 100 percent in the vicinity of Talbot Road. On the South Fork of Springbrook Creek, there is a concrete pad and notched weir that likely is a barrier to upstream and downstream migrating anadromous and resident fish. Water quality may serve to act as a barrier to anadromous migrating fish in the lower reaches of Mill and Springbrook Creeks (Kerwin 2001). In the immediate vicinity of I-405, Springbrook Creek is largely contained within concrete walls for flood control purposes. Springbrook Creek flows under I-405 under two bridges that were constructed as part of the Renton Nickel Improvement Project. Downstream of where Springbrook Creek flows under SW Grady Way, Springbrook Creek is no longer contained in a concrete channel, but is still confined within an incised riprapped channel. Riparian vegetation surrounding Springbrook Creek is a mixture of alder and willow species, Himalayan blackberry, and sedges (Carex spp.). Conifers are almost non-existent and, in those areas where shade is absent, reed canarygrass is abundant. Riparian habitat within this creek does not meet the NMFS criteria for properly functioning habitat and is a limiting factor to natural salmonid production (Kerwin 2001). Vegetation in the vicinity of Rolling Hills Creek (a tributary to Springbrook Creek) consists of wetland herbaceous plants, reed canarygrass, willows, cottonwoods, and some Oregon ash (Fraxinus latifolia). Springbrook Creek is listed on Ecology’s 303(d) list for exceedances of fecal coliform and dissolved oxygen (DO). LIST OF SPECIES Date obtained species list from the USFWS website (USFWS 2015): January 7, 2015 Date obtained species list from the NMFS website (NMFS 2015): January 7, 2015 At the time of this BA Update, critical habitat for Puget Sound Steelhead has not been designated. However, it is addressed, and a provisional effect determination has been provided. Table 3 details the ESA listed species and critical habitat addressed in this BA Update. Species and habitats that are sufficiently addressed by the original BA have been omitted from this document. I-405/SR 167 Direct Connector Project Page 13 Table 3. Species and Critical Habitats Addressed in this BA Update Species Status Agency Critical Habitat Yellow-billed cuckoo (Coccyzus americanus)Threatened USFWS None designated Puget Sound DPS Steelhead trout (Oncorhynchus mykiss) Threatened NMFS Proposed Oregon spotted frog (Rana pretiosa)Threatened USFWS Proposed The following species, and/or designated or proposed critical habitat may occur within King County, as indicated by the County species list, but are not being addressed in this BA. No suitable habitat exists within the project action area for the species listed in Table 4. Examination of the Priority Habitats and Species maps from WDFW and an analysis of habitat types in the action area showed that these species do not occur in or near the action area. Table 4. Species and Critical Habitats Not Addressed in this BA Update Species Status Agency Critical Habitat Canada lynx (Lynx canadensis)Threatened USFWS None in Action Area Gray wolf (Canis lupus)Endangered USFWS Not designated Grizzly bear (Ursus arctos) Threatened USFWS Not designated Marbled murrelet (Brachyramphus marmoratus)Threatened USFWS None in Action Area Taylor’s checkerspot butterfly (Euphydryas editha taylori)Endangered USFWS Not in Action Area Streaked horned lark (Eremophila alpestris strigata)Threatened USFWS Not in Action Area Northern spotted owl (Strix occidentalis caurina)Threatened USFWS None in Action Area Golden paintbrush (Castilleja levisecta)Threatened USFWS Not designated Fisher (Martes pennanti)Proposed threatened USFWS None in Action Area I-405/SR 167 Direct Connector Project Page 14 SPECIES AND HABITAT Oregon Spotted Frog On August 29, 2014, The U.S. Fish and Wildlife Service (Service) published a final rule to list the Oregon spotted frog (Rana pretiosa)as a threatened species under the Endangered Species Act (50 CFR 17 51658-51710). The Service will make a final determination on Oregon spotted frog critical habitat sometime in the future. The Oregon spotted frog is a medium sized frog that ranges from about 1.7 to 4.1 inches (44 to 105 millimeters) in body length (Federal Register 2014). It is named for the characteristic black spots covering the head, back, sides, and legs. The dark spots have ragged edges and light centers, usually associated with a tubercle or raised area of skin. Adults range from brown to reddish brown but tend to become redder with age. The Oregon spotted frog has a weak call consisting of a rapid series of six to nine low clucking notes described as sounding like a distant woodpecker’s tapping. Oregon spotted frogs burrow in muddy, silty, substrate; clumps of emergent vegetation, woody accumulations within a creek, and holes in creek banks when inactive during periods of prolonged or severe cold. This species remains active during the winter in order to select microhabitats that can support aerobic metabolism and allow it to evade predators. As with other ranid frogs, most daily movements are relatively short (10s of feet) and seasonal movement may be 100s of feet. These frogs occasionally will move a few miles, and it is presumed that Oregon spotted frog habitats are connected for purposes of genetic exchange when occupied/suitable habitats fall within a maximum movement distance of 3.1 miles. This species typically begins to breed at three years of age. Breeding occurs in February or March at lower elevations and in late May or early June at higher elevations. Females may deposit egg masses at the same location in successive years in shallow, often temporary, pools no more than six inches deep. Eggs usually hatch within three weeks after oviposition. Tadpoles are grazers, having rough tooth rows for scraping plant surfaces and ingesting plant tissue and bacteria. They also consume algae, detritus, and probably carrion. Tadpoles then metamorphose into froglets during their first summer. Post-metamorphic Oregon spotted frogs feed on live animals, primarily insects. Eggs are extremely vulnerable to desiccation and freezing as a result of the species’ laying habits. Although egg masses are occasionally laid singly, the majority of egg masses are laid communally in groups of a few to several hundred in shallow, often temporary, pools of water; gradually receding shorelines; on benches of seasonal lakes and marshes; and in wet meadows. These sites are usually associated with the previous year’s emergent vegetation, are generally no more than 14 inches deep, and most of these sites dry up later in the season. Shallow water is easily warmed by the sun, and warmth hastens egg development. Traditional egg laying habitat is limited, and I-405/SR 167 Direct Connector Project Page 15 adults may have limited flexibility to switch sites. Based on egg mass census data, the USFWS estimates the minimum Oregon spotted frog population in Washington was at least 7,368 breeding adults in 2012. The Oregon spotted frog inhabits emergent wetland habitats in forested landscapes, although it is not typically found under forest canopy. Historically, this species was also associated with lakes in the prairie landscape of the Puget lowlands. Oregon spotted frogs may no longer occur in as much as 76-90 percent of their historically documented range. This is the most aquatic native frog species in the Pacific Northwest, as all other species have a terrestrial life stage. It is almost always found in or near a perennial body of water, such as a spring, pond, lake, sluggish stream, irrigation canal, or roadside ditch. Oregon spotted frogs can make use of a variety of pond types as long as there is sufficient vegetation and seasonal habitat available for breeding, summer feeding, and overwintering. Full solar exposure seems to be a significant factor in breeding habitat selection. Genetic studies indicate that gene flow among sites has been very low, even on small geographic scales. Due to Oregon spotted frogs’ highly aquatic habits, connectivity between Oregon spotted frog sites depends on the connectivity of streams, rivers, and lakes. Gene flow (based on both microsatellite and mitochondrial analyses) is extremely low beyond 6 miles, and most Oregon spotted frog populations are separated by more than 6.2 miles. Threats to Oregon spotted frog include conversion of wetlands to other habitats, including natural succession of open wetland habitat to forest habitat, other associated hydrological changes (changes in flood regimes/ dam management and water drawdowns which desiccate habitat), non-native species (bullfrog/warm water fish predation, reed-canary grass invasion), the inadequacy of existing regulator mechanisms, and issues associated with small populations. Some federal and state programs promote tree planting for fish habitat restoration and curtailment of livestock grazing in riparian areas may have negative effects on Oregon spotted frog because they allow for the expansion of woody vegetation, degrading frog habitat. Although Oregon spotted frog is affected by several pathogens, including chytrid fungus (confirmed at all Washington and Oregon sites), diseases are not thought to significantly affect populations. Historical loss of wetlands has been extensive throughout the range of the species, and is the primary reason for the absence of the species from as much as 90 % of its former range. Much of the known frog habitat is dominated by reed canarygrass, which can negatively affect vegetation diversity, site hydrology, and vegetation cover; these frogs appear to actively avoid areas with high reed canarygrass density. Natural disturbance factors that helped maintain Oregon spotted frog habitat included meandering rivers and flooding of river floodplains, beaver dams, and summer fires. All served to remove woody vegetation and create openings in river floodplains and wetlands, and all factors currently operate at reduced rates. Many of the Oregon spotted frog breeding locations comprise less than 50 I-405/SR 167 Direct Connector Project Page 16 adult frogs, are isolated from other breeding locations, and may already be stressed by other factors, such as drought or predation, and are more vulnerable to random, naturally occurring events. Six major Oregon spotted frog haplotypes have been identified based on mitochondrial genetic data; there is low genetic diversity within and high genetic differentiation among the six groups, and each of these groups has the signature of complete isolation, with two groups showing indications of recent genetic drift. Where Oregon spotted frog locations have small population sizes and are isolated, their vulnerability to extirpation from factors such as fluctuating water levels, disease, and predation increases. The minimum amount of habitat thought to be required to maintain an Oregon spotted frog population is about 10 acres. Smaller sites generally have a small number of frogs and are more vulnerable to extirpation. Species and Habitat Presence There are significant ponded areas within the Panther Creek Wetlands that could provide suitable habitat for Oregon spotted frog. However, the hydrology in this wetland complex is highly influenced by adjacent land use, and ponded areas are artificially large due to significant stormwater inputs. The hydrology and vegetation that would support Oregon spotted frogs are subject to rapid change, depending on present or future manipulations to drainage of surrounding developed areas. There are no recent records of Oregon Spotted Frog in King County. It is highly unlikely to be present in the project footprint due to the distance to known occupied habitats, and the lack of hydrologic connections between. The U.S. Fish and Wildlife Service has provided WSDOT with preliminary guidance on areas that may be occupied by Oregon spotted frog. These areas of influence include 19 5 th and 6th field hydrologic unit codes (HUCs) in Washington State. The closest area of influence is Green River Kent (a historical site), more than 3 miles from the action area boundary. There is no proposed Oregon spotted frog critical habitat within the project action area. Yellow-Billed Cuckoo The USFWS listed the western distinct population segment (DPS) of the yellow- billed cuckoo (Coccyzus americanus) as threatened on October 3, 2014. The western states where cuckoos are found include Washington, Idaho, Montana, Oregon, California, Nevada, Wyoming, Utah, Colorado, Arizona, New Mexico, and Texas. No critical habitat was proposed in Washington State. The yellow-billed cuckoo ranges across all of North America, but eastern and western birds are separated by the Continental Divide (generally the crest of the Rocky Mountains based on watershed boundaries), the watershed divide between the Rio Grande and Pecos River, and the Chihuahuan Desert in I-405/SR 167 Direct Connector Project Page 17 Mexico. Both eastern and western yellow-billed cuckoos are highly migratory, and the two populations may spend winters in overlapping regions in South America. There is an extremely low level of interchange (if any at all) between the two populations during the breeding season. Eastern and western birds differ by the several characteristics: 1) yellow-billed cuckoos in western North America arrive on the breeding grounds 4 to 8 weeks later than eastern yellow-billed cuckoos at similar latitude, 2) yellow-billed cuckoos in western North America are generally larger, with significantly longer wings, longer tails, and longer and deeper bills, 3) birds in western North America produce larger eggs (1.2 percent longer, 0.6 percent wider, and 3.2 percent heavier) with thicker eggshells, 4) Juvenile yellow-billed cuckoos in the east have yellow bills while juvenile yellow- billed cuckoos in the west have all-black bills. The yellow-billed cuckoo feeds primarily on larger invertebrates such as caterpillars, cicadas, katydids, and grasshoppers. In California and Arizona, yellow-billed cuckoos rarely begin nesting before mid-June. Nesting in western North America continues through August, and up to three broods can be raised in a season if the prey base is sufficient. Yellow-billed cuckoos build an open cup nest with a loose saucer-shaped stick construction. Both parents build the nest, incubate, and tend the young. Clutch size varies from two to five eggs depending on the available food supply. The incubation and nestling periods are short, with the eggs hatching in 11–12 days and young fledging in 5–7 days. Incubation begins when the first egg is laid and the young hatch asynchronously, with the oldest near fledging while the youngest has just hatched. Nesting habitat for the western yellow-billed cuckoo is in low to moderate elevation riparian hardwood woodlands that cover 50 acres or more within arid to semiarid landscapes. In California, yellow-billed cuckoos are most likely to be found in patches of willow– cottonwood riparian habitat greater than 200 acres in size. Throughout the western DPS range, a large majority of nests are placed in willow trees, but alder (Alnus spp.), cottonwood, mesquite, walnut (Juglans spp.), box elder, sycamore, and tamarisk are also used. Other riparian hardwood trees that provide overstory canopy for cuckoo include sycamore (Platanus sp.), ash (Fraxinus sp.), and mesquite (Prosopis sp.). Dense riparian vegetation with an understory component is important for nesting cuckoos. Most nests are placed on well-foliaged horizontal branches at sites with dense canopy cover above the nest. Much of the habitat work on cuckoos has come from California and Arizona, so these are general guidelines. The yellow-billed cuckoo is extremely rare in Washington State (WDFW reports 12 records between 1950 and 2000 {four in western Washington, eight in eastern Washington}, with three reports since 2000: near Lind (Adams Co.) in 2001, near Eureka (Walla Walla Co.) in June 2007, and from Little Pend Oreille National Wildlife Refuge (Stevens Co.) in June 2012. This equates to about 1 confirmed record every 4 years. There has not been confirmed breeding in Washington since 1934. I-405/SR 167 Direct Connector Project Page 18 Species and Habitat Presence The Panther Creek Wetland complex and surrounding forested upland is one of the largest (nearly 80 acres) unbroken habitat patches in the urban parts of greater Seattle. The area provides foraging and dispersal habitat for many migratory birds, and presumably could be suitable for yellow-billed cuckoos. However, yellow-billed cuckoos tend to avoid noisy areas, making it unlikely they would pass through this site. The project is just a mile south of the Renton Municipal Airport and includes some of the most travelled highways in the state. Puget Sound Steelhead Critical Habitat Critical habitat has yet to be designated for steelhead trout, but was proposed for designation on January 14, 2013. Proposed critical habitat includes Springbrook Creek, but not Rolling Hills Creek. Proposed steelhead critical habitat is not within the action area for the Direct Connector Project. I-405/SR 167 Direct Connector Project Page 19 EFFECTS OF THE ACTION Direct Effects Direct effects associated with the project will primarily come from filling of wetlands and streams, and to a lesser extent, their associated buffers. There will be up to 7 acres of vegetation removal within the project footprint. A portion of that area occurs in a residential area south east of the I-405/SR 167 interchange, where there is very little terrestrial habitat and no aquatic habitat. Permanent and aquatic resource impacts are as follows: Table 5. Wetland Impacts Summary Notes: A)Indirect Permanent impacts occur due to hydrology alterations in undisturbed areas as a result of culvert replacement. B)Permanent conversion impacts occur where wetlands are graded to create a stream channel. The wetland is permanently converted to stream. C)Long-term temporary impacts are those that can be restored by re-planting, but will take longer than one year to return to a pre-impact condition. Impacted Wetland Category Impact Type (ft2) Direct Permanent Indirect PermanentA Permanent ConversionB Long-term TemporaryC 2.2R-B IV 856 N/A N/A N/A 2.31R III 309 N/A N/A N/A 2.6R III 6,424 N/A N/A N/A 24.7R-A II 3,680 N/A N/A 4,770 24.7R-B II 38,840 N/A 4,190 14,410 24.7R-C II 74,365 109,720 52,100 26,410 25.0L III 840 N/A N/A 1,890 25.7L III 1,020 N/A N/A 700 25.8L III 1,440 N/A N/A 1,000 25.9L III 4,449 N/A N/A N/A TOTAL (ft2)132,273 109,720 56,290 49,180 TOTAL (Acres)3.02 2.52 1.29 1.13 I-405/SR 167 Direct Connector Project Page 20 Table 6. Stream Impacts Summary Notes: A)Stream types are defined by the Washington State Department of Natural Resources. Type F streams are those that are known to be used by fish, or meet the physical criteria to be potentially used by fish. Fish streams may or may not have flowing water all year; they may be perennial or seasonal. Table 7. Wetland Buffer Impacts Summary The impacts to wetlands, streams, and buffers are not expected to measurably affect ESA-listed species due to a lack of species presence. The functions provided by the aquatic resources being impacted will continue to be provided by adjacent wetlands and buffers, and Rolling Hills Creek is being relocated to the east and restored to provide better instream and riparian function than is currently present. The project will create approximately 7.36 acres of new PGIS. The vast majority of runoff from new PGIS will flow into media filter drain treatment facilities, then detention ponds, and eventually, Rolling Hills Creek. This will not affect ESA- listed species because none are present in Rolling Hills Creek. A small portion of new PGIS (approximately 1,000 ft2) will drain into existing media filter drains, before entering The Panther Creek Wetlands, and Panther Creek, which does contain some suitable habitat for Puget Sound steelhead. During active construction work, when grading, excavation, drilling, and pile driving are occurring, there will be visual and noise disturbances that can affect Impacted Stream WDNR Stream TypeA Impact Type-ft2 (acres) Permanent Temporary East Fork Panther Creek F N/A N/A Rolling Hills Creek F 2,420 (0.06) N/A TOTAL (ft2)2,420 N/A TOTAL (Acres)0.06 N/A Impacted Wetland Category Impact Type (ft2) Permanent Temporary 24.7R-B II 270 210 24.7R-C II 16,480 1,900 25.0L III 1,750 450 25.7L III 6,200 1,120 25.8L III 11,100 2,100 TOTAL (ft2)35,800 5,780 TOTAL (Acres)0.82 0.13 I-405/SR 167 Direct Connector Project Page 21 listed species. The support structure for new flyover ramps will be installed with drilled shafts. Pile driving for ground improvements along the widened section of SR 167 will not occur within the ordinary high water mark of Rolling Hills Creek, and it will not occur within 1,000 feet of Panther Creek. Work in and around Rolling Hills Creek will be limited to the workdays between June 16th to September 30th each construction year, to limit exposure to resident fish that may be present. Noise and visual disturbances are not expected to affect ESA-listed fish, or the Oregon spotted frog due to the lack of species presence in the areas of disturbance. The yellow-billed cuckoo may be sensitive to the high noise generated by pile driving, concrete demolition, paving, and general construction activities, but they will typically avoid high noise areas. Construction noise generated by the Direct Connector Project will extend approximately 1 mile in all directions from the immediate work areas, but the project vicinity includes permanent noise generating fixtures including Renton Municipal Airport, and the I-5 and I-405 interchange, with the Sea-Tac International Airport located less than 4 miles away. The daily high ambient noise levels in the project vicinity make it unlikely that project-related noise will have a measurable effect on the yellow-billed cuckoo. Salmonid Species The project will have no direct effects to ESA-listed salmonids because they are not present in the action area. Work in and around Rolling Hills Creek does have the potential to impact non-listed resident fish which could include cutthroat trout, sculpin, coho, and three-spined stickleback. Vegetation and Wildlife The project includes up to 8 acres of vegetation disturbance. Most disturbed areas of will be restored after construction is complete, but there may be up to 0.28 acres cottonwood forest permanently removed, which would reduce perching opportunities for the yellow-billed cuckoo, if the species were using the site. This is a minimal loss of habitat, as the Panther Creek Wetland complex and adjacent uplands will still provide upwards of 20 acres of mixed conifer, big-leaf maple, cottonwood and Pacific willow forest adjacent to the shrubby and herbaceous wetland/stream areas. The conversion of wetland area to stream/riparian resulting from the re-alignment of Rolling Hills Creek will change a primarily wetland herbaceous community to a woody shrub/forest community with an open stream channel. This project effect on vegetation could result in a loss of suitable Oregon spotted frog habitat. However, Oregon spotted frog is not known or expected to occur in this area. Indirect Effects I-405/SR 167 Direct Connector Project Page 22 Indirect effects associated with the project will result from the replacement of the Rolling Hills Creek culvert. A fully fish passable structure will permanently alter drainage of the Panther Creek Wetlands (Wetlands 24.7R-A, B, and C). It is not clear what long-term effects will result from the altered hydrology of the wetland, but it is possible the result will be the permanent loss of wetland hydrology and function for approximately 2.52 acres of the Panther Creek Wetlands. However, the presence of the new channel section and improved riparian function will improve fish habitat. The new channel section could provide rearing and foraging opportunities in the future if fish passage is restored downstream to Springbrook Creek. This will not affect listed fish species as no listed fish are currently present in this area. The altered wetland hydrology may also promote growth of cottonwoods in areas that are currently too wet, which may have a beneficial effect to migrating yellow-billed cuckoo due to the improved habitat. Interrelated and Interdependent Actions The original consultation identified one interrelated action, the construction of the Springbrook Wetland and Habitat Mitigation Bank (Springbrook Bank), which was completed in 2007. The Springbrook Bank was constructed to compensate for aquatic resource impacts in anticipation of future projects along the I-405 and SR 167 corridors, including the Direct Connector Project. There are no additional interrelated or interdependent actions associated with the current project. I-405/SR 167 Direct Connector Project Page 23 MINIMIZATION MEASURES Avoidance and minimization measures are specific measures that will be incorporated into project construction to reduce potential effects to listed species or habitats. Vegetation and Wetlands x Sensitive areas and vegetation to remain will be delineated with high- visibility fencing to avoid impacts. x Clearing and grubbing will be limited to the greatest extent possible to retain existing vegetation and root structure. In areas where temporary access is needed, vegetation will not be grubbed, to allow more rapid recovery of native woody species cover. x Forested areas will be identified on plan sheets and protected to the greatest extent possible. Temporary access, staging, and stockpiling will be limited to upland sites that are already in a disturbed condition. Water Quality x A Temporary Erosion and Sediment Control (TESC) plan will be implemented to minimize water quality impacts during construction. x Silt curtains, sandbags, and straw wattles, and check dams will be utilized for instream work associated with fish passage. x A water quality monitoring plan will be implemented throughout in-water work to ensure the effectiveness of BMPs. Fish Exclusion x Fish exclusion will be conducted with the leadership of a qualified biologist with appropriate training. x Non-invasive methods will be employed to exclude fish from in-water work areas whenever possible. Seine nets and dip nets will be used as a first choice. Electrofishing will only be used as a last resort. Mitigation Mitigation credits will be utilized from the Springbrook Creek Wetland Mitigation Bank to compensate for approximately 6.8 acres of wetland impacts. The permanent impact of 0.06 acres (and 520 linear feet) of Rolling Hills Creek will be mitigated on-site with the re-aligning of the creek and subsequent restoration. The low-flow channel on the restoration site will be approximately 10 feet wide and 1400 feet long, resulting in a significant increase in open channel and riparian habitat along Rolling Hills Creek. I-405/SR 167 Direct Connector Project Page 24 EFFECT DETERMINATIONS Yellow-Billed Cuckoo The project may affect yellow-billed cuckoo because: There is a large forested wetland complex (over 50 acres) including patches of cottonwood that will be impacted by the project, including the removal of up to 100 trees across an area of 0.28 acres. The large tract of forested area including the cottonwood patches has the potential to provide dispersal or foraging habitat for migrating birds. Elevated project noise may be generated when yellow-billed cuckoo are dispersing into northern habitats. If these birds were in the action area, they could be temporarily disturbed and displaced. The project is not likely to adversely affect yellow-billed cuckoo because: Nesting yellow-billed cuckoo have not been documented in Washington or Oregon for many decades and are not expected within the action area; and Yellow-billed cuckoo are sensitive to traffic noise (Goodwin and Shriver 2011), and dispersing/migrating birds would likely avoid the elevated noise associated with the busy I-405 corridor and the nearby Renton Municipal Airport. The loss of 0.28 acres of hardwood forest in a heavily urbanized area would have insignificant effects on migrating cuckoos. Oregon Spotted Frog The project will have no effect on the Oregon spotted frog because: The project is located in central King County where there are no currently known sites occupied by Oregon spotted frogs. The potential presence of the species in the action area is discountable due to the distance to known historical or occupied sites and the limited mobility of the species. I-405/SR 167 Direct Connector Project Page 25 Puget Sound DPS Steelhead The original BA and BiOp included an effect determination of May affect, likely to adversely affect the Puget Sound DPS steelhead. The Direct Connector Project will maintain that determination because there will be 1000 ft2 of new PGIS along Panther Creek. This will increase stormwater inputs into the creek, which may provide suitable habitat for steelhead. Puget Sound Steelhead Proposed Critical Habitat The project will not destroy or adversely modify proposed steelhead critical habitat. Should Puget Sound steelhead trout critical habitat be designated prior to completion of the project, a provisional effect determination for critical habitat is No Effect because: The project does not include work in proposed steelhead critical habitat. The nearest proposed critical habitat is in Springbrook Creek approximately 2,600 feet downstream of the immediate project area. Potential turbid water generated during the Rolling Hills Creek culvert replacement and channel relocation will not affect proposed critical habitat downstream. I-405/SR 167 Direct Connector Project Page 26 REFERENCES Washington State Department of Transportation (WSDOT). 2007. Biological Assessment: I-405/SR 167 Direct Connector Project. Northwest Region Design Build Program. June 2007. NMFS. 2015. National Oceanic and Atmospheric Administration, National Marine Fisheries Service, Office of Protected Resources. Species under the Endangered Species Act (ESA). Updated July 2, 2014. Accessed January 7, 2015: http://www.nmfs.noaa.gov/pr/species/esa/ USFWS. 2015a. United States Fish and Wildlife Service. Threatened and Endangered Species. Accessed January 7, 2015 at: http://www.fws.gov/endangered/ USFWS, 2015b. Information Planning and Conservation System (IPaC). Accessed at: http://ecos.fws.gov/ipac/on May 4, 2015. WDFW. 2011. Washington Department of Fish and Wildlife. Priority Habitats and Species Database. Data published in GIS format for WSDOT on December 20, 2011. Accessed on January 7, 2015. WDNR. 2015. Washington Department of Natural Resources. Plant Heritage of Washington. GIS layers accessed through WSDOT Environmental Workbench. Accessed on January 7, 2015. Washington State Department of Transportation (WSDOT). 2015. Biological Assessment Preparation for Transportation Projects – Advanced Training Manual. WSDOT Environmental Services, Olympia, Washington. Version 02-2015. Washington State Department of Transportation (WSDOT). 2015. Wetland and Stream Assessment Report Addendum: I-405/SR 167 Direct Connector Project. Northwest Region Design Build Program. January 2015. XL 4282. Washington State Department of Transportation (WSDOT). 2015. Wetland and Stream Mitigation Memorandum: I-405/SR 167 Direct Connector Project. Northwest Region Design Build Program. March 2015. XL 4282. Washington State Department of Transportation (WSDOT). 2014. 2014 Annual Traffic Report. WSDOT in cooperation with the United States Department of Transportation Federal Highway Administration. I-405/SR 167 Direct Connector Project A-1 APPENDIX A – HYDRAULIC SUMMARY I-405/SR 167 Direct Connector Project A-1 JARPA ATTACHMENT 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 1 of 17 This appendix summarizes preliminary stormwater planning and design for the purposes of environmental documentation for the I-405/SR 167 Interchange - Direct Connector Project (Project). Note that the final design will continue to develop these preliminary stormwater management concepts. The Design-Build Contract will specify performance standards that are based on the Washington State Department of Transportation (WSDOT) Highway Runoff Manual (HRM) requirements. This design is one solution that will meet that standard, but this information is subject to change during final design using equivalent mitigation measures. Project Watershed The project scope includes I-405 Corridor improvements from MP 2.32 to MP 3.28, and SR 167 improvements from MP 24.80 to MP 26.26. The Project is located in the lower elevations of the Lower Green River sub-basin and Black River/Springbrook Creek sub-basin of state Water Resource Inventory Areas (WRIA) 9 – Green-Duwamish River Watershed. The upper portions of the Green- Duwamish River and Lake Washington watersheds have undergone relatively little development and most of the land cover is second-growth forest. The lower portions of these tributary basins, in contrast, have undergone extensive land use changes in the form of either agriculture or commercial, urban, and residential development. The work is entirely within the City limits of Renton, Washington and falls within three tributaries of Springbrook Creek: Rolling Hills Creek, Thunder Hills Creek; and Panther Creek. In contrast to the biological assessment and ESA consultation, the Project flow control will be based on a predevelopment land cover definition following the current HRM. Predevelopment will be forested land cover condition except where the HRM allows an exemption for discharges to a 2-year floodplain. In that case, the Project will verify that Minimum Requirement 7 (wetland hydroperiod criterion) is met. Runoff treatment design will follow the HRM and also meet the “no net increase” in average annual pollutant concentrations and loadings for Total Suspended Solids, Total and Dissolved Zinc, and Total and Dissolved Copper criteria established in the NOAA Fisheries Biological Opinion (BiOp) from the I-405 Tukwila to Renton Improvement Project (I-5 to SR 169 – Phase 2) Environmental Assessment effort. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 2 of 17 Project Drainage Basins The watershed is divided into two Threshold Discharge Areas (TDAs): Table 1: WRIA 9 - Green-Duwamish River Watershed, Lower Green River and Black River/Springbrook Creek Sub-Basins Threshold Discharge Area Receiving Water Body Sub-Basin Limits Along I-405 Unless Otherwise Noted S2.2, S2.3, & S2.4 Rolling Hills and Thunder Hills Creek that combine into the SW 19th Street tributary drainage system to Springbrook Creek SR-167 to approximately Renton City Hall and along SR 167 from I-405 to SE 19th Street S2.1 Panther Creek (SW 23rd Street channel) tributary to Springbrook Creek Along SR 167 from SE 19th Street to SE 41st Street Figure 1: Vicinity Map with TDA Locations (See Figure 2 for Streams) I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 3 of 17 Proposal Overview The Project will increase the pollutant generating impervious surface area (PGIS) by 7.36 acres, approximately 19 percent over current conditions. The project will include the following stormwater facilities: • Existing stormwater collection and conveyance systems will be modified as required for the new roadway geometry and as required for stormwater management using equivalent catchment areas. • Three new flow control facilities will be constructed (see below for details). • WSDOT HRM compliant enhanced runoff treatment BMPs will be constructed or modified as required to meet environmental commitments made in the Environmental Assessment and ESA Consultation process. • One culvert under the SR 167 corridor (Mile Post 26.07) will be replaced by a new fish passable structure (Mile Post 25.93). • A section of the Lower Rolling Hills Creek will be extended. This work will also provide stream restoration along the east side of SR 167 between SW 19th Street and the northbound SR 167 to northbound I-405 ramp. See Attachment 13B for an illustration of the preliminary stormwater facilities. Flow Control Infiltration is the preferred flow control best management practice (BMPs), but there are no known opportunities for infiltration along the project area. Groundwater levels are high along the Renton valley floor where there are opportunities to site a pond. This was verified by monitoring piezometer wells at each pond site, so the preliminary design assumes that flow control will be provided by detention ponds and vaults. Other options may be considered as the design continues. The preliminary design has reviewed the existing flow control facilities along the I-405 and SR 167 corridors. Few facilities existed before the I-405 Corridor Program improvements. Three facilities were constructed within the project limit as a result of the I-405, I-5 to SR 169 Stage 1 Widening Project (Renton Stage 1) and I-405, I-5 to SR 169 Stage 2 Widening & SR 515 Interchange Project (Renton Stage 2): • Renton Stage 1, Pond FC S2.1: located in the southwest quadrant of the SR 167 interchange with I-405 • Renton Stage 2, Talbot Pond: located south of I-405 and to the west of Talbot Road. • Renton Stage 2, Benson Pond: located on the west side of I-405 to the north of the Benson Road Bridge crossing. The preliminary design will maintain these facilities in place without significantly changing their contributing areas or function. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 4 of 17 Three new detention facilities will provide the additional flow control needed to mitigate the project. The following table summarizes the preliminary engineering approach for flow control to mitigate the effective new impervious area proposed by the project. There are two pond locations that have contributing areas that are larger than the equivalent impervious area that will be mitigated by the new detention ponds. • SE Quad Pond – Is required to mitigate 5.94 acres, but the preliminary design uses the HRM equivalent area on-site option to allow the full 12.04 acre contributing area to flow through the pond. A significant portion of the bypass area is pervious surface, so the peak 100 year flow rate is less than 50% of the peak flow for the impervious area being mitigated. • Renton Village Pond – Is required to mitigate 2.61 acres (TDA 2.3) plus 1.10 acres (TDA 2.4) or a total of 3.71 acres. The preliminary design allows the full 6.68 acre contributing area to flow through the pond with 0.09 acres of impervious area as on-site bypass flows. The HRM guidance for flow control modeling scenarios with off-site flow and flow-through areas also includes the “on-site, full area option.” This second option could result in different pond volumes relative to those reported in Table 2. The final determination of which option will be used is left to the final design. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 5 of 17 Table 2: Summary of Flow Control Facilities Proposed in Preliminary Design Sub- Basin Name Facility I.D. Milepost Net New Impervious Area (ac) Catchment Area (ac) Facility Type Volume Required (ac-ft) Remarks S2.1 SW 23rd Det. Vault SR 167 25.72 0.29 0.41 Detention Vault 0.09 New 110’x10’x4.5’ detention vault with open top located just north of SW 23rd Street (P-9) Panther Creek channel. This facility addresses new impervious area in the Panther Creek Basin which is tributary to Springbrook Creek. A large 40 acre Panther Creek wetland complex exists along northbound SR 167. The proposal verified that the 0.33 acres of roadway widening crosses the 2-year floodplain and is exempt from flow control. Flow control is therefore limited to mitigating the widening on the southbound side of SR 167. S2.2 SE Quad. Pond SR 167 26.23 5.94 12.041 Detention Pond 2.41 New detention pond that will discharge to the City storm Drainage system in East Valley Road. Flows combine with Rolling Hills Creek to flow through SW 19th Street drainage system before discharging to Springbrook Creek. S2.3/ S2.4 Renton Village Pond I-405 2.75 3.712 6.681 Detention Pond 1.14 New detention pond that will discharge into the I-405 ditch that leads to Lower Rolling Hills Creek, through Culvert 42 and 44, through Culvert 76, and the SW 19th Street drainage system to Springbrook Creek. S2.4 Benson Pond I-405 3.00 0.00 Reduces from 5.28 to 5.21 Detention Pond 1.93 Modeling the proposed reduced contributing area found that the I-405 Renton Stage 2 Project flow control mitigation is maintained. No modification is necessary. Totals 9.94 Note: 1. The conceptual design accommodates a larger impervious area contributing to the pond by following the HRM guidance for flow control modeling scenarios for off-site flow and flow-through areas. 2. The Renton Village Pond contributing area includes most of the new impervious area in TDA 2.4. See the text for additional detail. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I‐405/SR 167 INTERCHANGE ‐ DIRECT CONNECTOR AND EXPRESS TOLL LANE PROJECT Page 6 of 17 The preliminary design includes new conveyance across the Talbot Road bridge to address the portion of TDA 2.4 that could not reach the Benson Pond by gravity. WSDOT is adding this minor flow diversion (transferring TDA 2.4 within the same tributary to the downstream TDA 2.3) to facilitate the 2002 I‐405 programmatic EIS Record of Decision commitment for full retrofit of stormwater management where practicable. No watershed or basin diversions are involved, but the diversion of TDA 2.4 to TDA 2.3 will cause a minor reduction of peak flows in Rolling Hills Creek from it crossing under I‐405 (west of Talbot Road) to its confluence with the channel from Culvert 48. Runoff will be routed through the Renton Village Pond and discharged to an I‐405 roadside drainage ditch that connects to the Rolling Hills Creek tributary at Culvert 48. The downstream Rolling Hills Creek is protected from increases in peak flow rates, but flows in that roadside drainage ditch may increase. Water Quality Treatment The HRM provides a variety of enhanced runoff treatment best management practices (BMPs) that focus on removal of sediment and metals. The preliminary design proposes to install media filter drain (MFD) and compost amended biofiltration swales (CABS) runoff treatment BMPs. The design criteria for this project go beyond the 2014 HRM guidelines as needed to meet the environmental commitments made during the I‐405, I‐5 to SR 169 Phase 2, Tukwila to Renton Improvement Project Endangered Species Act (ESA) consultation with the National Marine Fisheries Service. The project must demonstrate that there is “no net increase” in average annual pre‐ versus post‐project loading and concentrations for five indicator pollutants: total suspended solids, total and dissolved copper, and total and dissolved zinc. This condition was included in the Biological Opinion for the larger Tukwila to Renton Improvement Project definition which includes the scope of the subject project. The method for assessing the “no net increase” requirement is based on the WSDOT Environmental Procedures Manual that was current at the time of the ESA consultation. The procedure considers runoff volume losses due to infiltration losses inherent with some BMPs. Refer to Attachment 13a for additional details. Table 3 summarizes the pollutant generating impervious surfaces (PGIS) and runoff treatment improvements that were cleared by permits. The baseline condition for the I‐405 Tukwila to Renton Improvement Project (I‐5 to SR 169 – Phase 2) environmental assessment was the post‐project condition for the Springbrook Creek basin improvements that were cleared by the I‐405 Renton Nickel Improvement Project, I‐5 to SR 169, permits. These runoff treatment considerations were compared with as‐built improvements to determine the level of treatment required for the subject project. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 7 of 17 Table 3: Summary of Runoff Treatment Area for Permitted Conditions in the Springbrook Creek Basin (in Acres) Permit Condition Untreated PGIS New PGIS Treated PGIS using non- infiltrative BMPs1 Treated PGIS using infiltrative BMPs2 Pre-Renton Nickel Improvement Project 102.533 - 0.00 8.53 Renton Nickel Improvement Project = Baseline for Tukwila to Renton Improvement Project 98.46 9.76 7.57 14.79 Tukwila to Renton Improvement Project 60.26 38.26 46.20 32.25 Notes: 1. Non-infiltrative BMPs include biofiltration swale and constructed stormwater treatment wetlands 2. Infiltrative BMPs include two BMPs: media filter drain using an estimated volume loss of 62% based on WSDOT data, and infiltration ponds which are typically design to infiltrate 100% of the runoff. 3. The value noted here has been calculated based on the other numbers in this table to provide a number for comparison. The actual value in the I-405 Renton Nickel Improvement Project documents was 53.37 acres based on a smaller project (basin) boundary. Table 4: Summary of Runoff Treatment Area for As-Built Conditions (in Acres) I-405 Corridor Project Year Completed New PGIS Treated PGIS using non- infiltrative BMPs1 Treated PGIS using infiltrative BMPs2 Pre-Project Existing Condition 0.00 8.53 I-405 Renton Stage 1 Project 2010 6.33 8.43 0.55 I-405 Renton Stage 2 Project 2011 3.91 4.13 3.45 Totals 10.24 12.56 12.53 Notes: 1. Non-infiltrative BMPs include biofiltration swale, constructed stormwater treatment wetlands, and modified media filter drain BMPs (likely conservative: no data available) 2. Infiltrative BMPs include media filter drain using an estimated volume loss of 62% based on WSDOT data. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 8 of 17 Comparing the permitted condition versus as-built condition, the I-405 Renton Stage 1 Project and I- 405 Renton Stage 2 (and SR 515 Interchange) Project improvements slightly exceeded the level of development that was cleared in the I-405 Renton Nickel Improvement Project permits. The SR 515 interchange improvements were built as the first stage of the Tukwila to Renton Improvement Project permitted work. The Project will continue that permitted (10.24 acres) work by adding 7.36 acres of new PGIS. The proposed new PGIS would be 7.81 acres greater than the Tukwila to Renton Improvement Project (9.76 acres) baseline condition. When completed, the Project will have built approximately 20 percent of the (38.26 acres) development considered during the Tukwila to Renton Improvement Project ESA consultation. Pursuant to the “no net increase” commitment, the average annual pre- versus post-project loading and concentrations were assessed relative to the I-405, I-5 to SR 169 – Phase 2, Tukwila to Renton Improvements Project baseline used in the ESA consultation. Table 5: Summary of Pollutant Model Results Based on the Proposed Project (Percent Reduction) Parameter TSS Total Zinc Dissolved Zinc Total Copper Dissolved Copper Loading 24 20 15 18 11 Concentration 20 16 11 16 8 Note: Refer to Attachment 13a for additional detail. Table 6 summarizes the additional new runoff treatment that is proposed in the preliminary design concept. Final design requirements will follow a performance specification based on a minimum runoff treatment requirement. Table 5 is based on runoff treatment for 18.0 acres (less than the indicated 18.49 acres) to leave an allowance for issues that could arise during final design. The total PGIS treated and the split between infiltrative versus non-infiltrative BMPs may change as that specification is met within the constraints of the WSDOT HRM. The pre- versus post-project average annual pollutant loading and concentration calculation will be repeated to verify the final design. There are several runoff treatment facilities in place along I-405 and SR-167 corridors. Among them, two will be replaced due to impacts by widening: • Northbound SR 167 includes MFD BMPs that were constructed by SR 167/ 15th St. SW to S. Grady Way Project (OL-2183) based on the project hydraulic report dated January 1996. The area treated is estimated to be 2.57 acres. • Southbound I-405, between the Benson Road S. bridge and the southbound off-ramp to Talbot Road, includes 0.85 acres of PGIS treatment by MFD BMPs based on the Renton Stage 2 As-Built Hydraulic Report (PIN-840505A, 840502E, and 840504A) dated July 2011. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 9 of 17 Table 6: Summary of New Runoff Treatment Proposed in Preliminary Design Basin Name Facility I.D. SR 167 Milepost unless noted PGIS Catchment Area (ac) Facility Type Facility Length Req’d (ft) S2.2 CABS2.1 26.20 (RT) 6.06 CABS 120 S2.2 MFD1.1E 26.55 (RT) 0.291 MFD 1500 S2.1/ S2.2 MFD1.1 25.80 (RT) 0.61 MFD 125 S2.2 MFD1.3 26.05 (RT) 0.42 MFD 750 S2.2 MFD1.4 26.10 (RT) 0.35 MFD 320 S2.2 MFD1.6 26.20 (RT) 0.002 MFD 240 S2.2 MFD1.9 26.10 (LT) 0.76 MFD 820 S2.2 MFD1.10 26.20 (LT) 0.24 MFD 430 S2.2 MFD1.11 26.06 (LT) 0.65 MFD 905 S2.2 MFD1.15 26.10 (median) 0.40 MFD 900 sf4 S2.2 MFD1.16 26.15 (RT) 0.29 MFD 750 sf4 S2.2 MFD1.17 26.20 (RT) 0.27 MFD 750 sf4 S2.2 MFD1.18 I-405 2.41 (RT) 0.35 MFD 735 sf4 S2.2 MFD2.2 I-405 2.40 (RT) 0.88 MFD 463 S2.2 MFD2.3 I-405 2.45 (RT) 0.06 MFD 75 S2.3 CABS2.2 I-405 2.75 (LT) 5.88 CABS 100 S2.1 MFD2.1 I-405: 2.90 (LT) 1.003 MFD 1410 Water Quality Totals 18.515 Notes: 1. MFD1.1E reports 0.29 acres as new treatment. Additional length is noted to address existing MFD that will be reconstructed due to the widening. 2. MFD1.6 reports 0.00 acres because it replaces a compost amended vegetated filter strip BMP that will be impacted by the widening. 3. MFD2.1 reports 1.00 acres as new treatment. Additional length is noted to address existing MFD that will be reconstructed due to the widening 4. MFD BMPs using a flow spreader (HRM 2014 – MFD Option 5 or 6). The dimension is given as square feet of media area. 5. The total reported Runoff Treatment is higher that evaluated for the environmental assessment value of 18.00 acres. Given the preliminary status of the design, we are not certain that all of the preliminary design’s 18.51 acre of runoff treatment can be provided. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 10 of 17 Conveyance The subject project will retain much of the existing drainage structures and conveyance systems within the project area. Closed conveyance systems will be used as the preferred conveyance method along the I-405 corridor due to the site constraints. Open ditch and sheet flow conveyance will continue to be the preferred conveyance method along northbound SR 167. Roadway widening will require new collection structures along the new edge of pavement. These new structures will connect to the existing drainage systems. Existing conveyance will be modified as required to satisfy water quality treatment and flow control measures while maintaining existing flow patterns to each of the receiving water bodies. The preliminary design has only considered conveyance as it relates to the feasibility of establishing collection areas for runoff treatment and flow control. Detailed conveyance plans will be produced during the final design. The City of Renton conveyance systems will be protected from flow increases. Fish Barriers The subject project will include a new water crossing structure to address a fish barrier as part of the project scope. There are two culverts currently on the WDFW fish barrier list: • Culvert 76 under SR 167 at Mile Post 26.08 is listed as a partial block. • Culvert 42/44 under I-405 at Mile Post 2.40 is also listed as a partial block Figure 2: Vicinity Map Showing Culverts and Streams in the Project Area I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 11 of 17 The project widening will provide a fish passable structure at Culvert 76. The details of the new water crossing are covered in a separate report. Culvert 42/44 and Culvert 48 are on WSDOT’s list to be addressed by future I-405 improvement projects. Attachments: 13a. Pre- versus Post-Project Pollutant Discharge Assessment 13b. Flow Control and Water Quality Treatment Drawings I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 12 of 17 ATTACHMENT 13a Pre- versus Post-Project Pollutant Discharge Assessment Introduction The pre- versus post-Project pollutant loads and concentrations assessment method was developed in 2005 to support the ESA consultation with the National Marine Fisheries Service. The intent of this assessment is to apply best available science to understand the potential impacts from the project. To be consistent with the I-405 Tukwila to Renton Improvement Project (I-5 to SR 169 – Phase 2) Biological Opinion, the design shall demonstrate that there is “no net increase” in total suspended solids, total and dissolved copper, and total and dissolved zinc as a result of the I-405, SR 167 Interchange Direct Connector Project (Project). Approach The calculations follow the WSDOT Data-FHWA Method from the 2005 WSDOT Environmental Procedures Manual (EPM). The assessment provides a projection of the relative change of pollutant loads and concentrations discharged to the Springbrook Creek basin. The BMP effectiveness data in the EPM uses primarily basic treatment BMPs designed to 1995 HRM standards. In contrast, the Project will use enhanced treatment BMPs that are sized to current HRM design standards. While BMPs that are built to new standards are presumed to work more effectively, insufficient time has passed for such BMPs to be installed or adequately tested. As a result, little data exists to accurately quantify the effects of projects following the current HRM runoff treatment BMPs. The pollutant loading estimates that are attached are based on the data from outdated BMP designs so the calculation likely underestimates the BMP effectiveness. The WSDOT Data-FHWA Method estimates annual pollutant loads and concentrations based on highway runoff characterization and BMP effectiveness data collected from the annual WSDOT National Pollutant Discharge Elimination System (NPDES) Reports dating back to 2002. This data provides the most accurate state-wide average annual estimate of pollutant load and concentration data from both treated and untreated highway surfaces in Washington. The results generated by this method provide: • A table for each sub-basin showing, o the amount of existing acres of highway surface, and o the amount of acres of future highway surface that would exist as a result of the project (i.e., net new acres). The table also includes the total number of treated, infiltrated, and untreated acres in each of the sub-basins. • The number of acres of untreated surface is multiplied by the annual pollutant load values for each pollutant. • The number of acres of treated surface is multiplied by the annual pollutant load value, which is based on the mean BMP pollutant removal effectiveness. • The annual pollutant loads from the treated and untreated surfaces are added together to generate a total pollutant load in pounds per year. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 13 of 17 • The results of the analysis provide a relative comparison of the annual loads for each pollutant from each sub-basin and the entire project. WSDOT EPM methods for evaluating annual pollutant loads produce general estimates of annual pollutant loads to compare project alternatives in the NEPA/SEPA processes. Pollutant concentrations in stormwater runoff are highly variable as a result of variables including: 1) the amount of discharge, 2) the size of the receiving water body, 3) the water chemistry (e.g., hardness) and background concentrations of pollutants of concern in the receiving water, 4) antecedent dry periods, 5) the nature (e.g., intensity, duration) of the storm event, 6) the variability in BMP removal effectiveness, and 7) amounts of organic debris and sediment within the runoff. During the I-405 Tukwila to Renton Improvement Project ESA consultation, National Marine Fisheries Service requested that the model consider incidental runoff volume loss associated with the MFD BMPs. WSDOT and the National Marine Fisheries Service agreed that the monitoring data was conclusive to validate a model assumption that 62 percent of the highway runoff would infiltrate though the soil below the media zone. All other types of runoff treatment BMPs are assumed to be non-infiltrating. The model input calculates an equivalent basin area being “infiltrated” versus “treated.” Thus the model accounts for the pollutant load reductions that would result from infiltration losses both in pre- and post-project conditions. Conclusions Key points related to drawing conclusions from this approach: • The assessment provides an average based on samples collected to date. There is variability between sites and BMPs. Defensible confidence limits cannot be set until adequate enhanced treatment BMPs are tested at a large number of sites. • Although we generate an analysis with this approach, there is insufficient existing data to make an accurate evaluation of BMP effectiveness, receiving water quality, dilution factors, or adverse impacts to fish. The proposed enhanced runoff treatment BMPs are sized to handle the runoff volumes generated during the wet season when pollutant concentrations are expected to be at their lowest due to dilution. Runoff treatment BMPs, such as constructed stormwater treatment ponds that promote evapotranspiration, may not discharge during the critical summer season for fish species. The following calculations are provided to document that the preliminary design meets the intent of the environmental commitment for “no net increase” in pollutant loads or concentrations as a result of the Project. The final design contract will require that the final design use the same method to demonstrate a “no net increase” in average annual pollutant loads or concentrations. I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 DATA ENTRY TO CHECK POST-PROJECT VERSUS ESA CONSULTATION BASELINE Assumes MFD Infiltration = 62%Springbrook Baseline Definition for BOBasinPRE-NICKEL EXISTING CONDITIONUntreatedOther BMPsMFDPRE-PROJECT - Permitted Nickel ImprovementsTotal7.57 14.79Existing treated impervious surface with discharge to waterbody (acres)13.19Treated- 7.57 5.62Existing impervious surface infiltrated (acres)9.17Infiltrated - - 9.17Existing untreated impervious surface (acres)98.46Untreated 98.46Total existing impervious surface (acres)120.82UntreatedOther BMPsMFDRenton Nickel Permit NEW RETROFITTotal- - 12.60Existing impervious surface retrofitted for treatment with discharge to waterbody (acres)4.79Treated- - 4.79Existing impervious surface retrofitted for infiltration (acres)7.81Infiltrated - - 7.81Renton Nickel Permit NEW IMPERVIOUSTotal- 7.57 2.19New treated impervious surface with discharge to waterbody (acres)9.76Treated- 7.57 2.19New impervious surface infiltrated (acres)0.00Infiltrated - - 0.00New untreated impervious surface (acres)0.00Untreated - - Total new impervious surface (acres)9.76Permit Totals:7.57 14.79Permitted Renton Nickle Treatement - TRIP BASELINESprgbrkExisting treated impervious surface with discharge to waterbody (acres) 27.74Existing impervious surface infiltrated (acres) 16.98Existing untreated impervious surface (acres) 98.46UntreatedOther BMPsMFDSR 515 Impr + PROJECT NEW RETROFITTotal- 9.12 3.80Existing impervious surface retrofitted for treatment with discharge to waterbody (acres)10.56Treated- 9.12 1.44Existing impervious surface retrofitted for infiltration (acres)2.36Infiltrated - - 2.36SR 515 Impr + PROJECT NEW IMPERVIOUSTotal- 7.81 0.00New treated impervious surface with discharge to waterbody (acres)7.81Treated- 7.81 0.00New impervious surface infiltrated (acres)0.00Infiltrated - - 0.00New untreated impervious surface (acres)0.00Untreated - - Total new impervious surface (acres)7.81Proj. Totals:16.93 3.80POST PROJECT TOTALSTotal impervious surface area untreated post-project (acres)72.94LEGENDTotal impervious surface area treated post-project with discharge to waterbody (acres)46.11Other BMPsTotal impervious surface area infiltrated (acres)19.34BA Total PGIS138.39MFD = Media Filter DrainSpringbrookIncludes "combined stormwater treatment wetland/detention", "Bioswales", "wetpool", and MMFD BMPs3/10/2015 AssessmentAttachment 13A M:\Eng\167-DC\Drn\JARPADoc\JARPA_Attach13a_CheckingBOBaseline_Mar6.xlsxDC ENTRY I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 LOAD EFFECTS - POST-PROJECT VERSUS ESA CONSULTATION BASELINETOTAL DISSOLVED TOTAL DISSOLVEDTSSZINC ZINC COPPER COPPERMean annual load from untreated surfaces (lbs/acre)565 1.10.40.2 0.053Mean annual load from treated surfaces (lbs/acre)45 0.28 0.2 0.065 0.035TOTAL DISSOLVED TOTAL DISSOLVEDTSSZINC ZINC COPPER COPPERSpringbrook Creek BasinAnnual effluent load from existing impervious surfaces prior to project (lbs)56,878.12 116.07 44.93 21.49 6.19Annual effluent load from new and existing impervious surfaces after project (lbs)43,286.15 93.15 38.40 17.59 5.48NET CHANGE (lbs)-13,591.97 -22.93 -6.53 -3.91 -0.71NET PERCENT CHANGE-24% -20% -15% -18% -11%LOAD RATESPROJECT TOTAL3/10/2015 AssessmentAttachment 13A M:\Eng\167-DC\Drn\JARPADoc\JARPA_Attach13a_CheckingBOBaseline_Mar6.xlsxDC LOAD I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 CONCENTRATION EFFECTS - POST-PROJECT VERSUS ESA CONSULTATION BASELINETOTALDISSOLVEDTOTALDISSOLVEDTSS ZINC ZINC COPPER COPPER(mg/L)(ug/L) (ug/L) (ug/L) (ug/L)Expected pollutant concentrations for UNTREATED runoff192 350 110 59 14Expected pollutant concentrations for TREATED runoff 14 67 44.8 12 7.8TOTALDISSOLVEDTOTALDISSOLVEDTSS ZINC ZINC COPPER COPPER(mg/L)(ug/L) (ug/L) (ug/L) (ug/L)Springbrook Creek BasinPollutant concentation for runoff PRE-project152.88 287.80 95.67 48.67 12.64Pollutant concentation for runoff POST-project123.06 240.39 84.75 40.80 11.60NET CHANGE-29.82 -47.41 -10.92 -7.87 -1.04NET PERCENT CHANGE-20% -16% -11% -16% -8%PROJECT TOTAL3/10/2015 AssessmentAttachment 13A M:\Eng\167-DC\Drn\JARPADoc\JARPA_Attach13a_CheckingBOBaseline_Mar6.xlsxDC CONC I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 STORMWATER MANAGEMENT CONCEPT FOR I-405/SR 167 INTERCHANGE - DIRECT CONNECTOR PROJECT Page 17 of 17 ATTACHMENT 13b Flow Control and Water Quality Treatment Drawings I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 ???P P PPTREES AND BRUSHTREES AND BRUSHTREES AND BRUSHCCCCCMBUOBJUOBJUOBJ UOBJUOBJUOBJUOBJUOBJUOBJUOBJUOBJUOBJ UOBJUOBJUOBJ UOBJ UOBJ UOBJUOBJ??????TUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUPPPPPPP CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC???CVUUUUUUUUU UPPP15' 12' 13' 13' 12' 12' 12'12' 12' 12' 11' 12' 12' 12' 8' 13' 13' 13' 12' 10' 12' 13' 12' 12'15'8' 10' 12'12' 12' 12' 10'SW 19TH STSW 27TH ST HOTEL HILTON GARDEN EAST VALLEY RD EAST VALLEY RD LANDING LARKSPUR STORAGE SHURGARD E167 LINE E167 LINE E167A LINE E167A LINE MP 25.45 MP 25.50 MP 25.55 MP 25.60 MP 25.65 MP 25.70 MP 25.75 MP 25.80 MP 25.85 MP 25.90 MP 25.95 MP 26.00 SCALE IN FEET 0 INTERSTATE 405 Project Team Washington State Department of Transportation SHEET OF SHEETS 01 100 200 WATER QUALITY TREATMENT FLOW CONTROL AND 05SW 23RD STREET CHANNEL(CULVERT 72) PANTHER CREEK (CULVERT 76) ROLLING HILLS CREEKSW 19TH STCATCHMENT AREA = 2.45 ACRE PGIS LENGTH = 2170 LF MFD 1.1E CATCHMENT AREA = 0.61 ACRE PGIS LENGTH = 125 LF MFD 1.1 CATCHMENT AREA = 0.41 AC NET NEW IMPERVIOUS AREA = 0.29 AC REQ'D VOLUME = 0.09 AC-FT DIMENSIONS = 110'(L) x 10'(W) x 4.5'(D) SW 23RD ST VICINITY DETENTION OPEN VAULT ATTACHMENT 13B I-405/ SR 167 INTERCHANGE DIRECT CONNECTOR SR 167 I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 ???????PPTREES AND BRUSHTREES AND BRUSHTREES AND BRUSH?44.716 43.286 41.458 41.708 37.752 40.493 37.684 35.957 35.127 33.120 CB1FLCB1FLCB2FLCB3FLCBAFL CBAFL CBBFL CBCFL 29.428 42.112 46.012 58.455 28.522 52.889 66.554 28.62240.959 69.411 35.769 51.404 43.322 51.404 70.649 76.829 46.900 45.515 76.398 54.994 73.936 56.639 48.09563.723 37.381 41.294 24in CMP OUTFALL HAS BAFFLE 36in CMP 12in CMP ??CVCVC VUOBJUOBJ?????CVUUUUUU???MP 26.00 MP 26.05 MP 26.10 MP 26.15 MP 26.20 MP 26.25 INTERSTATE 405 Project Team Washington State Department of Transportation SHEET OF SHEETS SCALE IN FEET 0 02 WATER QUALITY TREATMENT FLOW CONTROL AND 50 100 05 TO REMAIN EXISTING POND CATCHMENT AREA = 0.29 ACRE PGIS DIMENSIONS = 75'(L) x 10'(W) MFD1.16 (TYPE 6) CATCHMENT AREA = 0.40 ACRE PGIS DIMENSIONS = 90'(L) x 10'(W) MFD1.15 (TYPE 6) CATCHMENT AREA = 0.27 ACRE PGIS DIMENSIONS = 75'(L) x 10'(W) MFD1.17 (TYPE 5) CATCHMENT AREA = 0.24 ACRE PGIS LENGTH = 430 LF MFD1.10 CATCHMENT AREA = 0.65 ACRE PGIS LENGTH = 905 LF MFD1.11 CATCHMENT AREA = 0.76 ACRE PGIS LENGTH = 820 LF MFD1.9 CATCHMENT AREA = 0.35 ACRE PGIS LENGTH = 320 LF MFD1.4 CATCHMENT AREA = 0.35 ACRE PGIS LENGTH = 240 LF MFD1.6 CATCHMENT AREA = 0.42 ACRE PGIS LENGTH = 750 LF MFD1.3 SEE SHEET 3 SE QUADRANT POND SEE SHEET 3 BIOSWALE - CABS 2.1 CHANNEL RELOCATION ROLLING HILLS CREEK TO CITY DRAINAGE SYSTEM STORM DRAIN CONNECTION CULVERT 76 REUSED FOR ATTACHMENT 13B I-405/ SR 167 INTERCHANGE DIRECT CONNECTOR SR167 I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 ? ?P? 44.716 43.286 41.458 41.708 37.752 40.493 37.684 35.957 35.127 33.120 CB1FL CB1FLCB2FLCB3FL CBAFL CBAFLCBBFLCBCFL 29.428 42.112 46.012 58.455 28.522 52.889 66.554 28.622 40.959 69.411 35.769 51.404 43.322 51.404 70.649 76.829 46.900 45.515 76.398 54.994 73.936 56.639 48.095 63.723 37.381 41.294 24in CMP OUTFALL HAS BAFFLE 36in CMP 12in CMP MBMBMBMBMBMBMBMBMBMBMBMBMBMBMB? ? ? ? ? ? ??? ? ? ? ?? ? ? ? ? ? ? ?CVCVCVCV U UUUU U U U U U U U UU UUUU P PPPP PPPPPP? U U PP PPP P P P UOBJ ? ?? ?? ? ? ? ? ? ? ? ? ? ? ? ?STTS TT MP 2.30 MP 2.35 MP 2.40 MP 2.45 MP 2.50 MP 2.55 MP 26.20MP 26.25MP 26.30SCALE IN FEET 0 50 100 INTERSTATE 405 Project Team Washington State Department of Transportation SHEET WATER QUALITY TREATMENT FLOW CONTROL AND 05 OF 03 SHEETS TO BE ABANDONED EXISTING CAVFS CATCHMENT AREA = 0.35 ACRE PGIS DIMENSIONS = 75'(L) x 10'(W) MFD1.18 (TYPE 6) CATCHMENT AREA = 6.06 ACRE PGIS DIMENSIONS = 110'(L) x 7'(W); 3:1 (SIDE SLOPE) BIOSWALE - CABS 2.1 CATCHMENT AREA = 12.04 ACRE NET NEW IMPERVIOUS = 5.94 ACRE REQ'D VOLUME = 2.41 AC-FT DIMENSIONS = 9000 SF BOTTOM x 5' DEEP SE QUADRANT DETENTION POND FC 2.2 CATCHMENT AREA = 0.88 ACRE PGIS LENGTH = 463 LF MFD2.2 CATCHMENT AREA = 0.06 ACRE PGIS LENGTH = 75 LF MFD2.3 ATTACHMENT 13B DIRECT CONNECTOR I-405/ SR 167 INTERCHANGE NB I-405 SB I-405 SEE SHEET 2 MFD 1.17 I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 C C CMBMB MB? ? ? ? ? ? ? ? ? ?? ? ? ? ?? ? CV CV U UU U UU U U U U U U U U U U U U U UPP UOBJ UOBJ UOBJ UOBJ UOBJ UOBJ ? ? ? ? ? ? U U U U U U U U PP PPPPPPPP P PPPPP P P PU UU U UU UU U P PP P P P UOBJ UOBJ UOBJ UOBJ ? ? ? ? T STTSTTSTT 42" CONC 42" CONC 30" CONC72" CONC 60" CONC 60" CONC48" CONC 72" CONC CULVERT C48CULVERT C4942" CONCCULVERT C4942" CONCMP 2.55 MP 2.60 MP 2.65 MP 2.70 MP 2.75 MP 2.80 MP 2.85 INTERSTATE 405 Project Team Washington State Department of Transportation SHEET SCALE IN FEET 0 WATER QUALITY TREATMENT FLOW CONTROL AND 50 100 05 OF 04 SHEETS CATCHMENT AREA = 6.68 ACRE HRM "50% RULE" FOR FLOW THROUGH) (INCL. ADDITIONAL MITIGATION PER NET NEW IMPERVIOUS = 3.71 ACRE REQ'D VOLUME = 1.14 AC-FT DIMENSIONS = 9300 SF BOTTOM x 4.8' DEEP RENTON VILLAGE POND - FC 2.3/2.4 CATCHMENT AREA = 5.88 ACRE PGIS DIMENSIONS = 95'(L) x 20' (W); 2:1 (SIDE SLOPE) BIOSWALE - CABS 2.2 ATTACHMENT 13B DIRECT CONNECTOR I-405/ SR 167 INTERCHANGE SB I-405 NB I-405 TALBOT RD SSMITHERS AVE SMORRIS AVE SWHITWORTH AVE SSHATTUCK AVE SS RENTON VILLAGE PL I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 C U O BJ U O BJ U O BJ UOBJ UOBJ UOBJ ? ? ? ?? ? ? ?UU U U U U U U P P STTSTTSTTM P 2.90MP 2 .95 MP 3.00 MP 3.05 MP 3.10 MP 3.15 SCALE IN FEET 0 50 100 INTERSTATE 405 Project Team Washington State Department of Transportation SHEET OF SHEETS CATCHMENT AREA = 1.98 ACRE LENGTH = 1410 LF MFD2.1 WATER QUALITY TREATMENT FLOW CONTROL AND 05 05 (TO REMAIN) BENSON POND ATTACHMENT 13B I-405/ SR 167 INTERCHANGE DIRECT CONNECTOR BENSON ROAD N B I-405 SB I-40 5 SB I-405 TO TALBOT ROAD RAMP I-405/SR 167 Interchange - Direct Connector Project JARPA Form Attachment 13 APPENDIX B – ROLLING HILLS CREEK RESTORATION PLAN I-405/SR 167 Direct Connector Project B-1 APPENDIX C – EXISTING CONDITIONS PLAN SHEETS I-405/SR 167 Direct Connector Project C-1