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Home My WebLink About11-12-2013 HEARING EXAMINER AGENDA PACKET HEARING EXAMINER November 12, 2013 6:00 p.m. City Council Chambers 25 West Main Street I. Case No: PLT13-0001 – Westridge Subdivision Applicant: PNW Holdings, LLC; Justin Lagers Request: The proposed project is to subdivide approximately 19.30 acres into 56 single family lots with four tracts, associated storm drainage facilities, new public roads, open space tracts, landscaping, and right-of-way dedication. Project Location: 6033 South 300th Street, Parcel No. 0221049027 Exhibit 1 Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 1 Preliminary Plat Westridge Subdivision PLT13-0001 I. GENERAL INFORMATION: Application Date: April 26, 2013 Applicant: PNW Holdings, LLC, Justin Lagers, 9675 SE 36th Street, Suite 105, Mercer Island, WA 98040 Property Owner: Same as applicant Project Description: The proposed project is to subdivide approximately 19.30 acres into 56 single family lots with four tracts, associated storm drainage facilities, new public roads, open space tracts, landscaping, and right- of-way dedication on South 300th Street. Property Location: 6033 South 300th Street; Parcel Number: 0221049027 Subject Property and Adjacent Property Zoning and Land Use: Comprehensive Plan Zoning Current Land Use Project Site Single Family Residential R-5 Residential (5 du/acre) Vacant North Single Family Residential R-5 Residential (5 du/acre) Single family residential South Single Family Residential R-5 Residential (5 du/acre) Single family residential East Single Family Residential R-5 Residential (5 du/acre) Vacant land – Wyncrest II Subdivision West Single Family Residential R-5 Residential (5 du/acre) Single family residential Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 2 Subject Site Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 3 II. SEPA STATUS: A Determination of Non-Significance was issued on October 3, 2013. The comment period ended on October 17, 2013 with no comments received. The appeal period ends on October 31, 2013. As of the writing of this report, no appeals have been filed. III. FINDINGS OF FACT: 1. PNW Holdings LLC (Applicant) submitted a Preliminary Plat application for the Westridge Subdivision on April 26, 2013 to subdivide 19.30 acres into 56 single family lots. 2. The subject property is located at 6033 South 300th Street within the corporate limits, and referenced by King County Tax Assessor Parcel Number 0221049027. 3. The subject property is vacant with the single family home demolished in 2008. 4. The subject property is zoned R-5 Residential (5 du/acre) and the project is vested to this standard. The Comprehensive Land Use designation is Single Family Residential. 5. The R-5 Residential (5 du/acre) zone requires a minimum or 4 du/net acre and a maximum of 5 du/net acre. The proposed project’s calculated density is 5.09 dwelling units per net acre. Pursuant to ACC 18.02.065 below .50 is rounded down, so the calculated density is 5 dwelling units per net acre. 6. The following lot dimensions are applicable in the R-5 zone:  Minimum average lot area: 8,000 sq. ft.  Minimum lot area: 6,000 sq. ft.  Minimum lot width: 50 ft 7. The following lot dimensions are proposed by the project:  Minimum average lot area: 8,227 square feet  Minimum lot area (smallest lot): 6,240 square feet  Minimum lot width: 50 feet 8. The subject property is within the Lakehaven Utility District. Water and Sewer service is provided by Lakehaven. Water and Sewer availability certificates have been submitted as part of the preliminary plat application (Exhibit 16). 9. The requirements of ACC 13.48 Storm Drainage Utility, ACC 15.74 Land Clearing, Filling, and Grading, and the City’s 2009 Surface Water Management Manual (SWMM) are applicable to the Site and Project. 10. The Project will drain to the storm detention and water quality pond located in proposed Tract A (Exhibit 4) at the northeast portion and lowest point of the Site. Stormwater outfall from the storm pond will be released near the northeast corner of the Site, which would flow eastward. This is consistent with the SWMM Minimum Requirement #4 for New Development and Redevelopment, which requires that natural drainage patterns be maintained. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 4 11. Fire hydrants and mains capable of providing the required fire flow shall be provided per City of Auburn Engineering Design Standards and the 2012 International Fire Code (IFC). Fire hydrant locations shall be approved by the Fire Marshal. 12. Traffic, fire, park, and school impacts are mitigated through the payment of impact fees in effect at the time of Building Permit issuance for each lot or deferred per Ordinance No. 6455. 13. No Critical Landslide or Erosion Hazard areas have been identified on the Site. 14. The Site is not located in the regulatory floodplain per Federal Emergency Management Agency (FEMA) maps. 15. A portion of the larger wetland system to the east of subject site extends onto the project site. The wetland and associated buffer is set aside in Tract B and a buffer enhancement plan has been proposed (Exhibit 12). No impacts to the buffer or wetland are proposed. 16. The Site is located in Groundwater Protection Zone 4. 17. No state or federal candidate threatened or endangered plant species has been identified on the Site. 18. No state or federal candidate threatened or endangered animal species or habitat has been identified on the Site. 19. No known places or objects listed on or proposed for national, state, or local preservation registers has been identified on the Site. Adjacent to the subject property to the west is an identified cabin, known as the Gardner Log Cabin, that may be historic eligible. 20. The Site is not located within any shoreline designation. 21. The applicant has completed a Traffic Impact Analysis (TIA) for the proposed project. The TIA was prepared by TraffEx dated April 17, 2013 with revisions dated July 18, 2013. The City’s traffic division has reviewed and accepted the TIA. The proposed project will add 42 am peak hour trips, 57 pm peak hour trips, and 536 average weekday trips. (Exhibit 11) 22. The applicant has completed a Critical Areas Report for the proposed project prepared by Sewall Wetland Consulting, Inc. dated April 11, 2013 and with a supplemental memorandum dated August 2, 2013. The City’s Environmental Services division has reviewed the Critical Areas Report and concurs with the wetland delineation and determination of the manmade pond. (Exhibit 12) 23. A geotechnical engineering study has been completed for the project prepared by Earth Solutions dated April 24, 2013 with a supplemental memorandum dated August 6, 2013. (Exhibit 13) 24. A school walk analysis has been prepared for the project by DR Strong Consulting Engineers, Inc. dated April 25, 2013 and revised August 2, 2013. The school walk Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 5 analysis has been sent to Federal Way Public Schools for their review as part of the SEPA determination notification. The City did not receive any additional comments on the school walk analysis. (Exhibit 14) 25. A Notice of Application (Exhibit 5) was issued for the project on May 31, 2013 with a comment deadline of June 17, 2013. The City received three comments (Exhibit 8):  Federal Way Public Schools – requesting a school walk analysis  Department of Natural Resources – forest practice permit may be required  Property owner in the project vicinity – comments on the storm pond and lot width 26. A combined Determination of Non-Significance (DNS) and Public Hearing Notice was issued on October 3, 2013. The comment period ended on October 17, 2013 with no comments received. The appeal period ends on October 31, 2013. No appeals were filed on the DNS. The public hearing notice was published at least 10 days prior to the public hearing as required by ACC 2.46.130 (Exhibit 6). 27. Pursuant to ACC 17.14.100, park dedication is required when a subdivision is greater than 50 lots or when multiple projects in the same vicinity equal more than 50 lots park dedication is required. The Hearing Examiner is guided by the City’s policies in the Parks, Open Space, and Recreation plan. If it is not feasible to dedicate land, then a fee in-lieu has been accepted by the City in the past. Exhibit 18 outlines the fee in-lieu calculation based on the proposed number of lots. 28. Pursuant to ACC 18.02.130, a residential project with more than 40 lots is required to hold a neighborhood meeting prior to submitting the preliminary plat application. The neighborhood meeting for the Westridge Subdivision was held on April 22, 2013 (Exhibit 17). IV. CONCLUSIONS: ACC 17.10.070 provides certain criteria for approval of a Preliminary Plat. The following is a list of these criteria (in italics) and staff analysis of how the Project compares to the criteria: 1. Adequate provisions are made for the public health, safety and general welfare and for open spaces, drainage ways, streets, alleys, other public ways, water supplies, sanitary wastes, parks, playgrounds and schools. Staff Analysis The Project includes adequate provisions for access, water and sanitary sewer service, stormwater management, fire protection, recreation, and schools. The internal plat roads will provide access for the Project’s 56 lots. In its review of the Project, the City’s Transportation Division has found the preliminary layout and road design is acceptable. During the facility extension review stage (civil plan review), additional detail will be required such as sight distance triangles at intersections, vertical plan and profile for the proposed emergency secondary access, channelization, and street signage. Lakehaven Utility District’s water and sewer service is available and capable of serving the Site as shown in the water and sewer certificates of availability (Exhibit 16) Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 6 Stormwater management, drainage, and erosion control will be adequately provided consistent with the ACC 13.48 Storm Drainage Utility, ACC 15.74 Land Clearing, Filling, and Grading, the City’s 2009 Surface Water Management Manual (SWMM), and any other applicable City standards. At the facility extension review stage (civil plan review), additional detail will be required to show that the stormdrainage facilities meet the City’s design standards. Adequate provision of fire protection is made through the payment of fire impact fees at the time of Building Permit issuance for each lot or deferred per Ordinance No. 6455 and consistency with the City of Auburn Engineering Design Standards and the 2012 International Fire Code (IFC) for fire hydrant placement. Adequate provisions for schools are made through the payment of school impact fees at the time of Building Permit issuance for each lot or deferred per Ordinance No. 6455. Sidewalks do not currently exist along the project frontage. Sidewalks will be provided along South 300th Street and the internal plat roads to provide pedestrian access. The school walkway analysis provides additional detail (Exhibit 14). Adequate provisions for parks are made through the payment of park impact fees at the time of Building Permit issuance for each lot or deferred per Ordinance No. 6455. The proposed project of 56 lots does reach the threshold of 50 units that requires the dedication of park space or mitigation payment per ACC 17.14.100. The applicant is providing some open space within the project, Tract C, however, the square footage does not meet the minimums required for ACC 17.14.100. The applicant has selected to provide a fee in-lieu of park space within the subdivision. 2. Conformance of the proposed subdivision to the general purposes of the comprehensive plan. Staff Analysis The Project is consistent with the general purposes of the Comprehensive Plan. Specifically the proposed project is consistent with the following Comprehensive Plan goals, objectives, and policies: Capital Facilities Goal 13: City Utilities Ensure that development will only occur if the urban services necessary to support the development will be available at the time of development. Objective 13.4: To ensure that collection, conveyance, storage and discharge of storm drainage is provided in a sufficient and environmentally responsible manner, in order to meet the needs of the existing community and provide for its planned growth. Policy CF-37: The City shall require developers to construct storm drainage improvements directly serving the development, including any necessary off-site improvements. Policy CF-45: The City shall promote policies which seek to maintain the existing conveyance capacity of natural drainage courses. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 7 Policy CF-53: The City shall seek to minimize the impacts to the natural river system’s hydrology by encouraging pre-treatment of surface flows of new development and re- introduction into the groundwater where feasible. The necessary City utilities are available for the proposed project. Water and sewer service is available and capable of serving the Site per the certificates of availability obtained from Lakehaven Utility District. The majority of the stormwater resulting from the proposed project will drain to the stormwater detention and water quality pond constructed by the developer and located in Tract A prior to controlled release near the northeast corner of the Site. Stormwater management, drainage, and erosion control will be adequately provided consistent with the ACC 13.48 Storm Drainage Utility, ACC 15.74 Land Clearing, Filling, and Grading, the City’s 2009 Surface Water Management Manual (SWMM), and any other applicable City standards. Land Use Goal 7: Residential Development To emphasize housing development at single family densities, in order to reestablish a mix of housing types appropriate for a family oriented community, while recognizing the need and desire for both lower density and higher density housing appropriately located to meet the housing needs of all members of the community. Policy LU-17: Residential densities in areas designated for single family residential uses should be no greater than 7 units per acre. Objective 7.2: To designate land for the development of new single family homes. Objective 7.3: To promote the development of quality single family neighborhoods which relate the design and types of residential areas to important natural and manmade features. Policy LU-26: Emphasis shall be placed upon the manner in which the recreational needs of the residents shall be met in the approval of any residential development. Parks Goal 21: Parks, Recreation, and Open Space To provide and maintain a comprehensive system of parks and opens spaces that responds to the recreational, cultural, environment, and aesthetic needs and desires of the City’s residents. Policy PR-2: New developments shall contribute to the development of new parks at a level commensurate with their share of new facility needs as established by the Park and Recreation Plan. The Site is 19.30 acres. The net site area used to calculate density, which excludes the Site area specified in ACC 18.02.065(A) Methods of Calculating Density, is 11.19 acres. With 56 lots proposed, this yields a density of 5.09 dwelling units per net acre, which is consistent with the Comprehensive Plan policy regarding density of areas designated for single-family residential uses. The proposed project meets the density of the R5 zoning district and land use designation of Single Family Residential and assists the City in meeting its housing targets and growth management objectives. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 8 Recreational needs of the residents are met through the assessment of park impact fees at the time of Building Permit issuance for each lot or deferred per Ordinance No. 6455. The proposed project of 56 lots does reach the threshold of 50 units that requires dedicated park space per ACC 17.14.100 or a fee in-lieu of dedication. The Parks, Arts, and Recreation department calculated the fee in-lieu of dedication amount utilizing the thresholds in the City’s Parks, Recreation, and Open Space Plan for neighborhood and community parks (Exhibit 18). Environment Goal 18: Environment and Natural Resources To maintain and promote a safe and healthy environment and preserve the quality of life, and to protect the area’s most unique, sensitive, and productive natural resources. The proposal will not have significant adverse environmental impacts provided that the project is consistent with all applicable City standards and regulations and the Conditions of Approval contained herein. Consequently, a SEPA Determination of Non- Significance (Exhibit 6) was issued on October 3, 2013 with no comments received and no appeals filed. 3. Conformance of the proposed subdivision to the general purposes of any other applicable policies or plans which have been adopted by the City Council. Staff Analysis The preceding analysis for Approval Criteria 2 is in support of the Project’s consistency with the City of Auburn Capital Facilities Plan, Comprehensive Water Plan, Comprehensive Sanitary Sewer Plan, Comprehensive Drainage Plan, and the Parks, Recreation, and Open Space Plan. The Project is also consistent with general purposes of the Comprehensive Transportation Plan. Specifically the Project is consistent with the following Comprehensive Plan elements: Street System Objective: Functional Classification To provide an integrated street network of appropriate classes of streets designed to facilitate different types of traffic flows and access needs. Policy TR-75: The classification standards adopted in the Auburn Engineering Design Standards are considered the City’s minimum standards for new streets. In cases in which the City attempts to rebuild an existing street within an established right-of-way, the City Council reserves the authority to determine if additional right-of-way should be obtained in order to realize the improvement. Preservation of neighborhood continuity and cohesiveness will be respected. The City’s Transportation Division has reviewed and accepted the Traffic Impact Analysis (TIA), prepared by TraffEx, dated April 17, 2013 and revised July 18, 2103. The proposed project will generate 42 am peak hour trips, 57 pm peak hour trips, and 536 average weekday trips. The Level of Service (LOS) for the intersections in the vicinity of the project are within the LOS standards for the City of Auburn. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 9 SOUTH 300TH STREET South 300th Street is designated as a Residential Collector, Type 1. Dedication along the South 300th Street varies as the road curves and the north property line of the subject property is not straight. The right-of-way dedication varies from 4 feet to 30 feet and achieves the City of Auburn Engineering Design Standard for Residential Collectors, Type 1. Construction of half-street improvements to the Residential Collector standard is required to maintain neighborhood continuity and cohesiveness by matching the frontage improvements across from the Site on South 300th Street. A deviation is requested for roadway width has been requested for South 300th Street. The existing 60 foot right-of-way is sufficient to accommodate the half-street improvements, curb, gutter, landscape strip, and sidewalk per the City’s standards. Pursuant to the City’s Comprehensive Transportation Plan, a six-foot bike lane is required. In order to accommodate the bike, the applicant is seeking to eliminate the center turn lane from South 300th (see later in the staff report for the justification). INTERNAL PLAT ROADS The internal plat roads are proposed to be public rights-of-way providing access to the project’s lots. It is to be dedicated and constructed to the City of Auburn Engineering Design Standard for Local Residential Streets. A deviation to the minimum horizontal curve radius of 333 feet is sought and proposed to be 55 feet (see later in the staff report for the justification). Non-Motorized System Objective: Pedestrian Travel To enhance and encourage pedestrian travel in Auburn. Policy TR-130: Require developers to incorporate pedestrian facilities into new development and redevelopment in conformance with the Auburn City Code. As part of the project, sidewalks are required for the internal plat roads and frontage improvements are required along the Site’s frontage of South 300th Street. Sidewalks will be constructed where sidewalks do not exist today, providing pedestrian access and safe school route access to Meredith Hill Elementary. Non-Motorized System Objective: Bicycle Travel To improve Auburn’s bicycling network. Policy TR-138: During the development review process, ensure projects are consistent with the Non-Motorized chapter of the Comprehensive Transportation Plan by requiring right-of-way dedications and other improvements as needed to develop the bicycle network. One 6 ft. bicycle lane will be provided on South 300th Street along the project frontage , which is designated as a future Class 2 or 3 bicycle route in the Comprehensive Transportation Plan. 4. Conformance of the proposed subdivision to the general purposes of this title, as enumerated in ACC 17.02.030. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 10 “The purpose of this title is to regulate the division of land lying within the corporate limits of the city, and to promote the public health, safety and general welfare and prevent or abate public nuisances in accordance with standards established by the state and the city, and to:  Prevent the overcrowding of land;  Promote safe and convenient travel by the public on streets and highways;  Promote the effective use of land;  Provide for adequate light and air;  Facilitate adequate provision for water, sewerage, storm drainage, parks and recreational areas, sites for schools and school grounds, and other public requirements;  Provide for proper ingress and egress;  Provide for the expeditious review and approval of proposed land divisions which comply with this title, the Auburn zoning ordinance, other city plans, policies and land use controls, and Chapter 58.17 RCW;  Adequately provide for the housing and commercial needs of the citizens of the state and city;  Require uniform monumenting of land divisions and conveyance by accurate legal description; and  Implement the goals, objectives and policies of the Auburn comprehensive plan.” Staff Analysis The proposed project meets the general purposes of ACC Title 17 Land Adjustments and Divisions. The proposed project will meet all density and lot dimension requirements for the R5 zone as specified in ACC 18.07 Residential Zones. The Project’s proposed lot dimensions meet the minimum width of 50 ft., minimum lot area per dwelling unit of 6,000 sq. ft., and the minimum average lot area per dwelling unit of 8,000 sq. ft. for the R5 zone. The density of the project remains within the maximum density of 5 dwelling units per net acre allowed for the R5 zone, and the project remains consistent with general purpose of the city’s subdivision code (ACC 17.02.030) in that it does not overcrowd the site with development, is an effective use of land, and provides for adequate light and air through the setback and lot coverage requirements of the R5 zoning district. As addressed under Staff Analysis Item No. 1 above, the proposed Project makes adequate provisions for ingress/egress, water, sewer, storm drainage, fire protection, schools, and parks. Staff Analysis Item No. 2, above, addresses how the project complies with the City of Auburn Comprehensive Plan. The proposed project will develop 56 single-family residential lots providing housing for citizens of the state and city. As such, the Project is also consistent with subdivision standards of Revised Code of Washington (RCW) 58.17. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 11 5. Conformance of the proposed subdivision to the Auburn zoning ordinance and any other applicable planning or engineering standards and specifications as adopted by the city, or as modified and approved as part of a previously approved PUD. Staff Analysis The proposed Project meets the R5 zoning district development regulations specified in ACC Section 18.07.030, except for minimum average lot area. A comparison of the project to the city standards is as follows Development Standard Standard of the R5 Zone Standard as Proposed by the Project Minimum lot width 50 ft. 50 ft. Minimum lot area per dwelling unit 6,000 sq. ft. 6,240 sq. ft. Minimum average lot area per dwelling unit 8,000 sq. ft. 8,227 sq. ft. The future single-family residences will be required to meet the minimum setbacks and lot coverage specified for the R5 zone in ACC 18.07.030. The Project meets or is capable of meeting other applicable standards. Improvements to the South 300th Street frontage, the internal plat roads, and storm drainage are required to meet the City’s Engineering Design and Construction Standards. The water and sewer facilities are required to meet Lakehaven Utility District standards. These facilities are reviewed as part of the Facility Extension (FAC), Grading, Storm, and Building Permit applications to be submitted by the applicant. 6. The potential environmental impacts of the proposed subdivision are mitigated such that the preliminary plat will not have an unacceptable adverse effect upon the quality of the environment. Staff Analysis The proposal will not have significant adverse environmental impacts. All potential environmental impacts of the Project are mitigated throug h applicable regulations and the Conditions of Approval contained herein. 7. Adequate provisions are made so the preliminary plat will prevent or abate public nuisances. Staff Analysis Adequate provisions are made so the proposed Project will prevent or abate public nuisances. MODIFICATION OF STANDARDS – ACC 17.18 Pursuant to this chapter, modifications can be made to standards or specifications if the modification meets the requirements of ACC 17.18.030. Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 12 The applicant has specifically requested the following modifications of standards be considered as part of the preliminary plat approval (Exhibit 9):  South 300th Street, not construct the center turn but accommodate the six-foot bike lane as required by the City’s Comprehensive Transportation Plan.  Construction of internal plat roads with a horizontal curve radius of 55 ft. rather than the Local Residential standard of 333 ft.  Driveway spacing for lots. Staff Analysis The deviation to the width of the Residential Collector is supported by staff, as the applicant does not propose to reduce the width of the Residential Collector, but proposes to eliminate the required center two-way left turn lane, in order to accommodate a six-foot bike lane. The applicant’s traffic engineer provided documentation that the queue lengths for the intersection of South 300th Street and 61st Avenue South are negligible and does warrant the two-way left center turn lane. A similar deviation request was granted for an adjacent subdivision, Wyncrest Division I, based on the same analysis. The turning movements into Wyncrest Division I are also low (based on the traffic analysis for that subdivision) and do not creating an adverse impact. A six-foot bike lane is a higher priority for the City in accomplishing our non-motorized network. Also, not widening South 300th Street to include a two-way left center turn lane is consistent with the existing road further west and with 64th Avenue South to the north. The second deviation request is for the horizontal curvature minimum of 333 feet for a local residential street. Construction of the internal plat roads with a horizontal curve radius of 55 ft. is consistent with King County standards to which neighboring subdivisions were approved. The request is consistent with the character of right-of-way within the vicinity, and literal interpretation of the City of Auburn Engineering Design Standards would deprive the applicant rights commonly enjoyed by other properties in the same zoning district and reasonable use of the site. Review of the Traffic Impact Analysis (TIA), prepared by TraffEx, dated April 25, 2013 and revised July 18, 2013 for the two-way left center turn lane deviation request, and the deviation requests’ analysis provided by the applicant’s engineer, the City’s Transportation Division found the requests to be acceptable. Modification to the City of Auburn Engineering Design Standards will not be materially detrimental to the surrounding properties. Lastly, the modification requests are consistent with the purpose of the ACC Title 17 Land Adjustments and Divisions and do not lessen the requirements of the zoning ordinance. V. STAFF RECOMMENDATION/DECISION Staff recommends approval, with the below conditions, of the Westridge Subdivision Preliminary Plat application. VI. CONDITIONS OF APPROVAL Approval of this Preliminary Plat is based upon compliance with the project description as provided in the application submitted April 26, 2013 and the Conditions of Approval set forth below. Any deviations from the project description, exhibits, timing or conditions must be Preliminary Plat – Westridge Subdivision PLT13-0001 Staff Report November 1, 2013 Page 13 reviewed and approved by the City of Auburn for conformity with this approval. Any change from these may require approval of changes to the permit and/or environmental review. 1. A financial performance security meeting the requirements of ACC 16.10.130B for the wetland buffer mitigation site will be required to be in place prior to issuance of permit approvals for ground disturbing work. The amount of the performance security shall equal 125 percent of the cost of construction, maintenance, and monitoring the mitigation project for the length of the monitoring period. 2. Pursuant to ACC 16.10.090E.1(f), Long-term protection of a regulated wetland and its associated buffer shall be provided by the designation of a separate tract on which development is prohibited, and protected by execution of an easement dedicated to the City. The easement shall grant the City access to on-site mitigation areas for the purposes of monitoring, maintaining, preserving, and enhancing the on-site wetland and associated buffer areas. The location and limitations associated with the wetland and its buffer shall be shown on the face of the final plat and shall be recorded with the appropriate county jurisdiction. 3. Roads twenty eight feet (28’) in width must be posted no-parking on one side of the street only to provide minimum fire apparatus access. This must be shown on the civil plans, review, and approved prior to issuance of a facility extension. 4. The temporary cul-de-sac must be posted no-parking around its entire perimeter to provide fire apparatus turnaround. This must be shown on the civil plans, review, and approved prior to issuance of a facility extension. 5. The emergency access road will need to have a separate easement granted to the Valley Regional Fire Authority since the road crosses Tracts C and D that will most likely be owned and maintained by the future Homeowner’s Association. The easement documents will need to be completed and reviewed by the City prior to final plat approval but can be recorded with the final plat document. If the emergency access road will have a gate then a Knox system must be utilized. 6. Lots 7 and 8 must be within 450 feet of a fire hydrant or have fire sprinklers installed to maintain the 20 foot width of the access tract. This shall be shown and addressed as part of the civil plan review process and approval. 7. As part of the frontage improvements required along South 300th Street, 3 inch conduit is required to be installed as well and must be shown on the civil plans. 8. Whenever any right of way landscaping in the City of Auburn has been improved, including but not limited to the planting of shrubs, plants, grass, or other landscaping improvements, the duty, burden, and expense of maintenance, watering, and general upkeep of such landscaping shall devolve upon to the owner of the private property directly abutting the sidewalk adjacent to the landscaped area or abutting the landscaped area. 9. The storm pond design will need to be revised in order to remove the uninterrupted, linear configuration along the east side. The applicant’s engineer will revise the footprint to add curvature along said side to avoid the long, linear design as currently proposed. WESTRIDGE PLAT REVISED TRAFFIC IMPACT ANALYSIS CITY OF AUBURN Prepared for Mr. Justin Lagers PNW Holdings, LLC. 9675 SE 36th St., Suite 105 Mercer Island, WA 98040 Prepared by 11410 NE 124th St., #590 Kirkland, Washington 98034 Telephone: 425.522.4118 Fax: 425.522.4311 July 18, 2013 July 18, 2013 Mr. Justin Lagers PNW Holdings, LLC. 9675 SE 36th St., Suite 105 Mercer Island, WA Re: Westridge Plat – City of Auburn Revised Traffic Impact Analysis Dear Mr. Lagers: We are pleased to submit this revised traffic impact analysis (TIA) report for the proposed Westridge project. The revisions are in response to comments to the original TIA from the City of Auburn in their letter dated July 2, 2013. The Westridge project consists of 56 residential lots and is located at 5903 S 300th St. in the City of Auburn. Access to the site will be via a new plat street forming the south leg of the existing 61st Ave. S/S 300th St. intersection. This TIA report follows the City of Auburn Transportation Impact Analysis Guidelines. We have visited the project site and surrounding street network, and have prepared this study in accordance with previous traffic studies for projects in the City of Auburn. PROJECT DESCRIPTION Figure 1 is a vicinity map showing the location of the site and the surrounding street network. Figure 2 shows the preliminary site plan. The site plan shows the location of the lots and plat streets. The proposed Westridge project will contain 56 new single family lots. Access is via a new site access street forming the south leg of the existing 61st Ave. S/S 300th St. intersection. It is currently a T intersection with a stop sign on the 61st Ave S. southbound approach. A stub road on the west side of the site will be provided for future street connections. The Westridge project is anticipated to be completed by 2015 and therefore is used for future year calculations. There was one single family home on the site that has been removed. Revised Westridge Plat TIA Page 2 TRIP GENERATION AND DISTRIBUTION Trip Generation Table 1 shows the vehicular trips expected to be generated by the Westridge project. The trip generation is calculated using average rates from the Institute of Transportation Engineers (ITE) Trip Generation, Eighth Edition, 2008 for Single Family Detached Housing (ITE Land Use Code 210). A vehicle trip is defined as a single or one direction vehicle movement with either the origin or destination (exiting or entering) inside the proposed development. These trip generation values account for all site trips made by all vehicles for all purposes (including residents, visitors, and service and delivery vehicle trips). Previous traffic studies in the project area have shown that the PM peak period is the critical period of the day and is therefore analyzed in this report. Table 1 shows that the Westridge project will generate 536 daily trips with 42 AM peak hour trips and 57 PM peak hour trips. TABLE 1 TRIP GENERATION WESTRIDGE 56 Single Family Detached Residential Units Time Period Trip Rate Trips Entering Trips Exiting Total Average Weekday 9.57 268 50% 268 50% 536 AM Peak Hour 0.75 10 25% 32 75% 42 PM Peak Hour 1.01 36 63% 21 37% 57 Trip Distribution Figure 3 shows the estimated trip distribution and the calculated site-generated PM peak hour traffic volumes for the proposed Westridge project. The trip distribution is based on the characteristics of the road network, existing traffic volume patterns, the Revised Westridge Plat TIA Page 3 location of likely trip origins and destinations (business, shopping, social and recreational opportunities), and expected travel times. EXISTING TRAFFIC CONDITIONS Roadway Facilities Figure 4 shows existing traffic control, number of roadway lanes, number of approach lanes at intersections, and other pertinent information in the site vicinity. The primary streets and the City’s classifications within the site vicinity are: 51st Ave. S Minor Arterial 64th Ave S Residential Collector S 298th St. (65th Ave S) Residential Collector S 300th St. Local 61st Ave S. Local The posted speed limit on S. 300th St. is 25 mph. There is a school zone which reduces the speed to 20 mph when children are present. There are existing, continuous sidewalks on the north side of S. 300th St. and the west side of 64th Ave South. There is an existing marked crosswalk across the north leg of the 61st Ave. S/S. 300th St. intersection. There are existing crosswalks with pedestrian heads across the north and west legs of the Meridian Elementary School Access St./S.300th St. intersection. This is a signalized intersection. This project will construct a sidewalk on the south side of S. 300th St. that will connect to the existing sidewalk on the southeast corner of the Meridian Hill Elementary School Access St./S 300th St. intersection. There will be no gaps in sidewalks on the south side of S. 300th St. from the project site to the existing sidewalk. This project will also construct sidewalks on the internal plat streets. Another proposed development adjacent to the east side of the project site will construct a sidewalk on the south side of S. 300th St. from east boundary of the project site to 64th Ave S. and there a crosswalk. The school walking route from the site to the Meridian Elementary School would be along the south side of S. 300th St and then existing signalized crosswalk to the school grounds. The school walking route for middle and high school students will be the sidewalk to be built by the adjacent development on the south side of S. 300th St. and the crosswalk to the west side of 64th Ave. S, then using the existing sidewalk to the bus stop located on the west side of 64th Ave. South. A School Walkway Analysis was prepared by D.R. Stong Consulting Engineers dated April 25, 2013. Traffic Volumes Figure 5 shows existing PM peak hour traffic volumes at the study intersections. The 51st Ave. S/S 300th Pl. intersection is the nearest intersection from the site to a Revised Westridge Plat TIA Page 4 minor arterial and the 64th Ave. S/S 298th St. intersection is the nearest intersection to a residential collector. All of the other streets in the project vicinity are local residential streets. PM peak hour turning movement counts were performed at the 51st Ave. S/S 300th Pl. and 61St Ave S./S 300th St. intersections on March 21, 2013. The PM peak hour turning movement traffic volumes at the 64th Ave. S/65th Ave. S intersection were provided by the City of Auburn. The supplied count was taken in June of 2011. Since traffic growth has been flat or negative recently, this traffic volume count should reflect current conditions. As a check of this, the City supplied a 2009 count at the same intersection. The traffic volumes in the 2011 count are less than the 2009 count by approximately 5 percent. All traffic count data is attached in the technical appendix. Level of Service Analysis Level of service (LOS) is a qualitative measure describing operational conditions within a traffic flow, and the perception of these conditions by drivers or passengers. These conditions include factors such as speed, delay, travel time, freedom to maneuver, traffic interruptions, comfort, convenience, and safety. Levels of service are given letter designations, from A to F, with LOS A representing the best operating conditions (free flow, little delay) and LOS F the worst conditions (congestion, long delays). Generally, LOS A and B are high, LOS C and D are moderate, and LOS E and F are low. The LOS was calculated using the procedures in the Transportation Research Board Highway Capacity Manual, and the SYNCHRO/SimTraffic software. At stopped controlled intersections, LOS is determined by the calculated average control delay per vehicle for the worst movement. The LOS and corresponding average delay in seconds are as follows: TYPE OF IIINTERSECTION A B C D E F Signalized <10.0 >10 and <20 >20 and <35 >35 and <55 >55 and <80 >80.0 Stop Sign Control <10.0 >10 and <15 >15 and <25 >25 and <35 >35 and <50 >50.0 Table 2 shows the calculated LOS and associated delays for existing conditions. Collision Analysis Revised Westridge Plat TIA Page 5 The City of Auburn provided the last three years of accident data for S 300th St. and 64th Ave. S in the project vicinity. There were no recorded accidents on S 300th St. in the project vicinity during this time. There was one recorded accident on 64th Ave. S at S 298th Pl. during 2011. The accident was property damage only. There were no fatalities and the number of accidents are considered to be low and do not indicate that there is an existing accident problem. FUTURE TRAFFIC CONDITIONS WITHOUT THE PROJECT Planned Roadway Improvement Projects There are no planned roadway improvement projects in the Westridge vicinity on the City’s six-year Transportation Improvement Program (TIP). There are also no roadway projects listed in the City’s Comprehensive Plan that would affect the Westridge project. Traffic Volumes Figure 6 shows projected future 2015 PM peak hour traffic volumes at the study intersections without the Westridge project. The City has indicated in other recent studies that a growth rate of one percent per year is sufficient. Therefore a 2% background growth rate was added to existing volumes for the two year period from 2013 to the project horizon year of 2015. In addition to the background growth rate, pipeline project trips generated by the 24 lots of the nearby Wyncrest Division I and 37 lots of Wyncrest Division II were also added to the future traffic volumes shown in Figure 6. FUTURE TRAFFIC CONDITIONS WITH PROJECT Traffic Volumes Figure 7 shows the projected future 2015 background PM peak hour traffic volumes with the proposed Westridge project. The site-generated PM peak hour traffic volumes shown on Figure 3 were added to the projected future traffic volumes shown on Figure 6 to obtain the Figure 7 volumes. Levels of Service Table 2 shows calculated LOS for future 2015 conditions with and without the proposed Westridge project at the study intersections. Peak hour factors from the Revised Westridge Plat TIA Page 6 study counts were used for the LOS calculations as shown in the LOS summary sheets in the attached technical appendix The LOS at the 61st Ave. S/S 300th St/Site access intersection is calculated to operate at LOS A for future conditions. The LOS at the other two study intersections is calculated at LOS C for future conditions. Therefore, all study intersections are calculated to operate at an acceptable LOS for future conditions, TRAFFIC IMPACT MITIGATION Traffic Impact Fees The City's traffic impact fee program currently requires a payment of $3,882.61 per net new PM peak hour trip for single family detached housing. There was one existing residence on the site that has been removed. Therefore, the current fee for the Westridge project is estimated to be $213,544 (55 net new single family residences X $3,882.61 per residence) There are no actively scheduled City roadway projects in the Westridge vicinity. Therefore, there are no pro-rata mitigation contributions to any project. Roadway Improvements The City of Auburn requires frontage improvements as part of the development process. The Westridge Plat project has frontage along S 300th St. that will be required to be improved. Additionally, the new plat roads are required to be constructed to City of Auburn standards. Revised Westridge Plat TIA Page 7 SUMMARY, CONCLUSIONS AND RECOMMENDATIONS This report uses existing traffic data collected at nearby intersections for analysis. Level of service analyses were performed for existing and future conditions with and without project traffic volumes. The analysis shows the project will not cause any significant adverse effects in the PM peak hour operation of the study intersections. There is no apparent accident problem or any potential level of service or queuing problems with the proposed Westridge project access. Based on the above information and analysis, we have the following conclusions and recommendations regarding traffic impacts and mitigation for the proposed Westridge Plat project: 1. Construct frontage improvements along S 300th St. to the City of Auburn standards. 2. Construct internal plat roads to City of Auburn standards. 3. Remit an estimated $213,544 to the City for payment of the Westridge Plat traffic impact fees. No other traffic mitigation should be necessary. If you have any questions, please call 425-522-4118. You may also contact us via e-mail at vince@nwtraffex.com or larry@nwtraffex.com. Very truly yours, Vincent J. Geglia Larry D. Hobbs, P.E. Principal Principal TraffEx TraffEx Revised Westridge Plat TIA Page 8 TABLE 2 PM PEAK HOUR LEVEL OF SERVICE SUMMARY WESTRIDGE PLAT INTERSECTION EXISTING 2013 2015 WITHOUT PROJECT 2015 WITH PROJECT 51st Ave. S/ S 300th Pl. WB (B 14.5) WB (C 15.1) WB (C 15.5) 61st Ave. S/ S 300th Pl. SB (A 8.8) SB (A 8.9) SB (A 9.2) 64th Ave. S/ 65th Ave. S SB (B 12.8) SB (B 14.6) SB (C 16.7) * Number shown is the average control delay in seconds per vehicle for the worst approach or movement which determines the LOS for an unsignalized intersection per the Transportation Research Board Highway Capacity Manual (XX) LOS and average control delay WB westbound approach SB eastbound approach WestridgePlat VicinityMap Figure 1 ExTraff Northwest TrafficExperts N *ProjectSite WestridgePlat SitePlan Figure 2 N WestridgePlat SiteGeneratedTrafficVolumes Figure 3 N Pro j e c t S i t e 65thAve.S ExTraff Northwest TrafficExperts 312 61 s t Av e . S S300thPl. 51 s t Av e . S 3 2 PMPeakHour IntersectionNumberX XX%PercentageofProjectTraffic PMPeakHourIntersection TrafficVolumeandDirection XX Legend 36Enter 21Exit 57Total 30% 60% 70% 1 64 t h Av e . S S300thSt. 10% 15% 15% 0 5 3 3 0 6 51stAveS/S300thPl 0 4 0 00 00 021 0 2 13 65thAveS64thAveS/ 0 0 0 00 00 1125 6 0 15 S300thSt61stAveS/ Pro j e c t Site 65thAve.S 61 s t Av e . S S300thPl. 51 s t Av e . S 3 2 1 64 t h Av e . S S300thSt. WestridgePlat ExistingConditions Figure 4 N ExTraff Northwest TrafficExperts 64thAve/65thAve IntersectionNumberX StopSignControl LaneUseandDirection Legend 3 SpeedLimitXXMPH 2 61stAve/300thPl 1 51stAve/300thPl WestridgePlat ExistingTrafficVolumes Figure 5 N Pro j e c t S i t e 65thAve.S ExTraff Northwest TrafficExperts 312 61 s t Av e . S S300thPl. 51 s t Av e . S 3 2 IntersectionNumberX XX%PercentageofProjectTraffic PMPeakHourIntersection TrafficVolumeandDirection XX Legend 1 64 t h Av e . S S300thSt. 4 0 3 913 3047 00 0 0 0 S300thSt61stAveS/ 0 8 11 4 0271 00 056 0 4 27 65thAveS64thAveS/ 35 6 32 20 41 22 7 40 51stAveS/S300thPl WestridgePlat FutureWithoutProjectPMPeakHourTrafficVolumes Figure 6 N Pro j e c t S i t e 65thAve.S ExTraff Northwest TrafficExperts 312 61 s t Av e . S S300thPl. 51 s t Av e . S 3 2 IntersectionNumberX XX%PercentageofProjectTraffic PMPeakHourIntersection TrafficVolumeandDirection XX Legend 1 64 t h Av e . S S300thSt. 36 3 39 23 45 23 2 47 51stAveS/S300thPl 4 0 3 913 4355 00 0 0 0 S300thSt61stAveS/ 0 12 11 6 0276 00 080 0 6 42 65thAveS64thAveS/ WestridgePlat FutureWithProjectPMPeakHourTrafficVolumes Figure 7 N Pro j e c t S i t e 65thAve.S ExTraff Northwest TrafficExperts 312 61 s t Av e . S S300thPl. 51 s t Av e . S 3 2 IntersectionNumberX XX%PercentageofProjectTraffic PMPeakHourIntersection TrafficVolumeandDirection XX Legend 1 64 t h Av e . S S300thSt. 36 3 44 26 48 23 2 53 51stAveS/S300thPl 4 0 3 913 4355 1125 6 0 15 S300thSt61stAveS/ 0 16 11 6 0276 00 0101 0 8 55 65thAveS64thAveS/ TECHNICAL APPENDIX Prepared for: TraffEx Traffic Count Consultants, Inc. Phone: (253) 926-6009 FAX: (253) 922-7211 E-Mail: Team@TC2inc.com WBE/DBE 61st Ave S & S 300th St Wed 03/20/2013 Auburn, Washington Jess Time Interval61st Ave S0S 300th StS 300th St Ending atTLSRTLSRTLSRTLSR 4:15 P0100000000 10 20120 16 4:30 P0200000000 17 00170 27 4:45 P0101000000 12 40150 24 5:00 P0100000000930160 20 5:15 P0100000000 12 30370 26 5:30 P0001000000 15 51050 26 5:45 P0000000000 11 303 11 0 28 6:00 P0203000000920370 26 6:15 P00000000000000000 6:30 P00000000000000000 6:45 P00000000000000000 7:00 P00000000000000000 Total Survey0805000000 9522 1 1350 0 193 Peak Hour:5:00 PM to 6:00 PM Total0304000000 4713 19 30 0 106 Approach70 6039106 %HV n/an/a n/a 2.6%0.9% PHF 0.35n/a0.750.70 0.95 61st Ave S 29 722 0Bike S 300th St 4 0 3 0Ped S 300th St 13 51 Ped2 4760 Bike0 0 93 90 9 0Bike 3930 5:00 PM to 6:00 PM2Ped 33 0 PEDs Across:NSEW Ped0 000 112 1.0 PHF Peak Hour Volume INT 01 0 Bike0 PHF%HV INT 02 0 EB 0.70 2.6% INT 03 0 00 CheckWB 0.75 n/a INT 04 0 In:106 NB n/a n/a INT 05 112 0 Out:106 SB 0.35 n/a INT 06 11 0 T Int.0.950.9% INT 07 0 Conditions: INT 08 11 INT 01 0 INT 09 0 INT 02 0 INT 10 0 INT 03 0 INT 11 0 INT 04 11 INT 12 0 INT 05 0 0022 INT 06 0 Special Notes INT 07 0 INT 08 0 INT 09 0 INT 10 0 INT 11 0 INT 12 0 10001 TRA13049M_01p Prepared for: TraffEx Traffic Count Consultants, Inc. Phone: (253) 926-6009 FAX: (253) 922-7211 E-Mail: Team@TC2inc.com WBE/DBE 51st Ave S & S 300th Pl Wed 03/20/2013 Auburn, Washington Jess Time Interval51st Ave S51st Ave SS 300th PlS 300th Pl Ending atTLSRTLSRTLSRTLSR 4:15 P05 62 716 57 705040103 157 4:30 P19 76 92 106410 07130315 198 4:45 P09 75 825 4813 07350117 182 5:00 P1 1779 422 58 907050415 191 5:15 P07 80 10 115515 1 10 020222 187 5:30 P17 92 608 56 207080005 191 5:45 P0 1176 506 54 80 10 040219 186 6:00 P07 87 912 5812 0 12 260009 204 6:15 P00000000000000000 6:30 P00000000000000000 6:45 P00000000000000000 7:00 P00000000000000000 Total Survey3 7262749 8 5045076 1 65 6 37 0 13 6 451496 Peak Hour:5:00 PM to 6:00 PM Total1 3233521 1 2722337 1 39 2 20 043 25768 Approach 3882876132768 %HV 0.3%0.3%1.6%n/a0.4% PHF 0.920.890.760.67 0.94 51st Ave S 635 388247 0Bike S 300th Pl 2133532 0Ped S 300th Pl 20 50 Ped3 261 Bike0 39 133 82 4 0Bike 323 5:00 PM to 6:00 PM1Ped 72 25 PEDs Across:NSEWPed2 2722337 816 1.0 PHF Peak Hour Volume INT 01 0Bike0 PHF%HV INT 02 11 EB 0.67 n/a INT 03 0 399287 CheckWB 0.76 1.6% INT 04 0 In:768 NB 0.89 0.3% INT 05 11 686 Out:768 SB 0.92 0.3% INT 06 11 51st Ave S T Int.0.940.4% INT 07 123 N U'sS U'sE U'sW U's INT 08 11 INT 01 00 INT 09 0 INT 02 01 INT 10 0 INT 03 01 INT 11 0 INT 04 00 INT 12 0 INT 05 00 0214 INT 06 NO BIKES00 Special Notes INT 07 00 INT 08 00 INT 09 0 INT 10 0 INT 11 0 INT 12 0 000000020 TRA13049M_02p Prepared for: City of Auburn Traffic Count Consultants, Inc. Phone: (425) 861-8866 FAX: (425) 861-8877 E-Mail: Team@tc2inc.com WBE/DBE Intersection:64th Ave S & 65th Ave S Date of Count:Wed 6/08/2011 Location:Auburn, Washington Checked By:Jess Time From North on (SB)From South on (NB)From East on (WB)From West on (EB)Interval Interval64th Ave S64th Ave S65th Ave S0 Total Ending atTLSRTLSRTLSRTLSR 4:15 P028 30000121140730000130 4:30 P129 2020151190560000112 4:45 P026 100025090690000112 5:00 P231 2000151140730000126 5:15 P016 00001100150730000115 5:30 P030 1000260170660000122 5:45 P129 1000060100650000111 6:00 P127 10001113120540000106 6:15 P0 0000000000000000 6:30 P0 0000000000000000 6:45 P0 0000000000000000 7:00 P0 0000000000000000 Survey521611020860611005290000934 Peak Hour:16:00to17:00 Total3114 802042735602710000480 Approach122313270480 %HV 2.5%6.5%0.9%n/a1.7% PHF0.920.650.94n/a0.92 64th Ave S 397 122275 0 Bike 0 08114 2Ped 65th Ave S 271 0 Ped0 0327 Bike 0 56 468 0 0 0 Bike 004:00 PM to 5:00 PM 0Ped 141 0 PEDs across NSEW Ped1 0427 520 1.0 PHF Peak Hour Volume INT 01 0Bike 0 PHF %HV INT 02 0 EB n/an/a INT 03 116431 Check WB 0.940.9% INT 04 22 In:480 NB 0.656.5% INT 05 0 95Out:480 SB 0.922.5% INT 06 0 64th Ave S Intersection 0.921.7% INT 07 0 Bicycles From:NSEW INT 08 11INT 01 0Special Notes: INT 09 0 INT 02 0 INT 10 0 INT 03 0 INT 11 0 INT 04 0 INT 12 0 INT 05 0 31004 INT 06 0 INT 07 0 INT 08 0 00000 AUB11033M_21p Crash Record System JB Technology Inc. Page 1 Intersection Report City of Auburn Tuesday, January 22, 2013 Intersection:64th Ave S at S 298th Pl Report Period: Wednesday, September 24, 2008 to Wednesday, September 28, 2011 YEAR: 2011 Case Direction Severity Tot Number Crash Date Crash Time Type of Crash Vehicle 1/Vehicle 2 Fat Inj PDO Veh 11-10513 Wed - 09/28/2011 10:39 PM Fixed Object/Parked Vehicle WB Left / X 1 Total Crashes: 1 Totals:1 1 YEAR: 2008 Case Direction Severity Tot Number Crash Date Crash Time Type of Crash Vehicle 1/Vehicle 2 Fat Inj PDO Veh 08011778Wed - 09/24/2008 04:32 AM Fixed Object/Parked Vehicle WB Right / X 1 Total Crashes: 1 Totals:1 1 REPORT TOTALS: Number of Crashes:2 Number of Fatalities:0 (0.00%) Number of Injuries:0 (0.00%) Number of PDOs:2 (100.00%) Number of Vehicles Involved:2 Number of People Killed:0 (0.00%) Number of People Injured:0 (0.00%) Crash Rate:.00 Crash Record System JB Technology Inc. Page 2 Intersection Summary Report City of Auburn Tuesday, January 22, 2013 Intersection:64th Ave S at S 298th Pl Report Period: Wednesday, September 24, 2008 to Wednesday, September 28, 2011 SEVERITY 2011 2010 2009 OTHERS TOTALS % Fatals 0/0 0/0 0/0 0/0 0 0.00 Injuries 0/0 0/0 0/0 0/0 0 0.00 Property Damage Only 1 0 0 1 2 100.00 TOTALS 1 0 0 1 2 100.00 TYPE OF CRASH 2011 2010 2009 OTHERS TOTALS % Right Angle 0 0.00 Sideswipe 0 0.00 Rear End 0 0.00 Head On 0 0.00 Fixed Object/Parked Vehicle 1 1 2 100.00 Approach Turn 0 0.00 Pedestrian/Byclist Involved 0 0.00 Backing 0 0.00 Other 0 0.00 TOTALS 1 0 0 1 2 100.00 TIME OF DAY 2011 2010 2009 OTHERS TOTALS % Mid - 1:59 0 0.00 2:00 - 3:59 0 0.00 4:00 - 5:59 1 1 50.00 6:00 - 7:59 0 0.00 8:00 - 9:59 0 0.00 10:00 - 11:59 0 0.00 Noon - 13:59 0 0.00 14:00 - 15:59 0 0.00 16:00 - 17:59 0 0.00 18:00 - 19:59 0 0.00 20:00 - 21:59 0 0.00 22:00 - 23:59 1 1 50.00 TOTALS 1 0 0 1 2 100.00 Crash Record System JB Technology Inc. Page 3 Intersection Summary Report (cont) City of Auburn Tuesday, January 22, 2013 Intersection:64th Ave S at S 298th Pl Report Period: Wednesday, September 24, 2008 to Wednesday, September 28, 2011 DAY OF WEEK 2011 2010 2009 OTHERS TOTALS % Sunday 0 0.00 Monday 0 0.00 Tuesday 0 0.00 Wednesday 1 1 2 100.00 Thursday 0 0.00 Friday 0 0.00 Saturday 0 0.00 TOTALS 1 0 0 1 2 100.00 LIGHT CONDITIONS 2011 2010 2009 OTHERS TOTALS % Daylight 0 0.00 Dawn 0 0.00 Dusk 0 0.00 Dark - Street Lights On 1 1 50.00 Dark - Street Lights Off 1 1 50.00 Dark - No Street Lights 0 0.00 Other 0 0.00 Unknown 0 0.00 TOTALS 1 0 0 1 2 100.00 WEATHER 2011 2010 2009 OTHERS TOTALS % Clear/Partly Cloudy 1 1 2 100.00 Overcast 0 0.00 Raining 0 0.00 Snowing 0 0.00 Fog/Smog/Smoke 0 0.00 Sleet/Hail/Freezing Rain 0 0.00 Severe Crosswind 0 0.00 Blowing Sand/Dirt/Snow 0 0.00 Other 0 0.00 Unknown 0 0.00 TOTALS 1 0 0 1 2 100.00 Crash Record System JB Technology Inc. Page 4 Intersection Summary Report (cont) City of Auburn Tuesday, January 22, 2013 Intersection:64th Ave S at S 298th Pl Report Period: Wednesday, September 24, 2008 to Wednesday, September 28, 2011 ROADWAY CONDITION 2011 2010 2009 OTHERS TOTALS % Dry 1 1 2 100.00 Wet 0 0.00 Snow/Slush 0 0.00 Ice 0 0.00 Sand/Mud/Dirt 0 0.00 Oil 0 0.00 Standing Water 0 0.00 Other 0 0.00 Unknown 0 0.00 TOTALS 1 0 0 1 2 100.00 Existing PM Peak Hour 3: 65th Ave S & 64th Ave S 3/22/2013 Baseline Synchro 7 - Report Page 1 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)562714271148 Sign ControlFreeStopStop Grade0%0%0% Peak Hour Factor0.940.940.650.650.920.92 Hourly flow rate (vph)602886421249 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume04070308263 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol04070308263 tC, single (s)4.16.66.37.16.5 tC, 2 stage (s) tF (s)2.24.13.43.54.0 p0 queue free %9699967999 cM capacity (veh/h)16365061070595617 Direction, Lane #WB 1NB 1SB 1 Volume Total34848133 Volume Left600124 Volume Right288420 cSH1636936596 Volume to Capacity0.040.050.22 Queue Length 95th (ft)3421 Control Delay (s)1.59.112.8 Lane LOSAAB Approach Delay (s)1.59.112.8 Approach LOSAB Intersection Summary Average Delay 5.0 Intersection Capacity Utilization 39.9%ICU Level of Service A Analysis Period (min)15 Existing PM Peak Hour 5: S 300th Pl & 51st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 2 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)41202274032356 Sign ControlStopFreeFree Grade0%0%0% Peak Hour Factor0.940.940.940.940.940.94 Hourly flow rate (vph)44112414334379 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume710263284 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol710263284 tC, single (s)6.46.24.1 tC, 2 stage (s) tF (s)3.53.32.2 p0 queue free %899997 cM capacity (veh/h)3907761290 Direction, Lane #WB 1NB 1SB 1 Volume Total54284413 Volume Left44034 Volume Right11430 cSH43217001290 Volume to Capacity0.130.170.03 Queue Length 95th (ft)1102 Control Delay (s)14.50.00.9 Lane LOSBA Approach Delay (s)14.50.00.9 Approach LOSB Intersection Summary Average Delay 1.5 Intersection Capacity Utilization 48.2%ICU Level of Service A Analysis Period (min)15 Existing PM Peak Hour 7: S 300th St & 61st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 3 MovementEBLEBTWBTWBRSBLSBR Lane Configurations Volume (veh/h)930471334 Sign ControlFreeFreeStop Grade0%0%0% Peak Hour Factor0.950.950.950.950.950.95 Hourly flow rate (vph)932491434 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft)900 pX, platoon unblocked vC, conflicting volume6310756 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol6310756 tC, single (s)4.16.46.2 tC, 2 stage (s) tF (s)2.23.53.3 p0 queue free %99100100 cM capacity (veh/h)15528901016 Direction, Lane #EB 1WB 1SB 1 Volume Total41637 Volume Left903 Volume Right0144 cSH15521700958 Volume to Capacity0.010.040.01 Queue Length 95th (ft)001 Control Delay (s)1.70.08.8 Lane LOSAA Approach Delay (s)1.70.08.8 Approach LOSA Intersection Summary Average Delay 1.2 Intersection Capacity Utilization 18.7%ICU Level of Service A Analysis Period (min)15 Future Without Project PM Peak Hour 3: 65th Ave S & 64th Ave S 3/22/2013 Baseline Synchro 7 - Report Page 1 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)8027664211612 Sign ControlFreeStopStop Grade0%0%0% Peak Hour Factor0.940.940.650.650.920.92 Hourly flow rate (vph)8529496512613 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume04640386317 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol04640386317 tC, single (s)4.16.66.37.16.5 tC, 2 stage (s) tF (s)2.24.13.43.54.0 p0 queue free %9598947598 cM capacity (veh/h)16364631070507566 Direction, Lane #WB 1NB 1SB 1 Volume Total37974139 Volume Left850126 Volume Right294650 cSH1636920512 Volume to Capacity0.050.080.27 Queue Length 95th (ft)4727 Control Delay (s)2.09.314.6 Lane LOSAAB Approach Delay (s)2.09.314.6 Approach LOSAB Intersection Summary Average Delay 5.9 Intersection Capacity Utilization 41.8%ICU Level of Service A Analysis Period (min)15 Future Without Project PM Peak Hour 5: S 300th Pl & 51st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 2 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)45232324739363 Sign ControlStopFreeFree Grade0%0%0% Peak Hour Factor0.940.940.940.940.940.94 Hourly flow rate (vph)48122475041386 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume741272297 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol741272297 tC, single (s)6.46.24.1 tC, 2 stage (s) tF (s)3.53.32.2 p0 queue free %879897 cM capacity (veh/h)3717671276 Direction, Lane #WB 1NB 1SB 1 Volume Total60297428 Volume Left48041 Volume Right12500 cSH41517001276 Volume to Capacity0.140.170.03 Queue Length 95th (ft)1303 Control Delay (s)15.10.01.1 Lane LOSCA Approach Delay (s)15.10.01.1 Approach LOSC Intersection Summary Average Delay 1.7 Intersection Capacity Utilization 49.7%ICU Level of Service A Analysis Period (min)15 Future Without Project PM Peak Hour 7: S 300th St & 61st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 3 MovementEBLEBTWBTWBRSBLSBR Lane Configurations Volume (veh/h)943551334 Sign ControlFreeFreeStop Grade0%0%0% Peak Hour Factor0.950.950.950.950.950.95 Hourly flow rate (vph)945581434 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft)900 pX, platoon unblocked vC, conflicting volume7212965 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol7212965 tC, single (s)4.16.46.2 tC, 2 stage (s) tF (s)2.23.53.3 p0 queue free %99100100 cM capacity (veh/h)15418651005 Direction, Lane #EB 1WB 1SB 1 Volume Total55727 Volume Left903 Volume Right0144 cSH15411700940 Volume to Capacity0.010.040.01 Queue Length 95th (ft)001 Control Delay (s)1.30.08.9 Lane LOSAA Approach Delay (s)1.30.08.9 Approach LOSA Intersection Summary Average Delay 1.0 Intersection Capacity Utilization 19.4%ICU Level of Service A Analysis Period (min)15 Future With Project PM Peak Hour 3: 65th Ave S & 64th Ave S 3/22/2013 Baseline Synchro 7 - Report Page 1 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)10127685511616 Sign ControlFreeStopStop Grade0%0%0% Peak Hour Factor0.940.940.650.650.920.92 Hourly flow rate (vph)107294128512617 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume05090452362 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol05090452362 tC, single (s)4.16.66.37.16.5 tC, 2 stage (s) tF (s)2.24.13.43.54.0 p0 queue free %9397927197 cM capacity (veh/h)16364301070441527 Direction, Lane #WB 1NB 1SB 1 Volume Total40197143 Volume Left1070126 Volume Right294850 cSH1636900450 Volume to Capacity0.070.110.32 Queue Length 95th (ft)5934 Control Delay (s)2.49.516.7 Lane LOSAAC Approach Delay (s)2.49.516.7 Approach LOSAC Intersection Summary Average Delay 6.7 Intersection Capacity Utilization 43.2%ICU Level of Service A Analysis Period (min)15 Future With Project PM Peak Hour 5: S 300th Pl & 51st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 2 MovementWBLWBRNBTNBRSBLSBT Lane Configurations Volume (veh/h)48262325344363 Sign ControlStopFreeFree Grade0%0%0% Peak Hour Factor0.940.940.940.940.940.94 Hourly flow rate (vph)51142475647386 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft) pX, platoon unblocked vC, conflicting volume755275303 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol755275303 tC, single (s)6.46.24.1 tC, 2 stage (s) tF (s)3.53.32.2 p0 queue free %869896 cM capacity (veh/h)3637641269 Direction, Lane #WB 1NB 1SB 1 Volume Total65303433 Volume Left51047 Volume Right14560 cSH40817001269 Volume to Capacity0.160.180.04 Queue Length 95th (ft)1403 Control Delay (s)15.50.01.2 Lane LOSCA Approach Delay (s)15.50.01.2 Approach LOSC Intersection Summary Average Delay 1.9 Intersection Capacity Utilization 50.4%ICU Level of Service A Analysis Period (min)15 Future With Project PM Peak Hour 7: S 300th St & 61st Ave S 3/22/2013 Baseline Synchro 7 - Report Page 3 MovementEBLEBTEBRWBLWBTWBRNBLNBTNBRSBLSBTSBR Lane Configurations Volume (veh/h)943112555136015304 Sign ControlFreeFreeStopStop Grade0%0%0%0% Peak Hour Factor0.950.950.920.920.950.950.920.920.920.950.920.95 Hourly flow rate (vph)945122758147016304 Pedestrians Lane Width (ft) Walking Speed (ft/s) Percent Blockage Right turn flare (veh) Median typeNoneNone Median storage veh) Upstream signal (ft)900 pX, platoon unblocked vC, conflicting volume72571931965120619565 vC1, stage 1 conf vol vC2, stage 2 conf vol vCu, unblocked vol72571931965120619565 tC, single (s)4.14.17.16.56.27.16.56.2 tC, 2 stage (s) tF (s)2.22.23.54.03.33.54.03.3 p0 queue free %99989910098100100100 cM capacity (veh/h)1541154774968310177316841005 Direction, Lane #EB 1WB 1NB 1SB 1 Volume Total6799237 Volume Left92773 Volume Right1214164 cSH15411547923866 Volume to Capacity0.010.020.020.01 Queue Length 95th (ft)0121 Control Delay (s)1.12.19.09.2 Lane LOSAAAA Approach Delay (s)1.12.19.09.2 Approach LOSAA Intersection Summary Average Delay 2.8 Intersection Capacity Utilization 18.8%ICU Level of Service A Analysis Period (min)15 April 11, 2013 Justin Lagers PNW Holdings, LLC 9725 SE 36th Street, Suite 214 Mercer Island, Washington 98040 RE: Westridge – City of Auburn Critical Areas Report SWC Job#13-106 1.0 INTRODUCTION This report describes our observations of any jurisdictional wetlands, stre ams and buffers on or within 100’ of the proposed Westridge plat, in the City of Auburn, Washington (the “site”). Vicinity Map Sewall Wetland Consulting, Inc. 27641 Covington Way SE #2 253-859-0515 Covington, WA 98042 Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 2 The site consists of a 19.3 acre Parcel (#022104-9027) located in a portion of the SE 1/4 of Section 02, Township 21 North, Range 4 East of the Willamette Meridian in King County, Washington. The site consists of a mix of fallow pasture on the south and east, mixed forest on the north, and the remains of a former home site and exotic bird farm located to the south of South 300th Street. King County iMap Parcel map of the site. 2.0 METHODOLOGY Ed Sewall of Sewall Wetland Consulting, Inc. inspected the site on April 2, 2013. The site was reviewed using methodology described in the Washington State Wetlands Identification Manual (WADOE, March 1997). This is the methodology currently recognized by King County and the State of Washington for wetland determinations and Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 3 delineations. The site was also inspected using the methodology described in the Corps of Engineers Wetlands Delineation Manual (Environmental Laboratory, 1987), and the Western Mountains, Valleys and Coast region Supplement (Version 2.0) dated June 24, 2010, as required by the US Army Corps of Engineers. Soil colors were identified using the 1990 Edited and Revised Edition of the Munsell Soil Color Charts (Kollmorgen Instruments Corp. 1990). The Washington State Wetlands Identification and Delineation Manual and the Corps of Engineers Wetlands Delineation Manual/Regional Supplement all require the use of the three-parameter approach in identifying and delineating wetlands. A wetland should support a predominance of hydrophytic vegetation, have hydric soils and display wetland hydrology. To be considered hydrophytic vegetation, over 50% of the dominant species in an area must have an indicator status of facultative (FAC), facultative wetland (FACW), or obligate wetland (OBL), according to the National List of Plant Species That Occur in Wetlands: Northwest (Region 9) (Reed, 1988). A hydric soil is "a soil that is saturated, flooded, or ponded long enough during the growing season to develop anaerobic conditions in the upper part". Anaerobic conditions are indicated in the field by soils with low chromas (2 or less), as determined by using the Munsell Soil Color Charts; iron oxide mottles; hydrogen sulfide odor and other indicators. Generally, wetland hydrology is defined by inundation or saturation to the surface for a consecutive period of 12.5% or greater of the growing season. Areas that contain indicators of wetland hydrology between 5%-12.5% of the growing season may or may not be wetlands depending upon other indicators. Field indicators include visual observation of soil inundation, saturation, oxidized rhizospheres, water marks on trees or other fixed objects, drift lines, etc. Under normal circumstances, indicators of all three parameters will be present in wetland areas. The wetlands were originally delineated by Habitat Technologies several years ago. The surveyed flags were re-set by DR Strong using original survey data. We confirmed these re-set flag locations as accurate during our site visit. 3.0 OBSERVATIONS 3.1 Existing Site Documentation Prior to visiting the site a review of several natural resource inventory maps was conducted. Resources reviewed included the NRCS on-line Soils Survey, King County iMap website, and the National Wetlands Inventory. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 4 3.1.1 Soil Survey According to data on file with the NRCS Soil Survey, the entire site is mapped as Alderwood gravelly sandy loam of various slopes. Alderwood soils are not considered hydric or wetland soils. However, small inclusions of hydric soil can be found within areas mapped as Alderwood soils. Soil Map of the site 3.1.2 National Wetlands Inventory According to the National Wetlands Inventory there are no wetlands mapped anywhere within 1,000’ of the site. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 5 National Wetlands Inventory map 3.1.3 WDNR Fpars stream mapping website According the WDNR Fpars website. There are no streams mapped on the site. A type N water is mapped north of the northeast portion of the site. Above: King County iMap website with stream, wetland and stream layers activated. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 6 3.2 Field Observations 3.2.1 Uplands As previously described, the site consists of a rolling landscape comprised of forested areas on the north and west, as well as the remains (foundations/slabs) of the single family home, shop, in-ground swimming pool and various outbuildings. 2002 King County iMap aerial photograph of the site. Note the constructed flamingo pond as well as numerous structures and improvements. The south end of the site was previously utilized as an exotic bird farm. Along the north side of the developed area are the remains of the bird enclosures and pens as well as several small decorator ponds and landscaped areas. One of the unique features on the site was a constructed pink flamingo pond west of the residence. The flamingos which Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 7 previously were housed here have subsequently been relocated to the Woodland Park zoo. 2007 iMap aerial photograph of the site, note swimming pool removed and structures being disassembled. Note smaller area of ponded water in pond area. 2009 iMap aerial photograph of the site. Note no standing water in pond area remains as water is no longer pumped to the pond. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 8 This pond was constructed with a plastic liner to contain wat er within the area as a pond. As depicted in the 2002 aerial photograph, the pond was maintained and contained a small block dam/wall along its east end. Water was pumped into this area to maintain its pond characteristics. In 2007, in anticipation of a previously approved King County plat, the structures were disassembled on the site and removed. The pool was removed and water was no longer being pumped to the flamingo pond. In 2009, the area of the former flamingo pond no longer has any standing water as shown in the 2009 iMap aerial photograph. The area contains some wetland vegetation (reed canary grass) and muddy sediment that remained at the bottom of the pond. However, given that the pond was clearly constructed, and has a plastic liner ar tificially holding water within the remaining sediments in the bottom of the pond, it is our professional opinion that this pond is a man-made landscape feature and not a jurisdictional wetland. The forested area of the site is vegetated with a mix of red alder, big leaf maple and douglas fir. The understory has a mix of native species including vine maple, Indian plum, hazelnut, elderberry and salmonberry. However, heavy growth on Himalayan blackberry covers much of the understory as well as thickets within the pasture portion of the site. The pasture areas are dominated by orchard grass as well as tall fescue, and bentgrass with scattered scotch broom, hawthorne, and thickets of blackberry. The remainder of the site contains fallow pasture areas, as well as thickets of blackberry and small alder saplings. The site contains several trails and paths used during past farming/livestock activity, as well as old watering troughs, ditches, and wire fences. Soil pits excavated within the upland areas of the site area revealed high chroma, dry sandy loam soils with no hydric characteristics. A small portion of a Category 3 wetland is located on the southeast corner of the site. The wetland extends off-site to the east where the majority of the wetland is located. The off-site portion of the wetland has a small stream located within its boundaries. The following is a description of this wetland; 3.2.2 Wetlands One slope-type wetland is located along the southeast corner of the site. A small, ditched intermittent stream also passes through the center of the wetland off-site to the east. This wetland was previously delineated by Habitat Technologies. The flags locations were back-surveyed recently by DR Strong to relocate these flags. During our sit e visit we confirmed the previous delineation conducted by Habitat Technologies is still accurate. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 9 Wetland A Wetland A on-site is an emergent wetland, although off-site portions consists of a mix of emergent and forested slope type wetland that borders a small partially ditched stream. Water from the wetland drains downslope to the east and west into the channel where it drains to the north before entering a culvert under 300th. A large stormwater facility located south and east of the site discharges water to this wetland and stream complex. This wetland is dominated by a mix of soft rush, slough sedge, lady fern, Watson’s willow herb, salmonberry, sitka willow, red-osier dogwood, and red alder. Soil pits excavated within the wetland edge revealed a dark (10YR 2/2) gravelly loam soil with redoximorphoic concentrations in the B-horizon. Soils were saturated near the surface during our site visit to this area. Wetland A contains areas that would be classified as PEM1B (palustine, emergent, persistent, saturated) and PFO1B (palustrine, scrub-shrub, broad leaved deciduous, saturated) using the US Fish and Wildlife Wetland Classification methodology (Cowardin et al. 1979). Using the Department of Ecology’s Wetland Rating Form for Western Washi ngton (WADOE Version 2, updated July 2006 & October 2008) as required by the City of Auburn, this wetland was rated as both a slope wetland, and a depresiional wetland as it contains some characteristics of both hydrogeomorphic types. This wetland scored a total of 33 points as a depressional wetland, and 39 points as a slope wetland with 17 points for habitat, indicating this wetland rates as a Category 3 wetland. Based upon current Code Chapter 16.10.090, Category 3 wetlands have a minimum buffer of 25’. A 25’ buffer should provide adequate protection of this wetland. 3.2.3 Streams As previously mentioned, an unclassified stream flows within a ditch in a narrow, mud bottom channel through the center of the wetland off-site to the east. This seasonal stream is not fish bearing, and appears to receive its hydrology from seeps from the surrounding wetland, as well as the discharge outlet from the storm water facility at its southern terminus. This stream channel appears to meet the criteria of a Class III stream in the Code as “Class III streams” are those natural streams with perennial (year -round) or intermittent flow and do not contain fish habitat”. Westridge/#13-106 Sewall Wetland Consulting, Inc. April 11, 2013 Page 10 Typically Class III streams have a 25’ buffer measured from the OHWM of the stream. This buffer does not extend onto the site. 4.0 PROPOSED PROJECT The proposed project is the construction of a residential plat. No impacts to the wetland or its associated buffer are proposed from this project. If you have any questions regarding this report, please call us at (253) 859-0515 or at esewall@sewallwc.com . Sincerely, Sewall Wetland Consulting, Inc. Ed Sewall Senior Wetlands Ecologist PWS #212 Attached: Site Map Data forms Rating Form Westridge/#13-107 Sewall Wetland Consulting, Inc. April 11, 2013 Page 11 REFERENCES City of Auburn Municipal Code and website Cowardin, L., V. Carter, F. Golet, and E. LaRoe. 1979. Classification of Wetlands and Deepwater Habitats of the United States. U.S. Fish and Wildlife Service, FWS/OBS -79- 31, Washington, D. C. NRCS Soil Mapper website Environmental Laboratory. 1987. Corps of Engineers Wetlands Delineation Manual, Technical Report Y-87-1. U. S. Army Corps of Engineers Waterways Experiment Station, Vicksburg, Mississippi. Munsell Color. 1988. Munsell Soil Color Charts. Kollmorgen Instruments Corp., Baltimore, Maryland. National Technical Committee for Hydric Soils. 1991. Hydric Soils of the United States. USDA Misc. Publ. No. 1491. USF&WS, National Wetlands Inventory Maps. Reed, P., Jr. 1988. National List of Plant Species that Occur in Wetlands: Northwest (Region 9). 1988. U. S. Fish and Wildlife Service, Inland Freshwater Ecology Section, St. Petersburg, Florida. Reed, P.B. Jr. 1993. 1993 Supplement to the list of plant species that occur in wetlands: Northwest (Region 9). USFWS supplement to Biol. Rpt. 88(26.9) May 1988. USDA NRCS & National Technical Committee for Hydric Soils, September 1995. Field Indicators of Hydric Soils in the United States - Version 2.1 US Army Corps of Engineers, Corps of Engineers Wetlands Delineation Manual (Environmental Laboratory, 1987), and the Western Mountains, Valleys and Coast region Supplement (Version 2.0) June 2010 WADOE, Washington State Wetland rating System for Western Washington, Revised, Pub#04—06-025, 2004 WETLAND DETERMINATION DATA FORM - Western Mountains, Valleys, and Coast Region Project/Site: City/County: /fa— Applicant/Owner:. Investigator(s): State: Sampling Date: Sampling Point: Section, Township, Range: Landform (hillslope, terrace, etc.): Subregion (LRR): Soil Map Unit Name: Lat: Local relief (concave, convex, none): Long: NWI classification: _ Slope (%):. Datum: Are climatic / hydrologic conditions on the site typical for this time of year? Yes No (If no, explain in Remarks.) Are Vegetation , Soil , or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes No Are Vegetation , Soil , or Hydrology naturally problematic? (If needed, explain any answers in Remarks.) SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc. Hvdrophvtic Veaetation Present? Yes No Hvdric Soil Present? Yes No ^ , Is the Sampled Area within a Wptland? Ye<5 No Wetland Hydroloay Present? Yes No ITf H III 1 CI II vUul 1VI I 1 wO • V v Remarks: VEGETATION - Use scientific names of plants. Tree Stratum (Plot size:. Absolute % Cover Dominant Indicator Species? Status = Total Cover Sapling/Shrub Stratum (Plot size: 1. 2. 3. 4. 5. Herb Stratum (Plot size: 1. _ 2. _ 3. _ 4. _ 5. _ 6. _ 7. _ 8. _ 9. _ 10. 11. /Xff-c • Total Cover = Total Cover Woody Vine Stratum (Plot size:. 1. 2. = Total Cover % Bare Ground in Herb Stratum. Dominance Test worksheet: Number of Dominant Species That Are OBL, FACW, or FAC: Total Number of Dominant Species Across All Strata: Percent of Dominant Species That Are OBL, FACW, or FAC: 3 6£> (A) (B) (MB) Prevalence Index worksheet: Total % Cover of: OBL species FACW species FAC species FACU species UPL species Column Totals: Multiply by: x1 = . x2 = . x3=. x4 = . x5 = . (A) . (B) Prevalence Index = B/A = Hydrqphytic Vegetation Indicators: ^/Dominance Test is >50% Prevalence Index is ^5.01 Morphological Adaptations1 (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants' Problematic Hydrophytic Vegetation1 (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Hydrophytic Vegetation Present? Yes No Remarks: US Army Corps of Engineers Western Mountains, Valleys, and Coast - Interim Version SOIL Sampling Point: Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features (inches) Color (moist) % Color (moist) % -Type Loc" Texture Remarks A 'Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. 'Location: PL=Pore Lining, M=Matrix. Hydric Soil Indicators: (Applicable to all LRRs, unless otherwise noted.) Histosol(A1) Histic Epipedon (A2) Black Histic (A3) Hydrogen Sulfide (A4) Depleted Below Dark Surface (A11) Thick Dark Surface (A12) Sandy Mucky Mineral (S1) Sandy Gleyed Matrix (S4) Sandy Redox (S5) Stripped Matrix (S6) Loamy Mucky Mineral (F1) (except MLRA1) Loamy Gleyed Matrix (F2) Depleted Matrix (F3) , Redox Dark Surface (F6) Depleted Dark Surface (F7) Redox Depressions (F8) Indicators for Problematic Hydric Soils3: 2 cm Muck (A10) Red Parent Material (TF2) Other (Explain in Remarks) 'indicators of hydrophytic vegetation and wetland hydrology must be present, unless disturbed or problematic. Restrictive Layer (if present): Type: Depth (inches): Hydric Soil Present? Yes. No Remarks: As* HYDROLOGY Wetland Hydrology Indicators: Primary Indicators (minimum of one required: check all that apply) Surface Water (A1) High Water Table (A2) Saturation (A3) Water Marks (B1) Sediment Deposits (B2) Drift Deposits (B3) Algal Mat or Crust (B4) Iron Deposits (B5) Surface Soil Cracks (86) Inundation Visible on Aerial Imagery (B7) Sparsely Vegetated Concave Surface (B8) Water-Stained Leaves (B9) (except MLRA 1,2,4A,and4B) Salt Crust (B11) Aquatic Invertebrates (B13) Hydrogen Sulfide Odor (C1) Oxidized Rhizospheres along Living Roots (C3) Presence of Reduced Iron (C4) Recent Iron Reduction in Tilled Soils (C6) Stunted or Stressed Plants (D1) (LRR A) Other (Explain in Remarks) Secondary Indicators (2 or more required) Water-Stained Leaves (B9) (MLRA 1,2, 4A, and 4B) Drainage Patterns (B10) Dry-Season Water Table (C2) Saturation Visible on Aerial Imagery (C9) Geomorphic Position (D2) Shallow Aquitard (D3) FAC-Neutral Test (D5) Raised Ant Mounds (D6) (LRR A) Frost-Heave Hummocks (D7) Field Observations: Surface Water Present? Yes. Water Table Present? Yes. Saturation Present? Yes. (includes capillary fringe) No _l_^'Depth (inches):. No JJepth (inches):. No IjEl Depth (inches):. Wetland Hydrology Present? Yes. No Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: US Army Corps of Engineers Western Mountains, Valleys, and Coast - Interim Version WETLAND DETERMINATION DATA FORM - Western Mountains, Valleys, and Coast Region ProjecVSite: h^ts)*^""^j. City/County: /Q"')>»'~s Sampling Date Applicant/Owner: Investigator(s): State: Sampling Point:. Section, Township, Range: Landform (hillslope, terrace, etc.): Subregion (LRR): Soil Map Unit Name: Lat: Local relief (concave, convex, none):. Long: NWI classification: _ Slope (%): Datum: No Are climatic / hydrologic conditions on the site typical for this time of year? Yes ^ No (If no, explain in Remarks.) Are Vegetation , Soil , or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes Are Vegetation , Soil , or Hydrology naturally problematic? (If needed, explain any answers in Remarks.) SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc. Hydrophytic Veaetation Present? Yes ^^^-'No Hydric Soil Present? Yes ^ No Wetland Hvdroloav Present? Yes No Is the Sampled Area s within a Wetland? Yes No Remarks: VEGETATION - Use scientific names of plants. Absolute Dominant Indicator Tree Stratum (Plot size: ) % Cover Species? Status Dominance Test worksheet: Number of Dominant Species That Are OBL. FACW. or FAC: *— (A) 1. Dominance Test worksheet: Number of Dominant Species That Are OBL. FACW. or FAC: *— (A) 2. Total Number of Dominant Species Across All Strata: (B) 3. Total Number of Dominant Species Across All Strata: (B) 4. Percent of Dominant Species , , » That Are OBL. FACW. or FAC: / ^ «^ (A/B) = Total Cover Percent of Dominant Species , , » That Are OBL. FACW. or FAC: / ^ «^ (A/B) Saolinq/Shrub Stratum (Plot size: ) 1. Prevalence Index worksheet: Total % Cover of: MultiDlv bv: 2. Prevalence Index worksheet: Total % Cover of: MultiDlv bv: 3. OBL species x 1 = 4. FACW species x 2 = 5. FAC species x 3 = = Total Cover FACU species x 4 = Herb Stratum (Plot size: ) UPL species x 5 = Column Totals" (A) (B) Prevalence Index = B/A = Prevalence Index = B/A = 4. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 5. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 6. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 7. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 8. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 9. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 10. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 11. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Hydrophytic Vegetation Indicators: J_ Dominance Test is >50% Prevalence Index is s3.01 Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Wetland Non-Vascular Plants1 Problematic Hydrophytic Vegetation' (Explain) 'indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. = Total Cover Woodv Vine Stratum (Plot size: ) Hydrophytic / Vegetation ^ Present? Yes No 1. Hydrophytic / Vegetation ^ Present? Yes No 2. Hydrophytic / Vegetation ^ Present? Yes No = Total Cover % Bare Ground in Herb Stratum Hydrophytic / Vegetation ^ Present? Yes No Remarks: US Army Corps of Engineers Western Mountains, Valleys, and Coast - Interim Version SOIL Sampling Point:. Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features (inches) /If Color (moist) Color (moist) % Type Loc' Texture Remarks &/*/9~ 1Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. 'Location: PL=Pore Lining, M=Matrix. Hydric Soil Indicators: (Applicable to all LRRs, unless otherwise noted.) Histosol (A1) Histic Epipedon (A2) Black Histic (A3) Hydrogen Sulfide (A4) Depleted Below Dark Surface (A11) Thick Dark Surface (A12) Sandy Mucky Mineral (S1) Sandy Gleyed Matrix (S4) Sandy Redox (S5) Stripped Matrix (S6) Loamy Mucky Mineral (F1) (except MLRA 1) Loamy Gleyed Matrix (F2) ^pteted Matrix (F3) -"Kedox Dark Surface (F6) Depleted Dark Surface (F7) Redox Depressions (F8) Indicators for Problematic Hydric Soils : 2cmMuck(A10) Red Parent Material (TF2) Other (Explain in Remarks) 'indicators of hydrophytic vegetation and wetland hydrology must be present, unless disturbed or problematic. Restrictive Layer (if present): Type: Depth (inches): Hydric Soil Present? Yes. No Remarks: HYDROLOGY Wetland Hydrology Indicators: Primary Indicators (minimum of one required: check all that apply) Surface Water (A1) High Water Table (A2) Saturation (A3) Water Marks (B1) Sediment Deposits (B2) Drift Deposits (B3) Algal Mat or Crust (B4) Iron Deposits (B5) Surface Soil Cracks (B6) Inundation Visible on Aerial Imagery (B7) Sparsely Vegetated Concave Surface (B8) Water-Stained Leaves (B9) (except MLRA 1,2, 4A and 4B) Salt Crust (B11) Aquatic Invertebrates (B13) Hydrogen Sulfide Odor(C1) Oxidized Rhizospheres along Living Roots (C3) Presence of Reduced Iron (C4) Recent Iron Reduction in Tilled Soils (C6) Stunted or Stressed Plants (D1) (LRR A) Other (Explain in Remarks) Secondary Indicators (2 or more required) Water-Stained Leaves (B9) (MLRA 1, 2, 4A, and 4B) Drainage Patterns (B10) Dry-Season Water Table (C2) Saturation Visible on Aerial Imagery (C9) Geomorphic Position (D2) Shallow Aquitard (D3) FAC-Neutral Test (D5) Raised Ant Mounds (D6) (LRR A) Frost-Heave Hummocks (D7) Field Observations: Surface Water Present? Yes Water Table Present? Yes Saturation Present? Yes (includes capillary fringe) No. 'o. No Depth (inches): Depth (inches):. Depth (inches): Wetland Hydrology Present? Yes No Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: US Army Corps of Engineers Western Mountains, Valleys, and Coast - Intfirim Vonsinn We t l a n d n a m e o r n u m b e r WE T L A N D R A T I N G F O R M - W E S T E R N W A S H I N G T O N Ve r s i o n 2 - U p d a t e d J u l y 2 0 0 6 t o i n c r e a s e a c c u r a c y a n d r e p r o d u c i b i l i t y a m o n g u s e r s Up d a t e d O c t 2 0 0 8 w i t h t h e n e w W D F W d e f i n i t i o n s f o r p r i o r i t y h a b i t a t s Na m e o f w e t l a n d ( i f k n o w n ) : D a t e o f s i t e v i s i t : 1 Ra t e d b y S -C - ^ ^ T r a i n e d b y E c o l o g y ? Y e s _ _ N o D a t e o f t r a i n i n g SE C : 2 ~ T W N S H P : f ^ R N G E : 1 ^ ~ I s S / T / R i n A p p e n d i x D ? Y e s N o Ma p o f w e t l a n d u n i t : F i g u r e E s t i m a t e d s i z e SU M M A R Y O F R A T I N G Ca t e g o r y b a s e d o n F U N C T I O N S p r o v i d e d b y w e t l a n d i i i m f / l v Ca t e g o r y I = S c o r e > = 7 0 Ca t e g o r y n = S c o r e 5 1 - 6 9 Ca t e g o r y I I I = S c o r e 3 0 - 5 0 Ca t e g o r y I V = S c o r e < 3 0 Sc o r e f o r W a t e r Q u a l i t y F u n c t i o n s Sc o r e f o r H y d r o l o g i c F u n c t i o n s Sc o r e f o r H a b i t a t F u n c t i o n s TO T A L s c o r e f o r F u n c t i o n s Ca t e g o r y b a s e d o n S P E C I A L C H A R M ^ T R I S T I C S o f w e t l a n d I I I D o e s n o t A p p l y / Fi n a l C a t e g o r y ( c h o o s e t h e " h i g h e s t " c a t e g o r y f r o m a b o v e ) 2± 3 Wc t U m i L m t b j i S p e c i a l Ch a r a c t e r i s t i c s We t l a n d I U . M d a <s us e d f o r R a t i n g Es t u a r i n e De p r e s s i o n a l Na t u r a l H e r i t a g e W e t l a n d Ri v e r i n e Bo g La k e - f r i n g e Ma t u r e F o r e s t Sl o p e / Ol d G r o w t h F o r e s t Fl a t s Co a s t a l L a g o o n Fr e s h w a t e r T i d a l In t e r d u n a l No n e o f t h e a b o v e Ch e c k i f u n i t h a s m u l t i p l e HG M c l a s s e s p r e s e n t We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 ve r s i o n 2 T o b e u s e d w i t h E c o l o g y P u b l i c a t i o n 0 4 - 0 6 - 0 2 5 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r Do e s t h e w e t l a n d u n i t b e i n g r a t e d m e e t a n y o f the criteria below? If y o u a n s w e r Y E S t o a n y o f t h e q u e s t i o n s b e l o w y o u will need to protect the wetland ac c o r d i n g t o t h e r e g u l a t i o n s r e g a r d i n g t h e s p e c i a l c h a r a c t e r i s t i c s found in the wetland. Ch e e k L i M f o r W e t l a n d s ' I h a t M a j N e e d A d d i t i o n a l Protection (i n a d d i t i o n l o t h e p r o t e c t i o n r e c o m m e n d e d lor its catcgtirv) YES NO SP l . H a s t h e w e t l a n d u n i t b e e n d o c u m e n t e d a s a h a b i t a t f o r any Federally listed Th r e a t e n e d o r E n d a n g e r e d a n i m a l o r p l a n t s p e c i e s ( l / E s p e c i e s ) ? Fo r t h e p u r p o s e s o f t h i s r a t i n g s y s t e m , " d o c u m e n t e d " m e a n s the wetland is on the ap p r o p r i a t e s t a t e o r f e d e r a l d a t a b a s e . SP 2 . H a s t h e w e t l a n d u n i t b e e n d o c u m e n t e d a s h a b i t a t f o r any Slate listed Th r e a t e n e d o r E n d a n g e r e d a n i m a l s p e c i e s ? Fo r t h e p u r p o s e s o f t h i s r a t i n g s y s t e m , " d o c u m e n t e d " m e a n s the wetland is on the ap p r o p r i a t e s t a t e d a t a b a s e . N o t e : W e t l a n d s w i t h S t a t e l i s t e d plant species are ca t e g o r i z e d a s C a t e g o r y I N a t u r a l H e r i t a g e W e t l a n d s ( s e e p . 19 of data form). SP 3 . D o e s t h e w e t l a n d u n i t c o n t a i n i n d i v i d u a l s o f P r i o r i t y species listed by the WD F W f o r t h e s t a t e ? SP 4 . D o e s t h e w e t l a n d u n i t h a v e a l o c a l s i g n i f i c a n c e i n a d d i t i o n to its functions? Fo r e x a m p l e , t h e w e t l a n d h a s b e e n i d e n t i f i e d i n t h e S h o r e l i n e Master Pr o g r a m , t h e C r i t i c a l A r e a s O r d i n a n c e , o r i n a l o c a l m a n a g e m e n t plan as ha v i n g s p e c i a l s i g n i f i c a n c e . To c o m p l e t e t h e n e x t p a r t o f t h e d a t a s h e e t you will need to determine the Hv d r o e e o m o r p h i c C l a s s o f t h e w e t l a n d beins rated. Th e h y d r o g e o m o r p h i c c l a s s i f i c a t i o n g r o u p s w e t l a n d s i n t o those that function in similar ways. This si m p l i f i e s t h e q u e s t i o n s n e e d e d t o a n s w e r h o w w e l l t h e w e t l a n d functions. The Hydrogeomorphic Cl a s s o f a w e t l a n d c a n b e d e t e r m i n e d u s i n g t h e k e y b e l o w . See p. 24 for more detailed instructions on c l a s s i f y i n g w e t l a n d s . We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 2 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r Cl a s s i f i c a t i o n o f W e t l a n d U n i t s i n W e s t e r n W a s h i n g t o n IT t h e h y d r o l n g i c c r i t e r i a l i s t e d i n e a c h q n w t t o n d e n o t a p p l y t o t h e e n t i r e t u a t t b e f a t g ra t e d , y o u p r o b a b l y h a v e a u n i t w i t h r a u J t i p t e B G M d a s s e s . I n t h i s c a s e , I d e n t i f y w h i c h hy d r o t o g k c r i t e r i a h i q m n H a m 1 - 7 a p p l y , a n d g o t o Q w s t k m & 1. A ^ A e j i S t t e i T e x e l s i n t h e e n t i r e u n i t u s u a l l y c o n t r o l l e d b y t i d e s ( i . e . e x c e p t d u r i n g f l o o d s ) ? {^ N O ^ j g p J c t i ^ Y E S - t h e w e t l a n d c l a s s i s T i d a l F r i n g e If y e s , i s t h e s a l i n i t y o f t h e w a t e r d u r i n g p e r i o d s o f a n n u a l l o w f l o w b e l o w 0 . 5 p p t ( p a r t s p e r th o u s a n d ) ? Y E S - F r e s h w a t e r T i d a l F r i n g e N O - S a l t w a t e r T i d a l F r i n g e ( E s t u a r t o e ) If y o u r w e t l a n d c a n b e c l a s s i f i e d a s a F r e s h w a t e r T i d a l F r i n g e u s e t h e f o r m s f o r R i v e r i n e we t l a n d s . I f i t i s S a l t w a t e r T i d a l F r i n g e i t i s r a t e d a s a n E s t u a r i n e w e t l a n d . W e t l a n d s t h a t we r e c a l l e d e s t u a r i n e i n t h e f i r s t a n d s e c o n d e d i t i o n s o f t h e r a t i n g s y s t e m a r e c a l l e d S a l t Wa t e r T i d a l F r i n g e i n t h e H y d r o g e o m o r p h i c C l a s s i f i c a t i o n . E s t u a r i n e w e t l a n d s w e r e ca t e g o r i z e d s e p a r a t e l y i n t h e e a r l i e r e d i t i o n s , a n d t h i s s e p a r a t i o n i s b e i n g k e p t i n t h i s re v i s i o n . T o m a i n t a i n c o n s i s t e n c y b e t w e e n e d i t i o n s , t h e t e r m " E s t u a r i n e " w e t l a n d i s k e p t Pl e a s e n o t e , h o w e v e r , t h a t t h e c h a r a c t e r i s t i c s t h a t d e f i n e C a t e g o r y I a n d I I e s t u a r i n e we t l a n d s h a v e c h a n g e d ( s e e p . ) . 2. T h e e n t i r e w e t l a n d u n i t i s f l a t a n d p r e c i p i t a t i o n i s t h e o n l y s o u r c e ( > 9 0 % ) o f w a t e r t o i t . Gj » u n d w a l e r a n d s u r f a c e w a t e r r u n o f f a r e N O T s o u r c e s o f w a t e r t o t h e u n i t . \ N O - g o t o J Y E S - T h e w e t l a n d c l a s s i s F l a t s If y o u r w e t l a n d c a n b e c l a s s i f i e d a s a " F l a t s " w e t l a n d , u s e t h e f o r m f o r D e p r e s s i o n a l we t l a n d s . 3. D o e s t h e e n t i r e w e t l a n d u n i t m e e t b o t h o f t h e f o l l o w i n g c r i t e r i a ? Th e v e g e t a t e d p a r t o f t h e w e t l a n d i s o n t h e s h o r e s o f a b o d y o f p e r m a n e n t o p e n w a t e r (w i t h o u t a n y v e g e t a t i o n o n t h e s u r f a c e ) a t l e a s t 2 0 a c r e s ( 8 h a ) i n s i z e ; A3 1 l e a s t 3 0 % o f t h e o p e n w a t e r a r e a i s d e e p e r t h a n 6 . 6 f t ( 2 m ) ? (~ i * 6 - g o t o % Y E S - T h e w e t l a n d c l a s s i s L a k e - f r i n g e ( L a c u s t r i n e F r i n g e ) 4. D o e s t h e e r j t i r e w e t l a n d u n i t m e e t a l l o f t h e f o l l o w i n g c r i t e r i a ? <^ T h e _ w e t l a n d i s o n a s l o p e ( s l o p e c a n b e v e r y g r a d u a l ) , p- f h e w a t e r f l o w s t h r o u g h t h e w e t l a n d i n o n e d i r e c t i o n ( u n i d i r e c t i o n a l ) a n d u s u a l l y co m e s f r o m s e e p s . I t m a y f l o w s u b s u r f a c e , a s s h e e t f l o w , o r i n a s w a l e w i t h o u t di s t i n c t b a n k s . ^f h e w a t e r l e a v e s t h e w e t l a n d w i t h o u t b e i n g i m p o u n d e d ? NO T E : S u r f a c e w a t e r d o e s n o t p o n d i n t h e s e t y p e o f w e t l a n d s e x c e p t o c c a s i o n a l l y i n ve r y s m a l l a n d s h a l l o w d e p r e s s i o n s o r b e h i n d h u m m o c k s ( d e p r e s s i o n s a r e u s u a l l y <3 f l f k a m e t e f a n ^ T e s s ~ u T a n 7 J ^ J ' a NO - g o t o 5 X Y E S - T h e w e t l a n d c l a s s i s S l o p e We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 3 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r 5. D o e s t h e e n t i r e w e t l a n d u n i t m e e t a l l o f t h e f o l l o w i n g c r i t e r i a ? Th e u n i t i s i n a v a l l e y , o r s t r e a m c h a n n e l , w h e r e it gets inundated by overbank fl o o d i n g f r o m t h a t s t r e a m o r r i v e r Th e o v e r b a n k f l o o d i n g o c c u r s a t l e a s t o n c e e v e r y two years. NO T E : T h e r i v e r i n e u n i t c a n c o n t a i n d e p r e s s i o n s t h a t are filled with water when the river is no t f l o o d i n g . NO - g o t o 6 Y E S - T h e w e t l a n d c l a s s i s R i v e r i n e 6. I s t h e e n t i r e w e t l a n d u n i t i n a t o p o g r a p h i c d e p r e s s i o n i n which water ponds, or is saturated to the su r f a c e , a t s o m e t i m e d u r i n g t h e y e a r . T h i s m e a n s t h a t any outlet, if present, is higher than the in t e r i o r o f t h e w e t l a n d NO - g o t o 7 Y E S - T h e w e t l a n d c l a s s i s D e p r e s s i o n a l 7. I s t h e e n t i r e w e t l a n d u n i t l o c a t e d i n a v e r y f l a t a r e a w i t h no obvious depression and no overbank fl o o d i n g . T h e u n i t d o e s n o t p o n d s u r f a c e w a t e r m o r e t h a n a few inches. The unit seems to be ma i n t a i n e d b y h i g h g r o u n d w a t e r i n t h e a r e a . T h e w e t l a n d may be ditched, but has no obvious na t u r a l o u t l e t . NO - g o t o 8 Y E S - T h e w e t l a n d c l a s s i s D e p r e s s i o n a l 8. Y o u r w e t l a n d u n i t s e e m s t o b e d i f f i c u l t t o c l a s s i f y a n d p r o b a b l y contains several different HGM cl a s e s . F o r e x a m p l e , s e e p s a t t h e b a s e o f a s l o p e m a y g r a d e into a riverine floodplain, or a small st r e a m w i t h i n a d e p r e s s i o n a l w e t l a n d h a s a z o n e o f f l o o d i n g along its sides. GO BACK AND ID E N T I F Y W H I C H O F T H E H Y D R O L O G I C R E G I M E S DESCRIBED IN QUESTIONS 1-7 AP P L Y T O D I F F E R E N T A R E A S m T H E U N I T ( m a k e a rough sketch to help you decide). Use th e f o l l o w i n g t a b l e t o i d e n t i f y t h e a p p r o p r i a t e c l a s s t o u s e f o r the rating system if you have several HG M c l a s s e s p r e s e n t w i t h i n y o u r w e t l a n d . N O T E : U s e t h i s table only if the class that is re c o m m e n d e d i n t h e s e c o n d c o l u m n r e p r e s e n t s 1 0 % o r m o r e of the total area of the wetland unit be i n g r a t e d . I f t h e a r e a o f t h e c l a s s l i s t e d i n c o l u m n 2 i s l e s s than 10% of the unit; classify the we t l a n d u s i n g t h e c l a s s t h a t r e p r e s e n t s m o r e t h a n 9 0 % o f t h e total area. HG M C l a s s e s w t l t a n t h e w e t l a n d u n i t b e i n g r a t e d HGM Class & Use In Rating Sl o p e + R i v e r i n e Riverine Sl o p e + D e p r e s s i o n a l Depressional Sl o p e + L a k e - f r i n g e Lake-fringe De p r e s s i o n a l + R i v e r i n e a l o n g s t r e a m w i t h i n b o u n d a r y Depressional De p r e s s i o n a l + L a k e - f r i n g e Depressional Sa l t W a t e r T i d a l F r i n g e a n d a n y o t h e r c l a s s o f f r e s h w a t e r we t l a n d Treat as ESTUARINE under wetlands with special characteristics If y o u a r e u n a b l e s t i l l t o d e t e r m i n e w h i c h o f t h e a b o v e c r i t e r i a apply to your wetland, or if you ha v e m o r e t h a n 2 H G M c l a s s e s w i t h i n a w e t l a n d b o u n d a r y , classify the wetland as Depressional fo r t h e r a t i n g . We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 4 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r D De p r e s s i o n * ! a n d F l a t s W e t l a n d s WA T E R Q U A L I T Y F U N C T I O N S - m d i c a t o r s t h c t t h e w e t l a n d u n i t f u n c t i o n s t o Po i n t s (» i y 1 s o c i o D D 1 . D o e s t h e w e t l a n d u n i t h a v e t h e p o t e n t i a l t o i m o r o v e w a t e r q u a l i t y ? (s e e p . 3 8 ) D D 1 . 1 C h a r a c t e r i s t i c s o f s u r f a c e w a t e r f l o w s o u t o f t h e w e t l a n d : Un i t i s a d e p r e s s i o n w i t h n o s u r f a c e w a t e r l e a v i n g i t ( n o o u t l e t ) p o i n t s ~ 3 Un i t h a s a n i n t e r m i t t e n t l y f l o w i n g , O R h i g h l y c o n s t r i c t e d p e r m a n e n t l y f l o w i n g o u t l e t p o i n t s » > > Un i t h a s a n u n c o t t s t r i c t e d , o r s l i g h t l y c o n s t r i c t e d , s u r f a c e o u t l e t ( p e r m a n e n t l y f l o w i n g ) p o i n t s = 1 Un i t i s a " f l a t " d e p r e s s i o n ( Q . 7 o n k e y ) , o r i n t h e F l a t s c l a s s , w i t h p e r m a n e n t s u r f a c e o u t f l o w a n d no o b v i o u s n a t u r a l o u t l e t a n d / o r o u t l e t i s a m a n - m a d e d i t c h p o i n t s = 1 (I f d i t c h i s n o t p e r m a n e n t l y f l o w i n g t r e a t u n i t a s " i n t e r m i t t e n t l y f l o w i n g " ) Pr o v i d e p h o t o o r d r a w i n g Fi g u r e D S 1 . 2 T h e s o i l 2 i n c h e s b e l o w t h e s u r f a c e ( o r d u f f l a y e r ) i s c l a y o r o r g a n i c ( u s e N R C S de f i n i t i o n s ) YE S p o i n t s = 4 NO r p o i i t s s X T - - 3 D D 1 . 3 C h a r a c t e r i s t i c s o f p e r s i s t e n t v e g e t a t i o n ( e m e r g e n t , s h r u b , a n d / o r f o r e s t C o w a r d i n c l a s s ) We t l a n d h a s p e r s i s t e n t , u n g r a z e d , v e g e t a t i o n > - 9 5 % o f a r e a p o i n t s = 5 We t l a n d h a s p e r s i s t e n t , u n g r a z e d , v e g e t a t i o n > = 1 / 2 o f a r e a p o i n t s - 3 We t l a n d h a s p e r s i s t e n t , u n g r a z e d v e g e t a t i o n > = 1 / 1 0 o f a r e a p o i n t s = 1 We t l a n d h a s p e r s i s t e n t , u n g r a z e d v e g e t a t i o n < 1 / 1 0 o f a r e a p o i n t s = 0 Ma p o f C o w a r d i n v e g e t a t i o n c l a s s e s Fi g u r e D Dl . 4 C h a r a c t e r i s t i c s o f s e a s o n a l p o n d i n g o r i n u n d a t i o n . Th i s i s t h e a r e a o f t h e w e t l a n d u n i t t h a t i s p o n d e d f o r a t l e a s t 2 m o n t h s , b u t d r i e s o u t so m e t i m e d u r i n g t h e y e a r . D o n o t c o u n t t h e a r e a t h a t i s p e r m a n e n t l y p o n d e d E s t i m a t e ar e a a s t h e a v e r a g e c o n d i t i o n 5 o u t o f l O y r s . Ar e a s e a s o n a l l y p o n d e d i s > % t o t a l a r e a o f w e t l a n d p o i n t s ~ 4 Ar e a s e a s o n a l l y p o n d e d i s > ' 4 t o t a l a r e a o f w e t l a n d p o i n t s ^ = _ 2 Ar e a s e a s o n a l l y p o n d e d i s < ! < 4 t o t a l a r e a o f w e t l a n d B P J n t s j i f f . ' - ^ Ma p o f H y d r o p e r i o d s Fi g u r e D To t a l f o r D 1 A d d t h e p o i n t s i n t h e b o x e s a b o v e y I D D 2 . D o e s t h e w e t l a n d u n i t h a v e t h e o D o o r t u n i t v t o i m n r o v e w a t e r Q u a l i t y ? An s w e r Y E S i f y o u k n o w o r b e l i e v e t h e r e a r e p o l l u t a n t s i n g r o u n d w a t e r o r s u r f a c e w a t e r co m i n g i n t o t h e w e t l a n d t h a t w o u l d o t h e r w i s e r e d u c e w a t e r q u a l i t y i n s t r e a m s , l a k e s o r gr o u n d w a t e r d o w n g r a d i e n t f r o m t h e w e t l a n d . N o t e w h i c h o f t h e f o l l o w i n g c o n d i t i o n s pr o v i d e t h e s o u r c e s o f p o l l u t a n t s . A u n i t m a y h a v e p o l l u t a n t s c o m i n g f r o m s e v e r a l so u r c e s , b u t a n y s i n g l e s o u r c e w o u l d q u a l i f y a s o p p o r t u n i t y . — G r a z i n g i n t h e w e t l a n d o r w i t h i n 1 5 0 f t — U n t r e a t e d s t o r m w a t e r d i s c h a r g e s t o w e t l a n d — T i l l e d f i e l d s o r o r c h a r d s w i t h i n 1 5 0 f t o f w e t l a n d — A s t r e a m o r c u l v e r t d i s c h a r g e s i n t o w e t l a n d t h a t d r a i n s d e v e l o p e d a r e a s , r e s i d e n t i a l a r e a s , fa r m e d f i e l d s , r o a d s , o r c l e a r - c u t l o g g i n g — R e s i d e n t i a l , u r b a n a r e a s , g o l f c o u r s e s a r e w i t h i n 1 5 0 f t o f w e t l a n d — W e t l a n d i s f e d b y g r o u n d w a t e r h i g h i n p h o s p h o r u s o r n i t r o g e n — O t h e r YE S m u l t i p l i e r i s 2 , . . . - N O m u l t i p l i e r i s l " } (s e e p . 4 4 ) mu l t i p l i e r D 2 . D o e s t h e w e t l a n d u n i t h a v e t h e o D o o r t u n i t v t o i m n r o v e w a t e r Q u a l i t y ? An s w e r Y E S i f y o u k n o w o r b e l i e v e t h e r e a r e p o l l u t a n t s i n g r o u n d w a t e r o r s u r f a c e w a t e r co m i n g i n t o t h e w e t l a n d t h a t w o u l d o t h e r w i s e r e d u c e w a t e r q u a l i t y i n s t r e a m s , l a k e s o r gr o u n d w a t e r d o w n g r a d i e n t f r o m t h e w e t l a n d . N o t e w h i c h o f t h e f o l l o w i n g c o n d i t i o n s pr o v i d e t h e s o u r c e s o f p o l l u t a n t s . A u n i t m a y h a v e p o l l u t a n t s c o m i n g f r o m s e v e r a l so u r c e s , b u t a n y s i n g l e s o u r c e w o u l d q u a l i f y a s o p p o r t u n i t y . — G r a z i n g i n t h e w e t l a n d o r w i t h i n 1 5 0 f t — U n t r e a t e d s t o r m w a t e r d i s c h a r g e s t o w e t l a n d — T i l l e d f i e l d s o r o r c h a r d s w i t h i n 1 5 0 f t o f w e t l a n d — A s t r e a m o r c u l v e r t d i s c h a r g e s i n t o w e t l a n d t h a t d r a i n s d e v e l o p e d a r e a s , r e s i d e n t i a l a r e a s , fa r m e d f i e l d s , r o a d s , o r c l e a r - c u t l o g g i n g — R e s i d e n t i a l , u r b a n a r e a s , g o l f c o u r s e s a r e w i t h i n 1 5 0 f t o f w e t l a n d — W e t l a n d i s f e d b y g r o u n d w a t e r h i g h i n p h o s p h o r u s o r n i t r o g e n — O t h e r YE S m u l t i p l i e r i s 2 , . . . - N O m u l t i p l i e r i s l " } D TO T A L - W a t e r Q u a l i t y F a c t i o n s " " M u l t i p l y t h e s c o r e f r o m D l b y D 2 _~ • ' A d d s c o r e t o t a b l e o n p . 1 1 We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 5 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r De p r e s s i o n a t a n d F l a t s W e t l a n d s HY D R Q L O G I C F U N C T I O N S - I n d i c a t o r s t h a t t h e wetland unit functions to re d u c e f l o o d i n g a n d s t r e a m d e g r a d a t i o n Points {entylftSK D 3 . D o e s t h e w e t l a n d u n i t h a v e t h e D o t e n t i a l t o r e d u c e flooding and erosion? (see p. 46) D D 3 . 1 C h a r a c t e r i s t i c s o f s u r f a c e w a t e r f l o w s o u t o f t h e w e t l a n d unit Un i t i s a d e p r e s s i o n w i t h n o s u r f a c e w a t e r l e a v i n g i t ( n o o u t l e t ) points =* 4 Un i t h a s a n i n t e r m i t t e n t l y f l o w i n g , O R h i g h l y c o n s t r i c t e d p e r m a n e n t l y flowing nutlrt '•pnrnfT:r^~^ Un i t i s a " f l a t " d e p r e s s i o n ( Q . 7 o n k e y ) , o r i n t h e F l a t s c l a s s , with permanent surface outflow and no o b v i o u s n a t u r a l o u t l e t a n d / o r o u t l e t i s a m a n - m a d e d i t c h points = I (} f d i t c h i s n o t p e r m a n e n t l y f l o w i n g t r e a t u n i t a s " i n t e r m i t t e n t l y flowing") Un i t h a s a n u n c o n s t r i c t e d , o r s l i g h t l y c o n s t r i c t e d , s u r f a c e o u t l e t (permanently flowing) points - 0 D D 3 . 2 D e p t h o f s t o r a g e d u r i n g w e t p e r i o d s Es t i m a t e t h e h e i g h t o f p o n d i n g a b o v e t h e b o t t o m o f t h e outlet. For units with no outlet me a s u r e f r o m t h e s u r f a c e c f p e r m a n e n t w a t e r o r d e e p e s t part (ifdry). Ma r k s o f p o n d i n g a r e 3 f t o r m o r e a b o v e t h e s u r f a c e o r b o t t o m of outlet points - 7 Th e w e t l a n d i s a " h e a d w a t e r " w e t l a n d " points = 5 Ma r k s o f p o n d i n g b e t w e e n 2 f t t o < 3 f t f r o m s u r f a c e o r bottom of outlet points = S Ma r k s a r e a t l e a s t 0 . 5 f t t o < 2 f t f r o m s u r f a c e o r b o t t o m of outlet points = 3 Un i t i s f l a t ( y e s t o Q . 2 o r Q . 7 o n k e y ) b u t h a s s m a l l d e p r e s s i o n s on the surface that trap wa t e r pojnfcijL^ Ma r k s o f p o n d i n g l e s s t h a n 0 . 5 f t t o i t s - 0 . > Q> D D 3 . 3 C o n t r i b u t i o n o f w e t l a n d u n i t t o s t o r a g e i n t h e w a t e r s h e d Es t i m a t e t h e r a t i o c f t h e a r e a o f u p s t r e a m b a s i n c o n t r i b u t i n g surface water to the wetland to t h e a r e a o f t h e w e t l a n d u n i t i t s e l f . Th e a r e a o f t h e b a s i n i s l e s s t h a n 1 0 t i m e s t h e a r e a o f u n i t points = 5 Th e a r e a o f t h e b a s i n i s 1 0 t o 1 0 0 t i m e s t h e a r e a o f t h e u n i t pQJrtfj~3C2' Th e a r e a o f t h e b a s i n i s m o r e t h a n 1 0 0 t i m e s t h e a r e a o f the unit points - 0 En t i r e u n i t i s i n t h e F L A T S c l a s s points = 3 D To t a l f o r D 3 A d d the points in the boxes above D D 4 . D o e s t h e w e t l a n d u n i t h a v e t h e O D D o r t u n i t v t o reduce flooding and erosion? An s w e r Y E S i f t h e u n i t i s i n a l o c a t i o n i n t h e w a t e r s h e d where the flood storage, or re d u c t i o n i n w a t e r v e l o c i t y , i t p r o v i d e s h e l p s p r o t e c t downstream property and aquatic re s o u r c e s f r o m f l o o d i n g o r e x c e s s i v e a n d / o r e r o s i v e flows. Answer NO if the water co m i n g i n t o t h e w e t l a n d i s c o n t r o l l e d b y a s t r u c t u r e s u c h as flood gate, tide gate, flap va l v e , r e s e r v o i r e t c . O R y o u e s t i m a t e t h a t m o r e t h a n 90% of the water in the wetland is fr o m g r o u n d w a t e r i n a r e a s w h e r e d a m a g i n g g r o u n d w a t e r flooding does not occur. No t e w h i c h o f t h e f o l l o w i n g i n d i c a t o r s o f o p p o r t u n i t y apply. — W e t l a n d i s i n a h e a d w a t e r o f a r i v e r o r s t r e a m that has flooding problems — W e t l a n d d r a i n s t o a r i v e r o r s t r e a m t h a t h a s f l o o d i n g problems (see p. 49) — W e t l a n d h a s n o o u t l e t a n d i m p o u n d s s u r f a c e r u n o f f water that might otherwise fl o w i n t o a r i v e r o r s t r e a m t h a t h a s f l o o d i n g p r o b l e m s multiplier — O t h e r YE S m u l t i p l i e r i s NO m u l t i p l i e r i s 1 D TO T A L - H y d r o l o g i c F u n c t i o n s M u l t i p l y the score from D 3 by D 4 Addscore to table on p. 1 / o We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 6 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r S S l o p e W e t l a n d s WA T E S Q U A L I T Y F U N C T I O N S - I a d i e a S « s t h a t t b e w e t l a n d u n r t S m c t f o a s t o im p r o v e w a t e r q u a l i t y S 1 . D o e s t h e w e t l a n d u n i t h a v e t h e p o t e n t i a l t o i m p r o v e w a t e r q u a l i t y ? ga t f i a M K tw t w t f (s e e p . 6 4 ) S 1 - 1 C h a r a c t e r i s t i c s o f a v e r a g e s l o p e o f u n i t Sl o p e i s l % o r l e s s ( a 1 % s l o p e h a s a 1 f o o t v e r t i c a l d r o p i n e l e v a t i o n f o r e v e r y 1 0 0 f t ho r i z o n t a l d i s t a n c e ) p o i r a V " 3 - Sl o p e i s 1 % - 2 % m n i n f a - " T P Sl o p e i s 2 % - 5 % p o i n t s = 1 Sl o p e i s g r e a t e r t h a n 5 % p o i n t s - 0 S 1 . 2 T h e s o i l 2 i n c h e s b e l o w t h e s u r f a c e ( o r d u f f l a y e r ) i s c l a y o r o r g a n i c ( u s e N R C S de f i n i t i o n s ) Yt g - T p o S y > N O - 0 p o i n t s S 1 . 3 C h a r a c t e r i s t i c s o f t h e v e g e t a t i o n i n t h e w e t l a n d t h a t t r a p s e d i m e n t s a n d p o l l u t a n t s : Ch o o s e t h e p o i n t s a p p r o p r i a t e f o r t h e d e s c r i p t i o n t h a t b e s t f i t s t h e v e g e t a t i o n i n t h e we t l a n d D e n s e v e g e t a t i o n m e a n s y o u h a v e t r o u b l e s e e i n g t h e s o i l s u r f a c e ( > 7 5 % co v e r ) , a n d u n c u t m e a n s n o t g r a z e d o r m o w e d a n d p l a n t s a r e h i g h e r t h a n 6 i n c h e s . De n s e , u n c u t , h e r b a c e o u s v e g e t a t i o n > 9 0 % o f t h e w e t l a n d a r e a p o i n t s - 6 De n s e , u n c u t , h e r b a c e o u s v e g e t a t i o n > 1 / 2 o f a r e a p o i n t s - 3 De n s e , w o o d y , v e g e t a t i o n > % o f a r e a ( j o i n t s ^ 2 j De n s e , u n c u t , h e r b a c e o u s v e g e t a t i o n > 1 / 4 o f a r e a p o i n t s ^ T Do e s n o t m e e t a n y o f t h e c r i t e r i a a b o v e f o r v e g e t a t i o n p o i n t s - 0 Ae r i a l p h o t o o r m a p w i t h v e g e t a t i o n p o l y g o n s Fi g u r e To t a l f o r S 1 Ad d t h e p o i n t s i n t h e b o x e s a b o v e S 2 . D o e s t h e w e t l a n d u n i t h a v e t h e o p p o r t u n i t y t o i m p r o v e w a t e r q u a l i t y ? An s w e r Y E S i f y o u k n o w o r b e l i e v e t h e r e a r e p o l l u t a n t s i n g r o u n d w a t e r o r s u r f a c e w a t e r co m i n g i n t o t h e w e t l a n d t h a t w o u l d o t h e r w i s e r e d u c e w a t e r q u a l i t y i n s t r e a m s , l a k e s o r gr o u n d w a t e r d o w n g r a d i a n t f r o m m e w e t l a n d . N o t e w h i c h o f t h e f o l l o w i n g c o n d i t i o n s pr o v i d e t h e s o u r c e s o f p o l l u t a n t s . A u n i t m a y h a v e p o l l u t a n t s c o m i n g f r o m s e v e r a l so u r c e s , b u t a n y s i n g l e s o u r c e w o u l d q u a l i f y a s o p p o r t u n i t y . — G r a z i n g i n t h e w e t l a n d o r w i t h i n 1 5 0 f t — U n t r e a t e d s t o r m w a t e r d i s c h a r g e s t o w e t l a n d — T i l l e d f i e l d s , l o g g i n g , o r o r o h a r d s w i t h i n 1 5 0 f e e t o f w e t l a n d — R e s i d e n t i a l , u r b a n a r e a s , o r g o l f c o u r s e s a r e w i t h i n 1 5 0 9 u p s l o p e o f w e t l a n d Ol h e r (s e e p . 6 7 ) mu l t i p l i e r YE S m u l t i p l i e r i s 2 t j O m w t i p l i e r i s - l ' ^ „ f Co m m e n t s TO T A L - W a t e r Q u a l i t y F u n c t i o n s M u l t i p l y t h e s c o r e f r o m S I b y S 2 Ad d s c o r e t o t a b l e o n p . 1 7 _5 / We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 1 ve r s i o a 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r s Sl o p e W e H r a d * HY D R O L O G i C F U N C T I O N S - I v ^ ^ a ^ ^ y t ^ l ^ ^ i m A a a t o r^u o c £ t o o d ^« n d n n H m < a « s i a n ' aNMt .-• fart**- S 3 . D o e s t h e w e t l a n d u n i t h a v e t h e p o t e n t i a l t o r e d u c e flooding and stream er o s i o n ? (step.it) s S 3 . 1 C h a r a c t e r i s t i c s o f v e g e t a t i o n t h a t r e d u c e t h e v e l o c i t y of surface flows during storms. Ch o o s e t h e p o i n t s a p p r o p r i a t e f o r t h e d e s c r i p t i o n that best fit conditions in the wetland, (s t e m s o f p l a n t s s h o u l d b e t h i c k e n o u g h ( u s u a l l y > J/Sin), or dense enough, to remain er e c t d u r i n g s u r f a c e f l o w s ) De n s e , u n c u t , r i g i d v e g e t a t i o n c o v e r s > 9 0 % o f t h e area of the wetland. <Jomfs = 6H> De n s e , u n c u t , r i g i d v e g e t a t i o n > 1 / 2 a r e a o f w e t l a n d points = 3 De n s e , u n c u t , r i g i d v e g e t a t i o n > 1 / 4 a r e a points - 1 Mo r e t h a n 1 / 4 o f a r e a i s g r a z e d , m o w e d , t i l l e d o r v e g e t a t i o n is no t r i g i d points "0 c s S 3 . 2 C h a r a c t e r i s t i c s o f s l o p e w e t l a n d t h a t h o l d s b a c k s m a l l amounts of flood flows: Th e s l o p e w e t l a n d h a s s m a l l s u r f a c e d e p r e s s i o n s that can relain_waterover at least 10 % o f i t s a r e a . Y E S p^tnts=35> NO 'points = 0 -7 s Ad d the points in the boxes above (seep. 7B) multiplier s S 4 . D o e s t h e w e t l a n d h a v e t h e o p p o r t u n i t y t o r e d u c e flooding and erosion? Is t h e w e t l a n d i n a l a n d s c a p e p o s i t i o n w h e r e t h e r e d u c t i o n in water velocity it provides he l p s p r o t e c t d o w n s t r e a m p r o p e r t y a n d a q u a t i c r e s o u r c e s from flooding or excessive an d V O T e j a s i v e f l o w s ? N o t e w h i c h o f t h e f o l l o w i n g conditions apply. — W e t l a n d h a s s u r f a c e r u n o f f t h a t d r a i n s t o a r i v e r or stream that has flooding pr o b l e m s — O t h e r (seep. 7B) multiplier (A n s w e r N O i f t h e m a j o r s o u r c e o f w a t e r i s c o n t r o l l e d b y a reservoir (e.g. wetland is a seep th a t i s o n t h e - d o w n s t r e a m s i d e o f a d a m ) YE S n W t i n l i e i J s > N O m u l t i p l i e r i s 1 s TO T A L - H y d r o l o g i c F u n c t i o n s M u l t i p l y the score from S 3 by S 4 Add score to table on p. 1 Co m m e n t s We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 2 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r Th e s e q u e s t i o n s a p p l y t o w e t b m d i t t f a l l H G M d o u s e s . HA B I T A T F U N C T I O N S - I n d i c a t o r s t h a t u n i t f u n c t i o n s t o p r o v i d e i m p o r t a n t h * b i & t Po i n t s <a d y 1 s c o n sa t a d H 1 . D o e s t h e w e t l a n d u n i t h a v e t h e p o t e n t i a l t o p r o v i d e h a b i t a t f o r m a n v s p e c i e s ? H 1 . 1 V e e e t a t i o n s t r u c t u r e ( s e e n . 7 2 ) Ch e c k t h e t y p e s o f v e g e t a t i o n c l a s s e s p r e s e n t ( a s d e f i n e d b y C o w a r d i n ) - S i z e t h r e s h o l d f o r e a c h cl a s s i s V 4 a c r e o r m o r e t h a n 1 0 % o f t h e a r e a i f u n i t i s s m a l l e r t h a n 2 . 5 a c r e s . Aq u a t i c b e d i^ - E m e r g e n t p l a n t s Sc n i b / s h r u b ( a r e a s w h e r e s h r u b s h a v e > 3 0 % c o v e r ) •" F o r e s t e d ( a r e a s w h e r e t r e e s h a v e > 3 0 % c o v e r ) If t h e u n i t h a s a f o r e s t e d c l a s s c h e c k i f : •T h e f o r e s t e d c l a s s h a s 3 o u t o f 5 s t r a t a ( c a n o p y , s u b -c a n o p y , s h r u b s , h e r b a c e o u s , mo s s , g r o u n d - c o v e r ) t h a t e a c h c o v e r 2 0 % w i t h i n t h e f o r e s t e d p o l y g o n Ad d t h e n u m b e r o f v e g e t a t i o n s t r u c t u r e s t h a t q u a l i f y . I f y o u h a v e : 4 s t r u c t u r e s o r m o r e p o i n t s = 4 Ma p o f C o w a r d i n v e g e t a t i o n c l a s s e s 3 s t r u c t u r e s p o i n t s = 2 2 s t r u c t u r e s p o i n t s = 1 1 s t r u c t u r e p o i n t s = 0 Fi g u r e "Z - H 1 . 2 . H v d r o p e r i o d s ( s e e p . 7 3 ) Ch e c k t h e t y p e s o f w a t e r r e g i m e s ( h y d r o p e r i o d s ) p r e s e n t w i t h i n t h e w e t l a n d T h e w a t e r re g i m e h a s t o c o v e r m o r e t h a n 1 0 % c f t h e w e t l a n d o r V 4 a c r e t o c o u n t , ( s e e t e x t f o r de s c r i p t i o n s o f h y d r o p e r i o d s ) Pe r m a n e n t l y f l o o d e d o r i n u n d a t e d 4 o r m o r e t y p e s p r e s e n t p o i n t s - 3 •^ S e a s o n a l l y f l o o d e d o r i n u n d a t e d 3 t y p e s p r e s e n t p o i n t s - 2 Oc c a s i o n a l l y f l o o d e d o r i n u n d a t e d 2 t y p e s p r e s e n t p o i n t = 1 "• M a t u r a t e d o n l y 1 t y p e p r e s e n t p o i n t s - 0 ^P e r m a n e n t l y f l o w i n g s t r e a m o r r i v e r i n , o r a d j a c e n t t o , t h e w e t l a n d Se a s o n a l l y f l o w i n g s t r e a m i n , o r a d j a c e n t t o , t h e w e t l a n d La k e - f r i n g e w e t l a n d = 1 p o i n t s Fr e s h w a t e r t i d a l w e t l a n d = 2 p o i n t s M a p o f h y d r o p e r i o d s Fi g u r e 7 H 1 . 3 . R i c h n e s s o f P l a n t S p e c i e s f s e e a 7 5 ) Co u n t t h e n u m b e r o f p l a n t s p e c i e s i n t h e w e t l a n d t h a t c o v e r a t l e a s t 1 0 f t 2, ( d i f f e r e n t p a t c h e s of t h e s a m e s p e c i e s c a n b e c o m b i n e d t o m e e t t h e s i z e t h r e s h o l d ) Yo u d o n o t h a v e t o n a m e t h e s p e c i e s . Do n o t i n c l u d e E u r a s i a n M i l f o i l , r e e d c a n a r y g r a s s , p u r p l e l o o s e s t r i f e , C a n a d i a n T h i s t l e If y o u c o u n t e d : > 1 9 s p e c i e s p o i n t s = 2 Li s t s p e c i e s b e l o w i f y o u w a n t t o : 5 - 1 9 s p e c i e s p o t n " f s = T > < 5 s p e c i e s p o m E f 51) To t a l f o r p a g e We t l a n d R a t i n g F o i m - w e s t e r n W a s h i n g t o n 1 3 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r De c i d e f r o m t h e d i a g r a m s b e l o w w h e t h e r i n t e r s p e r s i o n b e t w e e n Cowardin vegetation cl a s s e s ( d e s c r i b e d i n H 1 . 1 ) , o r t h e c l a s s e s a n d u n v e g e t a t e d areas (can include open water or mu d f l a t s ) i s h i g h , m e d i u m , l o w , o r n o n e . oC o >c i * > @> No n e - 0 p o i n t s , f L o w = 1 p o t n t ^ S , Moderate = 2 points [riparian braided channels] Si g h = 3 p o i n t s NO T E : I f y o u h a v e f o u r o r m o r e c l a s s e s o r I h r e e v e g e t a t i o n classes and open water th e r a t i n g i s a l w a y s " h i g h " . U s e m a p o f C o w a r d i n vegetation classes H 1 . 5 . S p e c i a l H a b i t a t F e a t u r e s : ( s e e p . 7 7 ) Ch e c k t h e h a b i t a t f e a t u r e s t h a t a r e p r e s e n t i n t h e w e t l a n d The number of checks is the *^ h u m b e r o f p o i n t s y o u p u t i n t o t h e n e x t c o l u m n . "" L a r g e , d o w n e d , w o o d y d e b r i s w i t h i n t h e w e t l a n d ( > 4 i n . d i a m e t e r and 6 ft long). , . / S t a n d i n g s n a g s ( d i a m e t e r a t t h e b o t t o m > 4 i n c h e s ) i n t h e w e t l a n d Un d e r c u t b a n k s a r e p r e s e n t f o r a t l e a s t 6 . 6 f t ( 2 m ) a n d / o r o v e r h a n g i n g vegetation extends at le a s t 3 . 3 f t ( 1 m ) o v e r a s t r e a m ( o r d i t c h ) i n , o r c o n t i g u o u s with the unit, for at least 33 ft (1 0 m ) St a b l e s t e e p b a n k s o f f i n e m a t e r i a l t h a t m i g h t b e u s e d b y b e a v e r or muskrat for denning (> 3 0 d e g r e e s l o p e ) O R s i g n s o f r e c e n t b e a v e r a c t i v i t y a r e p r e s e n t (cut shrubs or trees that ha v e n o t y e t t u r n e d g r e y / b r o w n ) At l e a s t V * a c r e o f t h i n - s t e m m e d p e r s i s t e n t v e g e t a t i o n o r woody branches are present in areas th a t a r e p e r m a n e n t l y o r s e a s o n a l l y i n u n d a t e d , ( s t r u c t u r e s for egg-laying by amphibians) In v a s i v e p l a n t s c o v e r l e s s t h a n 2 5 % o f t h e w e t l a n d a r e a i n each stratum of plants NO T E : T h e 2 0 % s t a t e d i n e a r l y p r i n t i n g s o f t h e m a n u a l on page 78 is an error. Co m m e n t s H 1 . T O T A L S c o r e - potential for providing habitat | Ad d t h e s c o r e s f r o m Hl.l, H1.2, H1.3, H1.4, Hl.S [ We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 4 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t . 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r H 2 . D o e s t h e w e t l a n d u n i t h a v e t h e o p p o r t u n i t y t o p r o v i d e h a b i t a t f o r m a n y s p e c i e s ? H 2 . 1 B u f f e r s ( s e e p . 8 0 ) Ch o o s e t h e d e s c r i p t i o n t h a t b e s t r e p r e s e n t s c o n d i t i o n o f b u f f e r o f w e t l a n d u n i t . T h e h i g h e s t s c o r i n g cr i t e r i o n t h a t a p p l i e s t o t h e w e t l a n d i s t o b e u s e d i n t h e r a t i n g . S e e t e x t f o r d e f i n i t i o n o f "u n d i s t u r b e d " — 1 0 0 m ( 3 3 0 f t ) o f r e l a t i v e l y u n d i s t u r b e d v e g e t a t e d a r e a s , r o c k y a r e a s , o r o p e n w a t e r > 9 5 % of c i r c u m f e r e n c e . N o s t r u c t u r e s a r e w i t h i n t h e u n d i s t u r b e d p a r t o f b u f f e r , ( r e l a t i v e l y un d i s t u r b e d a l s o m e a n s n o - g r a z i n g , n o l a n d s c a p i n g , n o d a i l y h u m a n u s e ) P o i n t s = 5 — 1 0 0 m ( 3 3 0 f t ) o f r e l a t i v e l y u n d i s t u r b e d v e g e t a t e d a r e a s , r o c k y a r e a s , o r o p e n w a t e r > 50 % c i r c u m f e r e n c e . P o i n t s = 4 — 5 0 m ( 1 7 0 1 1 ) o f r e l a t i v e l y u n d i s t u r b e d v e g e t a t e d a r e a s , r o c k y a r e a s , o r o p e n w a t e r > 9 5 % ci r c u m f e r e n c e . P o i n t s ™ 4 — 1 0 0 m ( 3 3 0 f t ) o f r e l a t i v e l y u n d i s t u r b e d v e g e t a t e d a r e a s , r o c k y a r e a s , o r o p e n w a t e r > 2 5 % ci r c u m f e r e n c e , . P o i n t s - 3 — 5 0 m ( 1 7 0 f t ) o f r e l a t i v e l y u n d i s t u r b e d v e g e t a t e d a r e a s , r o c k y a r e a s , o r o p e n w a t e r f o r * . 50 % c i r c u m f e r e n c e . ( P o i n t s " * * If b u f f e r d o e s n o t m e e t a n y o f t h e c r i t e r i a a b o v e — N o p a v e d a r e a s ( e x c e p t p a v e d t r a i l s ) o r b u i l d i n g s w i t h i n 2 5 m ( 8 0 f t ) o f w e t l a n d > 9 5 % ci r c u m f e r e n c e . L i g h t t o m o d e r a t e g r a z i n g , o r l a w n s a r e O K . P o i n t s - 2 — N o p a v e d a r e a s o r b u i l d i n g s w i t h i n 5 0 m o f w e t l a n d f o r > 5 0 % c i r c u m f e r e n c e . Li g h t t o m o d e r a t e g r a z i n g , o r l a w n s a r e O K . P o i n t s = 2 — H e a v y g r a z i n g i n b u f f e r . P o i n t s = 1 — V e g e t a t e d b u f f e r s a r e < 2 m w i d e ( 6 . 6 f t ) f o r m o r e t h a n 9 5 % o f t h e c i r c u m f e r e n c e ( e . g . t i l l e d fi e l d s , p a v i n g , b a s a l t b e d r o c k e x t e n d t o e d g e o f w e t l a n d P o i n t s = 0 . — B u f f e r d o e s n o t m e e t a n y o f t h e c r i t e r i a a b o v e . P o i n t s = 1 Ae r i a l p h o t o s h o w i n g b u f f e r s Fi g u r e H 2 . 2 C o r r i d o r s a n d C o n n e c t i o n s ( s e e v . 8 1 ) H 2 . 2 . 1 I s t h e w e t l a n d p a r t o f a r e l a t i v e l y u n d i s t u r b e d a n d u n b r o k e n v e g e t a t e d c o r r i d o r (e i t h e r r i p a r i a n o r u p l a n d ) t h a t i s a t l e a s t 1 5 0 f t w i d e , h a s a t l e a s t 3 0 % c o v e r o f s h r u b s , f o r e s t or n a t i v e u n d i s t u r b e d p r a i r i e , t h a t c o n n e c t s t o e s t u a r i e s , o t h e r w e t l a n d s o r u n d i s t u r b e d up l a n d s t h a t a r e a t l e a s t 2 5 0 a c r e s i n s i z e ? ( d a m s i n r i p a r i a n c o r r i d o r s , h e a v i l y u s e d g r a v e l ro a d s , p a v e d r o a d s , a r e c o n s i d e r e d b r e a k s i n t h e c o r r i d o r ) . — YE S - 4 p o i n t s ( g o t o H 2 . 3 ) > ^ _ g o _ t o H Z 2 ? £ > H 2 . 2 . 2 I s t h e w e t l a n d p a r t o f a r e l a t i v e l y u n d i s t u r b e d a n d u n b r o k e n v e g e t a t e d c o r r i d o r (e i t h e r r i p a r i a n o r u p l a n d ) t h a t i s a t l e a s t 5 0 f t w i d e , h a s a t l e a s t 3 0 % c o v e r o f s h r u b s o r fo r e s t , a n d c o n n e c t s t o e s t u a r i e s , o t h e r w e t l a n d s o r u n d i s t u r b e d u p l a n d s t h a t a r e a t l e a s t 2 5 ac r e s i n s i z e ? O R a L a k e - f r i n g e w e t l a n d , i f i t d o e s n o t h a v e a n u n d i s t u r b e d c o r r i d o r a s i n th e q u e s t i o n a b o v e ? „ YE S = 2 p o i n t s ( g o t o H 2 . 3 ) N p _- . | 1 2 3 S H 2 . 2 . 3 I s t h e w e t l a n d : wi t h i n 5 m i ( 8 k m ) o f a b r a c k i s h o r s a l t w a t e r e s t u a r y O R -' " " w i t h i n 3 m i o f a l a r g e f i e l d o r p a s t u r e ( > 4 0 a c r e s ) O R £/ w i t h i n X n " ^ - a - J a k g j r e a t e r t h a n 2 0 a c r e s ? C" V E S - 1 p o i n t 3 N O -0 p o i n t s | To t a l f o r p a g e i We t l a n d R a t i n g F o a m - w e s t e r n W a s h i n g t o n 1 5 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r H 2 . 3 N e a r o r a d j a c e n t t o o t h e r p r i o r i t y h a b i t a t s l i s t e d b v W D F W (see new and complete de s c r i p t i o n s o f W D F W p r i o r i t y h a b i t a t s , a n d t h e c o u n t i e s in which they can be found) in th e P U S r e p o r t h t t p V / w d t w . w a . s o v / h a b / v h s l i s t . h t m ) Wh i c h o f t h e f o l l o w i n g p r i o r i t y h a b i t a t s a r e w i t h i n 3 3 0 f t ( 1 0 0 m ) of the wetland rniif! NOTE: the co n n e c t i o n s d o n o t h a v e t o b e r e l a t i v e l y u n d i s t u r b e d As p e n S t a n d s : P u r e o r m i x e d s t a n d s o f a s p e n g r e a t e r t h a n 0 . 4 ha (1 acre). Bi o d i v e r s i t y A r e a s a n d C o r r i d o r s : A r e a s o f h a b i t a t t h a t a r e relatively important to various sp e c i e s o f n a t i v e f i s h a n d w i l d l i f e ( f u l l d e s c r i p t i o n s i n W D F W P H S report p. 152). He r b a c e o u s B a l d s : V a r i a b l e s i z e p a t c h e s o f g r a s s a n d f o r b s on shallow soils over bedrock. Ol d - g r o w t h / M a t m t f o r e s t s : ( O l d - g r o w t h w e s t o f C a s c a d e crestl Stands of at least 2 tree sp e c i e s , f o r m i n g a m u l t i - l a y e r e d c a n o p y w i t h o c c a s i o n a l s m a l l openings; with at least 20 tr e e s / h a ( 8 t r e e s / a c r e ) > 8 1 c m ( 3 2 i n ) d b h o r > 2 0 0 y e a r s o f age. (Mature forests^ Stands wi t h a v e r a g e d i a m e t e r s e x c e e d i n g 5 3 c m ( 2 1 i n ) d b h ; c r o w n cover may be less that 100% cr o w n c o v e r m a y b e l e s s t h a t 1 0 0 % ; d e c a y , d e c a d e n c e , n u m b e r s of snags, and quantity of la r g e d o w n e d m a t e r i a l i s g e n e r a l l y l e s s t h a n t h a t f o u n d i n o l d - g r o w t h ; 80 - 200 years old we s t o f t h e C a s c a d e c r e s t . .O r e g o n w h i t e O a k : W o o d l a n d s S t a n d s o f p u r e o a k o r o a k / c o n i f e r associations where ca n o p y c o v e r a g e o f m e o a k c o m p o n e n t i s i m p o r t a n t ( f u l l d e s c r i p t i o n s in WDFWPHS Sr e p o r t p . 1 5 8 ) . Ri p a r i a n : T h e a r e a a d j a c e n t t o a q u a t i c s y s t e m s w i m f l o w i n g water that contains elements of bo t h a q u a t i c a n d t e r r e s t r i a l e c o s y s t e m s w h i c h m u t u a l l y i n f l u e n c e each other. We r t s i d e P r a i r i e s : H e r b a c e o u s , n o n - f o r e s t e d p l a n t c o m m u n i t i e s that can either take the fo r m o f a d r y p r a i r i e o r a w e t p r a i r i e ( f u l l d e s c r i p t i o n s i n W D F W P H S report p. 161). In s t r e a m : T h e c o m b i n a t i o n o f p h y s i c a l , b i o l o g i c a l , a n d c h e m i c a l processes and conditions th a t i n t e r a c t t o p r o v i d e f u n c t i o n a l l i f e h i s t o r y r e q u i r e m e n t s for instream fish and wildlife re s o u r c e s . __ _ N e a r s h o r e : R e l a t i v e l y u n d i s t u r b e d n e a r s h o r e h a b i t a t s . T h e s e include Coastal Nearshore, Op e n C o a s t N e a r s h o r e , a n d P u g e t S o u n d N e a r s h o r e . ( f u l l d e s c r i p t i o n s of habitats and the de f i n i t i o n o f r e l a t i v e l y u n d i s t u r b e d a r e i n W D F W r e p o r t : pp. 167-169 and glossary in Ap p e n d i x A ) . Ca v e s : A n a t u r a l l y o c c u r r i n g c a v i t y , r e c e s s , v o i d , o r s y s t e m of interconnected passages under th e e a r t h i n s o i l s , r o c k , i c e , o r o t h e r g e o l o g i c a l f o r m a t i o n s and is large enough to contain a hu m a n . CU f f s : G r e a t e r t h a n 7 . 6 m ( 2 5 f t ) h i g h a n d o c c u r r i n g b e l o w 5000 ft. Ta l u s : H o m o g e n o u s a r e a s o f r o c k r u b b l e r a n g i n g i n a v e r a g e size 0.15 - 2.0 m (0.5 - 6.5 ft), co m p o s e d o f b a s a l t , a n d e s i t e , a n d / o r s e d i m e n t a r y r o c k , i n c l u d i n g riprap slides and mine ta i l i n g s . M a y b e a s s o c i a t e d w i t h c l i f f s . _ S n a g s a n d L o g s : T r e e s a r e c o n s i d e r e d s n a g s i f t h e y a r e d e a d or dying and exhibit sufficient de c a y c h a r a c t e r i s t i c s t o e n a b l e c a v i t y e x c a v a t i o n / u s e b y w i l d l i f e . Priority snags have a di a m e t e r a t b r e a s t h e i g h t o f > 5 1 c m ( 2 0 i n ) i n w e s t e r n W a s h i n g t o n and are > 2 m (6.5 ft) in he i g h t . P r i o r i t y l o g s a r e > 3 0 c m ( 1 2 i n ) i n d i a m e t e r a t t h e largest end, and > 6 m (20 ft) lo n g . If w e t l a n d h a s 3 o r m o r e p r i o r i t y h a b i t a t s • = 4 p o i n t s If w e t l a n d h a s 2 p r i o r i t y h a b i t a t s = 3 p o i n t s If w e t l a n d h a s 1 p r i o r i t y h a b i t a t « 1 p o i n t N o habitats = 0 points No t e : A l l v e g e t a t e d w e t l a n d s a r e b y d e f i n i t i o n a p r i o r i t y habitat but are not included in this li s t . N e a r b y w e t l a n d s a r e a d d r e s s e d i n q u e s t i o n H 2 . 4 ) We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 6 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i m t i o n s O c t . 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r H 2 . 4 W e t l a n d L a n d s c a p e ( c h o o s e t h e o n e d e s c r i p t i o n o f t h e l a n d s c a p e a r o u n d t h e w e t l a n d t h a t be s t f i t s ) ( s e e j > . 8 4 ) Th e r e a r e a t l e a s t 3 o t h e r w e t l a n d s w i t h i n % m i l e , a n d t h e c o n n e c t i o n s b e t w e e n t h e m a r e re l a t i v e l y u n d i s t u r b e d ( l i g h t g r a z i n g b e t w e e n w e t l a n d s O K , a s i s l a k e s h o r e w i t h s o m e bo a t i n g , b u t c o n n e c t i o n s s h o u l d N O T b e b i s e c t e d b y p a v e d r o a d s , f i l l , f i e l d s , o r o t h e r de v e l o p m e n t . p o i n t s = • 5 Th e w e t l a n d i s L a k e - f r i n g e o n a l a k e w i t h l i t t l e d i s t u r b a n c e a n d t h e r e a r e 3 o t h e r l a k e - f r i n g e we t l a n d s w i t h i n ¥ t m i l e p o i n t s - 5 Th e r e a r e a t l e a s t 3 o t h e r w e t l a n d s w i t h i n V 4 m i l e , B U T t h e c o n n e c t i o n s b e t w e e n J h ^ j L a t t l _ _ ^ ^ di s t u r b e d ; p o i n e £J > Th e w e t l a n d i s L a k e - f r i n g e o n a l a k e w i t h d i s t u r b a n c e a n d t h e r e a r e 3 o t h e r l a k e ^ & h r g S ^ ^ we t l a n d w i t h i n % m i l e p o i n t s = 3 Th e r e i s a t l e a s t 1 w e t l a n d w i t h i n V 4 m i l e . p o i n t s - 2 Th e r e a r e n o w e t l a n d s w i t h i n ' / S m i l e . p o i n t s = 0 H 2 . T O T A L S c o r e - o p p o r t u n i t y f o r p r o v i d i n g h a b i t a t Ad d t h e s c o r e s f r o m H 2 . 1 . H 2 . 2 , H 2 . 3 , H 2 . 4 ! S TO T A L f o r H 1 f r o m p a g e 1 4 To t a l S c o r e f o r H a b i t a t F u n c t i o n s - a d d t h e p o i n t s f o r H 1 , H 2 a n d r e c o r d t h e r e s u l t o n P. l We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 7 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r CA T E G O R I Z A T I O N B A S E D O N S P E C I A L CHARACTERISTICS Pl e a s e d e t e r m i n e i f t h e w e t l a n d m e e t s t h e a t t r i b u t e s described below and circle the ap p r o p r i a t e a n s w e r s a n d C a t e g o r y . We t l a n d T y p e Ch e c k o f f a n y c r i t e r i a t h a t a p p l y t o t h e w e t l a n d C i r c l e the Category when the ap p r o p r i a t e c r i t e r i a a r e m e t . Category SC 1 . 0 E s t u a r i n e w e t l a n d s ( s e e p . 8 6 ) Do e s t h e w e t l a n d u n i t m e e t t h e f o l l o w i n g c r i t e r i a f o r E s t u a r i n e wetlands? — T h e d o m i n a n t w a t e r r e g i m e i s t i d a l , yS*' — V e g e t a t e d , a n d / — W i t h a s a l i n i t y g r e a t e r t h a n 0 . 5 p p t . / YE S - G o t o S C 1 . 1 N O ' SC 1 . 1 I s t h e w e t l a n d u n i t w i t h i n a N a t i o n a l W i l d l i f e Refuge, National Park, Na t i o n a l E s t u a r y R e s e r v e , N a t u r a l A r e a P r e s e r v e , State Park or Educational, En v i r o n m e n t a l , o r S c i e n t i f i c R e s e r v e d e s i g n a t e d u n d e r WAC 332-30-151? YE S - C a t e g o r y I N O go to SC 1.2 Cat I SC 1 . 2 I s t h e w e t l a n d u n i t a t l e a s t 1 a c r e i n s i z e a n d m e e t s at least two of the fo l l o w i n g t h r e e c o n d i t i o n s ? Y E S = C a t e g o r y I NO ~ Category II — T h e w e t l a n d i s r e l a t i v e l y u n d i s t u r b e d ( h a s n o diking, ditching, filling, cu l t i v a t i o n , g r a z i n g , a n d h a s l e s s t h a n 1 0 % c o v e r of non-native plant sp e c i e s . I f t h e n o n - n a t i v e S p a r t i n a s p p . a r e t h e only species that cover mo r e t h a n 1 0 % o f t h e w e t l a n d , t h e n t h e w e t l a n d should be given a dual ra t i n g ( I / H ) . T h e a r e a o f S p a r t i n a w o u l d b e r a t e d a Category II while the re l a t i v e l y u n d i s t u r b e d u p p e r m a r s h w i t h n a t i v e species would be a Ca t e g o r y I . D o n o t , h o w e v e r , e x c l u d e t h e a r e a of Spartina in de t e r m i n i n g t h e s i z e t h r e s h o l d o f 1 a c r e . — A t l e a s t ' A o f t h e l a n d w a r d e d g e o f t h e w e t l a n d has a 100 ft buffer of sh r u b , f o r e s t , o r u n - g r a z e d o r u n - m o w e d g r a s s l a n d . — T h e w e t l a n d h a s a t l e a s t 2 o f t h e f o l l o w i n g f e a t u r e s : tidal channels, de p r e s s i o n s w i t h o p e n w a t e r , o r c o n t i g u o u s f r e s h w a t e r wetlands. Cat I Cat II Dual rating I/H We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 8 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r SC 2 . 0 N a t u r a l H e r i t a g e W e t l a n d s ( s e e p . 8 7 ) Na t u r a l H e r i t a g e w e t l a n d s h a v e b e e n i d e n t i f i e d b y t h e W a s h i n g t o n N a t u r a l H e r i t a g e Pr o g r a m / D N R a s e i t h e r h i g h q u a l i t y u n d i s t u r b e d w e t l a n d s o r w e t l a n d s t h a t s u p p o r t st a t e T h r e a t e n e d , E n d a n g e r e d , o r S e n s i t i v e p l a n t s p e c i e s . SC 2 . 1 I s t h e w e t l a n d u n i t b e i n g r a t e d i n a S e c t i o n / T o w n s h i p / R a n g e t h a t c o n t a i n s a Na t u r a l H e r i t a g e w e t l a n d ? ( t h i s q u e s t i o n i s u s e d t o s c r e e n o u t m o s t s i t e s be f o r e y o u n e e d t o c o n t a c t W N H P / D N R ) / S/ T / R i n f o r m a t i o n f r o m A p p e n d i x D o r a c c e s s e d f r o m W N H P / D N R w e b s i t e f _ . YE S - c o n t a c t W N H P / D N R ( s e e p . 7 9 ) a n d g o t o S C 2 . 2 N O < / SC 2 . 2 H a s D N R i d e n t i f i e d t h e w e t l a n d a s a h i g h q u a l i t y u n d i s t u r b e d w e t l a n d o r a s or a s a s i t e w i t h s t a t e t h r e a t e n e d o r e n d a n g e r e d p l a n t s p e c i g s ? YE S = C a t e g o r y I N O n o t a H e r i t a g e W e t l a n d Ca t I SC 3 . 0 B o g s ( s e e p . 8 7 ) Do e s t h e w e t l a n d u n i t ( o r a n y p a r t o f t h e u n i t ) m e e t b o t h t h e c r i t e r i a f o r s o i l s a n d ve g e t a t i o n i n b o g s ? U s e t h e k e y b e l o w t o i d e n t i f y i f t h e w e t l a n d i s a b o g . I f y o u an s w e r y e s y o u w i l l s t i l l n e e d t o r a t e t h e w e t l a n d b a s e d o n i t s f u n c t i o n s . 1. D o e s t h e u n i t h a v e o r g a n i c s o i l h o r i z o n s ( i . e . l a y e r s o f o r g a n i c s o i l ) , e i t h e r pe a t s o r m u c k s , t h a t c o m p o s e 1 6 i n c h e s o r m o r e o f t h e f i r s t 3 2 i n c h e s o f t h e so i l p r o f i l e ? ( S e e A p p e n d i x B f o r a f i e M J s e y J o i d e n t i f y o r g a n i c s o i l s ) ? Y e s - go t o Q . 3 N o ^ g o J ^ O j S - - 5 2. D o e s t h e u n i t h a v e o r g a n i c s o i l s , e i t h e r p e a t s o r m u c k s t h a t a r e l e s s t h a n 1 6 in c h e s d e e p o v e r b e d r o c k , o r a n i m p e r m e a b l e h a r d p a n s u c h a s c l a y o r vo l c a n i c a s h , o r t h a t a r e f l o a t i n g o n a l a k e o r p o n d ? • . . . . Ye s - g o t o Q . 3 C j J o - I s n o t a b o g f o r p u r p o s e o f r a t i n g > 3. D o e s t h e u n i t h a v e m o r e t h a n 7 0 % c o v e r o f m o s s e s a t g r o u n d l e v e l , A N D ot h e r p l a n t s , i f p r e s e n t , c o n s i s t o f t h e " b o g " s p e c i e s l i s t e d i n T a b l e 3 a s a si g n i f i c a n t c o m p o n e n t o f t h e v e g e t a t i o n ( m o r e t h a n 3 0 % o f t h e t o t a l s h r u b an d h e r b a c e o u s c o v e r c o n s i s t s o f s p e c i e s i n T a b l e 3 ) ? Ye s - I s a b o g f o r p u r p o s e o f r a t i n g N o - g o t o Q . 4 NO T E : I f y o u a r e u n c e r t a i n a b o u t t h e e x t e n t o f m o s s e s i n t h e u n d e r s t o r y yo u m a y s u b s t i t u t e t h a t c r i t e r i o n b y m e a s u r i n g t h e p H o f t h e w a t e r t h a t se e p s i n t o a h o l e d u g a t l e a s t 1 6 " d e e p . I f t h e p H i s l e s s t h a n 5 . 0 a n d t h e "b o g " p l a n t s p e c i e s i n T a b l e 3 a r e p r e s e n t , t h e w e t l a n d i s a b o g . /. I s t h e u n i t f o r e s t e d ( > 3 0 % c o v e r ) w i t h s i t k a s p r u c e , s u b a l p i n e f i r , w e s t e r n re d c e d a r , w e s t e r n h e m l o c k , l o d g e p o l e p i n e , q u a k i n g a s p e n , E n g l e m a n n ' s sp r u c e , o r w e s t e r n w h i t e p i n e , W I T H a n y o f t h e s p e c i e s ( o r c o m b i n a t i o n o f sp e c i e s ) o n t h e b o g s p e c i e s p l a n t l i s t i n T a b l e 3 a s a s i g n i f i c a n t c o m p o n e n t of t h e g r o u n d c o v e r ( > 3 0 % c o v e r a g e o f t h e t o t a l s h r u b / h e r b a c e o u s c o v e r ) ? 2. Y E S = C a t e g o r y I N o I s n o t a b o g f o r p u r p o s e o f r a t i n g Ca t I We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 1 9 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 We t l a n d n a m e o r n u m b e r SC 4 . 0 F o r e s t e d W e t l a n d s ( s e e p . 9 0 ) Do e s t h e w e t l a n d u n i t h a v e a t l e a s t 1 a c r e o f f o r e s t t h a t m e e t one of these criteria for th e D e p a r t m e n t o f F i s h a n d W i l d l i f e ' s f o r e s t s a s p r i o r i t y h a b i t a t s ? If you answer yes yo u w i l l s t i l l n e e d t o r a t e t h e w e t l a n d b a s e d o n i t s f u n c t i o n s . — O l d - g r o w t h f o r e s t s : ( w e s t o f C a s c a d e c r e s t ) S t a n d s of at least two tree species, fo r m i n g a m u l t i - l a y e r e d c a n o p y w i t h o c c a s i o n a l s m a l l openings; with at least 8 tr e e s / a c r e ( 2 0 t r e e s / h e c t a r e ) t h a t a r e a t l e a s t 2 0 0 y e a r s of age OR have a di a m e t e r a t b r e a s t h e i g h t ( d b h ) o f 3 2 i n c h e s ( 8 1 c m ) or more. NO T E : T h e c r i t e r i o n f o r d b h i s b a s e d o n m e a s u r e m e n t s for upland forests. Tw o - h u n d r e d y e a r o l d t r e e s i n w e t l a n d s w i l l o f t e n have a smaller dbh be c a u s e t h e i r g r o w t h r a t e s a r e o f t e n s l o w e r . T h e DFW criterion is and "OR" so o l d - g r o w t h f o r e s t s d o n o t n e c e s s a r i l y h a v e t o have trees of this diameter. — M a t u r e f o r e s t s : ( w e s t o f t h e C a s c a d e C r e s t ) S t a n d s where the largest trees are 80 - 2 0 0 y e a r s o l d O R h a v e a v e r a g e d i a m e t e r s ( d b h ) exceeding 21 inches (5 3 c m ) ; c r o w n c o v e r m a y b e l e s s t h a t 1 0 0 % ; d e c a y , decadence, numbers of sn a g s , a n d q u a n t i t y o f l a r g e d o w n e d m a t e r i a l i s g e n e r a l l y less than that found in o l d - g r o w t h . YE S " C a t e g o r y I N O • /no t a f o r e s t e d w e t l a n d with special characteristics Cat I SC 5 . 0 W e t l a n d s i n C o a s t a l L a g o o n s ( s e e p . 9 1 ) Do e s t h e w e t l a n d m e e t a l l o f t h e f o l l o w i n g c r i t e r i a o f a w e t l a n d in a coastal lagoon? — T h e w e t l a n d l i e s i n a d e p r e s s i o n a d j a c e n t t o m a r i n e waters that is wholly or p a r t i a l l y s e p a r a t e d f r o m m a r i n e w a t e r s b y s a n d b a n k s , gravel banks, sh i n g l e , o r , l e s s f r e q u e n t l y , r o c k s — T h e l a g o o n i n w h i c h t h e w e t l a n d i s l o c a t e d c o n t a i n s surface water that is sa l i n e o r b r a c k i s h ( > 0 . 5 p p t ) d u r i n g m o s t o p t f t e year in at least a portion of t h e l a g o o n ( n e e d s t o b e m e a s u r e d n e ^ t / t h e bottom) YE S = G o t o S C 5 . 1 N O • l o t a w e t l a n d in a coastal lagoon SC 5 . 1 D o e s t h e w e t l a n d m e e t s a l l o f t h e f o l l o w i n g t h r e e conditions? — T h e w e t l a n d i s r e l a t i v e l y u n d i s t u r b e d ( h a s n o diking, ditching, filling, cu l t i v a t i o n , g r a z i n g ) , a n d h a s l e s s t h a n 2 0 % c o v e r of invasive plant sp e c i e s ( s e e l i s t o f i n v a s i v e s p e c i e s o n p . 7 4 ) . — A t l e a s t % o f t h e l a n d w a r d e d g e o f t h e w e t l a n d has a 100 ft buffer of sh r u b , f o r e s t , o r u n - g r a z e d o r u n - m o w e d g r a s s l a n d . — T h e w e t l a n d i s l a r g e r t h a n 1 / 1 0 a c r e ( 4 3 5 0 s q u a r e feet) YE S = • C a t e g o r y I N O - C a t e g o r y II Cat. I Cat II We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 2 0 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 August 2004 We t l a n d n a m e o r n u m b e r SC 6 .0 I n t e r d u n a l W e t l a n d s ( s e e p . 9 3 ) Is t h e w e t l a n d u n i t w e s t o f t h e 1 8 8 9 l i n e ( a l s o c a l l e d t h e - W e s t e r n B o u n d a r y o f U p l a n d Ow n e r s h i p o r W B U O ) ? YE S - g o t o S C 6 . 1 N O 2 ^ n o t a n i n t e r d u n a l w e t l a n d f o r r a t i n g If y o u a n s w e r y e s y o u w i l l s t i l l n e e d t o r a t e t h e w e t l a n d b a s e d o n i t s fu n c t i o n s . In p r a c t i c a l t e r m s t h a t m e a n s t h e f o l l o w i n g g e o g r a p h i c a r e a s : • L o n g B e a c h P e n i n s u l a - l a n d s w e s t o f S R 1 0 3 • G r a y l a n d - W e s t p o r t - l a n d s w e s t o f S R 1 0 5 • O c e a n S h o r e s - C o p a l i s - l a n d s w e s t o f S R 1 1 5 a n d S R 1 0 9 SC 6 . 1 I s t h e w e t l a n d o n e a c r e o r l a r g e r , o r i s i t i n a m o s a i c o f w e t l a n d s t h a t i s on c e a c r e o r l a r g e r ? YE S = C a t e g o r y H N O - g o t o S C 6 . 2 SC 6 . 2 I s t h e u n i t b e t w e e n 0 . 1 a n d 1 a c r e , o r i s i t i n a m o s a i c o f w e t l a n d s t h a t i s be t w e e n 0 . 1 a n d 1 a c r e ? YE S - C a t e g o r y H I Ca t I I Ca t I I I Ca t e g o r y o f w e t l a n d h a t e d o n S p e c i a l C h a r a c t e r i s t i c s Ch o o s e t h e " h i g h e s t " r a t i n g i f w e t l a n d J a i l s I n t o s e v e r a l c a t e g o r i e s , a m i r e c o r d o n p. l . If y o u a n s w e r e d N O f o r a l l t y p e s e n t e r " N o t A p p l i c a b l e " o n p . l We t l a n d R a t i n g F o r m - w e s t e r n W a s h i n g t o n 2 1 ve r s i o n 2 U p d a t e d w i t h n e w W D F W d e f i n i t i o n s O c t 2 0 0 8 Au g u s t 2 0 0 4 August 2, 2013 Jamie Kelly City of Auburn 25 West Main Street Auburn, Washington 98001 RE: Westridge – City of Auburn Critical Areas Report Addendum City of Auburn PLT13-0001, SEP13-0008 SWC Job#13-106 Dear Jamie, This letter is in response to your July 2, 2013 “First Review Comments” regarding the critical areas portion of the Westridge Preliminary Subdivision project. Comments #1 & #2 were just statements agreeing with findings in our study. A. Regarding the following comment #3; The larger pond in the southwestern part of the site was originally excavated decades ago by the original owner with the last name of O’Hearon. In conversations with Mr Johnson (owner of the property from 1975) he said there is no formal plastic liner in the pond. The pond was dug out with the log home and shop back in the years ago and the good material which was hogged out was used as backfill to fill a historic home foundation hole. The stripping’s and topsoil from the shop and house and driveway excavations where spread back in the pond and orchard areas about 4 to 5 feet thick. The pond was originally created by the original owner O ’Hearon as a water supply source for the chicken coops on the property. According to Mr. Johnson, at some point after 1975, USDA was offering free engineering and design for agricultural farm ponds for farmer s. He had a pond designed to upgrade the existing chicken coop pond. As part of the design a drain with a standpipe was installed, as well as a drain plug which lead to the culvert under the driveway in a 4” pvc pipe. Water from the Hillis Hills development entered the pond in a dug ditch. This caused significant erosion into the pond. Eventually this was Sewall Wetland Consulting, Inc. 27641 Covington Way SE #2 253-859-0515 Covington, WA 98042 Westridge/#13-107 Sewall Wetland Consulting, Inc. August 2, 2013 Page 2 diverted to the storm pond west of the NW corner of the site. At the time of the construction of a water line on 64th, the contractor was storing materials on the site with Mr. Johnsons permission. At that time the contractor hauled mud and topsoil to the pond to fill it in a bit to create be tter nesting habitat for the exotic flamingos that were kept in the pond. There are areas of black plastic that topsoil was spread over near the areas of the fish pond are also areas he built, but it is not prevalent throughout the larger pond bottom area. As previously noted, the pond originally got water from the hillside behind it from a dug swale. Then when the area to the west was developed, it cut off his water source and the pond would dry up each summer so he used water from his primary water well to fill it for the flamingos he housed in this area. He also had installed some pipes to be able to drain it occasionally to be able to maintain it every few years and clean it out so it didn't get too murky as well as provide overflow protection in case of too much rainwater. The site was studied by Habitat Technologies in 2004 and 2005 for the Meredith Heights subdivision when this area was unincorporated King County. At that time the home was still occupied and the pond water elevation maintained. Above: iMap 2002 image of the pond while the home was still occupied and the pond maintained. The pond was not maintained from 2005 on and as can be seen in the 2005 and 2007 aerial photographs, the water levels in the pond were not present as the pond dried up. Westridge/#13-107 Sewall Wetland Consulting, Inc. August 2, 2013 Page 3 Above: 2005 Aerial photograph of pond, Below 2007 photograph. Westridge/#13-107 Sewall Wetland Consulting, Inc. August 2, 2013 Page 4 The Habitat Technologies report reviewed this pond, and concluded the following; The Meredith Plat was approved by King County, and this pond issue was reviewed by Nick Gillen of King County and it was agreed this was a dug pond dug out of upland areas of Alderwood soil that did not constitute a jurisdictional wetland. Since the abandonment of the pond, the drainage no longer works and an accumulation of organic matter in the bottom of the pond area has created wetland conditions. However, this is a maintenance issue and the presence of wetland plants etc. is a temporary and recent occurrence as a result of a lack of maintenance of the pond since it was abandoned by the previous plat owners. As a result, this feature is a man-made pond which due to lack of maintenance, currently has some wetland indicators as you would see in a similar situation in a storm pond that was not maintained. B. Regarding the following comment #4 As depicted on the attached Westridge Buffer Enhancement Plan, the above requested Enhancement plan is being provided to the City for review and approval. If you have any questions regarding this report, please call us at (253) 859-0515 or at esewall@sewallwc.com . Sincerely, Sewall Wetland Consulting, Inc. Ed Sewall Senior Wetlands Ecologist PWS #212 EarthSolutionsNWLLC EarthSolutions NW LLC Geotechnical Engineering Geology Environmental Scientists Construction Monitoring 1805 -136th Place N.E.,Suite 201 Bellevue,WA 98005 (425)449-4704 Fax (425)449-4711 www.earthsolutionsnw.com GEOTECHNICAL ENGINEERING STUDY WESTRIDGE PROPOSED RESIDENTIAL DEVELOPMENT 5903 SOUTH 300TH STREET KING COUNTY AUBURN,WASHINGTON ES-2758 Drwn. Checked Date Date Proj.No. Plate Earth Solutions NWLLC Geotechnical Engineering,Construction Monitoring EarthSolutionsNWLLC EarthSolutions NW LLC and Environmental Sciences Vicinity Map Westridge Auburn,Washington GLS 04/17/2013 2758 BTS April 2013 1 NOTE:This plate may contain areas of color.ESNW cannot be responsible for any subsequent misinterpretation of the information resulting from black &white reproductions of this plate. Reference: King County,Washington Map 745 By The Thomas Guide Rand McNally 32nd Edition NORTH SITE Plate Proj.No. Date Checked By Drwn.By Earth Solutions NWLLC Geotechnical Engineering, Construction Monitoring and Environmental Sciences Earth Solutions NWLLC Earth Solutions NW LLC Test Pit Location Plan Westridge Auburn, Washington GLS BTS 04/17/2013 2758 2 NOTE:This plate may contain areas of color.ESNW cannot be responsible for any subsequent misinterpretation of the information resulting from black &white reproductions of this plate. NOTE:The graphics shown on this plate are not intended for design purposes or precise scale measurements,but only to illustrate the approximate test locations relative to the approximate locations of existing and /or proposed site features.The information illustrated is largely based on data provided by the client at the time of our study.ESNW cannot be responsible for subsequent design changes or interpretation of the data by others. NORTH Not -To -Scale LEGEND Approximate Location of ESNW Test Pit,Proj.No. ES-2758,Mar.2013 Approximate Location of ECI Test Pit,Proj.No. E-11688,Feb.2005 Subject Site Existing Building 330340350360 370 380 390 400 400 330 340 350 360370380390 Man-Made Pond TP-1 TP-2 TP-3 TP-4 TP-5 TP-6 TP-7 TP-8 TP-9 TP-19 TP-20 TP-21 TP-17 TP-18 58th place s. s . 3 0 0 t h p l a c e 61st ave. s. U tilit y E a s e m e n t Existing Foundation Removed Barn Existing Paved Driveway Man-Made Pond Existing Foundation Existing Structures Existing Structure TP-1 TP-19 Drwn. Checked Date Date Proj.No. Plate Earth Solutions NWLLC Geotechnical Engineering,Construction Monitoring and Environmental Sciences EarthSolutionsNWLLC EarthSolutions NW LLC RETAINING WALL DRAINAGE DETAIL NOTES: Free Draining Backfill should consist of soil having less than 5 percent fines. Percent passing #4 should be 25 to 75 percent. Sheet Drain may be feasible in lieu of Free Draining Backfill,per ESNW recommendations. Drain Pipe should consist of perforated, rigid PVC Pipe surrounded with 1" Drain Rock. LEGEND: Free Draining Structural Backfill 1 inch Drain Rock 18"Min. Structural Fill Perforated Drain Pipe (Surround In Drain Rock) SCHEMATIC ONLY -NOT TO SCALE NOT A CONSTRUCTION DRAWING Westridge Auburn,Washington GLS 04/18/2013 2758 BTS April 2013 3 Drwn. Checked Date Date Proj.No. Plate Earth Solutions NWLLC Geotechnical Engineering,Construction Monitoring and Environmental Sciences EarthSolutionsNWLLC EarthSolutions NW LLC FOOTING DRAIN DETAIL Slope Perforated Rigid Drain Pipe (Surround with 1"Rock) 18"(Min.) 2"(Min.) NOTES: Do NOT tie roof downspouts to Footing Drain. Surface Seal to consist of 12"of less permeable,suitable soil.Slope away from building. LEGEND: Surface Seal;native soil or other low permeability material. 1"Drain Rock SCHEMATIC ONLY -NOT OT SCALE NOT A CONSTRUCTION DRAW ING Westridge Auburn,Washington GLS 04/18/2013 2758 BTS April 2013 4 ___________________________________________________________________________ _ School Walkway Analysis for PRELIMINARY PLAT OF WESTRIDGE 5903 South 300th Street ___________________________________________________________________________ _ DRS Project No. 13012 City of Auburn Project No. PLT13-0001, SEP13-0008 Owner/Applicant PNW Holdings LLC 9675 SE 36th Street, Suite 105 Mercer Island, WA 98040 Report Prepared by D. R. STRONG Consulting Engineers, Inc. 10604 N.E. 38th Place, Suite 232 Kirkland WA 98033 (425) 827-3063 Report Issue Date August 2, 2013 ________________________________________________________________________________________________________ª 2013 D. R. STRONG Consulting Engineers Inc 2 Preliminary Plat of Westridge School Walkway Analysis Auburn, Washington SCHOOL WALKWAY ANALYSIS DISCLAIMER: This report was prepared at the request of PNW Holdings LLC for the 19.302 acre Project located within a portion of the Southeast Quarter of Section 2, Township 21 North, Range 4 East, W.M., in King County, Tax Parcel Number 022104-9027. D. R. STRONG Consulting Engineers Inc. (DRS) has prepared this report for the exclusive use of DRS, the owner, and their agents, for specific application to the development project as described herein. Use or reliance on this report, or any of its contents for any revisions of this project, or any other project, or by others not described above, is forbidden without the expressed permission by DRS. Elementary School: Meredith Hill Elementary Students will walk to Meredith Hill Elementary located at 5830 South 300th Street. Students will head west along the proposed sidewalk on the south side of South 300th Street, which connects to an existing sidewalk west of the development, for approximately 500 feet and cross South 300th Street at an existing crosswalk that leads directly into Meredith Hill Elementary. Photos below: Looking West along South 300th Street at proposed sidewalk location on the left ________________________________________________________________________________________________________ª 2013 D. R. STRONG Consulting Engineers Inc 3 Preliminary Plat of Westridge School Walkway Analysis Auburn, Washington Looking west along South 300th Street at crosswalk Reaching Meredith Hill Elementary Middle School: Kilo Middle School High School: Thomas Jefferson High School The Bus Stop for both Kilo and Thomas Jefferson is located on the west side of 64th Avenue South at its intersection with South 298th Place. Students will head east on the south side of S. 300th Street via a proposed sidewalk for approximately 800 feet. They will cross South 300th Street at a proposed crosswalk at its intersection with 64th ________________________________________________________________________________________________________ª 2013 D. R. STRONG Consulting Engineers Inc 4 Preliminary Plat of Westridge School Walkway Analysis Auburn, Washington Avenue South. They will then head north along the west side of 64th Avenue South for approximately 450 feet, until reaching South 298th Place. See Photos below: Looking east on South 300th Street. Proposed sidewalk will be located to the right side Location of proposed crosswalk on South 300th Street at intersection with 64th Ave South ________________________________________________________________________________________________________ª 2013 D. R. STRONG Consulting Engineers Inc 5 Preliminary Plat of Westridge School Walkway Analysis Auburn, Washington Looking north along 64th Avenue South towards South 298th Place Location of bus stop on the west side of 64th Avenue South at intersection with South 298th Place King county Department of Development and Environmental Services Building Services Division 900 Oakesdale Avenue Southwest Renton, Washington 98057-5212 206- 296 -6600 TTY 206-298-7217 Web date: 04/26/2007 SEWER AVAILABILITY:-ppif 44) KING COUNTY CERTIFICATE OF ,..i.x SEVVER AVAILABILITY ERUZpi tigt,if For alternate formats, call 206-296-6600. This certificate provides the Public Health - Seattle & King County Department and the Department of Development and Environmental Services with information necessary to evaluate development proposals. Do not write in this box Number Name Building Permit94oftSubdivision ve Applicant's name: Proposed use: X.Preliminaly Plat or PUD Rezone or oth r: 6- Lei/5 ./ Location (attach map and legal description if necessary): SX S. 39 .E)51 ",kw/4 Sewer agency ififormation: Via;z/riaz / 1. a.Sewer servicecan be provided by side sewer connection only to an existing size sewer feet from the site and the sewer system has the capacity to serve the proposed use. OR 0 b.Sewer service will require an improvement to the sewer system of: 41 (1)+1- 2- 5 feet of sewer trunk or lateral to reach the site; and.Mr 46 (2)The construction of a collection system on the site; and (3)Other (describe):p5ve,Lc)1-13,-T7CP5) Op A g...(-6/"I ENT ?--G QJ ( re-ep, / 2.a a.The sewer system improvement is in conformance with a County approved sewer comprehensive plan. OR 111 b.The sewer system Improvement will require a sewer comprehensive plan amendment. p/ 3.likj a.The proposed project is within the corporate limits of the district or has been granted Boundary Review Board OR approval for extension of service outside the district or city. b.Annexation or Boundary Review Board (BRB)approval will be necessary to provide service. Service is subject to the following: a.Connection charge:TO (36 cpcuo.) LpMat) b.Easement(s):Prf REGZO c.Other:SEvJeta,SE auCi-CoiJric.(1-1b1-)Peft-n ITS K.E.Qt5 I IL6.0 Comments: 'The District, at its sole discretion,reserves the right to delay or deny sewer service based upon capacity limitations in District and Other Purveyor facilities.*1 I certify that the above sewer agency information is true. This certification shall be valid for one year from date ofsignature. LAKEHAVEN UTILITY DISTRICT Agency name natory nam Title EN 6. Tact-I . Signature 01 hZate L.L_HE (-66 ../.1711 sewer availability form.doc b-cert-sewer.pcif 02-07-2002 Page 1 of '1' swan narP. Ilelf?t-171111)/ King Cotnity Department of Development and Environmental Services Building Services Division 900 Oakssdale Avenue Southwest Renton, Washington 96057-5212 206-296-6600 TT? 206-296-7217 Do not write in this box Development and Environmental Services with information necessary to evaluate development proposals. This certificate provides the Public Health - Seattle & King County Department and the Department of WATER AVAILABILITY: KING COUNTY CERTIFICATE OF Fi'196 tl'j WATER AVAILABILITY / Y- ERIJ 5.10 WFor alternate formats, call 206-296-6600.to Number Building Permit/9117R-S ubdivision 1/ Applicant's name: Proposed use: Location (attach map and legal description If necessary Preliminary Plat or PUD Rezone or other: I Jr' 1111t Name 1. a.Water can be provided by service connection only to an existing feet from the site. OR b.Water service will reguire an improvement to the water system of: (1)+1- 5 C,feet of water main to reach the site; and Nil (2)The construction of a distribution system on the site; andkig r4 (3)Other (describe):ex\--6o5mu A6 azE-nrctv-r- V.k 'got K-ec)I/2.a.The water system is in conformance with a County-approved water comprehensive plan.oR 1:71 b.The water system improvement is not In conformance with a County approved water comprehensive plan and willrequire a water comprehensive plan amendment,(This may cause a delay in issuance of a permit or approval.)I/3.IN a.The proposed project is within the corporate limits of the district. or has been granted Boundary Review Board approvalfor extension of service outside the district or city, or is within the County approved service area of a private waterpurveyor. OR b.Annexation or Boundary Review Board (BRB)approval will be necessary to provide service. 4.a.Water is or will be available at the rate of flow and duration indicated below at no less than 20 psi measured at thenearest fire hydrant -±E12.4f)feet from the building/property (or as marked on the attached map):Rate of flow at Peak Demand: less thrm500 gpm {approx.gpirn 560 to 999 gpm 1000 gpm or more how lost of gpm calculation of 'PmDuration: less than 1 hour I hour to 2 hours 1 2 hours or more Other(Note: Commercial building permits which Include multifamily structures require flow lest or calculation.)OR b.Water system is not capable of providing fire flow.,/5.a.Water system has certificates of water rights or water right claims sufficient to provide service,OR b.Water system does not currently have necessary water rights or water right claims,.Comments/conditions: V.IMES--5-6ZUkCe.Cr-Ait,wcr-met%) Ayructtilai-)5 g-E-G201 (60 a, (size) water main that is '-41!h I certify that the above water purveyor information is true. This certification shall be valid for one year from date of signature. LAKEHAVEN UTILITY DISTRICT BILL, Va1.--Sori Signet jr. name ih ri ---re"C.//3//is.-°- Afiency name I ide Signature '578 Highest 111In 2.-Pressure Zone;Elevation of PropertyLowest_ -^; Est. Dui° - Pressure 70 /113Max.psi The District, at its sole discretion,reserves the right to delay or deny water service based uponcapacity limitations in District and Other Purveyor facilities. _ Water availability form Rev. 05-19-2003 Donn 4 Exhibit 18 Based on the Preliminary Plat numbers that I received from you the Park draft requirement needs to meet existing requirements would be: Westridge Subdivision (55 units) 55 units x 2.5 residents = 137.5 residents 137.5 residents x required standard of 6.03 acres per 1,000 = .829 acres required Current Park Development Standard of 6.03 acres is comprised of the following Standards  4.52 acres of Community Park, 75% of standard  .75 acres of Neighborhood Park, 12.5% of standard  .75 of Lineal Trail System, 12.5% of standard Talladega Requirement Community Parks= .62 acres @ $207,812 per acre = $128,843 Neighborhood Parks = .15 acres @ $141,625 per acre= $21,243 Lineal Trail = .14 acres @ 58,750 per acre = $8,225 Total $158,311 Should less that the required .829 acres, but more than 0 acres be dedicated as Open Space; the developer may receive a credit for the dedicated space.