The URL can be used to link to this page

Home My WebLink AboutGEO2024-00037 COM2024-00016 - COM Engineering / Geo-Tech Reports - 10/5/2023 46,0 262q - ",-3 r� -FO'L CpM 262z4 - GAD I Iya Geotechnical Report Vehicle Storage Building 750 E Dalby Road, Union Parcel No. 32232-439-0013 Mason County,Washington October 5, 2023 Project#23300 Prepared For: South Shore Enterprises,LLC PO Box 249 Union,Washington 98592 Prepared By: Envirotech Engineering, PLLC PO Box 984 Belfair,Washington 98528 Phone: 360-275-9374 C LY DF �, wASfl�4sr9>�y 4 43045 �G kf ISTE .c �sS10A:AL F',G` 10/5/23 MASON COUNTY Submittal Checklist COMMUNITY SERVICES Geotechnical Report iMnxirp ivnmxq. nwnnm.nrni i veim r ommmrtr i•am Instructions: This checklist must be submitted with a Geotechnical Report and completed,signed,and stamped by the licensed professional(s)who prepared the Geotechnical Report for review by Mason County pursuant to the Mason County Resource Ordinance. If an item is found not applicable,the report should explain the basis for the conclusion. Note: Unless specifically documented, this report does not provide compliance to the International Residential Code Sections R403.1.7 for foundations on or adjacent to slopes, Section R403.1.8 for expansive soils or section 1808.7.1 of the International Building Code Section for Foundations on or adjacent to slopes. Applicant/Owner South Shore Enterprises,LLC Parcel#32232-439-0013 Site Address 750 E Dalby Road,Union (1) (a) A discussion of general geologic conditions in the vicinity of the proposed development, Located on page(s) 5 (b) A discussion of specific soil types, Located on page(s) 6 (c) A discussion of ground water conditions, Located on page(s) 7 (d) A discussion of the upslope geomorphology, Located on page(s) 3 (e) A discussion of the location of upland waterbodies and wetlands, Located on page(s) 3 (f) A discussion of history of landslide activity in the vicinity,as available in the referenced maps and records. Located on page(s) 8 (2) A site plan which identifies the important development and geologic features. Located on Map(s) Site Plan—Appendix A (3) Locations and logs of exploratory holes or probes. Located on Map(s) Site Plan and Soil Logs(Appendix B) (4) The area of the proposed development,the boundaries of the hazard,and associated buffers and setbacks shall be delineated(top,both sides,and toe)on a geologic map of the site. Located on Map(s) Site Plan (5) A minimum of one cross section at a scale which adequately depicts the subsurface profile,and which incorporates the details of proposed grade changes. Located on Map(s) Soil Profile(Appendix B) (6) A description and results of slope stability analyses performed for both static and seismic loading conditions.Analysis should examine worst case failures. The analysis should include the Simplified Bishop's Method of Circles.The minimum static safety factor is 1.5,the minimum seismic safety factor is 1.1,and the quasi-static analysis coefficients should be a value of 0.15. Located on page(s) 9 Page 1 of 41 (7) (a) Appropriate restrictions on placement of drainage features, Located on page(s) 17 (b) Appropriate restrictions on placement of septic drain fields, Located on page(s) 18 (c) Appropriate restrictions on placement of compacted fills and footings, Located on page(s) 13 and 15 (d) Recommended buffers from the landslide hazard areas shoreline bluffs and the tops of other slopes. Located on page(s) 17 (e) Recommended setbacks from the landslide hazard areas shoreline bluffs and the tops of other slopes. Located on page(s) 16 (8) Recommendations for the preparation of a detailed clearing and grading plan which specifically identifies vegetation to be removed,a schedule for vegetation removal and replanting,and the method of vegetation removal. Located on page(s) 17 (9) Recommendations for the preparation of a detailed temporary erosion control plan which identifies the specific mitigating measures to be implemented during construction to protect the slope from erosion, landslides and harmful construction methods. Located on page(s) 10 (10) An analysis of both on-site and off-site impacts of the proposed development. Located on page(s) 12 (11) Specifications of final development conditions such as,vegetative management,drainage,erosion control,and buffer widths. Located on page(s) 18-20 (12) Recommendations for the preparation of structural mitigation or details of other proposed mitigation. Located on page(s) 20 (13) A site map drawn to scale showing the property boundaries,scale, north arrow,and the location and nature of existing and proposed development on the site. Located on Map(s) Site Plan I, Michael Staten,hereby certify under penalty of perjury that I am a civil engineer licensed in the State of Washington with specialized knowledge of geotechnical/geological engineering or a geologist or engineering geologist licensed in the State of Washington with special knowledge of the local conditions. I also certify that the Geotechnical AFL CLYDF ST Report,dated October 5, 2023 ,and entitled Vehicle Storage Building meets all the requirements of the Mason County Resource Ordinance,Geologically Hazardous p R 43045 Areas Section, is complete and true,that the assessment °o FGISTFE Fss�o�ALe` � 10/5/23 demonstrates conclusively that the risks posed by the landslide hazard can be mitigated through the included geotechnical Disclaimer:Mason County does not design recommendations,and that all hazards are mitigated in certify the quality of the work done in such a manner as to prevent harm to property and public this Geotechnical Report. health and safety.Page 2 of 2 TABLE OF CONTENTS 1.0 INTRODUCTION.................................................................................................................................I 1.1 PROJECT INFORMATION.................................................................................................................... 1 1.2 PURPOSE OF INVESTIGATION AND SCOPE OF WORK........................................................................ 1 2.0 SURFACE CONDITIONS....................................................................................................................3 2.1 TOPOGRAPHY.....................................................................................................................................3 2.1.1 Upslope Geomorphology............................................................................................................3 2.2 SURFACE DRAINAGE..........................................................................................................................3 2.2.1 Upland Water Bodies................................................................................................................. 3 2.3 SLOPE AND EROSION OBSERVATIONS...............................................................................................3 3.0 SUBSURFACE INVESTIGATION.....................................................................................................5 3.1 FIELD METHODS,SAMPLING AND FIELD TESTING........................................................................... 5 3.2 GEOLOGIC CONDITIONS....................................................................................................................5 3.3 SPECIFIC SUBSURFACE CONDITIONS.................................................................................................6 3.3.1 Groundwater............................................................................................................................... 7 4.0 ENGINEERING ANALYSES AND CONCLUSIONS......................................................................8 4.1 SLOPE STABILITY............................................................................................................................... 8 4.1.1 Slope Stability Analysis.............................................................................................................. 9 4.2 EROSION............................................................................................................................................10 4.2.1 Shoreline Recession....................................................................Error!Bookmark not defined. 4.3 SEISMIC CONSIDERATIONS AND LIQUEFACTION..............................................................................11 4.3.1 Liquefaction..............................................................................................................................11 4.4 LANDSLIDE,EROSION AND SEISMIC HAZARDS CONCLUSIONS........................................................11 4.5 LATERAL EARTH PRESSURES...........................................................................................................12 4.6 ON-SITE AND OFF-SITE IMPACTS.....................................................................................................12 5.0 ENGINEERING RECOMMENDATIONS........................................................................................14 5.1 BUILDING FOUNDATION RECOMMENDATIONS.................................................................................14 5.1.1 Bearing Capacity.......................................................................................................................14 5.1.2 Settlement..................................................................................................................................15 5.1.3 Concrete Slabs-on-Grade..........................................................................................................15 5.2 EARTHWORK CONSTRUCTION RECOMMENDATIONS.......................................................................15 5.2.1 Excavation.................................................................................................................................15 5.2.2 Placement and Compaction of Native Soils and Engineered Fill...........................................16 5.2.3 Retaining Wall Backfcll.............................................................................................................17 5.2.4 Wet Weather Considerations....................................................................................................17 5.2.5 Building Pads..............................................................................Error!Bookmark not defined. 5.3 BUILDING AND FOOTING SETBACKS.................................................................................................18 5.4 SURFACE AND SUBSURFACE DRAINAGE...........................................................................................18 5.5 VEGETATION BUFFER AND CONSIDERATIONS.................................................................................18 5.6 TEMPORARY AND PERMANENT EROSION CONTROL.......................................................................19 5.7 SEPTIC DRAINFIELDS........................................................................................................................19 5.8 STRUCTURAL MITIGATION...............................................................................................................19 6.0 CLOSURE.............................................................................................................................................20 Appendix A—Geotechnical Site Plan Appendix B-Soil Information Appendix C-Slope Stabilk Appendix D—Erosion Control Appendix E—Drainage Details 1.0 INTRODUCTION Envirotech Engineering, PLLC. (Envirotech) has completed this geotechnical report for a property located at 750 E Dalby Road, Union, identified as parcel number 32232-439- 0013 in Mason County,Washington. As presented herein, this report includes information pertaining to the project in this Introduction Section; observations of the property and surrounding terrain in the Surface Conditions Section; field methods and soil descriptions in the Subsurface Investigation Section; supporting documentation with relation to slope stability, erosion, seismic considerations, and lateral earth pressures in the Engineering Analyses and Conclusions Section; and, recommendations for foundation, settlement, earthwork construction, retaining walls, erosion control, drainage, and vegetation in the Engineering Recommendations Section. An initial geotechnical evaluation of the project was conducted by Envirotech on September 26, 2023. It was determined that slopes in excess of 40% with a vertical relief of at least 10 feet were present within 300 feet of the planned development. Based on this site characteristic, the proposed development will require a geotechnical report pursuant to Landslide Hazard Areas of Mason County Resource Ordinance (MCRO) 8.52.140. During the site visit by Envirotech, surface and subsurface conditions were assessed. After completion of the field work and applicable project research, Envirotech prepared this geotechnical report which, at a minimum,conforms to the applicable MCRO. 1.1 Project Information Information pertaining to the project was provided by the proponent of the property, and observations from a field visit by Envirotech. The property has been historically developed. The development per this report includes a vehicle storage building, driveway, and other ancillary features typical of this type of development . Approximate site development footprint with relation to existing geological site features are illustrated in the Geotechnical Site Plan in Appendix A of this report. 1.2 Purpose of Investigation and Scope of Work The purpose of this geotechnical investigation is to assess geological hazards, and evaluate the project in order to provide geotechnical recommendations that should be implemented during development. The investigation included characterizing the general project surface and subsurface conditions, and evaluating the suitability of the soils to support the planned site activities. In order to fulfill the purpose of investigation, the geotechnical program completed for the proposed improvements of the project include: Envirotech Engineering Geotechnical Report PO Box 984 page 1 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 • Review project information provided by the project owner and/ or owner's representative; • Conduct a site visit to document the site conditions that may influence the construction and performance of the proposed improvements of the project; • Define general subsurface conditions of the site by observing subsoils within test pits and/ or cut banks, review geological maps for the general area, research published references concerning slope stability, and review water well reports from existing wells near the project; • Collect bulk samples, as applicable, at various depths and locations; • Perform soils testing to determine selected index and/or engineering properties of the site soils; • Complete an engineering analysis supported by the planned site alterations, and the surface and subsurface conditions that were identified by the field investigation, soil testing, and applicable project research; and, • Establish conclusions based on findings, and make recommendations for foundations, drainage, slope stability, erosion control, earthwork construction requirements, and other considerations. M NR3W Project ._ rAaDd UALSYR' 33 34 ti - j I T 1 E HYLAND DR r f E MANZANRA DR. rs l ® 12 L 1 0 ,AAs Vicinity Map from Mason County Website Envirotech Engineering Geotechnical Report PO Box 984 page 2 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5,2023 2.0 SURFACE CONDITIONS Information pertaining to the existing surface conditions for the project was gathered on September 26, 2023 by a representative with Envirotech. During the site visit, site features were documented that may reveal potential geological hazards. This Surface Conditions Section provides information on topography,drainage and slope/ erosion conditions for the project and surrounding areas. An aerial photo of the project and immediate vicinity is provided on the following page. 2.1 Topography The topographic information provided in this section was extrapolated from a public lidar source, and incorporated observations and field measurements. Where necessary, slope verification included measuring slope lengths and inclinations with a cloth tape and inclinometer. See the Geological Site Plan in Appendix A for an illustration of the general slope indicators with respect to the planned development. Maximum sloping grades within 300 feet of the proposed development area with a vertical relief in excess of at least 10 feet were observed to be 60%. 2.1.1 Upslope Geomorphology The landform that is upland from property is considered a hillside of glacial origin with centuries of weathering overburden. Additional geomorphology that is pertinent to both upslope and downslope areas are provided in the Subsurface Investigation Section of this report. 2.2 Surface Drainage The majority of the stormwater runoff originating upslope from the anticipated development is expected to be minimal to moderate . Significant scour, erosion and sediment transport was not apparent near the project. 2.2.1 Upland Water Bodies There are no apparent water bodies or wetlands located upslope from the planned development that would significantly influence the project. 2.3 Slope and Erosion Observations The existing moderate slopes near the project signal a potential landslide or erosion hazard area. Some indicators that may suggest past slope movements include: Envirotech Engineering Geotechnical Report PO Box 984 page 3 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 • Outwash of sediments near the bottom of the slope, • Fissures, tension cracks or naturally stepped land masses on the face or top of the slope, and parallel to the slope, • Fine, saturated subsurface soils, • Old landslide debris, • Significant bowing or leaning trees, or, • Slope sloughing or calving. These slope instability indicators or other significant mass wasting on the property or within the general vicinity of the project were not observed. Indications of past landslides, current unstable slopes, deep-seated slope problems, or sur cial slope failures were not observed during the site visit. 41 � E A _ 1 p r a. 'l- to +aim -- aEBA BY RD �- � • Aerial Photo from Mason County Website Envirotech Engineering Geotechnical Report PO Box 984 page 4 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 3.0 SUBSURFACE INVESTIGATION Information on subsurface conditions pertaining to the project was gathered during research and a site reconnaissance. The site visit was accomplished on September 26, 2023 by a representative with Envirotech. Specific information on field methods, sampling, field testing, subsurface conditions, and results from soil testing are presented in this section of the report. See Appendix B for a soil profile cross-sections, soil logs, and other appropriate information as necessary. 3.1 Field Methods, Sampling and Field Testing Information on subsurface conditions for the project was accomplished by probing anticipated foundation areas with hand tools, and observing soils within test pit excavations and/ or earth cuts. Information on subsurface conditions also included reviewing geological maps within the project vicinity, and water well reports originating from nearby properties. No soil samples were collected for this project. Envirotech measured the relative density of the in-situ soils by gauging the resistance of hand tools. 3.2 Geologic Conditions In general, soils at the project are composed of materials from glacial advances. The geologic conditions as presented in the "Geologic Map of Washington," compiled by J. Eric Schuster, 2002 indicates Quaternary sediments, Qg. Quaternary sediments are generally unconsolidated deposits, and dominantly deposited from glacial drift, including alluvium deposits. This project is located within the Puget Lowland. Typically, "lower tertiary sedimentary rocks unconformably overlie the Crescent Formation." as revealed in the Geologic Map. Initial sedimentary rocks were formed from shales, sandstones and coal deposits from rivers. During the Quaternary period, the Puget Lowland was covered by numerous ice sheets, with the most recent being the Fraser glacier with a peak of approximately 14,000 years ago. Upon the glacial retreat, the landscape was formed by glacial erosion glacial drift deposits. More specifically for the project location, a caption from the Washington State Department of Natural Resources is as follows: According to the "Geologic Map of the Shelton 1:100,000 Quadrangle, Washington," by Robert L. Logan, 2003, the site soils are grouped as Continental Glacial Deposits from the Fraser glaciation, Vashon Stade. Specific units for this Project include advance outwash, late Wisconsinan (Pleistocene), Qga. From this geologic map, Qga is "glaciological sand and gravel and latchstring clay, silt, and sand deposited during the advance of glaciers; sandy units commonly thick, well sorted, and fine grained, with interlayered coarser sand, gravel, and cobbles and silt rip-up lag deposits at their base; may contain no glacial sediments; generally overlain by till." Envirotech Engineering Geotechnical Report PO Box 984 page 5 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 3.3 Specific Subsurface Conditions The following subsurface conditions are estimated descriptions of the project subgrade utilizing information from the depth of penetration at all testing, sampling, observed and investigated locations. Soils for this project were described utilizing the Unified Soil Classification System (USCS). Using the USCS in conjunction with estimated relative densities and other anticipated engineering properties of the soil, susceptibility for potential landslides, erosion and seismic hazards may be assessed. The project is primarily composed of undisturbed, native soils, with indications of some fill. Within native, undisturbed areas, competent bearing soils were encountered at 12 inches below the existing ground surface in locations where the ground was probed. For engineering purposes, these native soils consist of distinguishable layers, as presented below. Soils within the upper 5 feet of natural ground were observed to be primarily moist, brown silty sand with gravel (SM) . Soils below this upper soil strata were observed to be granular advanced outwash. Not withstanding the potential for any old fill, the relative densities are suitable for foundations as provided above. Expanded and specific subsurface descriptions, other than what is provided in this section, are provided within additional soil information located in Appendix B of this report. According to the "Soil Survey of Mason County," by the United States Department of Agriculture, Soil Conservation Service (SCS), the site soils are described as Alderwood gravelly loam with 0% - 15% slopes. See the soil map below. Envirotech Engineering Geotechnical Report PO Box 984 page 6 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 1 I" C My { 4+ t Soil Survey From USDA Natural Resources Conservation Service 3.3.1 Groundwater From the water well report(s) and knowledge of the general area, permanent groundwater is at least 50 feet below the current ground surface. Surface seepage or perched groundwater at shallow depths was not observed on-site, nor indicated on the well reports. Envirotech Engineering Geotechnical Report PO Box 984 page 7 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 4.0 ENGINEERING ANALYSES AND CONCLUSIONS The following section includes slope stability, erosion, seismic considerations, and impacts to both on-site and off-site properties. 4.1 Slope Stability Landslides are natural geologic processes, and structures near slopes possess an inherent risk of adverse settlement, sliding or structural damage due to these processes. Geotechnical engineering cannot eliminate these risks for any site with sloping grades because gravity is constantly inducing strain on the sloping soil mass. Excessive wet weather and/ or earthquakes will exacerbate these strains. Geotechnical engineering considers excessive wet weather and `design' earthquakes in order to provide an acceptable factor of safety for developing on or near sloping terrain with relation to current engineering protocol.These factors of safeties are based on engineering standards such as defining engineering properties of the soil, topography, water conditions, seismic acceleration and surcharges. Surface sloughing or other types of surficial slope movements usually do not affect the deep-seated structural capability of the slope. However, repeated surficial slope movements, if not repaired, may present a threat to the structural integrity of the slope. If any slope movement arises, the slope should be inspected by an engineer. Subsequently, maintenance may be required in order to prevent the possibility of further surficial or deep seated slope movements that may be damaging to life and property. According to the Coastal Zone Atlas of Mason County, Washington, the project is within and near terrain labeled `Stable' and `Intermediate' regarding potential landslide activity. Descriptions of these mapping units may be found in the aforesaid Atlas. Envirotech Engineering Geotechnical Report PO Box 984 page 8 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 According to the Resource Map from the Washington State Department of Natural Resources (DNR), the project is not within terrain labeled `highly unstable' relating to soils. DNR labeled portions of this project as medium and high slope instability with relation to slopes. A Resource Map from the DNR Forest Practices Application Review System is provided below: i19590Q3 -Tg 5908 {1705,100 E Pupat Eau id E P.g.t Eo u ad 04080 r1-11}1ll.L�Jf1� may' + �L F 79486 � �9i+88 170 G .; i C M 4 F T f �. 754948 ' 7704040 ly Resource Map from Washington State Department of Natural Resources Website 4.1.1 Slope Stability Analysis The Simplified Bishop Method, utilizing `STABLE' software, was used to analyze the static stability of the site slopes. Seismic conditions were estimated utilizing worst case scenario values from the static analysis, a quasi-static analysis coefficient of at least 0.15, and applying the applicable values to STABLE software. Various radii's and center points of the circle were automatically selected, and produced factor of safeties in a graphical and tabular format. Worst case scenario values were used in the slope stability analysis in regards to topography, surcharges, water content, internal friction and cohesion of the site soils. STABLE software has been repeatedly checked with manual calculations, and consistently proved to be a very conservative program. The following soil Envirotech Engineering Geotechnical Report PO Box 984 page 9 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 properties were used in the analysis, and are based on observed conditions, known geology, and/or published parameters: Upper 5 feet soil depth Soil unit weight: 133 pcf Angle of internal friction: 35 degrees Cohesion: 50 psf Soils below 5 feet in depth Soil unit weight: 138 pcf Angle of internal friction: 38 degrees Cohesion: 200 psf Based on the slope stability analysis, unacceptable factors of safety could be present on and near the critical slope, but do not reflect conditions where development is expected to occur. For this project, at the location of the proposed development, minimum factor of safeties for static and dynamic conditions were estimated to be at least 1.5 and 1.1, respectively. See the slope stability information in Appendix C for a depiction of minimum factors of safety away from the project. 4.2 Erosion Based on the USCS description of the project soils, the surface soils are considered moderately erodible. According to the Resource Map from the Washington State DNR, as provided above, the project is not within terrain labeled `highly erodible.' This project is not within an erosion hazard area as defined by the MCRO. Erosion hazard areas are those with USDA SCS designations of River Wash (Ra), Coastal Beaches (Cg), Alderwood Gravelly Sandy Loam on slopes 15% or greater(Ac and Ad), Cloquallum Silt Loam on slopes 15% or greater (Cd), Harstine Gravelly Sandy Loam on slopes 15% or greater(Hb), and Kitsap Silt Loam on slopes 15%or greater(Kc). It is our opinion that minor erosion control recommendations provided in this report is sufficient for the development of this project, and additional engineered erosion control plans are not required. Temporary and permanent erosion control measures are required for site development. Extents of temporary erosion control will mostly depend on the timeliness of construction, moisture content of the soil, and amount of rainfall during construction. Soil erosion typical to the existing site conditions and planned disturbance of the project include wind-borne silts during dry weather, and sediment transport during prolonged wet weather. Sediment transport could be from stormwater runoff or tracking off-site with construction equipment. Envirotech Engineering Geotechnical Report PO Box 984 page 10 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 The Temporary and Permanent Erosion Control Section (Section 5.6) of this report consist of specific erosion controls to be implemented. Additional erosion control information and specifications may be found in the latest addition of the "Stormwater Management Manual for Western Washington," prepared by the Washington State Department of Ecology Water Quality Program. 4.3 Seismic Considerations and Liquefaction There are no known faults beneath this project. The nearest Class `A' or 'B' fault to this property is the Hood Canal Fault Zone , which is not located on the property or adjacent properties. This information is supported by the USGS Quaternary Fault and Fold Database for the United States. Potential landslides due to seismic hazards have been considered, and are addressed in the Slope Stability Analysis Section provided earlier in this report. Soils immediately below the expected foundation depth for this project are generally Type D, corresponding to the International Building Code (IBC) soil profiles. According to the IBC, the regional seismic zone is 3 for this project. The estimated peak ground acceleration ranges from 0.50g to 0.60g. This estimation is based on the United States Geological Survey (USGS) National Seismic Hazard project in which there is an estimated 2%probability of exceedance within the next 50 years. 4.3.1 Liquefaction The potential for liquefaction is believed to be low for this project. This is based, in part, on the subsurface conditions such as soil characteristics and the lack of a permanent shallow water table. Subgrade characteristics that particularly contribute to problems caused from liquefaction include submerged, confined, poorly-graded granular soils (i.e. gravel, sand, silt). Although gravel- and silt- sized soil particles could be problematic, fine and medium grained sands are typically subjected to these types of seismic hazards. No significant saturated sand stratifications are anticipated to be within the upper 50 feet of the subsoil for this project. 4.4 Landslide,Erosion and Seismic Hazards Conclusions DNR did not indicate historic landslide activity near the project. Mapped slope conditions, as delineated by the Departments of Ecology and/or Natural Resources, were considered in our slope stability assessment. Based on the proximity and severity of mapped delineations with respect to the proposed development, results of the aforesaid slope stability analysis, observed surface conditions, and other pertinent information, it is our opinion that the proposed development may occur in accordance with the recommendations in this geotechnical report. Envirotech Engineering Geotechnical Report PO Box 984 page 11 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 4.5 Lateral Earth Pressures Retaining walls may be utilized for this project. The lateral earth pressures exerted through the backfill of a retaining wall are dependent upon several factors including height of retained soil behind the wall, type of soil that is retained, degree of backfill compaction, slope of backfill, surcharges, hydrostatic pressures, earthquake pressures, and the direction and distance that the top of the wall moves. An equivalent fluid unit weight used for structural design may be estimated as the product of the backfill soil unit weight and the earth pressure coefficient for at-rest pressures. Retaining walls should be designed to resist a lateral earth pressure based on an equivalent fluid unit weight of the following: At-Rest Active Native Soils 49 pcf 32 pcf Engineered Fill Soils 45 pcf 28 pcf The values provided above shall be increased by 1 pcf for every 1 degree of backfill/ natural slope angle. These equivalent fluid unit weight values do not include lateral earth pressures induced by earthquakes, groundwater, or surcharges from live loads. Earthquake pressures should be added to the wall analysis, and treated as an inverted pressure triangle where the resultant pressure is located at 2/3 of the wall height, or other method approved by a structural engineer. The following resultant earthquake pressures as a function of the wall height(H)may be utilized: At-Rest Active Native Soils 15AH psf 9.8H psf Engineered Fill Soils 13.6H psf 8.2H psf See the Earthwork Construction Recommendations Section for details concerning the use of native soils,engineered fill and placement of backfill. 4.6 On-Site and Off-Site hnpacts From a geotechnical position, it is Envirotech's opinion that the subject property and adjacent properties to the proposed development should not be significantly impacted if all recommendations in this report are followed. This opinion is based on the expected Envirotech Engineering Geotechnical Report PO Box 984 page 12 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 site development, existing topography, existing nearby development, land cover, and adhering to the recommendations presented in this report. Future development or land disturbing activities on neighboring properties or properties beyond adjacent parcels that are upslope and/or downslope from the subject property could cause problems to the subject property. For this reason, future development or land disturbance near the subject property should be evaluated by a geotechnical engineer. Envirotech Engineering Geotechnical Report PO Box 984 page 13 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 5.0 ENGINEERING RECOMMENDATIONS The following sections present engineering recommendations for the proposed improvements of the project.These recommendations have been made available based on the planned improvements as outlined in the Introduction Section of this report; general observations including drainage and topography as recapitulated in the Surface Conditions Section; soil/ geologic conditions that were identified from the geotechnical investigation that is summarized in the Subsurface Investigation Section; and, project research, analyses and conclusions as determined in the Engineering Analysis and Conclusions Section. Recommendations for the project that is provided herein, includes pertinent information for building foundations, earthwork construction, building and/ or footing setbacks, drainage, vegetation considerations, and erosion control. 5.1 Building Foundation Recommendations The recommended allowable bearing capacities and settlements as presented below, consider the probable type of construction as well as the field investigation results by implementing practical engineering judgment within published engineering standards. Evaluations include classifying site soils based on observed field conditions and soil testing for this project. After deriving conservative relative densities, unit weights and angles of internal friction of the in-situ soils, the Terzhagi ultimate bearing capacity equation was utilized for determining foundation width and depth. Foundation parameters provided herein account for typical structural pressures due to the planned type of development. A structural analysis is beyond the scope of a geotechnical report, and a structural engineer may be required to design specific foundations and other structural elements based on the soil investigation. Stepped foundations are acceptable, if warranted for this project. Continuous, isolated, or stepped foundations shall be horizontally level between the bottom of the foundation and the top of the bearing strata. The frost penetration depth is not expected to extend beyond 12 inches below the ground surface for this project under normal circumstances and anticipated design features. 5.1.1 Bearing Capacity Existing in-situ soils for this project indicates that the structure can be established on shallow, continuous or isolated footings. Foundations shall be established on relatively undisturbed native soil that is competent and unyielding. Alternatively, foundations may be constructed on selective re-compacted native soil or compacted engineered fill as described in the Earthwork Construction Recommendations Section of this report. For a bearing capacity requirement of no more than 1500 psf, a minimum continuous footing width of 15 inches shall be placed at a minimum of 12 inches below the existing ground surface atop unyielding soils and away from any potential old fill or disturbed soils. Foundation recommendations are made Envirotech Engineering Geotechnical Report PO Box 984 page 14 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 available based on adherence to the remaining recommendations that are provided in this report. Alterations to the aforementioned foundation recommendations may be completed upon a site inspection by a geotechnical engineer after the foundation excavation is completed. 5.1.2 Settlement Total and differential settlement that a structure will undergo depends primarily on the subsurface conditions, type of structure, amount and duration of pressure exerted by the structure, reduction of pore water pressure, and in some instances, the infiltration of free moisture. Based on the expected native soil conditions, anticipated development, and construction abides by the recommendations in this report, the assumed foundation system may undergo a maximum of 1.0 inch total settlement, and a maximum differential settlement of 0.75 inch. 5.1.3 Concrete Slabs-on-Grade Interior slabs, if utilized, should be supported on a minimum of 4 inches of compacted coarse, granular material (Retained on U.S. Sieve #10 or greater) that is placed over undisturbed, competent native subgrade or engineered fill per the Earthwork Recommendations Section below. The recommendations for interior concrete slabs-on-grade as presented herein are only relevant for the geotechnical application of this project. Although beyond the scope of this report, concrete slabs should also be designed for structural integrity and environmental reliability. This includes vapor barriers or moisture control for mitigating excessive moisture in the building. 5.2 Earthwork Construction Recommendations Founding material for building foundations shall consist of undisturbed native soils to the specified foundation depths. Compacted engineered fill, or selective re-compacted native soils may be used to the extents provided in this Earthwork Construction Recommendations Section. The following recommendations include excavations, subgrade preparation,type of fill, and placement of fill for building foundations. 5.2.1 Excavation Excavation is recommended to remove any excessive organic content, old fills/ disturbed soils or other deleterious material, if present, beneath foundations and to achieve appropriate foundation depth. Additional sub-excavation will be required for this project if the soils below the required foundation depth are loose, saturated, not as described in this report, or otherwise incompetent due to inappropriate land disturbing, or excessive water trapped within foundation Envirotech Engineering Geotechnical Report PO Box 984 page 15 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County, Washington Ph. 360-275-9374 October 5, 2023 excavations prior to foundation construction. All soils below the bottom of the excavation shall be competent, and relatively undisturbed or properly compacted fill. If these soils are disturbed or deemed incompetent, re-compaction of these soils below the anticipated footing depth is necessary. Excavations shall be completely dewatered, compacted, and suitable before placement of additional native soil,engineered fill or structural concrete. 5.2.2 Placement and Compaction of Native Soils and Engineered Fill For engineered fill or disturbed native soils that will be utilized as fill material directly beneath foundations, observation and/ or geotechnical testing is required prior to foundation construction. The following placement and compaction requirements are necessary. For disturbed native soils or engineered fill beneath foundations, limits of compacted or re-compacted fill shall extend laterally from the bottom edge of the foundation at a rate of one horizontal foot for each foot of compacted or re- compacted fill depth beneath the foundation. See the illustration below. FOOTING COMPACTED NATIVE SOILS OR ENGINEERED t FILL 1 II UNDISTURBED SUBGRADE Both engineered fill and native soils used as compacted fill should be free of roots and other organics, rocks over 6 inches in size, or any other deleterious matter. Because of moisture sensitivity, importing and compacting engineered fill may be more economical than compacting disturbed native soils. Engineered fill shall include having the soils retained on the No. 4 sieve crushed (angular), and should consist of the following gradation: U.S. Standard Sieve % Finer(by weight) 6" 100 3" 60— 100 No.4 20—60 No.200 0- 8 Table 1 Particle Size Distribution of Engineered Fill Compaction shall be achieved in compacted lifts not to exceed 6 inches for both native soils and engineered fill, respectively. Each lift should be uniformly Envirotech Engineering Geotechnical Report PO Box 984 page 16 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 compacted to at least 95% of the modified Proctor maximum dry density (ASTM D 1557) and within 3% of optimum moisture content. Each lift surface should be adequately maintained during construction in order to achieve acceptable compaction and inter-lift bonding. Temporary and permanent earth cuts and fill slopes exceeding 4 feet in height should be limited to a slope of 2:1 (horizontal:vertical). Utility trenches or other confined excavations exceeding 4 feet should conform to OSHA safety regulations. Permanent cut and fill slopes shall be limited to a slope of 2:1, unless otherwise approved by an engineer. 5.2.3 Retaining Wall Backfill Native soils may be used as retaining wall backfill for this project if the total wall height is 4 feet or less and the recommendations below are followed. Native soils for retaining walls exceeding 4 feet in height must be approved by the local authority or evaluated by an engineer. Backfill may consist of engineered fill, as presented in this report, or borrow material approved by a geotechnical engineer. Compaction of these materials shall be achieved in compacted lifts of about 12 inches. Each lift should be uniformly compacted to at least 85%, and no more than 90% of the modified Proctor maximum dry density (ASTM D 1557). If pavement or building loads are planned to be located within retaining wall backfill, then 90% compaction is required. In addition, heavy construction equipment should be at a distance of at least '/2 the wall height. Over-compaction and limiting heavy construction equipment should be prevented to minimize the risk of excess lateral earth pressure on the retaining structure. Envirotech recommends that retaining wall backfill is compacted with light equipment such as a hand-held power tamper. If clean, coarse gravel soils are utilized as engineered fill, and surcharges will not influence the retaining wall, compaction may be achieved by reasonably densifying granular soils with construction equipment. 5.2.4 Wet Weather Considerations Due to the types of subsurface soils, additional provisions may be required during prolonged wet weather. Every precaution should be made in order to prevent free moisture from saturating the soils within excavations. If the bottom of excavations used for footing placement changes from a moist and dense/hard characteristic as presented in this report to muck or soft, saturated conditions, then these soils become unsuitable for foundation bearing material. If this situation occurs, a geotechnical engineer should be notified, and these soils should be completely removed and replaced with compacted engineered fill or suitable native material as presented in this section. Envirotech Engineering Geotechnical Report PO Box 984 page 17 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 5.3 Building and Footing Setbacks Provided that assumptions relating to construction occur and recommendations are followed as presented in this report, the factor of safety for slope stability is sufficient for a 10 feet building setback from the toe of the nearby descending slopes exceeding 40%. See the Site Plan in Appendix A for an illustration of the setbacks. The required setback may be reduced by mitigation, and subsequently would require additional geotechnical studies. 5.4 Surface and Subsurface Drainage Positive drainage should be provided in the final design for all planned residential buildings. Drainage shall include sloping the ground surface, driveways and sidewalks away from the project structures. All constructed surface and subsurface drains should be adequately maintained during the life of the structure. If drainage problems occur during or after construction, additional engineered water mitigation will be required immediately. This may include a combination of swales, berms, drain pipes, infiltration facilities, or outlet protection in order to divert water away from the structures to an appropriate protected discharge area. Leakage of water pipes, both drainage and supply lines, shall be prevented at all times. If impervious thresholds are exceeded per the prevailing agency code, then engineered stormwater management plans are required for this project. The drainage engineer must coordinate with a geotechnical engineer for input with relation to slope stability prior to submitting drainage plans. If stormwater management plans are not required for this project, then the following recommendations should be followed. For this project, we recommend that infiltration is avoided in order to maintain slope stability, and that roof downspout dispersion on splash blocks are employed. Recommended drainage details are provided in Appendix E of this report. 5.5 Vegetation Buffer and Considerations For this project, we believe that a detailed clearing and grading plan is not warranted unless the prevailing agency thresholds are exceeded, and basic vegetation management practices should be adhered to. Vegetation Buffer—Vegetation shall not be removed from the face of the critical slope or within a distance of zero feet beyond the toe of the slope. However, any tree deemed hazardous to life or property shall be removed. If tree removal is necessary, then stumps and roots shall remain in place, and the underbrush and soil shall remain undisturbed as Envirotech Engineering Geotechnical Report PO Box 984 page 18 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 much as possible. Any disturbed soil shall be graded and re-compacted in order to restore the terrain similar to preexisting conditions and drainage patterns. See the Site Plan in Appendix A of this report for a depiction of the vegetation buffer. 5.6 Temporary and Permanent Erosion Control Erosion control during construction should include minimizing the removal of vegetation to the least extent possible. Erosion control measures during construction may include stockpiling cleared vegetation, silt fencing, intercepting swales, berms, straw bales, plastic cover or other standard controls. Although other controls may be used, if adequate, silt fencing is presented in this report as the first choice for temporary erosion control. Any erosion control should be located down-slope and beyond the limits of construction and clearing of vegetation where surface water is expected to flow. If the loss of sediments appears to be greater than expected, or erosion control measures are not functioning as needed, additional measures must be implemented immediately. See Appendix D for sketches and general notes regarding selected erosion control measures. The Site Plan in Appendix A depicts the recommended locations for erosion control facilities to be installed as necessary. Permanent erosion control is necessary if substantial vegetation has not been established within disturbed areas upon completion of the project. Temporary erosion control should remain in place until permanent erosion control has been established. Permanent erosion control may include promoting the growth of vegetation within the exposed areas by mulching, seeding or an equivalent measure. Selected recommendations for permanent erosion control are provided in Appendix D. Additional erosion control measures that should be performed include routine maintenance and replacement, when necessary, of permanent erosion control, vegetation,drainage structures and/or features. 5.7 Septic Drainfields Septic drainfields were considered in our geotechnical evaluation. This includes septic drainfields with relation to the observed soil conditions, expected vegetation removal, and existing and proposed topography. Based on the aforesaid parameters, the septic drainfields are not expected to adversely influence critical slopes. This is also based on compliance with all recommendations in this report including maintaining drainfields behind the geotechnical setback without further geotechnical considerations. 5.8 Structural Mitigation With respect to landslide alleviation or slope improvements, structural mitigation is not necessary for this project. This determination is based on the anticipated improvements of the project, engineering conclusions, and compliance with all recommendations provided in this report. Envirotech Engineering Geotechnical Report PO Box 984 page 19 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 6.0 CLOSURE Based on the project information provided by the owner, the proposed development, and site conditions as presented in this report, it is Envirotech's opinion that additional geotechnical studies are not required to further evaluate this project. Due to the inherent natural variations of the soil stratification and the nature of the geotechnical subsurface exploration, there is always a possibility that soil conditions encountered during construction are different than those described in this report. It is not recommended that a qualified engineer performs a site inspection during earthwork construction unless fill soils will influence the impending foundation. However, if native, undisturbed subsurface conditions found on-site are not as presented in this report, then a geotechnical engineer should be consulted. This report presents geotechnical design guidelines, and is intended only for the owner, or owners' representative, and location of project described herein. This report should not be used to dictate construction procedures or relieve the contractor of his responsibility. Any and all content of this geotechnical report is only valid in conjunction with the compliance of all recommendations provided in this report. Semantics throughout this report such as `shall,' `should' and `recommended' imply that the correlating design and/or specifications must be adhered to in order to potentially protect life and/ or property. Semantics such as `suggested' or `optional' refer that the associated design or specification may or may not be performed, but is provided for optimal performance. The recommendations provided in this report are valid for the proposed development at the issuance date of this report. Changes to the site other than the expected development, changes to neighboring properties, changes to ordinances or regulatory codes, or broadening of accepted geotechnical standards may affect the long-term conclusions and recommendations of this report. The services described in this report were prepared under the responsible charge of Michael Staten, a professional engineer with Envirotech. Michael Staten has appropriate education and experience in the field of geotechnical engineering in order to assess landslide hazards, earthquake hazards, and general soil mechanics. Please contact Michael Staten at 360-275-9374 if you have any questions, comments, or require additional information. Sincerely, Envirotech Engineering /� _%UrerL. Michael Staten, P.E. Geotechnical Engineer Envirotech Engineering Geotechnical Report PO Box 984 page 20 Parcel 32232-439-0013 Belfair,Washington 98528 Mason County,Washington Ph. 360-275-9374 October 5, 2023 APPENDIX A GEOTECHNICAL SITE PLAN — 3------------------------ ..o''.va-. — -------------- �- — IE9K 7,CC,dGMh , �------- MIT 43AVO Y tlM aAuf193 •� I 1 ..av-Wna 7Rlf1i3 DMWW. ' ]i7�eW t3S(1 ]l]E]Nm 91a1f13}]w 91[lfllq I aMAem � aAmmo v en]IM A f ] ILIML Ma•++Lm I � � nu 11M P[1f41] e�'� ■flew -�- I �- 1 t ixill-- 347 m NWN vcmm / / IM Al■MEf/ / � t �= 1 LIMA■•NM 3 aMOt tti APPENDIX B SOIL INFORMATION vox--:w�Nn��roirti xrw-o LOOSE TO MEDIUM DENSE OVERBURDEN (SM) EXISTING CUT GRADE i PROPOSED BUILDING DENSE GLACIAL ❑UTWASH i SECTION A-A ;OTES- EN:S�R 1>THE SOIL PROFILE 3 ACCURATE FDI 7�� DEPTH OF ENvIRETTECH ENGU6ERING 9 ROx 984 THE ORSEPTHS TEST PM%E AT THE SPE:ffIED LO=ATIptiS, BELTAIR, WASHING7ON 9859.8 WELLLOVE DEPTHS ANE RASED ON SITE f,EilO:U 36C-275-9374 WELL LOWS). a.Li(]t CxPF7t1EN::E IN TFE R,ENERAL AREA. SOIL P10FILE TEST PIT LOG TEST PIT NUMBER TP-1 PROJECT: South Shore Geotechnical Report DATE OF LOG: 2118/2011 PROJECT NO: 1120 LOGGED BY: MCS CLIENT; South Shore Enterprises EXCAVATOR: NIA LOCATION; Parcel 32232 43 90013 DRILL RIG; None Mason County,Washington ELEVATION: N/A INITIAL DEPTH 0=WATER; N/A FINAL DEPTH OF WATER; N/A SOIL STRATA, STANDARD PENETRATION TEST ULP'H SAMPLERS USCS DESCRIPTION _ P1 CURVE AND TEST DATA DEPT!i N 10 K 50 SM Brown,moist,loose SILTY SAND with GRAVEL.Gravel Is primarily well grades and subroundec,Sand Is mostly medlLm. t Low plasticity. MedlLm dense 2 Increasing gravel and density with depth 4 s x;:avall::n terminated at approximalely E 5.�feet C 1(, No Groundwa:e•Encounterec ENVIROTECH ENGINEERING •nrs!'"a•.+w:�'w reri'ea�s x,;rc Tms x-n;eaa wbe Geotechrleal Englreedn9 ;nfcruretrC as!sing indi:tt've aU.a enFra sre APPENDIX C SLOPE STABILITY 00 00000000 0 -Hi 0 v 0 w r a 0 0 . . . . . . . . . . I i r 0mm %] o► 01 wNr0 00000000000 APPENDIX D EROSION CONTROL GEOTEXTILE FABRIC WRAP AROUND TRENCH TO AT LEAST ENTIRE BOTTOM OF TRENCH BEFORE PLACING GRAVEL 2'x2'x5' WOOD POST OR 12' DEEP, 8' WIDE TRENCH EQUIVALENT OR BETTER FILLED WITH 3/4' TO 1 1/2' WASHED GRAVEL OR VEGETATION \i zs FTDIRECTION OF --� EXISTING WATER FLOW GROUND SURFACE zs rt - I e• SILT FENCE - CROSS SECTION N.T.S. 2'x2' WOOD POST (TYP) GEOTEXTILE FABRIC OR EQUIVALENT OR BETTER AND WIRE MESH @ 6 FT MAX. O.C. 6 R 43 fT EXISTING GROUND SURFACE z 12' DEEP, 8' WIDE TRENCH FILLED WITH 'FT 3/4' TO 1 1/2' zs R WASHED GRAVEL OR VEG TI BOTTOM EXTENTS OF GEOTEXTILE FABRIC SILT FENCE - DETAIL N.T.S. PROVIDE FULL WIDTH 3/4 IN TO 1 1/ N60 rt INGRESS/EGRESS CRUSHED GRAVEL II PLACED 6 IN MINIMUM DEPTH DEPTH WELL-DRAINED SOILS ^0.02 IN/MIN FULLUDGM R=25 FT MIN rL ACCESS ROAD STABILIZED CONSTRUCTION ENTRANCE N.T.S. PERMANENT EROSION CONTROL NOTES ENERAL NOTES, SEEDING FOR RAW SLOPES SHOULD THE TEMPORARY EROSION AND SEDIMENT CONTROL MEASURES SHOWN ON HESE PLANS PROVE TO BE INADEQUATE DURING CONSTRUCTION, THE CONTRACTOR 1. BEFORE SEEDING, INSTALL NEEDED SURFACE RUNOFF CONTROL HALL INSTALL ADDITIONAL EROSION AND SEDIMENT CONTROL FACILITIES MEASURES SUCH AS GRADIENT TERRACES.INTERCEPTOR DIKES, ALL EROSION AND SEDIMENT CONTROL FACILITIES AND DEVICES SHALL BE SWALES.LEVEL SPREADERS AND SEDIMENT BASINS, NSPECTED DAILY AND IMMEDIATELY MAINTAINED.IF NECESSARY. 2.THE SEED BED SHALL BE FIRM WITH FAIRLY FINE SURFACE, ,ALL EROSION AND SEDIMENT CONTROL FACOSTIES AND DEVICES SHALL BE LEFT IN FOLLOWING SURFACE ROUGHENING.PERFORM ALL OPERATIONS ACCROS LACE UNTIL THE UPSLOPE AREAS HAVE BEEN PERMANENTLY STABILIZED OR PERPENDICULAR TO THE SLOPE. 3. SEEDING RECOMMENDATIONS,AS SHOWN BELOW, AND SHOULD BE MPORARY EROSION CONTROL NOTES- APPLIED AT THE RATE OF 120 POUNDS PER ACRE. 4, SEED BEDS PLANTED BETWEEN MAY 1 AND OCTOBER 31 WILL R ALL AREAS WHICH HAVE BEEN STRIPPED OF VEGETATION OR EXPERIENCED LAND REQUIRE IRRIGATION AND EITHER MAINTENANCE AS NECESSARY TO ISTURBING ACTIVITIES, AND WHERE NO FURTHER WORK IS ANTICIPATED FOR A FOSTER AND PROTECT THE ROOT STRUCTURE. ERIOD EXCEEDING THE LISTED CRITERIA BELOW. ALL DISTURBED AREAS MUST BE 5. SEED BEDS PLANTED BETWEEN NOVEMBER 1 AND APRIL 30, MMEDIATELY STABILIZED WITH MULCHING, GRASS PLANTING OR OTHER APPROVED ARMORING OF THE SEED BED WILL BE NECESSARY, (e.g., ROSION CONTROL TREATMENT APPLICABLE TO THE TIME OF YEAR. GRASS SEEDING GEOTE%TILES, JUTE MAT, CLEAR PLASTIC COVERING). L13NE WILL ONLY BE ACCEPTABLE DURING THE MONTHS LF APRIL THROUGH 6,FERTILIZERS ARE TO BE USED ACCORDING TO SUPPLIERS' EPTEMBER. HOWEVER, SEEDING MAY PROCEED WHENEVER IT IS IN THE INTEREST OF RECOMMENDATIONS.AMOUNTS SHOULD BE MINIMIZED,ESPECIALLY FIE OWNER/CONTRACTOR, BUT MUST ALSO BE AUGMENTED WITH MULCHING, NETTING ADJACENT TO WATER BODIES AND WETLANDS. R OTHER APPROVED TREATMENT, USE THE FOLLOWING RECOMMENDED SEED MIXTURE FIR EROSION RY SEASON (MAY 1 THfRU SEPTEMBER 30)— THE CLEARING OF LAND, INCLUDING THE CONTROL, OR A COUNTY APPROVED ALTERNATE SEED MIXTURE. H13VAL OF EXISTING VEGETATION OR OTHER GROUND COVER,MUST BE LIMITED TO NLY AS MUCH LAND AS CAN RECEIVE APPROPRIATE PROTECTIVE COVER OR BE PROPORTIONS PURITY GERMINATION THERVISE STABILIZED,AFTER HAVING BEEN CLEARED OR OTHERWISE DISTURBED NAME BY WEIGHT(%) (YJ (%) Y NO LATER THAN SEPTEMBER 30 ff A GIVEN YEAR. UNLESS D4EDIATE TABILIZATION IS SPECIFIED IN THE EROSION AND SEDIMENT CONTROL PLAN, ALL REDTOP (AGROSTIS ALBA) 10 92 90 REAS CLEARED OR OTHERWISE DISTURBED MUST BE APPROPRIATELY STABILIZED ANNUAL RYE (LOLIUM MULTIFLORUM) 40 98 90 ROUGH THE USE OF MULCHING,NETTING,PLASTIC SHEETING,EROSION BLANKETS, CHEWING FESUE 40 97 DO REE DRAINING MATERIAL, ETC., BY SEPTEMBER 30 OR SOONER PER THE APPROVED (FESTUCA RUBRA COMMUTATA) AN(IF ACTION UNLESS OTHERWISE APPROVED BY THE COUNTY, SEEDING. (JAMESTOWN, BANNER, SHADOW, KOKET) UTILIZING AND MULCHING OF CLEARED OR OTHERWISE DISTURBED AREAS SHALL BE WHITE DUTCH CLOVER 10 96 90 RFORMED DURING THE FOLLOWING PERIODS MARCH 1 TO MAY 15,AND AUGUST 15 TO (TRIFO.IUM REPENS) CTOBER L SEEDING AFTER OCTOBER 1 WILL BE DONE WHEN PHYSICAL COMPLETION THE PROJECT IS IMMINENT AND THE ENVURO4ENTAL CONDITIONS ARE CONDUCIVE MULCHING SATISFACTORY GROWTH IN THE EVENT THAT PERANENT STABILIZATION IS NOT SSIBLE,AN ALTERNATIVE METHOD OF GROUND COVER, SUCH AS MULCHING,NETTING,L MATERIALS USED FOR MULCHING ARE RECOMMENDED TO BE WOOD ASTIC SHEETING,EROSION BLANKETS,ETC., MUST BE INSTALLED BY NO LATER THAN FIBER CELLULOSE, AND SHOULD BE APPLIED AT A RATE CF 1000 EPTEMBER 30. POUNDS PER ACRE. 2. MULCH SFOUL➢ BE APPLIED IN ALL AREAS WITH EXPOSED SLOPES THE EVENT THAT CONSTRUCTION ACTIVITIES IR OTHER SITE DEVELOPMENT GREATER THAN 2.1 (flRIZONTAL.VERTICAL), CTIVITIES ARE DISCONTINUED FOR AT LEAST 4 CONSECUTIVE DAYS, THE 3. MULCHING SHOULD BE USED IMMEDIATELY AFTER SEEDING DR IN WNER/CONTRACTOR SHALL BE RESPONSIBLE FOR THE INSPECTION OF ALL EROSION AREAS WHICH CANNOT BE SEEDED BECAUSE OF THE SEASON.ALL ND SEDIMENT CONTROL FACILITIES IMMEDIATELY AFTER STORM EVENTS, AND AT AREAS REQUIRING MULCH SHALL BE COVERED BY NOVEMBER L EAST ONCE EVERY WEEK. THE OWNER/CONTRACTOR SHALL BE RESPONSIBLE FOR HE MAINTENANCE AND REPAIR OF ALL EROSION AN SEDIMENT CONTROL FACILITIES. TOPSEM NG ET SEASON (OCTOBER 1 THRU APRIL 30)—ON SITES WHERE UNINTERUPTED L TOPSOIL SHOULD BE USED FOR THIS PROJECT DUE TO HIGHLY ONSTRUCTIDN ACTIVITY IS IN PROGRESS,THE CLEARING OF LAND, INCLUDING THE DENSE EXPOSED SOILS. EMOVAL IF EXISTING VEGETATION AND OTHER GROUND COVER, SHALL BE LIMITED 2.TOPSOIL SHOULD BE PLACED ON SLOPES NOT EXCEEDING 21L O AS MUCH LAND AREA AS CAN BE COVERED OR STABILIZED WITHIN 24 HOURS IN I STRIPPING AND ST13CKPR-ING ON-SITE SOILS SHALL ONLY BE HE EVENT A MAJOR STORM IS PREDICTED AND/ OR EROSION AND SEDIMENT PERMITTED IF TOPSOIL IS FRIABLE AND LOAMY (LOAM, SANDY LOAM, RANSP13RT OFF-SITE IS OBSERVED. SILT LOAM, SANDY CLAY LOAM,CLAY LOAM), L CLEARED OR DISTURBED AREAS SHALL RECEIVE APPROPRIATE PROTECTIVE 4. STRIPPING SHALL BE CONFINED TO THE IMMEDIATE CONSTRUCTION OVER OR BE OTHERWISE STABILIZED, SUCH AS MULCHING, NETTING, PLASTIC OVER A FOUR TO SIX INCH STRIPPING DEPTH IS COMMON, BUT UL THE PARTICULAR SOIL ALL HEETING,EROSION BLANKETS,FREE DRAINING MATERIAL,ETC., WITHIN 5 DAYS AFTER DEPTH MAY VARY DEPENDING WING BEEN CLEARED OR OTHERWISE DISTURBED IF NOT BEING ACTIVELY WORKED SURFACE RLNOLF CONTROL STRUCTURES CTURES SHALL BE IN PLACE BEFORE STRIPPING. ILT FENCING, SEDIMENT TRAPS, SEDIMENT PONDS,ETC., WILL NUT BE VIEWED AS DEQUATE COVER IN AND QF THEMSELVES IN THE EVENT THAT ANY LAND AREA NOT NG ACTIVELY WORKED REMAINS UNPROTECTED OR HAS NOT BEEN APPROPRIATELY TABILIZED 5 DAYS AFTER HAVING BEEN CLEARED,ALL CONSTRUCTION ACTIVITY ON HE SITE,EXCEPT FOR APPROVED EROSION AND SEDIMENT CONTROL ACTIVITY, SHALL MEDIATELY CEASE UNTIL SUCH A TIME AS AFOREMENTOOED LAND AREA HAS BEEN PPROPRIATELY PROTECTED OR STABILIZED. STOCKPILE MANAGEMENT STOCKPILE SHALL E STAtRI2ED(WITH PLASTIC COVERING OR EITHER APPROVED DEVICE)DAILY BETWEEN 42VEMBER 1 AND MARCH 31. 2.IN ANY SEASON.SEDIMENT LEACNEMG FROM STOCK PIES MUST BE PREVENTED 3.TOPSOIL SHALL NOT BE PLACED WHILE IN A FROZEN OR MUDDY CONDITION,WHEN THE SUDGRADE IS ExCESSIvELY WET,OR VHEN CONDITIONS EXIST THAT MAY OTHERWISE BE DETRIMENTAL TO PROPER GRADING OR PROPOSED SODDING OR SEEDING, 4.PREVIOUSLY ESTABLISHED GRADES ON THE AREAS TO BE TIPSOILED SHALL E MAINTAINED ACCORDING TO THE APPROVED PLANS. STABILIZED CONSTRUCTION ENTRANCE L MATERIAL SHALL BE 4 INCH TO D INCH QUARRY SPALLS (4 TO 6 INCH FOR RESIDENTIAL SINGLE FAMILY LOTS)AND MAY BE TOP-DRESSED WITH 1 INCH TO 3 INCH ROM. (STATE STANDARD SPECIFICATIONS, SECTION 8-15.) 2.THE ROCK PAD SHALL BE AT LEAST L2 INCHES THICK AND 50 FEET LONG(20 FEET FOR SITES WITH LESS THAN 1 ACRE OF DISTURBED SOLL). WIDTH SHALL BE FILL WIDTH IF THE VEHICLE INGRESS AND EGRESS AREA.SMALLER PADS MAY BE APPROVED FOR SINGLE-FAMILY RESIDENTIAL AND SMALL COMMERCIAL SITES 3.ADDITIONAL ROCK SHALL BE ADDED PERIODICALLY TO MAINTAIN PROPER FUNCTION IF THE PAD. 4.IF THE PAD DOES NOT ADEQUATELY REMOVE THE MUD FROM THE VE}IICLE WHEELS, THE WHEELS SHALL BE HOSED OFF BEFORE THE VEHICLE ENTERS A PAVED STREET. THE WASHM SHALL BE DOE ON AN AREA COVERED WITH CRUSHED ROCK AND WASH WATER SHALL GRAIN TO A SEDIMENT RETENTION FACILITY OR THROUGH A SILT FENCE. ILT FENCE GEOTEXTILE FILTER FABRIC TYPE SMALL BE PER SPECIFIED IN THE'STORMWATER MANAGEMENT MANUAL THE PUGET SOUND BASIN: IR APPLICABLE COUNTY STANDARDS GEOTEXTILE FILTER FABRIC SHALL BE PURCHASED IN A CONTINUOUS ROLL CUT TD THE LENGTH OF H BARRIER TD AVOLD USE OF JOINTS.IF JOINTS ARE NECESSARY, FILTER FABRIC SHALL BE SPLICED ETHER ONLY AT A SUPPORT POST WITH A MINIMUM 6-INCH OVERLAP AND SECURELY FASTENED AT OTH ENDS TD THE POST. STANDARD FILTER FABRIC SHALL BE FASTENED USING V STAPLES DR TIE WIRES(HOG RINGS)0 4 IN ACING. POSTS SHALL BE SPACED AND PLACED AT DEPTHS INDICATED IN THE DETAILS 13N THIS SHEET,AND IVEN SECURELY INTO THE GROUND WIRE MESH SHALL BE 2'X2*X14 GAUGE OR EQUIVILENT.THE WIRE MESH MAY BE ELIMINATED IF XTRA-STRENGTH FILTER FABRIC (MONOFILAMENT),AND CLOSER POST SPACING IS USED. .A TRENCH SHALL BE EXCAVATED ACCORDING TO THE DETAILS ON THIS SHEET ALONG THE LINE IF THE TS AND UPSLOPE FROM THE SILT FENCE. SILT FENCES SHALL BE LOCATED IOVNSLO'E FROM THE CLEARING LIMITS O" THE PRDJECT, APPENDIX E DRAINAGE DETAILS HOUSE ROOF DOWNSPOUT SERVES UP TO 700 SF OF ROOF 50 FT MIN VEGETATED FLOW PATH DOWNSPOUT EXTENSION ROOF DOWNSPOUT ANE SPLASH BLO K DETAILS N.T.S.