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REVIEWED RESUB1 BLD2023-1461+Geo_Report+3.8.2024_2.55.29_PM+4114982Group Northwest, Inc. March 1, 2024 Mr. William Goodman 16624 — 72nd Avenue W Edmonds, Washington 98026 RESUB Mar 08 2024 CITY OF EDMONDS DEVELOPMENT SERVICES DEPARTMENT BLD2023-1461 .............................................., REVIEWED BY CITY OF EDMONDS BUILDING DEPARTMENT! Geotechnical Engineers, Geologists & Environmental Specialists G-6017 Subject: Geotechnical Engineering and Geologic Critical Areas Report Proposed Residential Garage, 16624 — 72nd Avenue W, Edmonds, Washington Dear Mr. Goodman: Per your request, GEO Group Northwest, Inc. is pleased to present this geotechnical engineering and geologic critical areas report for the proposed new garage at your residence in Edmonds, Washington. We understand that the City of Edmonds has required a geotechnical report evaluating geologic critical areas on or in the vicinity of the property be submitted as part of the building permit application for the project. SITE AND PROPOSED PROJECT DESCRIPTION Project Site Location and Description The site property is located in a residential neighborhood in northern Edmonds, Washington. The property is approximately rectangular in shape and is 21,408 square feet in size. Other residential properties are present to the east and south, and rights of way for 166th Place SW are present to the north and west. The site property currently is developed with a single-family residence that has a main floor level and a daylight basement which includes a garage. An asphalt driveway runs from the north property line to the front of the garage on the west side of the residence. An asphalt paved parking area also is located in the northeast part of the site. Overall, the property has gentle to 13705 Bel -Red Road, Bellevue, Washington 98005 Phone: (425) 649-8757 / E-mail: info@geogroupnw.com March 1, 2024 Mr. William Goodman G-6017 Page 2 moderate sloping topography that falls toward the south or the west, except at its west margin and in its southeast corner where the slopes steepen. The property features are illustrated in Plate 2 — Site Plan. Geologic Background Information Published geologic mapping of the local vicinity indicates that the site property is underlain with glacial advance outwash deposits from the Vashon Glaciationl. These deposits typically consist of fine to medium grained sand, either stratified or unstratified, with lesser silty or gravelly sand layers. They typically are dense or very dense where they have not been subjected to weathering. They may contain groundwater in areas where they are underlain with impermeable soils. Proposed Project Description We understand that you propose to construct a detached new garage on the eastern part of the property as part of a remodeling project. The new garage is planned to be approximately 600 square feet in size, and is planned to be supported on conventional concrete footings and have a conventional slab -on -grade concrete floor. The location of the proposed garage is illustrated in Plate 3 — Proposed Project Layout. We also understand that you plan to remodel the existing residence. The proposed remodeling, however, will not involve addition to the residence footprint nor additional stories for the residence. SITE INVESTIGATION On February 8, 2024, we performed a reconnaissance of the site property and of the immediate vicinity as accessible or observable from the site property of nearby public areas. We found that the features and topography indicated in the topographic survey are consistent with the conditions we observed. We observed no indications of soil instability or erosion on the site property. We also observed that the surface grades on site continued onto the adjacent properties to the south and east at similar to lesser inclinations, and we also did not observe conditions indicating soil instability or movement on the visible portions of these properties. 1 Geologic Map of the Edmonds East and Part of the Edmonds West Quadrangles, Washington. Washington Department of Geology and Earth Resources Miscellaneous Field Studies Map MF-1541, 1983. GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 3 We completed a soil boring in the proposed garage location by using hand -auger equipment and hand tools. Soils encountered in the boring consisted of an upper layer of apparent fills consisting of loose fine- to medium -grained sand with lesser proportions of gravel and cobbles to a depth of approximately 2.5 feet. The underlying soils consisted of fine- to medium -grained sand with minor gravel to the bottom of the boring at approximately 6.5 feet. These soils were relatively loose to a depth of approximately 4 feet, and medium dense to dense below. Groundwater was not encountered in the boring. The soils below 2.5 feet are interpreted to be glacial advance outwash deposits consistent with those noted in published geologic mapping of the local area. The soil log for the boring is provided in Attachment A to this report. GEOLOGIC CRITICAL AREAS We have reviewed the proposed project in respect to critical areas study and report requirements contained in ECDC 23.80.050. Our findings, conclusions, and recommendations are presented in the following sections of this report. Geologic Critical Areas Identification and Description Landslide Hazard Areas City of Edmonds GIS mapping indicates that landslide hazard areas are present on the southeast and the southwest parts of the site property. Southeast Portion of the Site Property The mapped landslide hazard areas in the southeast corner of the property are shown as being small in size, having heights of less than 10 feet, and straddling the property lines. The locations of these areas are illustrated in Plate 4 — Geologic Hazard Areas GIS Mapping. The topographic survey for the site property indicates that there is a steep slope area in the southeast part of the property that has a maximum height of approximately 10 to 12 feet and an inclination of approximately 40 to 45 percent within the property limits. Thus, this steep slope area meets the minimum criteria to be designated a landslide hazard area per ECDC GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 4 23.80.020(B). Its on -site extent is illustrated in Plate 2 — Site Plan and Plate 3 — Proposed Project Layout. As noted from our reconnaissance, we observed that this slope continues downward onto adjacent property to the south and southeast at similar to lesser inclinations. The height of the off -site portion of the slope area is approximately 30 feet based on City of Edmonds GIS mapping as illustrated in Plate 4 — Geologic Hazard Areas Mapping; but its inclinations vary between slightly below to slightly above 40 percent grade. Southwest Portion of the Site Property The mapped landslide hazard area in the southwest part of the property is shown as having a height of up to approximately 6 feet and a length of approximately 100 feet. The location of this area is illustrated in Plate 4 — Geologic Hazard Areas GIS Mapping. The topographic survey, however, indicates that the southwest part of the property has a steep slope area with a maximum height of approximately 10 to 12 feet, a length of approximately 60 feet, and straddles the west property line. Thus, this steep slope area meets the minimum criteria to be designated a landslide hazard area per ECDC 23.80.020(B). The extent of this landslide hazard area is illustrated in Plate 2 — Site Plan and Plate 3 — Proposed Project Layout. 50 Feet or Less from the Site Property The only landslide hazard areas indicated to be present within 50 feet of project area consist of a few small discontinuous areas to the south and east of the southeast corner of the site property, as illustrated in City of Edmonds GIS information. The overall slope inclination encompassing these areas and immediate surroundings is 40 percent grade or slightly greater. 50 to 200 Feet from the Site Property Other landslide hazard areas are illustrated in City of Edmonds GIS information at distances ranging between 50 and 200 feet from project location. These areas mostly are located south, southeast, or north of the project location, as illustrated in Plate 4 - Geologic Hazard Areas GIS Mapping. We reviewed the distance and topographic relationships of these areas with respect to the project location. We observed that these areas are either 1) separated from the project location by topographic features which provide separation of potential impacts to the project GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 5 location, 2) have slope orientations which are directed such potential impacts to the project location are avoided, or 3) are at distances from the project area which are much greater than their heights. Therefore, we conclude that these areas do not have the potential to be affected by the proposed project or vice versa. Erosion Hazard Areas City of Edmonds GIS mapping indicates that erosion hazard areas are present on portions of the project property and of adjacent properties. These areas are shown in Plate 4 —Geologic Critical Areas GIS Mapping. According to information from the USDA Natural Resources Conservation Service (MRCS), surface soils on the property are mapped as Alderwood series gravelly sandy loam. These soils typically have a parent material of glacial drift or outwash over dense glacio-marine deposits. The soils found at the site are similar to those described as Alderwood series soils. Per ECDC 23.80.020(A), soils of the Alderwood series on slopes steeper than 15 percent grade are designated as erosion hazard areas. The topographic survey of the site indicates that a majority of the site property (the areas west, northwest, and southeast of the residence) including the proposed project area has slopes of greater than 15 percent grade, and therefore meet the criteria to be designated erosion hazard areas. Geologic Hazards Assessment In our opinion, the potential for landsliding as a result of the proposed project is minimal because of the following factors: • the distance between the proposed garage and the landslide hazard areas, • the slope heights and inclinations of the landslide hazard areas being marginally greater than the minimum criteria for their designation; • the light loads that would be imposed by the proposed garage, • the minimal amount of net cut and fill needed to construct the proposed garage; and • the unsaturated sandy soil conditions found in the project area during our investigation. GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 6 The potential for erosion of exposed soils in and downslope of the project location during construction exists if temporary controls are not implemented. Also, if these soils that are left exposed after construction, there exists a potential for them to undergo erosion unless they are re - stabilized. Such erosion, if it were to occur, would have its impact limited by the downslope and cross -slope grass lawn area and by the pervious, sandy character of the soils. Therefore, we recommend that mitigation measures to address the potential for soil erosion during and following the project be included in the project plans. Landslide Hazard Area Buffer and Building Setback We reviewed the buffer and building setback criteria for landslide hazard areas in ECDC 23.80.070. We recommend a building setback width of 15 feet as measured from the top of the (steep slope) landslide hazard area be set for the site property. This distance is equal to or slightly greater than the height of the steep slope. We conclude that the proposed building setback width will minimize the risk of property damage, death, or injury from landslides caused by the proposed project. Based on the site conditions found during our investigation and the limited nature of the proposed project (construction of an at -grade residential garage), it is our opinion that a landslide hazard area buffer for the proposed project can be identical in width and location to the recommended building setback for the project. Mitigation of Long -Term Impacts to Geologic Critical Areas To mitigate the potential for temporary or long-term impacts to the landslide hazard and erosion hazard areas on the site property and immediate vicinity, we recommend that a temporary erosion and sediment control plan (TESL), and a soil re -stabilization plan should be included in the proposed project plans. Measures to include in the TESC are provided below in the Recommendations portion of this report. Our recommendations for the re -stabilization plan include the following: • measures to prevent the concentrated discharge of surface water onto slopes having inclinations steeper than 15 percent grade; • limiting the inclination of permanent slopes in the project area to not more than 2.511:1 V; and GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 7 • re -stabilizing soils exposed by construction with new vegetation or other protective landscape materials or surfacing (i.e., pavers, crushed stone, etc.) at the end of the project. Conclusions We have developed the following conclusions regarding critical areas considerations and the proposed project. These conclusions are conditioned that the recommendations presented in this report are properly followed. It is our conclusion that the proposed project satisfies the standards described in ECDC 23.80.070.A.4 in the following respects. the slope heights and inclinations of the landslide hazard areas are marginally greater than the minimum criteria for their designation (standard a); the distance between the proposed garage and the landslide hazard areas (standards b and d), the light loads that would be imposed by the proposed garage (standard a), the minimal amount of net cut and fill needed to construct the proposed garage (standards c and d); and the footprint of the proposed garage is limited to that appropriate for a 2- car garage, and no increase of the driveway is proposed (standard e). The potential for geologic hazard to adjacent properties will not be increased, relative to pre - project conditions. The hazard to the proposed project from soil instability or erosion is mitigated to minimal levels. Other critical areas, including stream or wetland areas, critical aquifer recharge areas, and frequently flooded areas, are not documented to be present on or near to the site property. Therefore, the proposed project will not adversely affect other critical areas. GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman GEOTECHNICAL ENGINEERING RECOMMENDATIONS G-6017 Page 8 In our opinion, the proposed garage can be supported on conventional concrete footings that bear on undisturbed medium dense to dense soils or on structural fill that is placed on a subgrade of these soils. The findings from our investigation indicate that medium dense or dense soils suitable for supporting conventional concrete footings are present at depths of up to approximately 4 feet below existing grade. Our recommendations regarding these and other geotechnical aspects for the proposed project are presented below in the following sections of this report. Site Seismic Design Classification In our opinion, the project site can be assigned Seismic Site Class D (Medium Dense Soil Profile), per the International Building Code 2018 Edition (IBC 2018). Our determination is based upon the findings from our subsurface investigation activities and our knowledge and understanding of the typical deeper subsurface soil conditions in the site vicinity. The seismic design parameters applicable for the site based on this site class per IBC 2018 are as follows: SS = 1.320g S., = 1.320g Sd, = 0.8809 Si = 0.469g The peak ground acceleration for the site adjusted for site class effects is 0.624g Earthwork Site Clearing and Erosion Control The area where construction work will be performed should be cleared of vegetation, topsoil, organics, debris, fills, and any other deleterious materials that are found. These materials should be hauled off site or used for landscaping, as appropriate; they should not be used as structural fill for the project. Temporary erosion and sedimentation controls (TESCs) should be installed as part of site clearing activities. TESCs for the project can include using silt fences, check dams, straw mulch, GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 9 hay bales, and a stabilized construction entrance. The silt fences or other barrier controls should be placed along the cross -slope and down -slope boundaries of the disturbed areas to prevent sediment -laden runoff from being discharged off site. Exposed soils, including stockpiled soils, should be covered with plastic sheeting when they are not being worked. Excavations and Slopes Temporary excavation slopes should not be greater than the limits specified in local, state and federal government safety regulations. We recommend that temporary excavations 4 feet or more in depth be sloped no steeper than 1H:1V (Horizontal: Vertical). If water seepage or other adverse conditions are observed during excavation, temporary cuts may need to have shallower inclinations. Permanent unreinforced slopes at the site should be inclined no steeper than 2.5H:IV. Surface runoff should not be allowed to flow over the top of slopes into excavations. During wet weather, exposed slopes should be covered with plastic sheeting to prevent erosion or softening. We recommend that we visit the site during excavation of cut slopes to verify anticipated geologic conditions and to evaluate slope stability, particularly if groundwater seepage, caving soils, or debris are encountered. Subgrade Preparation After the completion of site clearing and excavation, soils in areas to receive structural fill, concrete slabs, sidewalks, or pavements, should be prepared to a firm, unyielding condition. The prepared subgrade should be observed and approved by the geotechnical engineer. Any detected soft spots or disturbed areas should be compacted or excavated and replaced with compacted structural fill or crushed rock as directed by the geotechnical engineer. Struchura] Fill Structural fill is typically defined as earthen material that is placed below buildings (including foundations and on -grade slab floors), sidewalks, driveways, or other structures, and provides support to those structures. Soils that meet the material specifications for structural fill as presented below in this report, or are otherwise approved by the geotechnical engineer, can be used for structural fill. Material which is stored on site for later use as structural fill should be covered with plastic sheeting to protect it from moisture if its usability is sensitive to its moisture GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 10 content. Structural fill material should be placed and compacted in accordance with the recommendations provided below or as otherwise approved by the geotechnical engineer during construction. Fill Material Specifications Earthen material to be used as structural fill should be a predominantly granular material without clumps; free of organic material, debris, or other deleterious substances; and have a maximum particle size of three (3) inches in diameter. During wet weather, we recommend that the material be fully granular in character and have a fines content (passing a #200 sieve) of less than 5 percent. The material should be placed at or near its optimum moisture content. If the material is too wet to be compacted to the required degree, it will be necessary to dry the material by aeration (which may be difficult) or replace the material with an alternative suitable material in order to achieve the recommended compaction. We anticipate that the sandy site soils found during our investigation will be acceptable for use as structural fill, provided that they are free of deleterious materials including oversized cobbles, and have an appropriate moisture content for achieving proper compaction. Compaction Specifications Structural fill material placed under foundation footings and concrete floor slabs should be compacted to at least 92 percent of its maximum dry density as determined by ASTM D1557. Structural fill material under exterior slabs or pavements should be compacted to at least 90 percent of its maximum dry density, except for the top 12 inches of the material, which should be compacted to at least 95 percent of its maximum dry density. Structural fill material should be spread and compacted in lifts that are 10 inches or less in thickness in an un-compacted state. The compacted fill material should be field tested by using ASTM Designations D2922 and D3017, Nuclear Probe Method, to verify that the required degree of compaction has been achieved. GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman Foundations Conventional Concrete Footings G-6017 Page 11 New conventional strip and column footings should bear directly on medium dense to dense native soils or on compacted structural fill that has been placed on a compacted subgrade of native medium dense soils. Our recommended design criteria for conventional footing foundations supported in this manner are provided below. - Allowable bearing pressure, including all dead and live loads: Medium dense to dense undisturbed soil = 1,500 psf Structural fill placed on medium dense to dense soil = 1,500 psf - Minimum depth to base of perimeter footing below adjacent exterior grade = 18 inches - Minimum depth to base of interior footing below top of floor slab 12 inches - Minimum width of wall footings = 16 inches - Minimum lateral dimension of column footings = 24 inches - Estimated post -construction total settlement (in existing house footprint or to southwest) =1/z inch - Estimated post -construction differential settlement (in existing house footprint or to southwest) = % inch Structural fill used to support footings should extend laterally beyond the footing edges by a distance equal to the fill thickness. We also recommend that the subgrade on which the fill is placed be compacted in place to a firm condition. A one-third increase in the above allowable bearing pressures can be used when considering short-term transitory wind or seismic loads. Lateral loads against the building foundations can be resisted by friction between the foundation and the supporting compacted fill subgrade or by passive earth pressure acting on the buried portion of the foundations. For the latter case, the foundations must be poured "neat" against the existing undisturbed soil or be backfilled with GEO Group Northwest, Inc. March 1, 2024 Mr. William Goodman G-6017 Page 12 compacted structural fill. Our recommended parameters, which include a factor of safety of 2.0, are as follows: - Passive Pressure (Lateral Resistance) 300 pcf, equivalent fluid weight, for structural fill or competent undisturbed native soil - Coefficient of Friction (Friction Factor) 0.35 for competent undisturbed native soil or structural fill Concrete Slabs -on -Grade We recommend that the garage slab -on -grade floor be supported on compacted medium dense native soil or on structural fill that is placed on a subgrade of compacted medium dense native soil. To avoid moisture build-up on the subgrade, floor slabs should be placed on a capillary break, which is in turn placed on the prepared subgrade. The capillary break should consist of a layer, at least 6 inches thick, of free -draining crushed rock or gravel containing no fines and no more than five percent material finer than a No. 4 sieve. A vapor barrier should be placed over the capillary break to reduce upward transmission of water vapor through the slab, if such transmission is undesirable. Surface Drainage During construction, water should not be allowed to stand in areas where footings, slabs, or pavements are to be constructed. We recommend that storm water drainage from the new garage roof be collected into a tightline system that conveys the water to an approved discharge location. Storm water should not be allowed to develop into concentrated flows on the ground surface, because concentrated flow can lead to soil erosion and rutting. Final grading of the project area also should not result in concentrated surface water flow onto the steep slope area at southeast corner of the site and should not be directed onto adjacent properties. Subsurface Drainage In our opinion, footing drains alongside perimeter foundations for the proposed garage are not needed, from a geotechnical perspective, and can be waived for the project. GEO Group Northwest, Inc. March 1, 2024 G-6017 Mr. William Goodman Page 13 LIMITATIONS This report has been prepared for the specific application to this site for the exclusive use of Mr. William Goodman and his authorized assignees or agents. Any other use of this report is solely at the user's own risk. We recommend that this addendum be included in its entirety in the project contract documents for reference during construction. The recommendations presented in this report are our professional opinion derived in a manner consistent with the level of care and skill ordinarily exercised by other members of the profession currently practicing under similar conditions in this area and within the project schedule and budget constraints. No warranty is expressed or implied. If conditions are found to differ from those described in this report, we should be notified so that the relevant recommendations in this report can be re-evaluated and modified if appropriate. CLOSING We appreciate this opportunity to provide you with geotechnical engineering services. Please feel free to contact us if you have any questions regarding this letter. Sincerely, GEO GROUP NORTHWEST, INC. awe ° Wash.�9 <� E Keith A ,&hnson I Keith Johnson Project Geologist 3/l/2024 William Chang, P.E. Principal Engineer 3/1/2024 GEO Group Northwest, Inc. March 1, 2024 G-6017 Mr. William Goodman Page 14 Illustrations: Plate 1 — Site Location Map Plate 2 — Site Plan Plate 3 — Local Geologic Hazard Areas GIS Mapping Plate 4 — Vicinity Geologic Hazard Areas GIS Mapping Attachment: Attachment A — Soil Boring Log GEO Group Northwest, Inc. FISHER RD StIT 1 S$ T, c PROJECT SITE , W ADo4,1'O T WS 2 I j 27N R4E LY N EDMONDS 0LYM 3i W Source: City of Edmonds GIS N. W Q C Group Northwest, Inc. SITE LOCATION MAP PROPOSED RESIDENTIAL GARAGE - Geotechnical Engineers, Geologists, & Environmental Scientists 16624 - 72ND AVENUE W EDMONDS, WASHINGTON SCALE: 1" = 2,000' DATE: 2/23/2024 1 MADE: KJ CHKD: WC I JOB NO: G-6017 PLATE 1 E i oasraroaorarioa v r uuar aoeer m Owo EAsoov j - - - - --------Jar----------- --------Mirr BMW ro------ arr u ------t66TH PL. SW aranr. r - e. 't T$ rj ys_g "as a [ [cacm->ao• G N drSriO' E fA.tl' N 6�3�'!0- E Nr 77jYJ(t� Al Wd .._-.'.,Chun On.0 E44K4 MN-7r11O - — --'-'-- ---L ------ �„- r } ovn[rrr USE"72s A,11-'f16177 O M XPJ9[' C f7 W' NU►I fA�OA y AM-IJl1A[ O OILD.AO 1' OE[k M"wr1 - off~ oa5r.fr000rosro 1 � � �.� t� (,lumrororr,aaows�r p } P& WN-7f]i"C r {� ADOE FO aEY-.l,z.. lA[ oosrlr000row? SITE 8 Sr HA 1 Y� LEGEND EXPLORATORY SOIL BORING (APPROX. LOCATION) SAM lA[7 i mn �� HA-1 LANDSLIDE �l --t r� Q HAZARD AREA 0ow,,—� -------- - N ot �mm�mnnrnnrnn Nour/ u,oe i 0 40 80 Source: Topographic Survey for Bill & Michelle Goodman, by Pacific Coast Surveys, Inc., dated 1/20/24. SCALE: 1 INCH = 40 FEET SITE PLAN Group Northwest, Inc. PROPOSED RESIDENTIAL GARAGE - Geotechnical Engineers, Geologists, & 16624 - 72ND AVENUE W Environmental Scientists EDMONDS, WASHINGTON SCALE: 1" = 40' DRAWN: KJ CHECKED: WC DATE: 2/23/2024 1 PROJECT NO.: G-6017 PLATE 2 LEGEND +EXPLORATORY SOIL BORING (APPROX. LOCATION) HA-1 0 40 80 Source: Topographic Survey for Bill & Michelle Goodman, by Pacific Coast Surveys, Inc., dated 1/20/24. SCALE: 1 INCH = 40 FEET PROPOSED PROJECT LAYOUT Inc. Group Northwest, PROPOSED RESIDENTIAL GARAGE - Geotechnical Engineers, Geologists, & 16624 - 72ND AVENUE W Environmental Scientists EDMONDS, WASHINGTON SCALE: 1" = 40' DRAWN: KJ CHECKED: WC DATE: 2/23/2024 1 PROJECT NO.: G-6017 PLATE 3 loo' City of Edmonds Map Title S2� 10� SITE Legend PROPERTY 16618 (` �p Contour Lines 16611 'o — 50.100 . Landslide Hazard Area 40% \ ❑ Severe Erosion Hazard 15%-40% ❑ Erosion Hazard Areas 15%-40% 16623 16624 N 1'6 20 I714 10 Sections Boundary .p 10 .p 10 Sections Edmonds Boundary ArrSDE.GIS.PROPERN_BUILDINC ArcSDE.GIS.STREET CENTERLINE: <all other values> 16703 P6705 Interstate Principal Arterial — 16742 Minor Arterial-, Collector — \ Loal steel State Highways <all other values> 0 747 7 � z County Boundary 16748 Parks 16727 ArcSDE.GIS.PROPERN_WASHINf ArrSDE.GIS.PROPERN CITIES M V. ppOWDA F BEAC R \ \ O Notes D \ 0 111.92 223.8 Feet 166.7 This ma generated static output from an Internet ma t Z QQQ p is a user genera a pu Aping site an d is for reference only. Data layers that appear on this map may or may not be accurate, ere current, or otherwise reliable. THIS MAP IS NOT TO BE USED FOR DESIGN OR CONSTRUCTION 200 FEET Source: City of Edmonds GIS. GEOLOGIC CRITICAL AREAS GIS MAPPING Group Northwest, Inc. PROPOSED RESIDENTIAL GARAGE - Geotechnical Engineers, Geologists, & 16624 - 72ND AVENUE W Environmental Scientists EDMONDS, WASHINGTON SCALE: As Shown DRAWN: KJ CHECKED: WC DATE: 2/23/2024 1 PROJECT NO.: G-6017 PLATE 4 ATTACHMENT A G-6017 SOIL BORING LOG GEO Group Northwest, Inc. SOIL CLASSIFICATION & PENETRATION TEST DATA EXPLANATION UNIFIED SOIL CLASSIFICATION SYSTEM (USCS) MAJOR DIVISION GROUP TYPICAL DESCRIPTION LABORATORY CLASSIFICATION CRITERIA SYMBOL CLEAN GRAVELS GRAVELS (little or no (More Than Half fines) COARSE- GRAINED SOILS Coarse Fraction is Larger Than No. 4 Sieve) DIRTY GRAVELS (with some fines) SANDS CLEAN SANDS (More Than Half More Than Half by Coarse Fraction is (little or no Weight Larger Smaller Than No. 4 fines) Than No. 200 Sieve) Sieve DIRTY SANDS (with some fines) SILTS Liquid Limit (Below A -Line on < 50% Plasticity Chart, Liquid Limit FINE-GRAINED Negligible SOILS Organics) > 50% CLAYS Liquid Limit (Above A -Line on < 50% Plasticity Chart, Liquid Limit Negligible Organics) > 50% Less Than Half by Weight Larger Liquid Limit Than No.200 ORGANIC SILTS <50% Sieve S CLAYS (Below A -Line on Plasticity Chart) Liquid Limit > 50% HIGHLY ORGANIC SOILS GW WELL GRADED GRAVELS, GRAVEL -SAND MIXTURE, LITTLE OR NO FINES CONTENT OF FINES BELOW GP POORLY GRADED GRAVELS, AND GRAVEL -SAND 5% MIXTURES LITTLE OR NO FINES GM SILTY GRAVELS, GRAVEL -SAND -SILT MIXTURES CONTENT OF FINES EXCEEDS CLAYEY GRAVELS, GRAVEL -SAND -CLAY 12% GC MIXTURES WELL GRADED SANDS, GRAVELLY SANDS, SW LITTLE OR NO FINES CONTENT OF FINES BELOW POORLY GRADED SANDS, GRAVELLY SANDS, 5% SP LITTLE OR NO FINES SM I SILTY SANDS, SAND -SILT MIXTURES SC MIL MH CL CH OL OH Pt SOIL PARTICLE SIZE U.S. STANDARD SIEVE FRACTION Passing Retained Sieve Size (mm) Sieve Size (mm: #200 0.075 SILT / CLAY SAND FINE #40 0.425 #200 0.075 MEDIUM #10 2.00 #40 0.425 COARSE #4 4.75 #10 2.00 GRAVEL FINE 0.75" 19 #4 4.75 COARSE 3" 76 0.75" 19 COBBLES 76 mm to 203 mm BOULDERS > 203 mm ROCK FRAGMENTS > 76 mm ROCK >0.76 cubic meter in volume CONTENT OF FINES EXCEEDSI2% Cu = (D60 / D10) greater than 4 Cc = (D30)2 / (D10 - D60) between 1 and 3 CLEAN GRAVELS NOT MEETING ABOVE REQUIREMENTS GM: ATTERBERG LIMITS BELOW "A" LINE. or P.I. LESS THAN 4 GC: ATTERBERG LIMITS ABOVE "A" LINE. or P.I. MORE THAN 7 Cu = (D60 / D10) greater than 6 Cc = (D30)2 / (D10 - D60) between 1 and 3 CLEAN SANDS NOT MEETING ABOVE REQUIREMENTS ATTERBERG LIMITS BELOW "A" LINE with P.I. LESS THAN 4 CLAYEY SANDS, SAND -CLAY MIXTURES ATTERBERG LIMITS ABOVE "A" LINE with P.I. MORE THAN 7 INORGANIC SILTS, ROCK FLOUR, SANDY SILTS OF SLIGHT PLASTICITY 60 INORGANIC SILTS, MICACEOUS OR 50 DIATOMACEOUS, FINE SANDY OR SILTY SOIL INORGANIC CLAYS OF LOW PLASTICITY, 40 - GRAVELLY, SANDY, OR SILTY CLAYS, LEAN CLAYS X Lu Z 30 - INORGANIC CLAYS OF HIGH PLASTICITY, FAT CLAYS U 20 - � ORGANIC SILTS AND ORGANIC SILTY CLAYS OF LOW PLASTICITY d 10 - 7— ORGANIC CLAYS OF HIGH PLASTICITY 4 — 0 '=Minimills FFORSTCT SOIL P SOIL PASSING NINE U.S. 1441 MESH SIEVE MINE nommossion WA 0 10 20 30 40 50 60 70 80 90 100 PEAT AND OTHER HIGHLY ORGANIC SOILS LIQUID LIMIT (%) GENERAL GUIDANCE FOR ENGINEERING PROPERTIES OF SOILS, BASED ON STANDARD PENETRATION TEST (SPT) DATA SANDY SOILS SILTY & CLAYEY SOILS Unconfined Blow Counts Relative Friction Angle, Blow Counts Description N Density, % degrees P Description N Strength Cju, P tsf 0-4 0 -15 Very Loose < 2 < 0.25 Very soft 4 - 10 15 - 35 26 - 30 Loose 2-4 0.25 - 0.50 Soft 10 - 30 35 - 65 28 - 35 Medium Dense 4-8 0.50 - 1.00 Medium Stiff 30-50 65 - 85 35 - 42 Dense B - 15 1.00 - 2.00 Stiff > 50 85 - 100 38 - 46 Very Dense 15 - 30 2.00 - 4.00 Very Stiff > 30 > 4.00 Hard Group Northwest, Inc. Geotechnical Engineers, Geologists, & Environmental Scientists 13705 Bel -Red Road Bellevue, Washington 98005 Phone: (425) 649-8757 E-mail: info@geogroupnw.com PLATE Al BORING HA-1 LOGGED BY: KJ DATE EXCAVATED: 2/8/24 GROUND ELEV: DEPTH ft. USCS SOIL DESCRIPTION SAMPLE No. Water % OTHER TESTS/ COMMENTS SP 1 SAND with GRAVEL and COBBLES, brown, damp, loose, sand is fine to medium grained, trace fines, 35% coarse gravel to small cobbles, rare 11.7 small brick flakes (APPARENT FILL). 2 ----------------------------------------------------------- 16.5 Probe 30" at 2.5'. 3 SP-SM SAND to SILTY SAND, brown and dark grayish brown, loose, moist, sand is fine to medium grained, 10-15% fines, some mottling and fine black organics and large fresh roots at 4 feet (APPARENT TOPSOIL). 4 Probe 12" SAND to SILTY SAND, brown, loose, moist, sand is fine to medium 5 ------ grained, 5-10% gravel, some mottling. ---------------------------------------------------- 6 SP SAND, brownish gray, medium dense to dense, moist, sand is fine to 20.1 Probe 1" to 2". medium grained, trace fines, 5-10% gravel, no mottling or oxide staining (NATIVE SOIL). 17.5 Probe 1" to 2". 7 Bottom of boring at 6.5 feet below ground surface. No groundwater encountered. 8 9 10 Group Northwest, Inc. Geotechnical Engineers, Geologists, & Environmental Scientists BORING LOG PROPOSED RESIDENTIAL GARAGE 16624 - 72ND AVENUE W EDMONDS, WASHINGTON JOB NO. G-6017 I DATE 2/23/2024 1 PLATE A2