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Home My WebLink AboutEdina_EngrsRpt_Aug-2015_Main Report 4700 West 77th Street Minneapolis, MN 55435-4803 Phone: 952.832.2600 Fax: 952.832.2601 Engineer’s Report Nine Mile Creek Restoration Project Prepared for Nine Mile Creek Watershed District August 2015 i P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx Nine Mile Creek Restoration Project Edina, MN August 2015 Contents 1.0 Introduction ............................................................................................................................................................................... 1 1.1 Background ................................................................................................................................................................... 1 1.2 Project Location ........................................................................................................................................................... 1 1.3 Summary of Problems ............................................................................................................................................... 1 1.3.1 Stream Stability ............................................................................................................................................ 1 1.4 Project Objectives ....................................................................................................................................................... 2 1.5 Public Participation ..................................................................................................................................................... 2 2.0 Site Characterization............................................................................................................................................................... 3 2.1 Watershed Characteristics ....................................................................................................................................... 3 2.1.1 Land Use ......................................................................................................................................................... 3 2.1.2 Drainage Patterns ....................................................................................................................................... 3 2.1.3 Topography ................................................................................................................................................... 3 2.1.4 Soil Types ....................................................................................................................................................... 3 2.2 Stream Characteristics ............................................................................................................................................... 3 2.2.1 Channel Geometry ..................................................................................................................................... 4 2.2.2 Historical Channel Alignment ................................................................................................................ 5 2.2.3 Stream Profile ............................................................................................................................................... 5 3.0 Site Evaluation .........................................................................................................................................................................13 3.1 Detailed Field Survey ...............................................................................................................................................13 3.2 Hydrologic/Hydraulic Modeling for Creek Modifications .........................................................................13 3.2.1 Nine Mile Creek XP-SWMM Model ...................................................................................................13 3.2.2 Edina Stream Improvements HEC-RAS Models ............................................................................14 3.3 Archeological Investigation...................................................................................................................................14 3.4 Riparian Vegetation Survey ...................................................................................................................................15 4.0 Proposed Improvements ....................................................................................................................................................20 4.1 Stream Stabilization .................................................................................................................................................20 4.1.1 Reach 1 .........................................................................................................................................................20 4.1.1.1 Existing Conditions ..............................................................................................................20 ii P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 4.1.1.2 Considerations and Options ............................................................................................20 4.1.1.3 Recommendations ...............................................................................................................21 4.1.2 Reach 2 .........................................................................................................................................................23 4.1.2.1 Existing Conditions ..............................................................................................................23 4.1.2.2 Considerations and Options ............................................................................................23 4.1.2.3 Recommendations ...............................................................................................................23 4.1.3 Reach 3 .........................................................................................................................................................25 4.1.3.1 Existing Conditions ..............................................................................................................25 4.1.3.2 Considerations and Options ............................................................................................25 4.1.3.3 Recommendations ...............................................................................................................26 4.1.4 Reach 4 .........................................................................................................................................................28 4.1.4.1 Existing Conditions ..............................................................................................................28 4.1.4.2 Considerations and Options ............................................................................................28 4.1.4.3 Recommendations ...............................................................................................................29 4.1.5 Reach 5 .........................................................................................................................................................33 4.1.5.1 Existing Conditions ..............................................................................................................33 4.1.5.2 Considerations and Options ............................................................................................33 4.1.5.3 Recommendations ...............................................................................................................34 4.1.6 Reach 6 .........................................................................................................................................................36 4.1.6.1 Existing Conditions ..............................................................................................................36 4.1.6.2 Considerations and Options ............................................................................................36 4.1.6.3 Recommendations ...............................................................................................................36 4.1.7 Reach 7 .........................................................................................................................................................38 4.1.7.1 Existing Conditions ..............................................................................................................38 4.1.7.2 Considerations and Options ............................................................................................38 4.1.7.3 Recommendations ...............................................................................................................39 4.1.8 Reach 8 .........................................................................................................................................................41 4.1.8.1 Existing Conditions ..............................................................................................................41 4.1.8.2 Considerations and Options ............................................................................................41 4.1.8.3 Recommendations ...............................................................................................................41 4.1.9 Reach 9 .........................................................................................................................................................43 4.1.9.1 Existing Conditions ..............................................................................................................43 4.1.9.2 Considerations and Options ............................................................................................43 4.1.9.3 Recommendations ...............................................................................................................43 4.1.10 Reach 10 .......................................................................................................................................................45 4.1.10.1 Existing Conditions ..............................................................................................................45 4.1.10.2 Considerations and Options ............................................................................................45 4.1.10.3 Recommendations ...............................................................................................................45 4.1.11 Reach 11 .......................................................................................................................................................47 iii P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 4.1.11.1 Existing Conditions ..............................................................................................................47 4.1.11.2 Considerations and Options ............................................................................................47 4.1.11.3 Recommendations ...............................................................................................................48 4.1.12 Reach 12 .......................................................................................................................................................52 4.1.12.1 Existing Conditions ..............................................................................................................52 4.1.12.2 Considerations and Options ............................................................................................52 4.1.12.3 Recommendations ...............................................................................................................53 4.1.13 Reach 13 .......................................................................................................................................................57 4.1.13.1 Existing Conditions ..............................................................................................................57 4.1.13.2 Considerations and Options ............................................................................................57 4.1.13.3 Recommendations ...............................................................................................................57 4.1.14 Reach 14 .......................................................................................................................................................59 4.1.14.1 Existing Conditions ..............................................................................................................59 4.1.14.2 Considerations and Options ............................................................................................59 4.1.14.3 Recommendations ...............................................................................................................59 4.1.15 Reach 15 .......................................................................................................................................................61 4.1.15.1 Existing Conditions ..............................................................................................................61 4.1.15.2 Considerations and Options ............................................................................................61 4.1.15.3 Recommendations ...............................................................................................................61 4.2 Improved Stormwater Treatment .......................................................................................................................63 4.3 Regional Trail Construction ...................................................................................................................................63 4.4 Preliminary Plan Set .................................................................................................................................................63 5.0 Cost Estimate ...........................................................................................................................................................................64 6.0 Impacts Caused by the Project .........................................................................................................................................65 6.1 Easement Acquisition ..............................................................................................................................................65 6.2 Environmental Review and Permitting .............................................................................................................65 6.3 Other Impacts Caused by the Project ...............................................................................................................65 6.3.1 Wetland Impacts .......................................................................................................................................65 6.3.2 Tree Loss .......................................................................................................................................................66 6.3.3 Soils ................................................................................................................................................................66 6.4 Impacts to Archeological Features .....................................................................................................................66 iv P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx List of Tables Table 5-1 Engineer's opinion of probable cost--Summary of cost estimates by reach ............................64 Table 6-1 ARS Reach and erosion reach correlation ...............................................................................................67 List of Figures Figure 2-1 Study area watershed ........................................................................................................................................ 6 Figure 2-2 Existing land use .................................................................................................................................................. 7 Figure 2-3 Drainage patterns ............................................................................................................................................... 8 Figure 2-4 Creek crossings .................................................................................................................................................... 9 Figure 2-5 Historical channel locations Reaches 1-9 ................................................................................................10 Figure 2-6 Historical channel locations Reaches 10-15 ...........................................................................................11 Figure 2-7 Channel profile ...................................................................................................................................................12 Figure 3-1 Survey data, Reaches 1-9 ...............................................................................................................................16 Figure 3-2 Survey data, Reaches 10-15 ..........................................................................................................................17 Figure 3-3 Native plant community types .....................................................................................................................18 Figure 3-4 Vegetative community quality .....................................................................................................................19 Figure 4-1 Reach 1 Proposed Work .................................................................................................................................22 Figure 4-2 Reach 2 Proposed Work .................................................................................................................................24 Figure 4-3 Reach 3 Proposed Work .................................................................................................................................27 Figure 4-4A Reach 4 Proposed Work—Option A ..........................................................................................................30 Figure 4-4B Reach 4 Proposed Work—Option B ..........................................................................................................31 Figure 4-4C Reach 4 Proposed Work—Option C ..........................................................................................................32 Figure 4-5 Reach 5 Proposed Work .................................................................................................................................35 Figure 4-6 Reach 6 Proposed Work .................................................................................................................................37 Figure 4-7 Reach 7 Proposed Work .................................................................................................................................40 Figure 4-8 Reach 8 Proposed Work .................................................................................................................................42 Figure 4-9 Reach 9 Proposed Work .................................................................................................................................44 Figure 4-10 Reach 10 Proposed Work ..............................................................................................................................46 Figure 4-11A Reach 11 Proposed Work—Option A .......................................................................................................49 Figure 4 11B Reach 11 Proposed Work—Option B........................................................................................................50 Figure 4 11C Reach 11 Proposed Work—Option C .......................................................................................................51 Figure 4-12A Reach 12 Proposed Work—Option A .......................................................................................................54 v P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx Figure 4-12B Reach 12 Proposed Work—Option B........................................................................................................55 Figure 4-12C Reach 12 Proposed Work—Option C .......................................................................................................56 Figure 4-13 Reach 13 Proposed Work ..............................................................................................................................58 Figure 4-14 Reach 14 Proposed Work ..............................................................................................................................60 Figure 4-15 Reach 15 Proposed Work ..............................................................................................................................62 Figure 6-1 Proposed easement acquisition and affected properties .................................................................68 Figure 6-2 Delineated wetlands and wetland communities...................................................................................69 List of Appendices Appendix A Project Petition from City of Edina Appendix B Archeological Investigation Appendix C Typical Stream Restoration Practices Appendix D Detailed Cost Estimates by Reach Appendix E Affected Property Owners Appendix F Wetland Delineation and Functional Assessment Report Appendix G Wetland Permit Application (not included with this document) Appendix H Phase I Environmental Site Assessment (not included with this document) Appendix I Environmental Assessment Worksheet (EAW) for Nine Mile Creek Stabilization Project—Edina Appendix J Preliminary Plan Set vi P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx Certifications I hereby certify that this Report was prepared by me or under my direct supervision and that I am a duly Licensed Professional Engineer under the laws of the State of Minnesota. Bob Obermeyer BARR ENGINEERING CO. AUGUST 24, 2015 13303 Date: Reg. No. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 1 1.0 Introduction This report summarizes the proposed actions for improving the stability and water quality of the North Fork of Nine Mile Creek (North Fork) within the City of Edina. It is prepared in accordance with Section 103D.711 of the Minnesota Watershed Act and Section 103B of the Metropolitan Surface Water Management Act under the direction of the Board of Managers of the Nine Mile Creek Watershed District. Although the South Fork of Nine Mile Creek was reviewed, no actions are recommended at this time for that reach. The petition received from the City of Edina is included in Appendix A. 1.1 Background The Nine Mile Creek Watershed District (District) was established by the Minnesota Water Resources Board in 1959. Stormwater management within the urbanizing Nine Mile Creek watershed was guided initially by the District’s Overall Plan dated March 1961. That plan was revised by the District in April 1973, as prescribed by the Minnesota Water Board. The 1973 revised Overall Plan guided development in the District until it was further revised in May 1996 and again in 2006 (Water Management Plan), in accordance with the Metropolitan Surface Water Management Act and Watershed Law: Minnesota Statutes Chapters 103B and 103D, respectively. 1.2 Project Location The proposed improvement projects are located in the City of Edina, Minnesota. The North Fork of Nine Mile Creek enters the northwestern corner of the City of Edina at its boundary with Hopkins, represented by US Highway 169. The stream then proceeds in a southeasterly direction, crossing Trunk Highway (TH) 62 east of Gleason Road and crossing the boundary between Edina and Bloomington just west of TH 100. The total stream length in the study area is 29,930 feet (5.7 miles), of which 16,982 feet (3.2 miles) are included in 15 reaches for proposed improvements. The watershed area for this reach is approximately 8,640 acres (13.5 square miles), of which 5,750 acres (9.0 square miles) are within the City of Edina. The South Fork of Nine Mile Creek, which is located in the southwestern corner of the City of Edina, was included in the stream evaluation, but no work is proposed on that reach of the creek. 1.3 Summary of Problems 1.3.1 Stream Stability Channels in urban areas are often lacking many of the features that define stable channels, such as a defined floodplain and a stable, meandering pattern. Such channels have often been straightened over the years and their floodplains filled, resulting in higher velocities and shear stress during high flows. These channels tend to be eroded by fluvial bank erosion, which is exacerbated by higher stresses due to the confined nature of the channel. The subsequent erosion can be much more severe than for an equivalent channel in a non-urbanized setting. Similar to many other urban stream systems, the North Fork of Nine Mile Creek suffers from stream bank erosion. Based on a detailed site evaluation, the major erosion problems occurring in this portion of creek may be attributed to the historical realignment of the channel from a meandering shape to a straightened P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 2 channel, combined with increased runoff due to urbanization. Erosion problems tend to develop as the creek attempts to return to a more stable, meandering pattern. This evolution is occurring via bank slumping, formation of central bars which direct flow to one bank or the other, and channel widening. In some areas, the resulting cut banks are very high, likely reflecting some degree of downcutting (channel incision). 1.4 Project Objectives The objective of the project is to provide a stable creek channel and correct existing problems of stormwater discharge points into the creek. The creek has been listed as an “impaired water” by the Minnesota Pollution Control Agency (MPCA) for turbidity, chlorides, and biotic impairment. Having a stable stream will reduce internal sediment loading created by bank sloughing, channel downcutting and meandering, and will provide improved fish habitat. 1.5 Public Participation The Nine Mile Creek Watershed District has identified the importance of public involvement and seeks opportunities to incorporate public involvement into District projects. The District will work with stakeholders to review the project goals and objectives prior to accepting the Feasibility Report and ordering the Nine Mile Creek Stabilization Project in Edina. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 3 2.0 Site Characterization 2.1 Watershed Characteristics The study area includes the North Fork of Nine Mile Creek from east of the US Highway 169 crossing to the Edina-Bloomington border northwest of the interchange between TH 100 and Interstate Highway 494. The watershed of the North Fork at its downstream point in Edina is approximately 8,640 acres (13.5 square miles), and includes area from the cities of Hopkins, Minnetonka, and Edina (Figure 2-1). Approximately 5,750 acres (9.0 square miles), or two -thirds, of the watershed are within the City of Edina. 2.1.1 Land Use The contributing watershed to the North Fork has changed over time from a pre-settlement condition to agricultural land use, and then to urban land use. Currently, the watershed is almost entirely developed; with primarily commercial, residential, public, and open space/park land uses (see Figure 2-2). Native plant communities were inventoried in 2004 using the Minnesota Land Cover Classification System (MLCCS) as part of the Nine Mile Creek Use Attainability Analysis. During the summer of 1999, a wetland inventory was conducted within the City of Edina. The inventory consisted of field inspecting each wetland in the city and mapping the approximate wetland boundary in general accordance with the routine determination method as specified in the U.S. Army Corps of Engineers Wetlands Delineation Manual, 1987. The results of these investigations are discussed in Sections 3.5 and 6.3. 2.1.2 Drainage Patterns Drainage is primarily conveyed to the creek system through a complex network of storm sewer systems. Figure 2-3 shows the trunk storm sewer network, with the drainage areas color-coded to identify the areas that drain to each portion of the creek. 2.1.3 Topography The topography within the study area is relatively flat, with some rolling hills on the outskirts of the watershed area. There is an elevation difference of approximately 54 feet from downstream of the US Highway 169 crossing to the Edina-Bloomington boundary. 2.1.4 Soil Types The soils within the study area watershed are predominantly hydrologic soil group B (moderate infiltration capacity); large areas along the creek system and adjacent wetland areas have type D soils (poor infiltration capacity). 2.2 Stream Characteristics The North Fork, as it flows through the northern portion of the study area, has features very common to urbanized streams, such as straightened flow patterns, a narrow corridor, and concentration of flow due to numerous road crossings (shown in Figure 2-4). The following is a more detailed summary of the channel geometry, historical channel alignment, and the stream profile P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 4 2.2.1 Channel Geometry The channel geometry of most streams is influenced by several factors. Channel slope, bed material, bank material, and riparian vegetation are factors that are directly related to the stream and have significant influence over channel geometry. Similarly, several hydrologic factors have significant influence as well since they will control how much water enters the stream. These factors include the amount of rainfall, the intensity of rainfall, watershed slopes, storage, infiltration capacity, impervious area, and land use within the watershed. All of these factors can change over time or change along the length of the stream, so the stream is constantly evolving to achieve equilibrium with these changing influences. Natural processes of change, such as changing weather patterns or changing vegetation communities, typically happen at a gradual rate such that the stream geometry has ample time to adjust to influential factors. Even with these slow processes, however, it is possible for a stream to undergo significant changes and have correspondingly large erosion problems. This can be caused either by catastrophic events or by the stream channel and/or valley reaching a point where a major adjustment is necessary. Man-made processes of change, such as increased development, stream crossings, altering of storage areas, and changing drainage patterns, tend to happen too quickly for the stream to fully adjust to. Even though greater measures are being taken to protect streams through the use of detention ponds and other best management practices within the watershed, streams still undergo a certain amount of adjustment to achieve equilibrium with their watersheds. The channel geometry of the North Fork of Nine Mile Creek varies as it flows through Edina, reflecting the influence of some of the factors listed above. Between TH 62 and Tracy Avenue, the creek has several sections of modest confinement due to development. In some of these reaches the creek passes through wetlands; in others it is bordered on one bank or the other by public land, such as a park. Where these areas border the creek, they are less confining than high development densities on both creek banks, but there are still constricting features commonly present, such as bridges or mixed-use trails. In these sections the creek banks tend to vary in height between two and 4 feet, and floodplain access is usually restricted to the less developed bank, if it exists. A hydraulic model indicated high velocities occur approximately 150 feet downstream of Gleason Road, where they are greater than 8 ft/sec (feet per second) in the 100-year return period storm event. Nearby sections have flow velocities ranging between 3.5 and 6 ft/sec for the 100-year return period storm event. These velocities are reduced in Bredesen Park, where most sections have velocities less than 2 ft/sec. Downstream of Tracy Avenue, Nine Mile Creek experiences greater confinement due to residential and commercial development. In these areas, fill has likely been placed adjacent to the creek to accommodate the development. Thus, the creek is relatively straight with steep, tall banks. Flood flows that would overtop a more natural stream’s banks are confined by the artificially high banks, leading to high flow velocities and erosion rates. The highest velocity in the 100-year return period flow event model occurs in this section. Downstream of the Brook Drive culvert the velocity is modeled at greater than 9.5 ft/sec. Maximum velocities in this area range from 4 to 6 ft/sec in the 100-year return period flow event. To accommodate such high velocities, much of the stream bank in these reaches has been armored with rock in the past. Riprap is still used by some residential and commercial landowners. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 5 The channel has been straightened between West 70th Street and the Edina-Bloomington boundary, retaining little of its natural meander pattern. This straightening has also steepened the channel slope, which, like confinement, tends to increase the velocity of flood flows. The bank vegetation, which is dominated by reed canary grass, is inadequate to protect the banks in this reach from erosion. Modeled velocities in this section range from 0.5 to 6 ft/sec, with most sections having velocities ranging between 2 and 4 ft/sec. 2.2.2 Historical Channel Alignment A qualitative analysis of the historic channel alignment was completed using historic aerial photographs for entire study area. Aerial photography is available for years 1937, 1947, 1957, 1969, 1979, and 1984, in addition to the current stream centerline from 2010. The stream alignment was digitized in a Geographical Information System (GIS) based on these aerial photos. The upstream study reaches (Reaches 1-9) are shown in Figure 2-5, while the downstream study reaches (Reaches 10-15) are shown in Figure 2-6. The key findings of the qualitative analysis are detailed below. The reach between Londonderry Road and Vernon Avenue has been allowed to move naturally across an existing wetland for the past 70 years. In the 1930s the lower end was ditched for agricultural purposes, but due to the presence of Walnut Ridge Park some of its meander patterns have been re- established. The creek downstream of Vernon Avenue to TH 62 has been confined by the presence of Gleason Road, houses along Killarney Lane and a mixed-use trail which leads to Bredesen Park. In past years the creek was somewhat more sinuous in this reach than it is currently. Much of the natural channel pattern is restored within the park, until the stream is again straightened in order to cross TH 62. The effects of this artificial straightening extend well downstream of the highway; natural channel patterns do not appear again until a distance more than 600 feet downstream of TH 62. From Tracy Avenue to West 70th Street, Nine Mile Creek is very confined on both sides by residential development. Most of this development occurred between 1957 and 1969. Despite reductions in the size of the unobstructed floodplain, the stream has been able to maintain a highly sinuous meander pattern. The reach with the highest degree of straightening is from West 70th Street to the Edina-Bloomington boundary. This straightening predates the earliest available aerial photography. This reach had been partially ditched in the 1947 aerial photos, but certain sections (such as the one extending from the present day Metro Boulevard almost to Industrial Drive) appear to be almost completely straightened in the 1937 photos. 2.2.3 Stream Profile The creek profile is generally mild through the project reach, as shown in Figure 2-7. From Tracy Avenue to the Edina-Bloomington boundary the average slope is about 0.23 percent. From Vernon Avenue to TH 62 the slope is steeper, about 0.35 percent. The farthest upstream reach, from US Highway 169 to Vernon Avenue, has the most gradual slope, averaging 0.16 percent. South BranchNineMile Creek Nort hBr a n ch Nine MileCreek Edina Eden Prairie Minnetonka Bloomington Hopkins Minneapolis Saint Louis Park Richfield §¨¦494 §¨¦494 §¨¦494 £¤212 £¤169 £¤912C £¤212 £¤169 £¤912C 100 62 5 7 7 62 7 100 100 456762 456728 456761 456760 45673 456739 456717 456753 45675 456734 456731 4567158 456732 45674 456720 456773 456721 Baker Rd Xerxes Ave SW 84th St W 50th St Gle a s o n R d France Ave SValley View Rd Mitchell Rd R o w l a n d R d Main St Townline Rd Shady Oak Rd W 78th St 11th Ave SOrchard Rd Flying Cloud Dr W 66th St W 60th St W 58th St Tracy Ave W 44th St Blake Rd Highland Rd Edenval e Bl v d Williston Rd W 70th St E Bush Lake Rd Interlachen Blvd Walker St Cahill Rd Upton Ave SPenn Ave SWoodhill Rd Hansen Rd Dominick Dr A n d e r s o n L a k e s P k w y Mccauley Tr 5th Ave NW 39th St Benton Ave 2nd St NE Excelsior Bl v d Prairie Center Dr York Ave SW 86th St Oxford St Metro Blvd Olinger Blvd Dewy Hill Rd Bren Rd W 77th St Bryant Lake Dr Woodale Ave Roberts Dr Bren Rd W Maloney Ave 17th Ave NSmetana Rd W 76th St Martin Dr Technology Dr Whited Ave 68th St W 80th St Scenic Heights Rd W 65th St Vernon Ave W 54th St 12th Ave NWooddale Ave Braemer Blvd Highwood Dr 5th St S W Bush Lake Rd Blake Rd NW American Blvd Jorissen Rd Concord Ave Sheridan Ave SFairview Ave W 38th St W 36th St W 62nd St Quent in Ave SBrookside Ave Eden Ave Parklawn Ave Lake St Oakridge Rd Bush Lake Rd Li n c o l n D r W 82nd St 17th Ave SWood Hill Rd Minnesota Dr Preserve Blvd Valleyview Rd Southview La Meadowbrook Rd W 51st S t Picture Dr Penn Ave STechnology Dr Lake St W 54th St W 78th St W 36th St Pr a i r i e C e n t e r D r Blake Rd Upton Ave STownline Rd W 44th St France Ave SLake St Valley View Rd Shad y O a k R d Highwood Dr W 78t h S t Xerxes Ave S5th St S W 70th St Xerxes Ave SValley View Rd !;N Barr Footer: ArcGIS 10.0, 2011-10-18 10:15:22.700000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Fig 01 Site Location.mxd User: kac22,500 0 2,500 Feet Figure 2-1 STUDY AREA WATERSHEDNine Mile CreekRestoration Project Edina, MN Edina Legend Nine Mile Creek North Branch Watersheds South Branch Watersheds Municipal Boundary City of Edina Boundary Interstate Highway US Highway; State Trunk Highway County State-Aid Highway £¤169 £¤212 62 4567158 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-11-02 15:51:01.004000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Fig03 Existing Land Use.mxd User: kac2GrasslandHigh density developmentMedium density development WaterWetlandWoodlandErosion reachesNorth Branch Nine Mile Creek City of Edina Boundary §¨¦494 §¨¦494 62 100 456734456728 129 1387 14101511 Figure 2-2 EXISTING LAND USENine Mile CreekRestoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet £¤169 £¤212 62 4567158 Mud Lake Nine Mile North of 62 Nine Mile South of 62 Arrowhead Lake Mirror Lake Hawkes Lake Indian Head Lake Nine MileSouth Branch Colonial ponds Pawnee pond Indian pond Nine Mile South Branch HighlandsLake Braemar Ditch InflowfromEdenPrairie 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-10-31 10:38:07.053000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Basemaps\Land_use.mxd User: kac2Flow Direction Pipe Size Box Culverts <1 ft 1-2 ft 2-3 ft 3-4 ft 4-5 ft 5-6 ft >6 ft Erosion reaches North Branch Nine Mile Creek City of Edina Boundary Nine MileSouth of 70th §¨¦494 §¨¦494 62 100 456734456728 Nine MileSouth of 62 SW Ponds Nine MileSouth of 70th North Cornelia Lake Edina Colonial ponds SouthCornelia SouthPond Nine MileSouth of 494 129 1387 14101511 Figure 2-3 DRAINAGE PATTERNS Nine Mile Creek Restoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet !( !( !( !( !( £¤169 £¤212 62 4567158 Old Vernon - Concrete Box Culvert, 8.5' x 14' Duncan Lane Bridge - Single Span Steel Bridge Gleason Road Culvert - Concrete Arch, 12' Span Vernon Avenue Culvert - Concrete Arch, 7.25' Span Highway 62 Culvert - Concrete Box, 6' x 7.66' Span 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-11-08 15:05:05.172000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Fig07 Creek Crossings.mxd User: kac2!(Creek Crossings Erosion reaches North Branch Nine Mile Creek City of Edina Boundary !(!( !( !( !( !( !( !( !( §¨¦494 §¨¦494 62 100 456734456728 129 13 7 108141511 70th Street Culvert - Concrete Arch, 8' Span Railroad Culvert - Concrete Ellipse, 7' Span 72nd Street Bridge - Single Span Steel Bridge Tracy Avenue Culvert - Concrete Arch, 8' Span Metro Boulevard Culvert - 2 Concrete Arches, 7.25' Span Industrial Boulevard Culvert - Concrete Box, 8' x 8' Span Brook Drive Culvert - 2 Concrete Culverts, 4' and 4.5' Diameter Valley View Road Culverts - Concrete Box, 10' x 7' Span Highway 100/Industrial Boulevard Ramps Culvert - Concrete Arch, 9' Span Figure 2-4 CREEK CROSSINGS Nine Mile Creek Restoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet Barr Footer: ArcGIS 10.0, 2011-11-23 11:48 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Fig08A Historic Channels.mxd User: kac27 3 2 91 5 6 84 1054 £¤169 £¤212 £¤169 £¤212 62 62 4567158 Tracy Ave Vernon A v e Gleason Rd Hansen Rd Olinger Blvd View La Mccauley Tr Brook Dr 68th St Indian Hills Rd W 68th St Dakota Tr Schaefer Rd Mccauley Tr W Sally La Valley La Grove St Crescent Dr Hillside La Arbour Ave West Tr Walnut Dr Limerick La Washington Ave Olinger Rd Valleyvie w R d Lime r i c k D r Jeff Pl Galway Dr C h e y e n n e T r Cahill Rd Tamarac Ave Sun Rd Amy Dr Killarney La Benton Ave Iroquois Tr Nordic Dr Mohawk Tr Chapel Dr Warden Ave Johnson Dr Gleason Ct Highland Rd Biscayne Blvd W 66th St Creek Valley Rd Indian Hills Pass Westridge Blvd Countryside Rd Vernon Ct Scandia Rd W 61st St Sioux Tr Arctic Way Wycliffe Rd Susan Ave Lois La Parkwood La Merhold Dr Valley View Rd Colonial Way Cre e k D r Cherokee T r Timber Rdg Langford Dr Antrim Rd Londonderry Dr Samuel Rd Chapel La Paiute D r N a v a h o T r Mc In tyre Ct Erin Ter Blake Rd Hunter St Balder La Timber Tr WApache Rd Hillside Ct Hillside Rd Post La Shane Dr Nordic Cir Eden Pr airi e R d Linco ln Dr St Patricks La Arbour La Cahill L a Grace Ter Duncan La Aspen Rd Rosemary La Stuart Ave Crest La W 64th St Whiting Ave Sher m a n C i r P o l a r C i r Olinger Cir Gl ac ie r P l Black Foot Pass Schaefer Ci r Habitat Ct Iroquois Cir Grove Cir Hawkes Dr Margarets La Oak La Saint Alb a n s C i r Brendan C t Garden Ave Gleason Ter D o r o n D r Arrowhead Pass Berne Cir Scandia C t W 64th St Creek Valley Rd Limerick L a Valley View Rd Tracy Ave Grove St Benton Ave Biscayne Blvd Figure 2-5 HISTORIC CHANNEL LOCATIONS REACHES 1-9Nine Mile CreekRestoration Project Edina, MN 800 0 800400 Feet 1937 Channel Centerline 1947 Channel Centerline 1957 Channel Centerline 1969 Channel Centerline 1979 Channel Centerline 1984 Channel Centerline North Branch Nine Mile Creek (Current Alignment) City of Edina Boundary !;N Barr Footer: ArcGIS 10.0, 2011-11-23 12:02 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Fig08B Historic Channels.mxd User: kac2129 13 14101511 100 100 456728 456728 W 70th St W 66th St Cahill Rd West Shore Dr Metro Blvd Wooddale Ave Brook Dr Dewy Hill Rd W 77th St Tracy Ave W 68th St Service Rd Hillside La Hibiscus Ave Da n e n s D r O h m s L a Limerick La Dunberry L a Lanham La W Bush Lake Rd Antrim Rd W 78th St Tifton D r W 74th St De l a n e y B l v d Brittany Rd Ridgeview Dr W 76th St Galway Dr 68th St Gilford Dr Point Dr Edina Industrial Blvd M e a d o w R d g Creston Rd Long Brake Tr Aberc r o m b i e D r Valley View Rd Trill i u m L a Upp e r T e r Mcguire Rd Normandale Rd Fleetwood Dr Sou thc res t D r Everett Pl Erin Ter Picture Dr Chapel Dr Larkspur La Fondell D r Viking Dr Kemrich Dr Du g g a n P l z Schey Dr Wilf o r d W a y State Highway 100 Ser Rd Creek Valley Rd Susan Ave Hyde Pa r k D r Lois La Lee Valley Rd Ellswo r t h D r Kellog Ave Aspasia La Gleason Rd Dunha m D r Sedum La Kellogg Ave Laguna Dr R a b u n D r Naomi Dr Dewey Hill Rd W 73rd St Shannon Dr Limerick Dr Shane Dr Poppy La D o w n R d Tralee Dr Andover Rd Beltline Hwy Belvidere La Clare m o r e D r Roycar Rd W 69th St Amundson Ave Antrim Ct Knob H i l l D r Monardo La Computer Ave Marth Ct Cahill L a W 72nd St Aspasia Cir Claredon Dr Cecilia C ir Warren Ave Village Dr Dublin C i r Tara Rd Church Pl Weston Cir Judson La Harvey La Lochmere Ter Creek View La Kenny Pl Tanglewood Ct Clare m o r e C t Phlox La Shaughnessy Rd Shannon Cir Long Brake Cir Circle Dr Hyde Park Cir Gleason Rd Shannon Dr W 66th St W 7 8 t h S t Cahill Rd W 78th St Dunha m D r W 69th St Figure 2-6 HISTORIC CHANNEL LOCATIONS REACHES 10-15Nine Mile CreekRestoration Project Edina, MN 800 0 800400 Feet 1937 Channel Centerline 1947 Channel Centerline 1957 Channel Centerline 1969 Channel Centerline 1979 Channel Centerline 1984 Channel Centerline North Branch Nine Mile Creek (Current Alignment) City of Edina Boundary !;N Figure 2-7 Channel Profile 2 year (bankfull), 10 year, and 100 year water surfaces also shown 0 5000 10000 15000 20000 25000 30000780 790 800 810 820 830 840 850 860 870 880 Main Channel Distance (ft)Elevation (ft)Legend WS 100-yr WS 10-yr WS 2-yr Ground Reach 15Industrial DriveHwy 100 <-> Industrial Blvd RampsReach 14Metro BoulevardReach 1370th StreetReach 12Railroad CrossingReach 11Reach 10Reach 9Reach 8Valley ViewReach 7Reach 6Hwy 62Reach 5Reach 4GleasonVernon AveReach 3Reach 2Reach 1NineMileCrk North Branch P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 13 3.0 Site Evaluation 3.1 Detailed Field Survey Detailed field surveys were completed for portions of the study area where bank erosion was noticeable in order to (1) characterize the channel geometries and slopes of the existing creek; and (2) to evaluate alternatives for proposed stream improvements. The survey data that was collected in 2011 and 2013 is summarized in Figures 3-1 and 3-2. Field visits without detailed survey were also completed to evaluate the stability of each creek segment and identify remedial measures. 3.2 Hydrologic/Hydraulic Modeling for Creek Modifications Hydrologic and hydraulic models were used to estimate water surface elevations and velocities in the creek under existing conditions for a range of flows. Most design considerations are based on the 1- to 2-year return period flow event, which are flood frequencies often used to predict ‘bankfull’ flow conditions. Bankfull flow is also commonly referred to as the “channel forming flow.” The shape, pattern, and profile of a stream channel are intimately related to the bankfull discharge. When the stream is in equilibrium with its environment, the shape, pattern and profile are such that the stream can convey the bankfull discharge without significant change in those parameters. With increased impervious surface area due to urbanization, the frequency of bankfull discharge increases. It is also important for the design of stream stabilization improvements to consider the flow regime during events larger than a bankfull event to gain a complete understanding of the range of flow conditions that may be present in the stream. The hydrologic and hydraulic models are also used as a tool to design the proposed stream improvements. The modeling analyses are described in further detail below. 3.2.1 Nine Mile Creek XP-SWMM Model A hydrologic/hydraulic model was developed by Barr Engineering Company (Barr) for the entire Nine Mile Creek watershed in 2004-2005 using XP-SWMM. This is a numerical model based on the U.S. Environmental Protection Agency (USEPA)’s Storm Water Management Model (SWMM). This model allows simultaneous, continuous (non-steady state) hydraulic and hydrologic modeling, using climate data as input to generate runoff flows. The XP-SWMM model of Nine Mile Creek covers the entire creek watershed (approximately 50 square miles) and is subdivided into more than 3,000 subwatersheds. The XP-SWMM model was used to predict flows in the North Fork for the 2-year frequency, 24-hour design event. The XP-SWMM model was originally developed to simulate large storm events (10-, 50-, 100-, and 500-year return periods), consistent with the Federal Emergency Management Agency (FEMA) flood insurance program. Consequently, the level of detail in the existing XP-SWMM model for portions of the North Fork was insufficient to predict the hydrologic impacts of stream improvements within the study area. Therefore, the predicted flows for the 2-year frequency, 24-hour event were used as steady- state flow inputs for the existing conditions Hydrologic Engineering Centers River Analysis System (HEC-RAS) model. This provides for more detailed hydraulic analysis and was used as a basis for the design of the proposed channel modifications. In order to study a wider range of flows and velocities, the P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 14 HEC-RAS model also simulated conditions for the four standard FEMA return period flow events (10-year, 50-year, 100-year and 500-year) as calculated by the XP-SWMM model. 3.2.2 Edina Stream Improvements HEC-RAS Models A steady-state hydraulic model was created for the study area using HEC-RAS, a hydraulic model developed by the U.S. Army Corps of Engineers (USACE). HEC-RAS pairs unsteady or steady flow data with channel and floodplain geometry (in the form of two-dimensional (2-D) cross sections) to estimate water surface elevations, flow velocities, and other hydraulic parameters. The HEC-RAS model for Nine Mile Creek within the City of Edina modeled the current existing conditions in order to determine which areas were most at risk of erosion. It contained cross sections from the XP-SWMM model as well as additional cross sections from the field survey. As mentioned in Section 3.2.1, flow rates from the XP-SWMM model were used as steady-state inputs for the HEC-RAS model, the most important of these being the 2-year return period flow event. This was selected as the best approximation to bankfull, or channel forming conditions. No stormwater inputs or other flow changes were included in this model. The 2-year, 24-hour storm event was modeled at a rate of 433 cubic feet per second (cfs) for the entire length of the reach. The existing conditions model indicated that the creek overtops its banks in a 2-year return period flow event in wetland areas such as Reach 2 (large wetland area just east of US Highway 169), Bredesen Park, and the wetlands north of the Edina High School near Site 7. Consequently, additional model runs using standard flood frequencies were performed to examine a wider range of hydraulic conditions that may occur in this reach, including the 10-year (549 cfs), 50-year (598 cfs), 100-year (659 cfs) and 500-year (732 cfs) return period flow events. All flow rates for standard flood frequencies were obtained from the Nine Mile Creek XP-SWMM model. The recommended channel stabilization measures for this reach were designed based on the 2-year return period flow event modeling results. The height of channel armoring generally coincides with the 2-year return period flow event elevation. Stream bank stabilization above this elevation will generally consist of grading and revegetation using native plants. 3.3 Archeological Investigation During the summer of 2011, Archaeological Research Services (ARS) conducted an archaeological survey along the City of Edina segment of Nine Mile Creek in Hennepin County, Minnesota. The investigation is part of this feasibility study. As the implementation of these efforts involve public land and funding as well as federal permitting of wetland impacts, the project proposers are anticipating that both the State Historic Preservation Office (SHPO) and the Office of the State Archaeologist (OSA) will request an archaeological review of the project route. Consequently, a records and literature search and preliminary field assessment were incorporated into this feasibility study (included as Appendix B). ARS completed a field inspection during the week of July 25, 2011, following records and literature searches at SHPO and OSA. Maps of the project location are included in Appendix B. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 15 Aerial photographs dating back to the 1930s through 1950s show that much of the study area was a rural patchwork of farmed uplands and extensive wetlands. The photos also indicate that many segments of the North Fork channel had already been narrowed, straightened and realigned—a process which later intensified to accommodate residential and industrial development. Older photographs and topographic maps of the then less urbanized segments of the Nine Mile Creek drainage, indicate a much different historic appearance, i.e. that of a naturally meandering stream within a wide and often marshy floodplain. Visual inspection of existing erosion exposure provided enough survey coverage to conclude that none of the bank segments prioritized for stabilization features any archaeological evidence. 3.4 Riparian Vegetation Survey Barr conducted an inventory of plant communities and a bird habitat evaluation of the Nine Mile Creek riparian corridor (‘the corridor’) during the summer of 2003. The objective of the 2003 Minnesota Land Cover Classification System (MLCCS)-based plant community inventory was to provide a geographical information system (GIS) map and database of plant community types, location, and quality. The 2003 data were collected in order to compare 2003 results with the previous 1998 inventory, and to update the classification system to the MLCCS. Another objective was to identify high quality plant communities for preservation. In the summer of 2011 previous vegetation survey results were reassessed through a desktop review of the existing land cover mapping from 2003 and with site visits to confirm the relevance of the prior data. The 2011 review confirmed that most of the plant community information collected in 2003 remained valid. In many cases the only change has been an increase in the percent cover and density of the invasive species present along the corridor. Figures 3-3 and 3-4 provide an overview of the native plant community types along the stream corridor, and the vegetative community quality based upon the percent invasive species cover. High invasive species cover is indicative of degraded ecological quality as invasive species replace the native species cover and thus reduce the habitat quality. Barr Footer: ArcGIS 10.0, 2011-11-23 12:02 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Fig08B Historic Channels.mxd User: kac2!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !( !(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!( !(!( !( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!( !( !(!(!(!(!(!(!(!(!(!(!(!( !( !( !(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !( !( !( !( !(!(!(!(!(!(!(!(!( !(!(!( !(!(!(!(!( 732 91 5 6 84 1054 £¤169 £¤212 £¤169 £¤212 62 62 4567158 Vernon A v e Gleason Rd View La Olinger Blvd 68th St Mccauley Tr Schaefer Rd Indian Hills Rd W 68th St Hansen Rd Mccauley Tr W Valley La Dakota Tr Grove St Crescent Dr Arbour Ave Washington Ave West Tr Dovre Dr Walnut Dr Olinger Rd Sally La Valleyvie w R d Lime r i c k D r Jeff Pl Benton Ave Johnson Dr Warden Ave Hillside La Galway Dr Tracy Ave Limerick La Cahill Rd Blake Rd Tamarac Ave Sun Rd Amy Dr Killarney La Iroquois Tr Nordic Dr Mohawk Tr Linco ln Dr Gleason Ct Londonderry Dr C h e y e n n e T r Highland Rd Chapel Dr Parkwood La Biscayne Blvd W 66th St Creek Valley Rd Indian Hills Pass Kaymar Dr Westridge Blvd Countryside Rd Vernon Ct Scandia Rd Eden Pr airi e R d W 61st St W y c l i f f e R d Sioux Tr Arctic Way Langford Dr Susan Ave Lois La Merhold Dr Colonial Way Cr e e k D r Cherokee Tr Timber Rdg Samuel Rd N a v a h o T r Mc In tyre C t Stauder Cir S Knoll Dr De Ville Dr Hunter St Balder La Timber Tr WApache Rd Hillside Ct Hillside Rd Post La Nordic Cir Hawkes Dr Newport Dr Camelback Dr Arbour La Cahill L a Continental Dr Grace Ter Duncan La Aspen Rd Rosemary La Stuart Ave Crest La Sher m a n C i r P o l a r C i r Olinger Cir Gl a c i e r P l Black Foot Pass Schaefer Ci r Habitat Ct Valley View Rd Ridge Park Rd Iroquois Cir Hawkes Ter W 64th St Lyle Cir Grove Cir Margarets La Oak La Saint Alb a n s C i r Brendan Ct Garden Ave Gleason Ter D o r o n D r Arrowhead Pass Berne Cir Scandia C t Grove St Biscayne Blvd Limerick L a Creek Valley Rd Benton Ave Tracy Ave Hansen Rd Figure 3-1 SURVEY DATA REACHES 1-9Nine Mile CreekRestoration Project Edina, MN 800 0 800400 Feet !(2011 Survey Points 2011 Cross Sections North Branch Nine Mile Creek City of Edina Boundary !;N Barr Footer: ArcGIS 10.0, 2011-11-23 12:02 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Fig08B Historic Channels.mxd User: kac2!(!(!(!(!(!(!(!(!(!(!( !(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!( !( !(!(!(!( !( !(!(!(!(!(!(!( !( !(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!( !(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !( !( !(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!(!( !(!(!(!( !(!( !(!(!( !(!(!( !(!(!(!(!( 129 13 14101511 100 100 456728 456728 W 70th St W 66th St Cahill Rd West Shore Dr Metro Blvd Wooddale Ave Brook Dr Dewy Hill Rd W 77th St Tracy Ave W 68th St Service Rd Hillside La Hibiscus Ave Da n e n s D r O h m s L a Limerick La Dunberry L a Lanham La W Bush Lake Rd Antrim Rd W 78th St Tifton D r W 74th St De l a n e y B l v d Brittany Rd Ridgeview Dr W 76th St Galway Dr 68th St Gilford Dr Point Dr Edina Industrial Blvd M e a d o w R d g Creston Rd Long Brake Tr Aberc r o m b i e D r Valley View Rd Trill i u m L a Upp e r T e r Mcguire Rd Normandale Rd Fleetwood Dr Sou thc res t D r Everett Pl Erin Ter Picture Dr Chapel Dr Larkspur La Fondell D r Viking Dr Kemrich Dr Du g g a n P l z Schey Dr Wilf o r d W a y State Highway 100 Ser Rd Creek Valley Rd Susan Ave Hyde Pa r k D r Lois La Lee Valley Rd Ellswo r t h D r Kellog Ave Aspasia La Gleason Rd Dunha m D r Sedum La Kellogg Ave Laguna Dr R a b u n D r Naomi Dr Dewey Hill Rd W 73rd St Shannon Dr Limerick Dr Shane Dr Poppy La D o w n R d Tralee Dr Andover Rd Beltline Hwy Belvidere La Clare m o r e D r Roycar Rd W 69th St Amundson Ave Antrim Ct Knob H i l l D r Monardo La Computer Ave Marth Ct Cahill L a W 72nd St Aspasia Cir Claredon Dr Cecilia C ir Warren Ave Village Dr Dublin C i r Tara Rd Church Pl Weston Cir Judson La Harvey La Lochmere Ter Creek View La Kenny Pl Tanglewood Ct Clare m o r e C t Phlox La Shaughnessy Rd Shannon Cir Long Brake Cir Circle Dr Hyde Park Cir Gleason Rd Shannon Dr W 66th St W 7 8 t h S t Cahill Rd W 78th St Dunha m D r W 69th St Figure 3-2 SURVEY DATA REACHES 10-15Nine Mile CreekRestoration Project Edina, MN 800 0 800400 Feet !(2011 Survey Points 2011 Survey Cross Sections North Branch Nine Mile Creek City of Edina Boundary !;N £¤169 £¤212 62 4567158 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-10-31 10:38:07.053000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Basemaps\Land_use.mxd User: kac2Grassland Forest Box Elder Forest Shrubland Wetlands Open Water Erosion reaches North Branch Nine Mile Creek City of Edina Boundary §¨¦494 §¨¦494 62 100 456734456728 129 1387 14101511 Figure 3-3 NATIVE PLANT COMMUNITY TYPES Nine Mile Creek Restoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet £¤169 £¤212 62 4567158 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-11-03 12:49:02.228000 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Fig06 Percent Invasive Species Coverage.mxd User: kac2Vegetation Community Quality 0-20% Invasive Species 20-40% Invasive Species 40-60% Invasive Species 60-80% Invasive Species 80-100% Invasive Species Erosion reaches North Branch Nine Mile Creek City of Edina Boundary §¨¦494 §¨¦494 62 100 456734456728 129 1387 14101511 Figure 3-4 VEGETATIVE COMMUNITY QUALITY Nine Mile Creek Restoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 20 4.0 Proposed Improvements 4.1 Stream Stabilization Similar to many other urban stream systems, the North Fork of Nine Mile Creek suffers from stream bank erosion. Based on a detailed site evaluation, the major erosion problems occurring in this portion of creek may be attributed to the historical realignment of the channel from a meandering pattern to a straightened channel, combined with increased runoff due to urbanization. Erosion issues tend to develop as the creek attempts to return to a more stable, meandering pattern. This evolution is occurring via bank slumping, formation of central bars which direct flow toward one bank or the other, and channel widening. In some areas, the resulting cut banks are very high, likely reflecting some degree of downcutting (channel incision). The proposed stream stabilization improvements for segments of the North Fork within the City of Edina are summarized in Figures 4-1 to 4-15. Realignment of the channel to a more stable, meandering pattern is proposed for two reaches of the study area. In most of the remaining reaches- where realignment is not possible - reshaping of the channel banks to flatter slopes and revegetation of the banks are recommended. Stabilization of the channel toe and grade control will be necessary in some locations. Recommendations for one reach consist only of vegetation improvement to improve bank stability, including the planting of native prairie grasses and removal of existing invasive species. Schematics of these stream stabilization practices are contained in Appendix C. The recommended improvements for each reach are summarized below. 4.1.1 Reach 1 4.1.1.1 Existing Conditions Reach 1 begins at US Highway 169 and extends to approximately 240 feet downstream of Londonderry Road. This reach generally has stable banks upstream of Dovre Drive and no work is proposed. The reach has some erosion issues beginning approximately 260 feet downstream from Dovre Drive to approximately 240 feet downstream of Londonderry Road, for a total erosion reach length of 650 feet. The existing side slopes of the creek are visibly eroded, suggesting that the erosion reach is downcutting. A storm sewer outlet invert that is perched approximately 2 feet from the current normal water level also supports this observation. The bottom width of the channel varies within the reach between 15 and 20 feet. The channel is bordered on the east by residential development and on the west by a small wooded area and Lincoln Drive. The tree canopy through Reach 1 is dominated by second growth forest composed of silver maple, elm, green ash, cottonwood, basswood, box elder, and buckthorn. The closed canopy and dominance of box elder and buckthorn has greatly reduced the ground layer cover, resulting in large areas of exposed soil. Historical aerial photos show that this channel has essentially remained in its current location since 1937. 4.1.1.2 Considerations and Options As previously mentioned, the residential area and the wooded area pose significant limitations on feasible options to consider at this site. The wooded area on the west side of the stream is along a fairly tall bank P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 21 ranging between 4 to 7 feet high. Grading in that area will require the removal of dozens of trees and a significant volume of soil. On the east side there are some buildings in the residential area quite close to the creek’s bank. Also, the low-floor elevations of some residences are similar to the top of bank elevation; therefore it is important to ensure that any measures within this reach do not raise flood levels and impact nearby residences. Since the channel in this reach is incised, the ideal solution would be to reconnect the stream with the floodplain such that the stream spills out of its banks and onto the floodplain every 1 to 2 years. This could be done by raising the stream bed with constructed riffles, excavating a new lower floodplain, or a combination of the two. The proximity of the nearby residences prevents the excavation of a new floodplain. Other options for this reach include measures that would stabilize the outside bank and prevent additional downcutting. This can be accomplished by installing boulder cross- vanes that will provide grade control while directing flow away from the banks. The outside bank can be further stabilized by installing riprap, rock vanes, and/or root wads. Rock vanes and root wads will require bank disturbance for installation but will result in a more natural appearance. Riprap toe protection can be installed with or without additional bank grading. 4.1.1.3 Recommendations Recommendations for addressing erosion problems in Reach 1 include installing riprap toe protection along the outside bank of the creek meander, installing two cross-vanes to stabilize the stream profile and prevent downcutting, constructing three root wads for bank protection, and using vegetation management to remove undesirable and invasive species. Along the east bank, ornamental plants installed at the nearby residences should be replaced with selected riparian species appropriate for the setting that provide bank stabilizing root systems and maintain the natural aesthetics. Rock vanes or root wads are feasible at this site for stabilizing the outside bend, but use of field stone riprap is recommended at this site to minimize bank disturbance. Linco ln D r Vernon Ave Londonderry Rd 1 Barr Footer: ArcGIS 10.2.2, 2014-10-01 12:57 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: jrv!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 110 0 11055 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Root Wads Riprap Bank Grading 4-1 1 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 23 4.1.2 Reach 2 4.1.2.1 Existing Conditions Reach 2 begins approximately 240 feet downstream of the Londonderry Road crossing of the creek and extends a distance of approximately 1,500 feet downstream to upstream of the pedestrian bridge at the end of Tamarac Avenue. This reach meanders through an existing wetland, having a very large floodplain that is mostly free from surrounding development. However, the reach slope appears to be steepening over time, as shown by the steep side banks and frequent bank sloughing. The stream is very narrow in this reach, with a channel width between 5 and 10 feet in most areas. Bank vegetation is dominated by reed canary grass. 4.1.2.2 Considerations and Options The channel is incised. As with Reach 1, it would be ideal to reconnect Reach 2 to the floodplain. In addition to the options that were described in Section 4.1.1.3, the expansive floodplain in this reach would make it possible to excavate a new, stable channel with appropriate geometry and meander pattern through the floodplain. The creek could be re-directed into the new channel once vegetation becomes adequately established. This would direct the stream channel away from two nearby homes. Preliminary discussions with the homeowners, however, indicated that they prefer to have the creek remain in its current channel where it is easily visible from their homes. 4.1.2.3 Recommendations Recommendations for stabilizing the erosion problems in Reach 2 include the installation of six cross- vanes to stabilize the channel slope and prevent downcutting, as shown in Figure 4-2. Floodplain excavation may be necessary in order to create a natural floodplain for the stream while maintaining flood levels that would not increase the flooding risk at the nearby homes. Because this reach is fairly sinuous, a total of 16 root wads are recommended for the outside of stream bends to reduce bank sloughing. Londonderry Dr 2 Barr Footer: ArcGIS 10.2.2, 2014-10-01 12:57 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: jrv!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 160 0 16080 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Root Wads Bank Grading 4-2 2 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 25 4.1.3 Reach 3 4.1.3.1 Existing Conditions Reach 3 begins at the pedestrian bridge that crosses Nine Mile Creek at the end of Tamarac Avenue, extending downstream a distance of approximately 1,600 feet through Walnut Ridge Park and terminating at Gleason Road. Erosion issues in this reach are mild, mostly limited to minor sloughing and specific locations of bank erosion. The channel ranges in width from 5 to 10 feet and is bordered on the south and west sides by residential area. The property located on the west side of the creek and immediately upstream of Vernon Avenue (6414 Vernon Avenue) is said to have experienced erosion problems in past years but the creek appears to have achieved a relatively stable condition at this location. There were no erosion issues observed between Vernon Avenue and Gleason Road. 4.1.3.2 Considerations and Options The locations with bank erosion can be mitigated with riprap, rock vanes, or root wads. However, riprap is not recommended because infrastructure is not threatened by the erosion, and other stabilization methods are considered more beneficial to aquatic life while having a more natural appearance. Rock vanes are feasible at these locations and would provide bank protection; however, the narrow width of the stream could make it difficult to design and install the rock vanes in such a manner to function properly while not causing additional erosion. Root wads would provide bank protection at a scale appropriate to the channel dimensions (i.e. they would not restrict channel width) and would provide excellent fish habitat. The observed areas of bank sloughing are largely caused by poor vegetation management. The homeowners are maintaining mowed turf grass to the edge of the stream, providing no buffer to the channel. Turf grass lacks the root structure to maintain the stream bank, leaving it vulnerable to erosion. The sloughing bank is on a straight stretch of the stream, so additional bank or toe protection is not necessary. Establishing a 10 to 15 foot buffer with native vegetation (only grasses or a mix of grasses and shrubs) would provide the root structure needed for long term stability. The bank could also be graded to a more gradual slope to facilitate vegetation establishment at the toe of the bank. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 26 4.1.3.3 Recommendations Proposed improvements to this reach are shown in Figure 4-3. Installation of six root wads is recommended for the areas of bank erosion at meander bends. Other recommendations for Reach 3 are limited to bank grading combined with vegetation management within Walnut Ridge Park and on the properties with mowed turf grass to the edge of the stream. It is also recommended that educational materials be supplied to homeowners with properties bordering the creek to the east. Combining these efforts should stabilize the channel and protect both public and private properties. 4567158Tamarac Ave Aspen Rd Vernon Ave 3Barr Footer: ArcGIS 10.2.2, 2014-10-01 12:57 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: jrv!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 160 0 16080 Feet Figure North Branch NineMile Creek Erosion reaches Root Wads Bank Grading 4-3 3 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 28 4.1.4 Reach 4 4.1.4.1 Existing Conditions Reach 4 begins downstream of Gleason Road and extends for a distance of approximately 940 feet to an existing pedestrian bridge in Bredesen Park. The creek banks in this reach are eroded and require stabilization in order to protect the existing mixed-use bituminous trail along the east bank of the creek leading to the park. Along the west bank of the creek is a forested buffer and turf grass right-of-way along Gleason Avenue. The stream is currently very straight and averages about 10 feet in width. A grove of walnut trees within this reach requires protection during construction, as well the burr oaks and large cottonwood trees that are present. 4.1.4.2 Considerations and Options Given the proximity of the mixed-use bituminous trail and residential streets on the east side of the stream, riprap may be necessary to stabilize the eroding banks. Even with riprap it may be necessary to grade the top of the bank to a stable slope without disturbing the trail. It would also be possible to stabilize the creek bank with a bioengineering approach by using vegetated reinforced soil slopes (VRSS). VRSS often uses willow cuttings that require a lot of sunlight. Providing full sun to these cuttings would require thinning of the vegetation on the opposite bank. It would also be possible to plant more shade tolerant shrubs instead of willow cuttings, but these would still require some thinning of the vegetation on the opposite bank. The shade tolerate shrubs are also more expensive than willow cuttings. With riprap or VRSS, it would be difficult to grade the top of the bank to a stable slope without disturbing the trail. Alternatively, it would be possible to push the toe of the east bank out into the stream to create room for a stable bank slope, but such action should be accompanied with equivalent excavation on the west bank to maintain the channel geometry and flow area. The stream was obviously straightened in the past. The stream is now attempting to recreate meanders, alternating locations of bank erosion as the flow pattern moves back and forth through the channel. Therefore, another alternative would be to restore meanders to this reach. The corridor between Gleason Avenue, residential streets, and the trail system is narrow in some places, but it would be possible to re-establish meanders through Reach 4. Option A- Stabilize in Place The existing erosion problems within this reach can be addressed with the installation of five cross-vanes for grade control and placing riprap along the east bank of the creek to protect the trail as shown in Figure 4-4A. However, the use of riprap is generally not considered natural and aesthetically pleasing. The P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 29 bank grading followed by riprap placement would require the removal of many trees from the east bank. Because the existing trees are well-established and currently acting as erosion protection for the trail, bank grading and riprap are not the preferred option in Reach 4. Option B- Remeander Away From Trail Figure 4-4B shows the proposed re-establishment of a meander pattern. Option B would move the creek farther away from the residential properties and the trail, but has larger and more gradual meanders. This option includes the use of two cross vanes to maintain the grade established in the new channel, and prevent downcutting from causing future problems along the stretch. This option also includes eleven root wads and six boulder vanes for bank protection. This option would increase the creek length to approximately 900 feet. Option C- Remeander in Current Corridor If trail users or residents object to Option B, Option C introduces a smaller meander pattern and keeps the stream closer to its original location. Both designs are the same for the final 620 feet of the re- establishment of a meander pattern in this reach. This option includes four cross vanes to maintain the established grade in the new channel. This option also includes eleven root wads and six rock vanes for bank protection. This option would increase the creek length to approximately 1,100 feet. 4.1.4.3 Recommendations The preferred recommendation for the erosion issues in Reach 4 is to re-establish a meandering pattern to the channel, which will decrease the slope of the affected reach and help decelerate bank erosion. Option B will provide maximum trail protection, but Option C will require less grading while still providing good protection to the trail and maintaining aesthetic value to trail users. 4567158 View La Killarney La Gl e a s o n R d Glacier Pl 4 4Barr Footer: ArcGIS 10.2.2, 2014-12-16 09:29 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-4A Reach 4 Proposed Work - Option A.mxd User: jrv!;N Figure 4-4A REACH 4 PROPOSED WORK - OPTION A Nine Mile Creek Restoration ProjectEdina, MN 100 0 10050 Feet North Branch NineMile Creek Erosion reaches Cross Vanes Root Wads Riprap NMCWD Parcels Bank Grading 4567158 View La Gleason Rd Killarney La Glac ie r P l Arct i c W a y Schaefer Rd Gleaso n C t Barr Footer: ArcGIS 10.2.2, 2014-12-19 10:09 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-4B Reach 4 Proposed Work - Option B.mxd User: jrv!;N Figure 4-4B REACH 4 PROPOSED WORK - OPTION B Nine Mile Creek Restoration ProjectEdina, MN 150 0 15075 Feet Cross Vanes North Branch Nine Mile Creek Remeander Option 1 Vanes Root Wads NMCWD Parcels 4567158 View La Gleason Rd Killarney La Glac ie r P l Arct i c W a y Schaefer Rd Gleaso n C t Barr Footer: ArcGIS 10.2.2, 2014-12-16 09:54 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-4C Reach 4 Proposed Work - Option C.mxd User: jrv!;N Figure 4-4C REACH 4 PROPOSED WORK - OPTION C Nine Mile Creek Restoration ProjectEdina, MN 150 0 15075 Feet North Branch NineMile Creek Remeander Option 2 Cross Vanes Vanes Root Wads NMCWD Parcels P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 33 4.1.5 Reach 5 4.1.5.1 Existing Conditions Reach 5 begins at a pedestrian bridge within Bredesen Park and continues a distance of approximately 1,250 feet downstream to TH 62. The upper portion of this reach is highly sinuous and winds through a forested wetland area. The creek banks are low but quite steep, indicating that the stream may be in the process of downcutting. Sloughing of the channel banks is common. The reach becomes less sinuous as it continues south towards TH 62, but downcutting continues and a large scarp is forming near the highway that requires stabilization. Along this reach the creek ranges in width from 8 to15 feet. 4.1.5.2 Considerations and Options The bank sloughing in this reach is likely caused by poor riparian vegetation. The grassy areas are dominated by reed canary grass, which is an aggressive, invasive species that is very difficult to control. Reed canary grass has a shallow root system, so it does a poor job of stabilizing stream banks. A feasible option for the observed sloughing banks is to regrade the banks to a shallower, stable slope and plant native riparian grasses and shrubs (dogwoood, willow, etc). Given the large areas dominated by reed canary grass that are adjacent to the erosion sites, maintenance efforts should be provided for the first three years to ensure the native plants become established. The shrubs will be better able to out-compete the reed canary grass as it attempts to invade the site again. Similar to Reachs 2 and 4, fieldstone riprap, rock vanes, and root wads could also provide adequate bank protection for the outside banks at meanders. All three have similar pros and cons as they did for the other reaches, and, once again, root wads appear to be the most feasible option for stabilizing the outside banks through the grassy area of this reach. The downcutting occurring within this reach can be mitigated by raising the stream bed, excavating a new floodplain, or a combination of the two. Since there are no nearby properties, raising the stream bed with constructed riffles (made of either rock or woody debris) is the most feasible option. This would reconnect the stream with its wide, natural floodplain and minimize floodplain disturbance. The hydraulic modeling indicates (on a preliminary basis) that this can be accomplished without a rise in flood levels. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 34 The lower section of the reach is more wooded and the stream is slightly wider; thereby making rock vanes a more feasible option for bank protection than for the upper portion of this reach. Root wads are again preferred due to their natural appearance in the park setting and due to the fish habitat that would be created. 4.1.5.3 Recommendations Recommendations for correcting erosion problems within Reach 5 include the installation of four cross- vanes, which will serve to raise the stream bed by encouraging deposition between the vanes, and approximately 22 root wads for bank stabilization. The stream banks in the lower section of this reach should also be graded to a stable slope. The failing fence that crosses the existing scarp immediately upstream of TH 62 (seen in the photo above) should be removed. Fieldstone riprap should be added for additional bank protection in the downstream section as the stream enters the TH 62 right-of-way. Buckthorn control throughout the reach will be critical for the establishment of native cover. All buckthorn removal will require stump treatment with herbicide and followup control for three years. Control of reed canary grass is also required for native plants to become established. 62 62 5 5Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 160 0 16080 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Root Wads Riprap Bank Grading 4-5 5 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 36 4.1.6 Reach 6 4.1.6.1 Existing Conditions Reach 6 begins at the TH 62 crossing of the creek and continues for a distance of approximately 600 feet downstream. This reach is northwest of the Edina High School athletic fields and has a forested buffer corridor along both banks. Erosion issues are mild within this reach and generally consist of bare or eroding stream banks. This reach has a fairly consistent width of around 15 feet. Buckthorn coverage in this reach exceeds 60 percent along both sides of the creek with box elder being the other major tree species present. Buckthorn control will be critical to the establishment of native cover; thus all buckthorn removal will require stump treatment with herbicide and followup control for three years. 4.1.6.2 Considerations and Options Once again, fieldstone riprap, rock vanes, and root wads are all options that would stabilize the eroding banks. Additional systemic issues do not appear to be present in this reach. 4.1.6.3 Recommendations With the erosion issues in Reach 6 being relatively mild in comparison with other reaches, the proposed solutions are grading of stream banks and installation of four rock vanes to reduce velocity near the banks, particularly during high flow scenarios. Native prairie vegetation should be planted along the south bank of the creek channel to blend with the adjoining prairie restoration areas. Control of buckthorn and reed canary grass will be required during the five-year establishment period. 62 62 6 Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 130 0 13065 Feet Figure North Branch NineMile Creek Erosion reaches Vanes Bank Grading 4-6 6 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 38 4.1.7 Reach 7 4.1.7.1 Existing Conditions Reach 7 begins at the northeastern corner of the existing soccer fields, and continues downstream for a distance of approximately 4,300 feet to Valley View Road. The majority of this reach of the creek winds through an existing wetland area. Erosion issues are minor, and include moderate sloughing and bank erosion. The creek width is highly variable within this reach, ranging from 6 8 feet in the upstream part to more than 15 feet where it enters a small excavated pond located approximately 900 feet upstream of Valley View Road. 4.1.7.2 Considerations and Options Since this reach is in an existing wetland, there is no need to restrain the creek from meandering back and forth across the landscape, as it has historically done (see Figure 2-5). Issues of bank sloughing and bank stabilization in this area can be addressed by improving and managing the vegetation. The current land cover consists mostly of reed canary grass, but the planting of native species, including more shrub-type plants such as willows, would increase soil strength and improve the diversity of the floodplain plant species. Removal of buckthorn in the forested areas could also be accomplished at this time. This reach is located near Edina High School and Creek Valley Elementary School, providing an opportunity to partner with one or both of schools to create educational features. The District has been working with the Edina High School science department in testing the water quality of Nine Mile Creek. Potential project components and educational opportunities include but are not limited to the following: 1) Invasive species control; 2) Creating oxbow “lakes” in historic meander patterns and studying how they change over time. 3) Installing demonstration features (root wads, rock vanes, riprap, etc.) so the students can observe differences in how they work to stabilize banks. 4) Creating specific habitat features (shallow riffles, deep pools, woody debris) and studying the different aquatic organisms in each habitat. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 39 5) Native prairie vegetation should be planted on the south bank of the creek channel to blend with the adjoining prairie restoration areas. Control of buckthorn and reed canary grass will be required during the five-year establishment period. 6) Buckthorn control will be critical to the establishment of native cover; thus all buckthorn removals will require stump treatment with herbicide and follow-up control for three years. 4.1.7.3 Recommendations No work to stabilize stream banks in this reach is recommended, and no other measures are recommended within this reach at this time. Future possibilities include the vegetation management described above, and educational opportunities could be explored by contacting the nearby schools and determining an appropriate scale and cost for educational features. 62 62 Creek Valley Rd 7 Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 330 0 330165 Feet Figure North Branch NineMile Creek Erosion reaches NMCWD Parcels 4-7 7 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 41 4.1.8 Reach 8 4.1.8.1 Existing Conditions Reach 8 begins downstream of Valley View Road and continues downstream for a distance of approximately 2,125 feet to the corner of Cahill Road and West 66th Street. This reach is in a residential neighborhood with a small forested riparian buffer on both sides of the creek. The first 550 feet downstream of Valley View Road has some erosion issues, but the remainder of the reach appears stable. The creek banks are fairly steep and moderately eroded, and the slope is mild. Riprap is currently in limited use to protect creek banks which are eroding private properties. 4.1.8.2 Considerations and Options Systemic issues do not appear to be present at this reach and the bank erosion is limited to isolated sites. One bank erosion site is at the base of a long, tall slope. Installing root wads or rock vanes on this slope would create too much disturbance and are not practical options. Fieldstone riprap is a more feasible option for this site. Mowed turf grass to the stream’s edge is also contributing to bank erosion. Educating homeowners and establishing a buffer of native vegetation would serve to better protect the stream banks. 4.1.8.3 Recommendations Recommendations for Reach 8 involve the installation of fieldstone riprap along a section of eroding stream bank and installation of 6 root wads along selected meander bends to protect the existing stream banks from erosion. Educational materials about stream bank preservation and maintenance should be provided to homeowners along the creek. 62 62 Valley La Tracy Ave Valley View Rd Hillside Ct Limerick L a W 64th St Doron La Dor o n D r Creek Valley Rd Hi l ls ide C ir 8Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 220 0 220110 Feet Figure North Branch NineMile Creek Erosion reaches Root Wads Riprap NMCWD Parcels Bank Grading 4-8 8 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 43 4.1.9 Reach 9 4.1.9.1 Existing Conditions Reach 9 is one of the most sinuous reaches of Nine Mile Creek in the project study area. The reach begins just south of the intersection of West 66th Street and Cahill Road and continues downstream for a distance of approximately 1,550 feet. There are many trees along the creek, but the channel itself is fairly confined by residential development on both sides. The creek within Reach 9 is fairly narrow, ranging from 5 to 10 feet in most locations, and has many extremely sharp bends. In one location the stream has straightened itself by cutting off a former meander. In another location it has extended outward from a former meander, more than doubling its length when compared to the previous state. These features, along with steep and actively eroding banks, suggest that the stream in this area has a steepening slope, resulting in more erosion, active downcutting, and increased stream power. Several homeowners along the channel have installed riprap to protect their yards and gardens from erosion. 4.1.9.2 Considerations and Options Existing land use prevents significant realignment of Nine Mile Creek within this stream segment. The active meanders do not threaten existing infrastructure but may pose problems for anticipated future pedestrian uses. Grade control measures such as cross-vanes can be implemented to reduce channel steepening. Vegetative management, including removal of invasive species and establishment of a native vegetation buffer, would help to protect the stream channel and the adjacent properties from further erosion. 4.1.9.3 Recommendations Proposed solutions to erosion problems within Reach 9 are limited to grade control and bank stabilization measures. Grade control will be established by the installation of three cross-vanes and ten vanes, spaced along the entire length of the reach. Nineteen root wads, placed along the outside of selected meander bends, will protect existing stream banks and increase roughness in these areas, helping to dissipate excess stream power. Cahill Rd Limerick Dr Cahil l L a 9 Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 130 0 13065 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Vanes Root Wads NMCWD Parcels Bank Grading 4-9 9 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 45 4.1.10 Reach 10 4.1.10.1 Existing Conditions Reach 10 begins 100 feet upstream of the intersection of W. 68th Street and Cahill Road and continues downstream for a distance of approximately 975 feet to Brook Drive. It is bordered on both sides by residential development. The eroding portion of this reach is approximately 500-feet long, with eroded banks and noticeable downcutting resulting in large amounts of woody debris deposition. Scarp development is present but fairly limited. The creek in this reach averages 12- to 15-feet in width. 4.1.10.2 Considerations and Options Two single-family homes are located near the two stream meanders within this reach; thereby making grading and access to the sites somewhat difficult. Due to the immediate proximity of one of the homes and other infrastructure, fieldstone riprap is a preferred option for the most severe scarp development; however, sufficient space is available to install vanes and root wads on the other banks. Vegetative Reinforced Slope Stabilization (VRSS) is also an option for the less eroded meander, but will require thinning of surrounding vegetation. It is assumed that the homeowners would prefer to maintain as much of the existing vegetation as possible. The homeowners will be contacted prior to final design to determine if vegetation thinning and VRSS would be an acceptable alternative. 4.1.10.3 Recommendations Recommendations for Reach 10 include the installation of one cross-vane to prevent further downcutting and stabilize the reach slope; and installation of three root wads, two rock vanes and grading of stream banks is recommended in order to prevent further erosion on banks that are not an immediate threat to homes. Riprap should be installed on the slope where the existing scarp has developed. Educating homeowners about bank stabilization practices is also recommended. Brook Dr Cahill Rd 10 Barr Footer: ArcGIS 10.2.2, 2014-10-01 12:57 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: jrv!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 110 0 11055 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Vanes Root Wads Riprap NMCWD Parcels Bank Grading 4-10 10 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 47 4.1.11 Reach 11 4.1.11.1 Existing Conditions Reach 11, approximately 1,300 feet from Brook Drive to the Soo Line Railroad, is bordered by residential properties to the south and a wetland to the north. The most actively eroding area is a highly sinuous reach bordering two private properties along Creekview Lane. Downstream of this area, a second reach that is approximately 400-feet long, contains debris jams which have caused the creek to form a network of multiple channels through the wetland. The original channel has a fairly healthy meander pattern through this reach with low bank heights, and erosion issues are minor. The channel width in this reach ranges from 5 to 8 feet. 4.1.11.2 Considerations and Options The main issue in this reach is the proximity of the creek to two single-family homes. The creek within Reach 11 currently crosses four private lots and is within 50 feet of the homes on these properties. In order to minimize future erosion risks, the options would be to stabilize the existing channel or excavate a stable channel along one of two new routes. The multiple channel formation can be addressed by clearing the debris jams during stabilization. Option A- Stabilize in Place The first option for stabilization on Reach 11 is to grade back the banks and use cross vanes to prevent downcutting as the reach enters the wetland area. Placing rock vanes at outer bends which are moving towards existing homes would help direct flow to the channel centerline and slow erosion at these locations. Riprap would also protect the banks that are closest to existing homes. Option B- Remeander for Riparian Habitat Connection This option for channel reconstruction would redirect the channel into the existing wetland, providing space for the channel to naturally migrate as well as maintain a more natural riparian habitat with less influence from lawn management. This option would include four cross vanes to maintain the existing grade and fifteen root wads and eight rock vanes to stabilize the outside banks of the new meanders. Option C- Remeander for Homeowner Protection A smaller remeander, other than the one proposed in Option B, would move the main channel away from homes closest to the creek in order to provide additional protection of the homes from flooding. This P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 48 option would utilize five cross vanes for grade control. Three rock vanes and six root wads would stabilize the new outer banks of the new channel. 4.1.11.3 Recommendations Erosion on Nine Mile Creek in Reach 11 is posing a risk to existing homes. Because of the proximity of an existing wetland owned by the City, the best option would be to create a new channel for the creek where it can maintain a stable pattern and have access to its floodplain. Option B would provide the most protection to homeowners over the long term, but Option C is viable in case homeowners object to moving the creek so far from their homes. Brook Dr Creek View La 11 Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:04 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-11A Reach 11 Proposed Work - Option A.mxd User: jrv!;N 100 0 10050 Feet North Branch NineMile Creek Erosion reaches Cross Vanes Vanes Root Wads Riprap NMCWD Parcels Bank Grading Figure 4-11A REACH 11 PROPOSED WORK - OPTION A Nine Mile Creek Restoration ProjectEdina, MN Brook Dr Creek View La Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:11 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-11B Reach 11 Proposed Work - Option B.mxd User: jrv!;N 100 0 10050 Feet North Branch NineMile Creek Remeander Option 1 Cross Vanes Vanes Root Wads NMCWD Parcels Figure 4-11B REACH 11 PROPOSED WORK - OPTION B Nine Mile Creek Restoration ProjectEdina, MN Brook Dr Creek View La Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:23 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-11C Reach 11 Proposed Work - Option C.mxd User: jrv!;N 100 0 10050 Feet North Branch NineMile Creek Remeander Option 2 Cross Vanes Vanes Root Wads NMCWD Parcels Figure 4-11C REACH 11 PROPOSED WORK - OPTION C Nine Mile Creek Restoration ProjectEdina, MN P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 52 4.1.12 Reach 12 4.1.12.1 Existing Conditions Reach 12 extends downstream from the Soo Line Railroad to the culvert crossing at West 70th Street. The creek is bordered to the south by residential development and to the north by forested wetland and residential development. The stream maintains most of its historical meander pattern, but has noticeable downcutting, particularly in the upper portion of the reach. The stream banks also display moderate erosion. The stream has an average width through this reach of 10 feet. This reach crosses from City property onto three private lots. One lot is relatively large (approximately 1 acre) near the railroad crossing, which is currently bisected by the creek. The other two lots are smaller (approximately 1/3 acre each), and are the last two parcels on the south bank before the creek crosses West 70th Street. One property is essentially bordered by the creek while the other parcel is divided by the creek, creating an area comprising approximately a 25 to 75 percent split of its total lot area. 4.1.12.2 Considerations and Options At locations where the creek is on or very near private property, bank erosion is at least partially caused by poor vegetation management adjacent to the stream bank (i.e., mowed turf grass to the top of the bank). An educational component would be useful to help the adjacent homeowners understand the benefits of maintaining healthy bank vegetation. Near West 70th Street, stream meanders are migrating toward the road and pose a long term threat to the stability of the road embankment. Upstream of this location, the stream crosses two private properties as previously mentioned. Option A- Stabilize in Place It would be possible to stabilize all of the banks in place with a combination of fieldstone riprap, VRSS, vanes, root wads, and vegetation management. This option would include two cross vanes, fourteen rock vanes, and seven root wads, which would stabilize the channel in its current location and reduce the risk of the creek moving farther onto private property. The stabilized creek length would be approximately 1,600 feet. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 53 Option B- Remeander for Riparian Habitat Connection An alternative to in-place bank stabilization is to establish a new meander pattern completely within the City-owned property. The first remeander option would move a longer length of stream to the north, moving it onto City property that is now being used by nearby residents for various purposes, including as a soccer field. This alternative would restore full access to the private properties along the reach, remove dependence on homeowners for proper vegetation management, move the stream meanders away from West 70th St, and establish stable channel geometry. This option would include two cross vanes, thirteen rock vanes, and twenty-four root wads. The meanders would preserve and not result in an increase in creek length. Option C- Remeander for Homeowner Protection If surrounding homeowners object to moving the creek back on to City-owned property, the second option would move only one meander of the stream, diverting it to the north instead of to the south, achieving the goal of moving of the creek from private to public property. Both remeander options would involve bank grading along the existing channel centerline. The meanders would preserve and not result in an increase in creek length. 4.1.12.3 Recommendations The primary recommendation for Reach 12 is to re-establish meanders within the lower portion of the reach, moving the creek from private to public property and providing a better transition to the West 70th Street culvert. Option B would provide better protection to homes along West 70th Street, but Option C would be sufficient to protect existing infrastructure while maintaining the current creek centerline. W 70th St Aber c r o m b i e D r Tift o n D r Everett Pl 12 Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:38 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-12A Reach 12 Proposed Work - Option A.mxd User: jrv!;N 200 0 200100 Feet North Branch NineMile Creek Erosion reaches Cross Vanes Vanes VRSS Root Wads Riprap NMCWD Parcels Bank Grading Figure 4-12A REACH 12 PROPOSED WORK - OPTION A Nine Mile Creek Restoration ProjectEdina, MN W 70th St Aber c r o m b i e D r Tift o n D r Everett Pl Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:48 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-12B Reach 12 Proposed Work - Option B.mxd User: jrv!;N 210 0 210105 Feet North Branch NineMile Creek Remeander Option 1 Cross Vanes Vanes Root Wads Riprap NMCWD Parcels Figure 4-12B REACH 12 PROPOSED WORK - OPTION B Nine Mile Creek Restoration ProjectEdina, MN W 70th St Tif t o n D r Aber c r o m b i e D r Everett Pl Barr Footer: ArcGIS 10.2.2, 2014-12-16 10:55 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Figure 4-12C Reach 12 Proposed Work - Option C.mxd User: jrv!;N 200 0 200100 Feet North Branch NineMile Creek Remeander Option 2 Cross Vanes Vanes Root Wads Riprap NMCWD Parcels Figure 4-12C REACH 12 PROPOSED WORK - OPTION C Nine Mile Creek Restoration ProjectEdina, MN P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 57 4.1.13 Reach 13 4.1.13.1 Existing Conditions Reach 13 begins downstream of West 70th Street and continues for a distance of approximately 1,750 feet, crossing West 72nd Street and ending 200 feet upstream of the culvert at Metro Boulevard. This reach is confined by residential and commercial development on both sides, and has been straightened to align with the West 72nd Street culvert and the Metro Boulevard crossing. A large amount of riprap was used to stabilize the channel upstream of the West 72nd Street crossing. Bank erosion is moderate, but downcutting is very evident with storm sewers perched above the existing streambed. The stream width ranges from 10 to 15 feet and there are significant amounts of large woody debris, both naturally occurring and likely abandoned by past construction projects in the area. 4.1.13.2 Considerations and Options This reach is located on a narrow strip of City- owned property and any option considering establishing new meanders would require an easement(s). The property on the east side of the channel has detention ponds and buildings too close to the stream to establish meanders in that direction. Buildings and property infrastructure on the west side of the channel just upstream from West 72nd Street are also located too close to the stream for a new meander. Sufficient area on the property on the west side of the channel immediately downstream from West 70th Street for a new meander is available, but the relatively short channel length available would minimize the effectiveness of a new meander. The stream banks can be stabilized while remaining on City-owned property by using a combination of vanes, cross vanes, root wads, and vegetation management. 4.1.13.3 Recommendations Recommendations for this reach include the installation of four cross-vanes and three rock vanes to reduce downcutting and bank erosion, and eight root wads on the meander bends near West 70th Street and along Metro Boulevard to protect the roadway. 100 Metro Bl v d Oh m s L a W 72nd St W 70th St 13 Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORKNine Mile CreekRestoration ProjectEdina, MN 200 0 200100 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes Vanes Root Wads NMCWD Parcels Bank Grading 4-13 13 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 59 4.1.14 Reach 14 4.1.14.1 Existing Conditions Reach 14 begins downstream of the Metro Boulevard crossing of the creek and extends a distance of approximately 2,350 feet to the creek crossing underneath the entrance and exit ramp connecting Industrial Drive and TH 100. The stream ranges in width from 10 to 15 feet in its non-braided sections. Most of this reach is a straightened channel on private industrial property or within the Mn/DOT right-of- way. Immediately upstream of the entrance/exit ramp, the stream has maintained a natural meander pattern. This section has mild to moderate bank erosion, with moderate bank sloughing and downcutting for approximately 800 feet upstream of the ramps. The channel is also beginning to braid around a large island. Finally, a fence which was initially erected to protect TH 100 is failing and falling into the creek. 4.1.14.2 Considerations and Options Due to nearby infrastructure and buildings, it is not possible to alter the stream path through this reach. The primary options require stabilizing the stream banks in place. Riprap stabilization is an option, but it is not recommended because the velocities in this reach are not excessive and the nearby infrastructure is not immediately threatened. The existing banks can be stabilized with a combination of cross vanes, single vanes, and root wads. 4.1.14.3 Recommendations Recommendations for Reach 14 include installing seven single vanes and nine root wads to protect the creek banks on the outside edges of the larger bends. It is also recommended that the existing failing fence be removed and a new one installed away from the channel bank. 100 100 Edina Industrial Blvd Metro Blvd W 77th St Poppy La Picture Dr 14Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 200 0 200100 Feet Figure North Branch NineMile Creek Erosion reaches Vanes Root Wads NMCWD Parcels Bank Grading 4-14 14 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 61 4.1.15 Reach 15 4.1.15.1 Existing Conditions Reach 15 begins downstream of Industrial Boulevard and continues downstream for a distance of approximately 725 feet to the city limits. The average creek width in this stretch is 12 feet. The creek has been straightened through this stretch and is confined by TH 100 to the east and the TH 100 frontage road to the west. Sedimentation is a major problem, particularly in the box culverts crossing Industrial Boulevard. Bank erosion issues are minimal. 4.1.15.2 Considerations and Options This reach is located entirely within the Mn/DOT right-of-way and nearby infrastructure eliminates any options for new meanders. The main options for this reach include methods to stabilize the existing erosion and establish measures to reduce the potential for future erosion. 4.1.15.3 Recommendations Since this reach is extremely confined, the recommended method to address headcutting is to install two cross-vanes within a 400-foot segment of the reach. Removing sediment from the existing box culverts is also recommended to reduce the likelihood of upstream pooling. 100 100 Pi c t u r e D r Viking Dr Beltline Hwy Edina Industrial Blvd W 78th St W 77th St 15Barr Footer: ArcGIS 10.2.2, 2014-06-18 13:36 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report 2014 Update\Site Map Template.mxd User: sdb!;N REACH PROPOSED WORK Nine Mile CreekRestoration Project Edina, MN 200 0 200100 Feet Figure North Branch NineMile Creek Erosion reaches Cross Vanes NMCWD Parcels Bank Grading 4-15 15 P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 63 4.2 Improved Stormwater Treatment The project will provide in-stream water quality improvement through creek bank stabilization and channel grade control to minimize the downcutting and continued degradation. The creek has been classified as an Impaired Water by the Minnesota Pollution Control Agency for chlorides, turbidity, and biotic integrity. The creek has since been delisted for turbidity, however the project will continue to maintain and further improve the water quality of the creek for the impairments. 4.3 Regional Trail Construction Construction of a multi-use trail with sections to be located adjacent to the North Fork is proposed as a separate project by Three Rivers Park District. The proposed trail would continue from the City of Hopkins, crossing TH 169 just south of where the North Fork of Nine Mile Creek crosses. The trail alignment would generally follow the creek corridor before crossing TH 100 approximately 1,500 feet north of West 77th Street via a new, proposed bridge crossing. The trail would then continue east through Edina. The proposed trail constructed by Three Rivers Park District will be a continuation of the Three Rivers Park District regional trail system that will run through Hopkins, Edina, and Richfield to Cedar Avenue in Richfield. The channel improvements that are proposed by the District will be coordinated with the trail location and future construction as much as possible. 4.4 Preliminary Plan Set A set of the preliminary construction plans is included for reference in Appendix J. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 64 5.0 Cost Estimate Table 5-1 shows the total estimated construction costs for the recommended option for each reach and the total project cost. Detailed cost tables for each reach are contained in Appendix D. Table 5-1 Engineer's opinion of probable cost--Summary of cost estimates by reach Reach Estimated Construction Costs Reach 1 $173,000 Reach 2 $264,600 Reach 3 $50,400 Reach 4 $333,100 Reach 5 $240,500 Reach 6 $86,000 Reach 7 $0 Reach 8 $97,900 Reach 9 $315,600 Reach 10 $104,400 Reach 11 $219,700 Reach 12 $258,100 Reach 13 $318,400 Reach 14 $137,300 Reach 15 $52,600 Construction Costs Subtotal $2,651,600 Contingency 15% $397,800 Engineering, Legal, and Administrative (30%) $914,900 Total* $3,964,300 *Difference between the total shown and the cumulative totals on Tables D-1 through D-15 in Appendix D is the result of rounding. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 65 6.0 Impacts Caused by the Project 6.1 Easement Acquisition Public ownership of the corridor area adjacent to the North Fork of Nine Mile Creek is recommended. Currently, the majority of the creek corridor is either publicly owned or lies within public easements. However, a few reaches of the creek have migrated onto private property. As part of this project, it is recommended that Reaches 11 and 12 be re-aligned such that the channel will once again be on public property. Figure 6-1 shows the areas for proposed easement acquisition and affected properties. A list of the affected property owners is identified in Appendix E. 6.2 Environmental Review and Permitting The Environmental Assessment Worksheet (EAW) for the proposed project is included in Appendix I. This process requires approximately 1 month for agency review and public comment and is used to determine whether a more detailed Environmental Impact Statement (EIS) is warranted. An EIS is not anticipated to be required for the proposed project. The following permits will likely be necessary in order to perform the recommended project improvements: City of Edina, Conditional Use Permit Nine Mile Creek Watershed District, Grading and Land Alteration Permit Nine Mile Creek Watershed District, Wetland Conservation Act Permit Minnesota Department of Natural Resources, Work in Public Waters Permit Army Corps of Engineers, Section 404 Permit Minnesota Pollution Control Agency, N.P.D.E.S. Construction Permit 6.3 Other Impacts Caused by the Project No long-term adverse impacts to natural resources are expected to result from implementation of the recommended improvements. Some temporary construction-related impacts will occur to riparian wetlands, and mitigation may be required, but impacts are generally expected to be minor. There are no new impervious surfaces created by the project. 6.3.1 Wetland Impacts The existing wetlands within the project area were inventoried in accordance with the U.S. Army Corps of Engineers Wetlands Delineation Manual, 1987. (“1987 Manual”, USACE, 1987), the Regional Supplement to the Corps of Engineers Wetland Delineation Manual: Midwest Region (USACE, 2010) and the requirements of the Minnesota Wetland Conservation Act (WCA) of 1991. A wetland functional assessment (MnRAM) has also been completed. Appendix F contains the Wetland Delineation and Functional Assessment Report of May 2014 that was completed for the project. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 66 The Nine Mile Creek Watershed District, being the Local Government Unit (LGU) administering the requirements of the WCA, at the May 21, 2014 meeting of the Board of Managers approved the wetland type and boundary determination completed for the project. The recommended stream stabilization improvements are not expected to cause any long term adverse impacts to the creek system, but will result in a more stable, healthy system. The most anticipated impact to existing wetlands is the proposed realignment of the creek in Reaches 4, 11 and 12, in which the channel will have meanders re-established and, for Reaches 11 and 12, relocated away from private property onto public easement. A copy of the Wetland Permit Application is included in Appendix G. 6.3.2 Tree Loss Much of the creek corridor is forested, with varying degrees of quality. Reasonable effort will be made to avoid or minimize tree loss in connection with various aspects of the recommended projects. Trees that are unavoidably lost will be replaced, as deemed necessary and in coordination with current property owners and the City of Edina. Native species will be planted whenever tree replacement is needed. In a number of reaches, existing high value species will be designated for protection during construction. Buckthorn control will be critical to the establishment of native trees; thus all buckthorn removal will require stump treatment with herbicide and followup control for a minimum of three years. 6.3.3 Soils A Phase I Environmental Site Assessment (ESA) was prepared for the proposed project area in March, 2014. A copy of the Phase I assessment is included in Appendix H. The ESA identified one recognized environmental condition in connection with the project. The potential presence of dump material from an unpermitted dump property adjacent to the project will be addressed in the construction documents prepared for the project. In general, should unsuitable material be encountered, work in the area would stop, the situation would be assessed, and work would proceed only after consultation with the MPCA. 6.4 Impacts to Archeological Features Archaeological Research Services (ARS) concluded, based on visual inspection of existing erosion exposure, that none of the bank segments prioritized for stabilization feature any archaeological evidence. Should final design of stabilization measures for the sites investigated for this report change, the initial archeological inspection will need to be supplemented with further survey in the following areas: In ARS 1, the last approximately 100’ before the creek enters a large wetland and is flanked by fairly level terraces that appear to have some archaeological potential. In segments ARS 2, 3, 4, 7, and 8 only along any areas that would be affected if the current channel is altered enough to impact surrounding uplands. As mentioned in Section 3.0 of the Archeological Investigation (Appendix B), any such additional survey would need to follow federal and state guidelines. P:\Mpls\23 MN\27\23271132 Nine Mile Creek Restoration - Edina\WorkFiles\Engineer's Report\Edina_EngrsRpt_Aug-2015.docx 67 Table 6-1 shows the correlation between ARS reaches (numbered 1-16) and Reaches 1-15 designated by the project as needing stabilization measures. This information is also presented in map form in Appendix B, Figures B-1 through B-7. Table 6-1 ARS Reach and erosion reach correlation Archaeology Reach Corresponding Erosion Reach ARS 1 Reach 1 - Entire ARS 2 Reach 2 - Upstream ARS 3 Reach 2 - Middle ARS 4 Reach 2 - Downstream ARS 5 Reach 4 - Upstream ARS 6 Reach 4 - Downstream ARS 7 Reach 5 - Upstream ARS 8 Reach 5 - Downstream ARS 9 Reach 6 - Entire ARS 10 Reach 8 - Entire ARS 11 Reach 9 - Entire ARS 12 Reach 10 - Entire ARS 13 Reach 11 - Entire ARS 14 Reach 12 - Entire ARS 15 Reach 13 - Upstream ARS 16 Reach 14 – Upstream £¤169 £¤212 62 4567158 £¤169 17 18 114 216 124 0 124 19 2068 86 16 152 35 50 31 21 3 7 23 6 4 9 5 25 34 8 1 12 11 28 32 33 30 10 16 2 29 13 43 51 3 7 1 56 4 542 Barr Footer: ArcGIS 10.3.1, 2015-06-04 09:58 File: I:\Client\Nmcwd\Workorders\2011\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Affected Parcels Map Anno 06-03-2015.mxd User: RCS2Erosion reaches North Branch Nine Mile Creek Creek Adjacent Parcels 178 163 175 164 165 139 141 205 113 10895 199 144146 220214 213221106 202 173179 228231174170 119123131 107 103104 100 129 1 38 1511 1410233 198 129 143 201 136 224 197 135 235 185 116 194 162 97 227 177 133 204 130 155192 147 111 232 234 145 196 128 109 153 203 127 212 218101 217 207 102 110 138 193 195 93 92 91 118 229 98 94 189 105 120 99 188 151 225 100 174 121 191 230 115134 96 219 226 190184 117 222 122 142 215 150 159 112 125 206 172 137 208 169 209 140 171 161 176 160167 156 182 Figure 6-1 PROPOSED EASEMENT ACQUISITION AND AFFECTED PROPERTIES Nine Mile Creek Restoration ProjectEdina, MN !;N 1,200 0 1,200600 Feet 24 26 14 2722 54 67 66 52 69 15 70 53 49 1 £¤169 £¤212 62 4567158 7 321 56 4 54 Barr Footer: ArcGIS 10.0, 2011-12-12 15:19 File: I:\Client\Nmcwd\Workorders\CreekStabilizationWork_2011\Maps\Reports\Edina Engineers Report\Fig26 Wetlands.mxd User: kac2Wetlands Erosion reaches North Branch Nine Mile Creek City of Edina Boundary §¨¦494 §¨¦494 62 100 456734456728 129 1387 14101511 Figure 6-2 DELINEATED WETLANDS AND WETLAND COMMUNITIES Nine Mile CreekRestoration Project Edina, MN !;N 1,200 0 1,200600 Feet Appendices “Stand-alone” file(s) due to file size Appendix A Project Petition from City of Edina Appendix B Archeological Investigation Appendix C Typical Stream Restoration Practices Appendix D Detailed Cost Estimates by Reach Appendix E Affected Property Owners Appendix F Wetland Delineation and Functional Assessment Report Appendix G Wetland Permit Application (not included with this document) Appendix H Phase I Environmental Site Assessment (not included with this document) Appendix I Environmental Assessment Worksheet (EAW) for Nine Mile Creek Stabilization Project—Edina Appendix J Preliminary Plan Set