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6.a Wetland Delineation Report 12937 Mayberry Trail N WETLAND DELINEATION REPORT 9/28/2020 Jacobson Environmental, PLLC jacobsonenv@msn.com 2020-313 12937 Mayberry Trail N Delineation Scandia, MN Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 1 Table of Contents 1.0 SUMMARY ............................................................................................................................................... 2 2.0 METHODS ................................................................................................................................................ 3 2.1 EXISTING INFORMATION REVIEW ....................................................................................................... 3 2.1.1 Antecedent Precipitation ............................................................................................................. 3 2.1.2 National Wetlands Inventory ....................................................................................................... 3 2.1.3 Web Soil Survey ........................................................................................................................... 3 2.1.4 Public Waters Inventory ............................................................................................................... 3 2.1.5 Topographic Map ......................................................................................................................... 3 2.2 FIELD DELINEATION ............................................................................................................................. 4 2.2.1 Vegetation .................................................................................................................................... 4 2.2.2 Hydric Soils ................................................................................................................................... 5 2.2.3 Cautions Used in Applying the Field Indicators of Hydric Soils .................................................... 5 3.0 RESULTS................................................................................................................................................... 6 3.1 WETLAND BASIN DESCRIPTIONS ......................................................................................................... 6 4.0 CONFIRMATION OF JURISDICTIONAL STATUS ........................................................................................ 7 5.0 CERTIFICATION ........................................................................................................................................ 7 Appendices Appendix A Antecedent Precipitation Data Appendix B Sample Data Sheets Appendix C Site Photographs Appendix D Wetland Type and Boundary Approval Forms Figures Figure 1 Site Location Map Figure 2 National Wetland Inventory Map Figure 3 Soils Map Figure 4 Public Waters Inventory Map Figure 5 Delineation Map Figure 6 Topographic Map Figure 7 Hydric rating Map Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 2 1.0 SUMMARY Jacobson Environmental, PLLC (JE) visited the project site at PID # 2103220420004 on 9/23/2020. The site was approximately 22.55 acres in size, and was located at 12937 Mayberry Trail N, Scandia, Minnesota. See Figure 1 for a Site Location Map. The purpose of the investigation was to identify areas within the project boundary meeting the technical criteria for wetlands, delineate the jurisdictional extent of the wetland basins, and classify the wetland habitat according to the 1987 U.S. Army Corps of Engineers Wetland Delineation Manual and the 2012 Regional Supplement to the Corps of Engineers Wetland Delineation: Northcentral and Northeast Region. Wetlands are areas that are saturated or inundated with surface and or groundwater at a frequency and duration sufficient to support, and that under normal circumstances do support, a prevalence of vegetation typically adapted for life in hydric soil conditions. Examples of wetlands include seasonally flooded basins, floodplain forests, wet meadows, shallow and deep marshes, shrub swamps, wooded swamps, fens, and bogs. Wetland boundaries were determined through a routine analysis of the vegetation, soils and hydrology which must all show wetland characteristics for an area to be delineated as a wetland. Two wetland basins were delineated within the project area, which are summarized below and shown on Figure 5. Basin ID Circular 39 Cowardin Eggers & Reed Dominant Vegetation Size (acres) 1 Type 5/4 L2ABH Shallow open water/deep marsh fringe Red Maple, Common Buckthorn, Reed Canary Grass and Tussock Sedge 1.837 2 Type 2 PEMB Wet meadow Lake Sedge and Beggarticks 0.524 All figures and appendices referenced by this report are presented at the end of the text. This wetland delineation was performed by Jacobson Environmental, PLLC under the direction of Wayne Jacobson, Minnesota Professional Soil Scientist #30611, Society of Wetland Scientists – Professional Wetland Scientist #1000, University of Minnesota / BWSR Wetland Delineator, Certified #1019, American Fisheries Society – Associate Fisheries Scientist #A-171. Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 3 2.0 METHODS 2.1 EXISTING INFORMATION REVIEW Prior to field delineation, Jacobson Environmental reviewed the following information: 2.1.1 Antecedent Precipitation The previous three month’s precipitation data obtained from the Minnesota State Climatology Office suggest that the sampling period occurred under dry conditions. Antecedent precipitation data can be found in Appendix A. The growing season in this area is approximately from mid-April to mid-October, when the air temperature averages above 28 degrees F. This delineation was completed during the growing season. 2.1.2 National Wetlands Inventory The National Wetlands Inventory (NWI) identified L2ABH and PEM1C wetland complexes within the property boundary (Figure 2). 2.1.3 Web Soil Survey The National Resource Conservation Service Web Soil Survey (Figure 7) identified the following soils: Soil Hydric Rating Santiago silt loam, 2-6% slopes 0 Santiago silt loam, 6-15% slopes 0 Freeon silt loam, 2-6% slopes 3 Kingsley sandy loam, 6-12% slopes 0 Crystal Lake silt loam, 0-3% slopes 3 Crystal Lake silt loam, 1-6% slopes 3 Comstock silt loam, 0-3% slopes 5 Barronett silt loam 92 2.1.4 Public Waters Inventory The Minnesota Department of Natural Resources Public Waters Inventory shows that one public water exists on the property with an OHW of 951.0’ (Figure 4). 2.1.5 Topographic Map Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 4 A topographic map with aerial photo overlay was obtained from MNTOPO (Figure 6). This map was reviewed for suspected wetland areas based on topography and vegetative cover. 2.2 FIELD DELINEATION The wetlands on the subject property were delineated using the routine determination methodology set forth in the 1987 U.S. Army Corps of Engineers Wetlands Delineation Manual and the 2012 Regional Supplement to the Corps of Engineers Wetland Delineation: Northcentral and Northeast Region as follows: 1) The vegetative community was sampled in all present strata to determine whether 50% of the dominant plant species were hydrophytic using the 50/20 method. 2) Soil pits were dug using a Dutch auger to depths of 18”-40”, noting soil profiles and any hydric soil characteristics. 3) Signs of wetland hydrology were noted and were compared to field criteria such as depth to shallow water table and depth of soil saturation found in the soil pits. Transects were established in representative areas of each wetland. Each transect consisted of one sample point within the wetland and one sample point in upland. Other areas which have one or more of the wetland vegetation, soils, or hydrologic characteristics present, or where questionable conditions exist may also have been sampled. Data sheets for each sample point are available in Appendix B. Wetland classifications discussed in the text are set forth in Wetlands and Deepwater Habitats of the United States (FWS/OBS Publication 79/31, Cowardin et al. 1979) and Wetlands of the United States (USFWS Circular 39, Shaw and Fredine, 1971.) Additionally, plant community types as named by Eggers and Reed (1998) are given. Wetland edges were marked with orange numbered pin flags. 4-foot wood lath marked with orange “wetland boundary” flagging tape or flagging tied on vegetation may be used if site conditions warrant. Sample points are marked with orange numbered pin flags. Any wetlands or sample points were mapped using GPS. 2.2.1 Vegetation The plant species within the parcel were cataloged and assigned a wetland indicator status according to: Lichvar, R.W., D.L. Banks, W.N. Kirchner, and N.C. Melvin, 2016. The National Wetland Plant List: 2016 Wetland Ratings, Phytoneuron 2016-30: 1-17. In the text of this report and on the enclosed data forms, the plant indicator status follows the plant’s scientific name unless a status has not been assigned. The hydrophytic plant criterion is met when more than 50 percent of the dominant species by the 50/20 rule for each stratum (herb, shrub/sapling, tree, and Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 5 woody vine) were assigned an obligate (OBL)1, facultative wet (FACW), and/or facultative (FAC) wetland status. With the 50/20 rule, dominants are generally measured by absolute % cover in each stratum which individually or collectively account for more than 50% of total vegetative cover in the stratum, plus any other species which itself accounts for at least 20% of the total vegetative cover. 2.2.2 Hydric Soils A hydric soil is a soil formed under conditions of saturation, flooding, or ponding long enough during the growing season to develop anaerobic conditions in the upper part. If a soil exhibits the indicators of a hydric soil or is identified as a hydric soil the hydric soil criterion is met. The break between hydric and non-hydric soils was determined by excavating soil pits along transects crossing the wetland/upland eco-tone and evaluating the soil colors, textures, and presence or absence of redoximorphic indicators (i.e., mottles, gley or oxidized rhizospheres). Hydric Soil Indicators for the Northcentral and Northeast Region were noted as presented in the National Technical Committee for Hydric Soils Field Indicators of Hydric Soils in the United States version 8.1 (USDA NRCS 2017) if present at each sample point. Upper soil profiles were also compared to the mapped or inclusionary soil series found in the sample area for soil identification purposes. 2.2.3 Cautions Used in Applying the Field Indicators of Hydric Soils There are hydric soils with morphologies that are difficult to interpret. These include soils with black, gray, or red parent material; soils with high pH; soils high or low in content of organic matter; recently developed hydric soils, and soils high in iron inputs. In some cases, we do not currently have indicators to assist in the identification of hydric soils in these situations. If the soil meets the definition of a hydric soil, the lack of an indicator does not preclude the soil from being hydric. The indicators were developed mostly to identify the boundary of hydric soil areas and generally work best on the margins. Not all the obviously wetter hydric soils will be identified by the indicators. Redoximorphic features are most likely to occur in soils that cycle between anaerobic (reduced) and aerobic (oxidized) conditions. Morphological features of hydric soils indicate that saturation and anaerobic conditions have existed under either contemporary or former hydrologic regimes. Where soil morphology seems inconsistent with the landscape, vegetation, or observable hydrology, it may be necessary to obtain the assistance of an experienced soil or wetland scientist to determine whether the soil is hydric. To clarify, when investigating hydric soils in this area, one must consider the following:  Many of these soils have black or gray parent materials. 1 OBL=Obligate Wetland, occurs an estimated 99% in wetlands. FACW=Facultative Wetland, has an estimated 67%-99% probability of occurrence in wetlands. FAC=Facultative, is equally likely to occur in wetlands and non-wetlands, 34%-66% probability. FACU=Facultative Upland, occurs in wetlands only occasionally, 1%-23% probability. UPL=Upland, almost never occurs in wetlands, <1% probability. NI= No Indicator, insufficient information available to determine an indicator status. Positive or negative sign previously indicated a frequency toward higher (+) or lower (-) frequency of occurrence within a category. Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 6  Many of the soils have a high organic matter content.  The hydric soil margin is typically higher than the wetland boundary margin on the site.  Not all the obviously wetter soils will be identified by the indicators.  Many of the hydric soils are Mollisols which are classic problem hydric soils in many cases. 3.0 RESULTS 3.1 WETLAND BASIN DESCRIPTIONS Basin 1 Basin 1 was an approximately 1.837-acre, Type 5/4, L2ABH, shallow open water/deep marsh fringe wetland. The basin was dominated by Red Maple, Common Buckthorn, Reed Canary Grass and Tussock Sedge. Other species of hydrophytic vegetation that were observed and not sampled were Jewelweed, White Water Lily, Yellow Water Lily, Watershield, Arrow-Leaf Tearthumb, River Bulrush, Narrowleaf Cattail and Water Smartweed. Hydrology indicators included A1 (surface water), A2 (high water table), A3 (saturation) and B13 (aquatic fauna). Wetland soils met indicator F3 (depleted matrix). Adjacent upland was typically dominated by Red Maple and Common Buckthorn. Primary hydrology indicators were not observed at the upland sample point, and no hydric soil indicators were found in the upland sample point soil. The wetland boundary followed a change in vegetation from wetland to upland plant communities, as well as a distinct change in topography. The basin was shown as a L2ABH wetland on the NWI map (Figure 2) and was located within an area mapped as Barronett silt loam (RATING=92) by the Web Soil Survey (Figure 7). Sample data sheets 1-UP and 1-WET in Appendix B correspond to this basin. Basin 2 Basin 2 was an approximately 0.524-acre, Type 2, PEMB, wet meadow wetland. The basin was dominated by Lake Sedge and Beggarticks. Other species of hydrophytic vegetation that were observed and not sampled were Lesser Duckweed, Arrow-Leaf Tearthumb, Wool Grass and Broadleaf Arrowhead. Hydrology indicators included A2 (high water table) and A3 (saturation). Wetland soils met indicator F3 (depleted matrix). Jacobson Environmental, PLLC www.jacobsonenvironmental.com Environmental Consultants Wayne Jacobson, P.S.S., W.D.C., P.W.S., A.F.S. ------------------------------------------------------------------------------------------------------------ 5821 Humboldt Avenue North, Brooklyn Center, MN 55430 (612) 802-6619 Cell Email: jacobsonenv@msn.com Wetland Delineation-Mitigation-Permitting-Monitoring-Banking-Functional Analysis-T & E Surveys Phase I Environmental Assessments-EAW’s-Soil ID-Soil Analysis & Delineation-Environmental Referrals Pond & Lake Weed Control & Fish Stocking-Tree Surveys-Natural Resource Management Plans 7 Adjacent upland was typically dominated by Red Maple and Common Buckthorn. Primary hydrology indicators were not observed at the upland sample point, and no hydric soil indicators were found in the upland sample point soil. The wetland boundary followed a change in vegetation from wetland to upland plant communities, as well as a slight change in topography. The basin was shown as a L2ABH wetland on the NWI map (Figure 2) and was located within an area mapped as Santiago silt loam (RATING=0) by the Web Soil Survey (Figure 7). Sample data sheets 2-UP and 2-WET in Appendix B correspond to this basin. 4.0 CONFIRMATION OF JURISDICTIONAL STATUS Jacobson Environmental is submitting this report to the client and regulatory agencies to request a wetland boundary and type determination. We have enclosed an official WCA Approval of Wetland Type and Boundary form in Appendix D along with a USCOE wetland delineation concurrence request. 5.0 CERTIFICATION I certify that this wetland delineation meets the standards and criteria described in the 1987 U.S. Army Corps of Engineers Wetland Delineation Manual and the 2012 Regional Supplement to the Corps of Engineers Wetland Delineation: Northcentral and Northeast Region. This was a Routine On-Site Determination and the results reflect the conditions present at the time of the delineation. I certify that this report has been prepared in accordance with regulatory standards. Thank you for the opportunity to provide wetland services on this important project. If any wetland impacts are planned for this project, permits would be necessary from the LGU and other agencies. Staff Scientist Wetland Delineator In-Training #5305 Jacobson Environmental, PLLC. 9/28/2020 Figures Appendix A Antecedent Precipitation Data Appendix B Sample Data Sheets Slope (%): NWI Classification: Are climatic/hydrologic conditions of the site typical for this time of the year? Are vegetation , soil , or hydrology significantly disturbed? Are vegetation , soil , or hydrology naturally problematic? (If needed, explain any answers in remarks) Hydrophytic vegetation present?Is the sampled area within a wetland? Hydric soil present? Indicators of wetland hydrology present? If yes, optional wetland site ID: Remarks: (Explain alternative procedures here or in a separate report.) Primary Indicators (minimum of one is required; check all that apply) Describe recorded data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: According to the antecedent precipitation data, the period was drier than normal. (includes capillary fringe) Field Observations: Surface water present? Water table present? Saturation present? Depth (inches):Yes X Depth (inches): >24 Yes X -Depth (inches): Other (Explain in Remarks) Sparsely Vegetated Concave Surface (B8) WETLAND DETERMINATION DATA FORM - Northcentral and Northeast Region >24 Yes N HYDROLOGY No Microtopographic Relief (D4) FAC-Neutral Test (D5) No Indicators of wetland hydrology present?N Secondary Indicators (minimum of two required) Surface Soil Cracks (B6) none convex Drainage Patterns (B10) No X SUMMARY OF FINDINGS N N Y High Water Table (A2) Surface Water (A1) Aquatic Fauna (B13) Water-Stained Leaves (B9) Water Marks (B1) Saturation (A3) Saturation Visible on Aerial Imagery (C9) Iron Deposits (B5)Recent Iron Reduction in Tilled Soils (C6) Oxidized Rhizospheres on Living Roots (C3) Hydrogen Sulfide Odor (C1) Algal Mat or Crust (B4) Thin Muck Surface (C7) Inundation Visible on Aerial Imagery (B7) Marl Deposits (B15) Drift Deposits (B3) Sediment Deposits (B2) Presence of Reduced Iron (C4) Moss Trim Lines (B16) Shallow Aquitard (D3) Geomorphic Position (D2) Dry-Season Water Table (C2) Crayfish Burrows (C8) Stunted or Stressed Plants (D1) Investigator(s): CAM Section, Township, Range: Datum: Section 21, T32N, R20W (If no, explain in remarks) Are "normal circumstances" present? Landform (hillslope, terrace, etc.): Local relief (concave, convex, none):backslope 2 Long.: N Soil Map Unit Name:Barronett silt loam Lat.: Yes 9/23/2020Sampling Date:12937 Mayberry Trail N Delineation Richard & Elizabeth Sandstrom 1-UPSampling Point:MN Project/Site: City/County: Applicant/Owner: State: Scandia US Army Corps of Engineers Northcentral and Northeast Region 50/20 Thresholds Tree Stratum 1 Sapling/Shrub Stratum 2 Herb Stratum 3 Woody Vine Stratum 4 5 Dominance Test Worksheet 6 7 8 (A) 9 10 (B) =Total Cover (A/B) 1 Prevalence Index Worksheet 2 Total % Cover of: 3 OBL species x 1 = 4 FACW species x 2 = 5 FAC species x 3 = 6 FACU species x 4 = 7 UPL species x 5 = 8 Column totals (A)(B) 9 Prevalence Index = B/A = 10 =Total Cover Hydrophytic Vegetation Indicators: Rapid test for hydrophytic vegetation X Dominance test is >50% 1 Prevalence index is ≤3.0* 2 3 4 5 6 7 8 9 10 11 12 13 14 15 =Total Cover 1 2 3 4 5 = Total Cover Remarks: (Include photo numbers here or on a separate sheet) Y Hydrophytic vegetation present? *Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic Definitions of Vegetation Strata: Tree - Woody plants 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/shrub - Woody plants less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non-woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vines - All woody vines greater than 3.28 ft in height. 375 3 100.00% 3.13 3 110 15 0 Tree Stratum Plot Size ( 30 Acer rubrum 25 20 330 0 0 )Absolute % Cover Dominant Species Indicator Status 70 Y FAC Y FAC 70 Sapling/Shrub Stratum Plot Size ( 15 ) Absolute % Cover Dominant Species Indicator Status Rhamnus cathartica 20 20 Herb Stratum Plot Size ( 5 ) Absolute % Cover Dominant Species Indicator Status Rhamnus cathartica 20 Y FAC Ribes cynosbati 5 N FACU Carex pennsylvanica 5 N UPL Woody Vine Stratum Plot Size ( 30 ) Absolute % Cover Dominant Species 0 30 Sampling Point:1-UPVEGETATION - Use scientific names of plants Morphogical adaptations* (provide supporting data in Remarks or on a separate sheet) 0 Indicator Status Number of Dominant Species that are OBL, FACW, or FAC: Percent of Dominant Species that are OBL, FACW, or FAC: Total Number of Dominant Species Across all Strata: 0 0 120 5 5 65% bare ground/leaf litter Problematic hydrophytic vegetation* (explain) 50%20% 6 4 14 10 35 US Army Corps of Engineers Northcentral and Northeast Region Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Indicators for Problematic Hydric Soils: Histisol (A1)2 cm Muck (A10) (LRR K, L, MLRA 149B Histic Epipedon (A2)Coast Prairie Redox (A16) (LRR K, L, R) Black Histic (A3)5 cm Mucky Peat or Peat (S3) (LRR K, L, R) Hydrogen Sulfide (A4)Dark Surface (S7) (LRR K, L Stratified Layers (A5)Polyvalue Below Surface (S8) (LRR K, L) Depleted Below Dark Suface (A11)Thin Dark Surface (S9) (LRR K, L) Thick Dark Surface (A12)Loamy Gleyed Matrix (F2)Iron-Manganese Masses (F12) (LRR K, L, R) Sandy Mucky Mineral (S1)Depleted Matrix (F3)Piedmont Floodplain Soils (F19) (MLRA 149B) Sandy Gleyed Matrix (S4)Redox Dark Surface (F6)Mesic Spodic (TA6) (MLRA 144A, 145, 149B) Sandy Redox (S5)Depleted Dark Surface (F7)Red Parent Material (F21) Stripped Matrix (S6)Redox Depressions (F8)Very Shallow Dark Surface (TF12) Other (Explain in Remarks) *Indicators of hydrophytic vegetation and weltand hydrology must be present, unless disturbed or problematic Restrictive Layer (if observed): Remarks: Polyvalue Below Surface (S8) (LRR R, MLRA 149B) Thin Dark Surface (S9) (LRR R, MLRA 149B Loamy Mucky Mineral (F1) (LRR K, L) Dark Surface (S7) (LRR R, MLRA 149B) Depth (inches): NHydric soil present? Hydric Soil Indicators: Type: Sampling Point:1-UPSOIL *Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains **Location: PL=Pore Lining, M=Matrix 5 C PL Depth (Inches) Matrix %Color (moist) Color (moist) % Loc** 16-24 10YR5/1 95 7.5YR4/6 9-16 10YR4/3 RemarksType* Redox Features Texture sandy loam0-9 10010YR3/2 100 clay loam sandy clay loam US Army Corps of Engineers Northcentral and Northeast Region Slope (%): NWI Classification: Are climatic/hydrologic conditions of the site typical for this time of the year? Are vegetation , soil , or hydrology significantly disturbed? Are vegetation , soil , or hydrology naturally problematic? (If needed, explain any answers in remarks) Hydrophytic vegetation present?Is the sampled area within a wetland? Hydric soil present? Indicators of wetland hydrology present? If yes, optional wetland site ID: Remarks: (Explain alternative procedures here or in a separate report.) Primary Indicators (minimum of one is required; check all that apply) X X X X Describe recorded data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: According to the antecedent precipitation data, the period was drier than normal. (includes capillary fringe) Field Observations: Surface water present? Water table present? Saturation present? Depth (inches):Yes Depth (inches): +0.5 Yes 0.5Depth (inches): Other (Explain in Remarks) Sparsely Vegetated Concave Surface (B8) WETLAND DETERMINATION DATA FORM - Northcentral and Northeast Region +0.5 Yes X Y X HYDROLOGY NoX Microtopographic Relief (D4) FAC-Neutral Test (D5) No Indicators of wetland hydrology present?Y Secondary Indicators (minimum of two required) Surface Soil Cracks (B6) L2ABH concave Drainage Patterns (B10) No SUMMARY OF FINDINGS Y Y Y High Water Table (A2) Surface Water (A1) Aquatic Fauna (B13) Water-Stained Leaves (B9) Water Marks (B1) Saturation (A3) Saturation Visible on Aerial Imagery (C9) Iron Deposits (B5)Recent Iron Reduction in Tilled Soils (C6) Oxidized Rhizospheres on Living Roots (C3) Hydrogen Sulfide Odor (C1) Algal Mat or Crust (B4) Thin Muck Surface (C7) Inundation Visible on Aerial Imagery (B7) Marl Deposits (B15) Drift Deposits (B3) Sediment Deposits (B2) Presence of Reduced Iron (C4) Moss Trim Lines (B16) Shallow Aquitard (D3) Geomorphic Position (D2) Dry-Season Water Table (C2) Crayfish Burrows (C8) Stunted or Stressed Plants (D1) Investigator(s): CAM Section, Township, Range: Datum: Section 21, T32N, R20W (If no, explain in remarks) Are "normal circumstances" present? Landform (hillslope, terrace, etc.): Local relief (concave, convex, none):depression 2 Long.: N Soil Map Unit Name:Barronett silt loam Lat.: Yes 9/23/2020Sampling Date:12937 Mayberry Trail N Delineation Richard & Elizabeth Sandstrom 1-WETSampling Point:MN Project/Site: City/County: Applicant/Owner: State: Scandia US Army Corps of Engineers Northcentral and Northeast Region 50/20 Thresholds Tree Stratum 1 Sapling/Shrub Stratum 2 Herb Stratum 3 Woody Vine Stratum 4 5 Dominance Test Worksheet 6 7 8 (A) 9 10 (B) =Total Cover (A/B) 1 Prevalence Index Worksheet 2 Total % Cover of: 3 OBL species x 1 = 4 FACW species x 2 = 5 FAC species x 3 = 6 FACU species x 4 = 7 UPL species x 5 = 8 Column totals (A)(B) 9 Prevalence Index = B/A = 10 =Total Cover Hydrophytic Vegetation Indicators: Rapid test for hydrophytic vegetation X Dominance test is >50% 1 X Prevalence index is ≤3.0* 2 3 4 5 6 7 8 9 10 11 12 13 14 15 =Total Cover 1 2 3 4 5 = Total Cover Remarks: (Include photo numbers here or on a separate sheet) Y Hydrophytic vegetation present? *Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic Definitions of Vegetation Strata: Tree - Woody plants 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/shrub - Woody plants less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non-woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vines - All woody vines greater than 3.28 ft in height. 285 4 100.00% 2.11 4 50 43 0 Tree Stratum Plot Size ( 30 Acer rubrum 0 0 150 100 35 )Absolute % Cover Dominant Species Indicator Status 40 Y FAC Y FAC 40 Sapling/Shrub Stratum Plot Size ( 15 ) Absolute % Cover Dominant Species Indicator Status Rhamnus cathartica 10 10 Herb Stratum Plot Size ( 5 ) Absolute % Cover Dominant Species Indicator Status Phalaris arundinacea 50 Y FACW Carex stricta 35 Y OBL Woody Vine Stratum Plot Size ( 30 ) Absolute % Cover Dominant Species 0 85 Sampling Point:1-WETVEGETATION - Use scientific names of plants Morphogical adaptations* (provide supporting data in Remarks or on a separate sheet) 0 Indicator Status Number of Dominant Species that are OBL, FACW, or FAC: Percent of Dominant Species that are OBL, FACW, or FAC: Total Number of Dominant Species Across all Strata: 50 35 135 0 0 10% water Problematic hydrophytic vegetation* (explain) 50%20% 17 2 8 5 20 US Army Corps of Engineers Northcentral and Northeast Region Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Indicators for Problematic Hydric Soils: Histisol (A1)2 cm Muck (A10) (LRR K, L, MLRA 149B Histic Epipedon (A2)Coast Prairie Redox (A16) (LRR K, L, R) Black Histic (A3)5 cm Mucky Peat or Peat (S3) (LRR K, L, R) Hydrogen Sulfide (A4)Dark Surface (S7) (LRR K, L Stratified Layers (A5)Polyvalue Below Surface (S8) (LRR K, L) Depleted Below Dark Suface (A11)Thin Dark Surface (S9) (LRR K, L) Thick Dark Surface (A12)Loamy Gleyed Matrix (F2)Iron-Manganese Masses (F12) (LRR K, L, R) Sandy Mucky Mineral (S1)X Depleted Matrix (F3)Piedmont Floodplain Soils (F19) (MLRA 149B) Sandy Gleyed Matrix (S4)Redox Dark Surface (F6)Mesic Spodic (TA6) (MLRA 144A, 145, 149B) Sandy Redox (S5)Depleted Dark Surface (F7)Red Parent Material (F21) Stripped Matrix (S6)Redox Depressions (F8)Very Shallow Dark Surface (TF12) Other (Explain in Remarks) *Indicators of hydrophytic vegetation and weltand hydrology must be present, unless disturbed or problematic Restrictive Layer (if observed): Remarks: Polyvalue Below Surface (S8) (LRR R, MLRA 149B) Thin Dark Surface (S9) (LRR R, MLRA 149B Loamy Mucky Mineral (F1) (LRR K, L) Dark Surface (S7) (LRR R, MLRA 149B) Depth (inches): YHydric soil present? Hydric Soil Indicators: Type: Sampling Point:1-WETSOIL *Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains **Location: PL=Pore Lining, M=Matrix 5 C PL Depth (Inches) Matrix %Color (moist) Color (moist) % Loc** 8-24 10YR5/1 95 7.5YR4/6 3-8 10YR4/1 RemarksType* Redox Features Texture mucky clay loam0-3 10010YR4/1 100 clay loam clay loam US Army Corps of Engineers Northcentral and Northeast Region Slope (%): NWI Classification: Are climatic/hydrologic conditions of the site typical for this time of the year? Are vegetation , soil , or hydrology significantly disturbed? Are vegetation , soil , or hydrology naturally problematic? (If needed, explain any answers in remarks) Hydrophytic vegetation present?Is the sampled area within a wetland? Hydric soil present? Indicators of wetland hydrology present? If yes, optional wetland site ID: Remarks: (Explain alternative procedures here or in a separate report.) Primary Indicators (minimum of one is required; check all that apply) Describe recorded data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: According to the antecedent precipitation data, the period was drier than normal. (includes capillary fringe) Field Observations: Surface water present? Water table present? Saturation present? Depth (inches):Yes X Depth (inches): >24 Yes X -Depth (inches): Other (Explain in Remarks) Sparsely Vegetated Concave Surface (B8) WETLAND DETERMINATION DATA FORM - Northcentral and Northeast Region >24 Yes N HYDROLOGY No Microtopographic Relief (D4) FAC-Neutral Test (D5) No Indicators of wetland hydrology present?N Secondary Indicators (minimum of two required) Surface Soil Cracks (B6) none convex Drainage Patterns (B10) No X SUMMARY OF FINDINGS N N Y High Water Table (A2) Surface Water (A1) Aquatic Fauna (B13) Water-Stained Leaves (B9) Water Marks (B1) Saturation (A3) Saturation Visible on Aerial Imagery (C9) Iron Deposits (B5)Recent Iron Reduction in Tilled Soils (C6) Oxidized Rhizospheres on Living Roots (C3) Hydrogen Sulfide Odor (C1) Algal Mat or Crust (B4) Thin Muck Surface (C7) Inundation Visible on Aerial Imagery (B7) Marl Deposits (B15) Drift Deposits (B3) Sediment Deposits (B2) Presence of Reduced Iron (C4) Moss Trim Lines (B16) Shallow Aquitard (D3) Geomorphic Position (D2) Dry-Season Water Table (C2) Crayfish Burrows (C8) Stunted or Stressed Plants (D1) Investigator(s): CAM Section, Township, Range: Datum: Section 21, T32N, R20W (If no, explain in remarks) Are "normal circumstances" present? Landform (hillslope, terrace, etc.): Local relief (concave, convex, none):backslope 2 Long.: N Soil Map Unit Name:Santiago silt loam Lat.: Yes 9/23/2020Sampling Date:12937 Mayberry Trail N Delineation Richard & Elizabeth Sandstrom 2-UPSampling Point:MN Project/Site: City/County: Applicant/Owner: State: Scandia US Army Corps of Engineers Northcentral and Northeast Region 50/20 Thresholds Tree Stratum 1 Sapling/Shrub Stratum 2 Herb Stratum 3 Woody Vine Stratum 4 5 Dominance Test Worksheet 6 7 8 (A) 9 10 (B) =Total Cover (A/B) 1 Prevalence Index Worksheet 2 Total % Cover of: 3 OBL species x 1 = 4 FACW species x 2 = 5 FAC species x 3 = 6 FACU species x 4 = 7 UPL species x 5 = 8 Column totals (A)(B) 9 Prevalence Index = B/A = 10 =Total Cover Hydrophytic Vegetation Indicators: Rapid test for hydrophytic vegetation X Dominance test is >50% 1 X Prevalence index is ≤3.0* 2 3 4 5 6 7 8 9 10 11 12 13 14 15 =Total Cover 1 2 3 4 5 = Total Cover Remarks: (Include photo numbers here or on a separate sheet) Y Hydrophytic vegetation present? *Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic Definitions of Vegetation Strata: Tree - Woody plants 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/shrub - Woody plants less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non-woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vines - All woody vines greater than 3.28 ft in height. 390 3 100.00% 3.00 3 130 25 0 Tree Stratum Plot Size ( 30 Acer rubrum 0 0 390 0 0 )Absolute % Cover Dominant Species Indicator Status 50 Y FAC Y FAC 50 Sapling/Shrub Stratum Plot Size ( 15 ) Absolute % Cover Dominant Species Indicator Status Rhamnus cathartica 30 30 Herb Stratum Plot Size ( 5 ) Absolute % Cover Dominant Species Indicator Status Rhamnus cathartica 50 Y FAC Woody Vine Stratum Plot Size ( 30 ) Absolute % Cover Dominant Species 0 50 Sampling Point:2-UPVEGETATION - Use scientific names of plants Morphogical adaptations* (provide supporting data in Remarks or on a separate sheet) 0 Indicator Status Number of Dominant Species that are OBL, FACW, or FAC: Percent of Dominant Species that are OBL, FACW, or FAC: Total Number of Dominant Species Across all Strata: 0 0 130 0 0 45% bare ground/leaf litter Problematic hydrophytic vegetation* (explain) 50%20% 10 6 10 15 25 US Army Corps of Engineers Northcentral and Northeast Region Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Indicators for Problematic Hydric Soils: Histisol (A1)2 cm Muck (A10) (LRR K, L, MLRA 149B Histic Epipedon (A2)Coast Prairie Redox (A16) (LRR K, L, R) Black Histic (A3)5 cm Mucky Peat or Peat (S3) (LRR K, L, R) Hydrogen Sulfide (A4)Dark Surface (S7) (LRR K, L Stratified Layers (A5)Polyvalue Below Surface (S8) (LRR K, L) Depleted Below Dark Suface (A11)Thin Dark Surface (S9) (LRR K, L) Thick Dark Surface (A12)Loamy Gleyed Matrix (F2)Iron-Manganese Masses (F12) (LRR K, L, R) Sandy Mucky Mineral (S1)Depleted Matrix (F3)Piedmont Floodplain Soils (F19) (MLRA 149B) Sandy Gleyed Matrix (S4)Redox Dark Surface (F6)Mesic Spodic (TA6) (MLRA 144A, 145, 149B) Sandy Redox (S5)Depleted Dark Surface (F7)Red Parent Material (F21) Stripped Matrix (S6)Redox Depressions (F8)Very Shallow Dark Surface (TF12) Other (Explain in Remarks) *Indicators of hydrophytic vegetation and weltand hydrology must be present, unless disturbed or problematic Restrictive Layer (if observed): Remarks: Polyvalue Below Surface (S8) (LRR R, MLRA 149B) Thin Dark Surface (S9) (LRR R, MLRA 149B Loamy Mucky Mineral (F1) (LRR K, L) Dark Surface (S7) (LRR R, MLRA 149B) Depth (inches): NHydric soil present? Hydric Soil Indicators: Type: Sampling Point:2-UPSOIL *Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains **Location: PL=Pore Lining, M=Matrix Depth (Inches) Matrix %Color (moist) Color (moist) % Loc** 7-24 10YR5/2 RemarksType* Redox Features Texture sandy loam0-7 10010YR4/3 100 sandy loam US Army Corps of Engineers Northcentral and Northeast Region Slope (%): NWI Classification: Are climatic/hydrologic conditions of the site typical for this time of the year? Are vegetation , soil , or hydrology significantly disturbed? Are vegetation , soil , or hydrology naturally problematic? (If needed, explain any answers in remarks) Hydrophytic vegetation present?Is the sampled area within a wetland? Hydric soil present? Indicators of wetland hydrology present? If yes, optional wetland site ID: Remarks: (Explain alternative procedures here or in a separate report.) Primary Indicators (minimum of one is required; check all that apply) X X Describe recorded data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: According to the antecedent precipitation data, the period was drier than normal. (includes capillary fringe) Field Observations: Surface water present? Water table present? Saturation present? Depth (inches):Yes Depth (inches): 0 Yes X -Depth (inches): Other (Explain in Remarks) Sparsely Vegetated Concave Surface (B8) WETLAND DETERMINATION DATA FORM - Northcentral and Northeast Region 8 Yes X Y X HYDROLOGY No Microtopographic Relief (D4) FAC-Neutral Test (D5) No Indicators of wetland hydrology present?Y Secondary Indicators (minimum of two required) Surface Soil Cracks (B6) PEMB concave Drainage Patterns (B10) No SUMMARY OF FINDINGS Y Y Y High Water Table (A2) Surface Water (A1) Aquatic Fauna (B13) Water-Stained Leaves (B9) Water Marks (B1) Saturation (A3) Saturation Visible on Aerial Imagery (C9) Iron Deposits (B5)Recent Iron Reduction in Tilled Soils (C6) Oxidized Rhizospheres on Living Roots (C3) Hydrogen Sulfide Odor (C1) Algal Mat or Crust (B4) Thin Muck Surface (C7) Inundation Visible on Aerial Imagery (B7) Marl Deposits (B15) Drift Deposits (B3) Sediment Deposits (B2) Presence of Reduced Iron (C4) Moss Trim Lines (B16) Shallow Aquitard (D3) Geomorphic Position (D2) Dry-Season Water Table (C2) Crayfish Burrows (C8) Stunted or Stressed Plants (D1) Investigator(s): CAM Section, Township, Range: Datum: Section 21, T32N, R20W (If no, explain in remarks) Are "normal circumstances" present? Landform (hillslope, terrace, etc.): Local relief (concave, convex, none):depression 2 Long.: N Soil Map Unit Name:Santiago silt loam Lat.: Yes 9/23/2020Sampling Date:12937 Mayberry Trail N Delineation Richard & Elizabeth Sandstrom 2-WETSampling Point:MN Project/Site: City/County: Applicant/Owner: State: Scandia US Army Corps of Engineers Northcentral and Northeast Region 50/20 Thresholds Tree Stratum 1 Sapling/Shrub Stratum 2 Herb Stratum 3 Woody Vine Stratum 4 5 Dominance Test Worksheet 6 7 8 (A) 9 10 (B) =Total Cover (A/B) 1 Prevalence Index Worksheet 2 Total % Cover of: 3 OBL species x 1 = 4 FACW species x 2 = 5 FAC species x 3 = 6 FACU species x 4 = 7 UPL species x 5 = 8 Column totals (A)(B) 9 Prevalence Index = B/A = 10 =Total Cover Hydrophytic Vegetation Indicators: Rapid test for hydrophytic vegetation X Dominance test is >50% 1 X Prevalence index is ≤3.0* 2 3 4 5 6 7 8 9 10 11 12 13 14 15 =Total Cover 1 2 3 4 5 = Total Cover Remarks: (Include photo numbers here or on a separate sheet) Y Hydrophytic vegetation present? *Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic Definitions of Vegetation Strata: Tree - Woody plants 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/shrub - Woody plants less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non-woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vines - All woody vines greater than 3.28 ft in height. 280 4 100.00% 1.81 4 60 48 0 Tree Stratum Plot Size ( 30 30 Acer rubrum Populus tremuloides 0 0 180 10 90 )Absolute % Cover Dominant Species Indicator Status 30 Y Y FAC FAC 60 Sapling/Shrub Stratum Plot Size ( 15 ) Absolute % Cover Dominant Species Indicator Status 0 Herb Stratum Plot Size ( 5 ) Absolute % Cover Dominant Species Indicator Status Carex lacustris 45 Y OBL Bidens cernua 45 Y OBL Phalaris arundinacea 5 N FACW Woody Vine Stratum Plot Size ( 30 ) Absolute % Cover Dominant Species 0 95 Sampling Point:2-WETVEGETATION - Use scientific names of plants Morphogical adaptations* (provide supporting data in Remarks or on a separate sheet) 0 Indicator Status Number of Dominant Species that are OBL, FACW, or FAC: Percent of Dominant Species that are OBL, FACW, or FAC: Total Number of Dominant Species Across all Strata: 5 90 155 0 0 Problematic hydrophytic vegetation* (explain) 50%20% 19 0 12 0 30 US Army Corps of Engineers Northcentral and Northeast Region Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Indicators for Problematic Hydric Soils: Histisol (A1)2 cm Muck (A10) (LRR K, L, MLRA 149B Histic Epipedon (A2)Coast Prairie Redox (A16) (LRR K, L, R) Black Histic (A3)5 cm Mucky Peat or Peat (S3) (LRR K, L, R) Hydrogen Sulfide (A4)Dark Surface (S7) (LRR K, L Stratified Layers (A5)Polyvalue Below Surface (S8) (LRR K, L) Depleted Below Dark Suface (A11)Thin Dark Surface (S9) (LRR K, L) Thick Dark Surface (A12)Loamy Gleyed Matrix (F2)Iron-Manganese Masses (F12) (LRR K, L, R) Sandy Mucky Mineral (S1)X Depleted Matrix (F3)Piedmont Floodplain Soils (F19) (MLRA 149B) Sandy Gleyed Matrix (S4)Redox Dark Surface (F6)Mesic Spodic (TA6) (MLRA 144A, 145, 149B) Sandy Redox (S5)Depleted Dark Surface (F7)Red Parent Material (F21) Stripped Matrix (S6)Redox Depressions (F8)Very Shallow Dark Surface (TF12) Other (Explain in Remarks) *Indicators of hydrophytic vegetation and weltand hydrology must be present, unless disturbed or problematic Restrictive Layer (if observed): Remarks: Polyvalue Below Surface (S8) (LRR R, MLRA 149B) Thin Dark Surface (S9) (LRR R, MLRA 149B Loamy Mucky Mineral (F1) (LRR K, L) Dark Surface (S7) (LRR R, MLRA 149B) Depth (inches): YHydric soil present? Hydric Soil Indicators: Type: Sampling Point:2-WETSOIL *Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains **Location: PL=Pore Lining, M=Matrix 5 C PL Depth (Inches) Matrix %Color (moist) Color (moist) % Loc** 8-24 10YR5/1 95 7.5YR4/6 4-8 10YR5/1 RemarksType* Redox Features Texture sandy clay loam0-4 10010YR4/1 100 clay loam clay loam US Army Corps of Engineers Northcentral and Northeast Region Appendix C Site Photographs 1-Representative 1-UP 1-WET 2-Representative 2-UP 2-WET Appendix D Wetland Type and Boundary Approval Forms Minnesota Interagency Water Resource Application Form February 2014 Page 3 of 11 Project Name and/or Number: 2020-313 PART ONE: Applicant Information If applicant is an entity (company, government entity, partnership, etc.), an authorized contact person must be identified. If the applicant is using an agent (consultant, lawyer, or other third party) and has authorized them to act on their behalf, the agent’s contact information must also be provided. Applicant/Landowner Name: Richard & Elizabeth Sandstrom Mailing Address: 12959 Mayberry Trail N, Scandia, MN 55073 Phone: E-mail Address: Authorized Contact (do not complete if same as above): Matt Olson Mailing Address: Phone: E-mail Address: matt_olson_94@msn.com Agent Name: Wayne Jacobson, WDC, PSS Jacobson Environmental Mailing Address: 5821 Humboldt Ave N Brooklyn Center, MN 55430 Phone: 612-802-6619 E-mail Address: jacobsonenv@msn.com PART TWO: Site Location Information County: Washington City/Township: Scandia Parcel ID and/or Address: 2103220420004 12937 Mayberry Trail N, Scandia, MN 55073 Legal Description (Section, Township, Range): Section 21, T32N, R20W Lat/Long (decimal degrees): Attach a map showing the location of the site in relation to local streets, roads, highways. Approximate size of site (acres) or if a linear project, length (feet): 22.55 acres If you know that your proposal will require an individual Permit from the U.S. Army Corps of Engineers, you must provide the names and addresses of all property owners adjacent to the project site. This information may be provided by attaching a list to your application or by using block 25 of the Application for Department of the Army permit which can be obtained at: http://www.mvp.usace.army.mil/Portals/57/docs/regulatory/RegulatoryDocs/engform_4345_2012oct.pdf PART THREE: General Project/Site Information If this application is related to a delineation approval, exemption determination, jurisdictional determination, or other correspondence submitted prior to this application then describe that here and provide the Corps of Engineers project number. Describe the project that is being proposed, the project purpose and need, and schedule for implementation and completion. The project description must fully describe the nature and scope of the proposed activity including a description of all project elements that effect aquatic resources (wetland, lake, tributary, etc.) and must also include plans and cross section or profile drawings showing the location, character, and dimensions of all proposed activities and aquatic resource impacts. Minnesota Interagency Water Resource Application Form February 2014 Page 4 of 11 Project Name and/or Number: 2020-313 PART FOUR: Aquatic Resource Impact1 Summary If your proposed project involves a direct or indirect impact to an aquatic resource (wetland, lake, tributary, etc.) identify each impact in the table below. Include all anticipated impacts, including those expected to be temporary. Attach an overhead view map, aerial photo, and/or drawing showing all of the aquatic resources in the project area and the location(s) of the proposed impacts. Label each aquatic resource on the map with a reference number or letter and identify the impacts in the following table. Aquatic Resource ID (as noted on overhead view) Aquatic Resource Type (wetland, lake, tributary etc.) Type of Impact (fill, excavate, drain, or remove vegetation) Duration of Impact Permanent (P) or Temporary (T)1 Size of Impact2 Overall Size of Aquatic Resource 3 Existing Plant Community Type(s) in Impact Area4 County, Major Watershed #, and Bank Service Area # of Impact Area5 1If impacts are temporary; enter the duration of the impacts in days next to the “T”. For example, a project with a temporary access fill that would be removed after 220 days would be entered “T (220)”. 2Impacts less than 0.01 acre should be reported in square feet. Impacts 0.01 acre or greater should be reported as acres and rounded to the nearest 0.01 acre. Tributary impacts must be reported in linear feet of impact and an area of impact by indicating first the linear feet of impact along the flowline of the stream followed by the area impact in parentheses). For example, a project that impacts 50 feet of a stream that is 6 feet wide would be reported as 50 ft (300 square feet). 3This is generally only applicable if you are applying for a de minimis exemption under MN Rules 8420.0420 Subp. 8, otherwise enter “N/A”. 4Use Wetland Plants and Plant Community Types of Minnesota and Wisconsin 3rd Ed. as modified in MN Rules 8420.0405 Subp. 2. 5Refer to Major Watershed and Bank Service Area maps in MN Rules 8420.0522 Subp. 7. If any of the above identified impacts have already occurred, identify which impacts they are and the circumstances associated with each: PART FIVE: Applicant Signature Check here if you are requesting a pre-application consultation with the Corps and LGU based on the information you have provided. Regulatory entities will not initiate a formal application review if this box is checked. By signature below, I attest that the information in this application is complete and accurate. I further attest that I possess the authority to undertake the work described herein. Signature: Date: I hereby authorize Jacobson Environmental to act on my behalf as my agent in the processing of this application and to furnish, upon request, supplemental information in support of this application. 1 The term “impact” as used in this joint application form is a generic term used for disclosure purposes to identify activities that may require approval from one or more regulatory agencies. For purposes of this form it is not meant to indicate whether or not those activities may require mitigation/replacement. Project Name and/or Number: Attachment A Request for Delineation Review, Wetland Type Determination, or J u risd ictional,Oete rm in atio n By submission of the enclosed wetland delineation report, I am requesting that the U.S. Army Corps of Engineers, St. Paul District (CorOs) and/or the Wetland Conservation Act Local Government Unit (LGU) provide me with the following (check all that apply): fltr wetland Type confirmation ffi Oelineation Concurrence. Concurrence with a delineation is a written notification from the Corps and a decision from the LGU concurring, not concurring, or commenting on the boundaries of the aquatic resources delineated on the property. Delineation concurrences are generally valid for five years unless site conditions change. Under this request alone, the Corps will not address the jurisdictional status of the aquatic resources on the property, only,the boundaries of the resources within the review area (including wetlands, tributaries, lakes, etc.). ffi ereliminary Jurisdictional Determination. A preliminary jurisdictional determination (PJD) is a non-binding written indication from the Corps that waters, including wetlands, identified on a parcel may be waters of the United States. For purposes of computation of impacts and compensatory mitigation requirements, a permit decision made on the basis of a PJD will treat all waters and wetlands in the review area as if they are jurisdictional waters of the U.S. PJDs are advisory in nature and may not be appealed. f] approved Jurisdictionat Determination. An approved jurisdictional determination (AJD) is an official Corps determination that jurisdictional waters ofthe United states are either present or absent on the property. AJDs can generally be relied upon by the affected party for five years. An AJD may be appealed through the Corps administrative appeal process. ln order for the Corps and LGU to process your request, the wetland delineation must be prepared in accordance with the 1987 Corps of Engineers Wetland Delineation Manual, any approved Regional Supplements to the 1987 ManuaQ and the Guidelines for Submitting Wetland Delineations in Minnesota (2013). http://www.mvp.usace.armv.mil/Missions/Resulatorv/DelineationJDGuidance.aspx Minnesota lnteragency Water Resource Application Form February ZOL4 Page 5 of 11