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2021-June Coral Mountain Resort Draft EIR - Appendix J.2 - Prelim WQMP CORAL MOUNTAIN RESORT DRAFT EIR SCH# 2021020310 TECHNICAL APPENDICES Water Quality Management Plan Appendix J.2 June 2021 Whitewater River Region WQMP Project Specific Preliminary Water Quality Management Plan For: The Wave at Coral Mountain – Tentative Tract Map No. 37815 South of Avenue 58; West of Madison Street, in the City of La Quinta DEVELOPMENT NO. TTM 2019-0005 (TTM 37815) Prepared for: CM Wave Development, L.L.C. 2440 Junction Place, Suite 200 Boulder, CO 80301 Telephone: (480) 367-7576 Prepared By: Jesus Herrera-Cortes, CPSWQ, QSD/QSP Prepared Under the Direction of: Michael Rowe, PE, MSA Consulting, Inc. 34200 Bob Hope Drive Rancho Mirage, CA 92270 Telephone: (760) 320-9811 Fax No. (760) 323-7893 Original Date Prepared: June 1, 2020 Revision Date(s): N/A Whitewater River Region WQMP The Wave at Coral Mountain OWNER'S CERTIFICATION This project-specific Preliminary Water Quality Management Plan (M-WQMP) has been prepared for: CM Wave Development, L.L.C. by MSA Consulting, Inc. for the project known as The Wave at Coral Mountain in the City of La Quinta. This WQMP is intended to comply with the requirements of the City of La Quinta for The Wave at Coral Mountain TTM 2019-0005 (TTM 37815), which includes the requirement for the preparation and implementation of a project-specific WQMP. The undersigned, while owning the property/project described in the preceding paragraph, shall be responsible for the implementation of this WQMP and will ensure that this WQMP is amended as appropriate to reflect up-to-date conditions on the site. This WQMP will be reviewed with the facility operator, facility supervisors, employees, tenants, maintenance and service contractors, or any other party (or parties) having responsibility for implementing portions of this WQMP. At least one copy of this WQMP will be maintained at the project site or project office in perpetuity. The undersigned is authorized to certify and to approve implementation of this WQMP. The undersigned is aware that implementation of this WQMP is enforceable under City of La Quinta Water Quality Ordinance 493 (La Quinta Municipal Code Municipal Code Section 8.70). If the undersigned transfers its interest in the subject property/project, the undersigned shall notify the successor in interest of its responsibility to implement this WQMP. "I, the undersigned, certify under penalty of law that I am the owner of the property that is the subject of this WQMP, and that the provisions of this WQMP have been reviewed and accepted and that the WQMP will be transferred to future successors in interest." ATTEST Owner's Signature Owner's Printed Name Owner's Title/Position Date 2440 Junction Place, Suite 200 Boulder, CO 80301 THIS FORM SHALL BE NOTARIZED BEFORE ACCEPTANCE OF THE FINAL PROJECT SPECIFIC WQMP Notary Signature Printed Name Title/Position Date Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 i Contents SECTION PAGE I. Project Description ......................................................................................................................... 1 II. Site Characterization ..................................................................................................................... 5 III. Pollutants of Concern..................................................................................................................... 7 IV. Hydrologic Conditions of Concern .............................................................................................. 9 V. Best Management Practices ........................................................................................................ 11 V.1 SITE DESIGN BMP CONCEPTS, LID/SITE DESIGN AND TREATMENT CONTROL BMPS .... 11 V.1.A SITE DESIGN BMP CONCEPTS AND LID/SITE DESIGN BMPS ................................. 13 V.1.B TREATMENT CONTROL BMPS ................................................................................ 19 V.1.C MEASURABLE GOAL SUMMARY ............................................................................. 20 V.2 SOURCE CONTROL BMPS ................................................................................................. 22 V.3 EQUIVALENT TREATMENT CONTROL BMP ALTERNATIVES ............................................ 25 V.4 REGIONALLY-BASED BMPS ............................................................................................. 25 VI. Operation and Maintenance Responsibility for BMPs .......................................................... 26 VII. Funding .......................................................................................................................................... 29 TABLES TABLE 1. POLLUTANT OF CONCERN SUMMARY 7 TABLE 2. BMP SELECTION MATRIX BASED UPON POLLUTANT OF CONCERN REMOVAL EFFICIENCY 12 TABLE 3. IMPLEMENTATION OF SITE DESIGN BMP CONCEPTS 14 TABLE 4. LID/SITE DESIGN BMPS MEETING THE LID/SITE DESIGN MEASURABLE GOAL 18 TABLE 5: TREATMENT CONTROL BMP SUMMARY 19 TABLE 6: MEASURABLE GOAL SUMMARY 21 TABLE 7. SOURCE CONTROL BMPS 22 APPENDICES A. CONDITIONS OF APPROVAL B. VICINITY MAP, WQMP SITE PLAN, AND RECEIVING WATERS MAP C. SUPPORTING DETAIL RELATED TO HYDROLOGIC CONDITIONS OF CONCERN (IF APPLICABLE) D. EDUCATIONAL MATERIALS E. SOILS REPORT (IF APPLICABLE) F. STRUCTURAL BMP AND/OR RETENTION FACILITY SIZING CALCULATIONS AND DESIGN DETAILS G. AGREEMENTS – CC&RS, COVENANT AND AGREEMENTS, BMP MAINTENANCE AGREEMENTS AND/OR OTHER MECHANISMS FOR ENSURING ONGOING OPERATION, MAINTENANCE, FUNDING AND TRANSFER OF REQUIREMENTS FOR THIS PROJECT-SPECIFIC WQMP H. PHASE 1 ENVIRONMENTAL SITE ASSESSMENT – SUMMARY OF SITE REMEDIATION CONDUCTED AND USE RESTRICTIONS I. PROJECT-SPECIFIC WQMP SUMMARY DATA FORM Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 1 I. Project Description Project Owner: CM Wave Development, L.L.C. 2440 Junction Place, Suite 200 Boulder, CO 80301 WQMP Preparer: Under the Direct Supervision of Michael Rowe, PE MSA Consulting, Inc. 34200 Bob Hope Drive Rancho Mirage, CA 92270 Telephone: (760) 323-7893 Fax No.: (760) 323-7893 Project Site Address: South of Avenue 58; West of Madison Street in the City of La Quinta Planning Area: City of La Quinta Specific Plan 03-067 Community Name: City of La Quinta Development Name: The Wave at Coral Mountain – TTM No. 37815 APN Number(s): 764-200-076, 764-210-007, 764-210-028, 764-210-029, 766-070- 003, 766-070-006, 766-070-012, 766-070-014, 766-080-001, 766- 080-002, 766-080-004 & 766-080-005 Latitude & Longitude: 33°37’6.7399” North, 116°15’24.7324” West Receiving Water: Coachella Valley Stormwater Channel Preliminary WQMP Coverage Area: 304.727 Acres (Drainage Areas A – E) Standard Industrial Classification (SIC) Code(s): • SIC not applicable to residential development • 7999: Amusement and Recreation • 7011: Hotels (Resort Hotels) • 5399: Miscellaneous General Merchandise Stores Formation of Home Owners' Association (HOA) or Property Owners Association (POA): Y N Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 2 Additional Permits/Approvals required for the Project: AGENCY Permit required State Department of Fish and Wildlife, Fish and Game Code §1602 Streambed Alteration Agreement Y N State Water Resources Control Board, Clean Water Act (CWA) Section 401 Water Quality Certification Y N US Army Corps of Engineers, CWA Section 404 permit Y N US Fish and Wildlife, Endangered Species Act Section 7 biological opinion Y N Statewide Construction General Permit Coverage Y N Statewide Industrial General Permit Coverage Y N Other: City of La Quinta Grading Permit Y N City of La Quinta Building Permit Y N • The proposed project activity will not divert or obstruct the natural flow or change the bed, channel, or bank of any stream, river or lake. Therefore, a State Department of Fish and Game, 1601 Streambed Alteration Agreement is not required. • The proposed project activity will not result in discharge into navigable waters or other impacts; therefore, a Clean Water Act Section 401 Water Quality Certification permit is not required. • The proposed facility will not result in the discharge of dredged or fill materials into the Waters of the United States. A Clean Water Act Section 404 Permit is not required for this project. • The proposed project site is not recognized as a habitat of an endangered species nor does it form part of a Conservation Area under the Coachella Valley Multiple Species Habitat Conservation Plan. A U.S. Fish and Wildlife, Endangered Species Act Section 7 biological opinion is not required for this project. • The proposed project is not industrial in nature. Therefore, coverage under the General Permit for Storm Water Discharges Associated with Industrial Activities is not required. This project will obtain coverage under the State Water Board NPDES General Permit for Storm Water Discharges Associated with Construction and Land Disturbance Activities. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 3 Project Introduction and Existing Conditions The level of detail provided in this Preliminary WQMP is consistent with the corresponding Preliminary Hydrology Report prepared for Tentative Tract Map 37815. As the site plan and engineering plans progress toward a final design, additional detail will be provided per the City’s Final WQMP Scope of Work. As presently observed, the terrain across most of the project area is relatively level with scattered vegetation coverage due to the past agricultural operations and site clearing activities that occurred over multiple decades. Only the hillside portions of Coral Mountain on the west edge of the project have retained a relatively undisturbed condition, which will not be modified by the project. In addition to the prior modifications from agricultural uses, the site has also been altered dirt roads, hiking paths, and various underground irrigation lines. The project site has also been subject to instances of trespassing and off-road vehicular circulation. As such, site drainage appears to be controlled via sheet flow generally from west to east. Per the Preliminary Hydrology Report for this site, no groundwater was encountered in any of the exploratory borings to a depth of 51 feet. Description of Proposed Improvements Based on the amended specific plan, the project site that is the subject of this Preliminary WQMP includes a surf resort (hotel complex), residential units (attached and detached), a wave pool feature, and other resort-related amenities largely occurring in the form of recreational open space. The wave pool is an artificial wave basin designed to generate ocean-like waves for recreational uses by resort guests and residents, as well as providing a venue for competitive and professional surfing events. The wave pool has also been incorporated into the preliminary hydrology design to serve as a stormwater retention basin for properly treated runoff. Hydrologically, the proposed development and preliminary WQMP coverage is divided into five primary drainage management areas totaling 304.727 acres. This area calculation includes off- site tributary flows from hillside rock outcropping and open brush areas west of the project limits. Drainage Area A covers approximately 162.745 acres, occupying a western portion of the project site, where the proposed land uses include residential units, the resort hotel, the corresponding interior drive aisles, the proposed wave pool, and recreational open space. Of the 162.745 acres making up this drainage area, approximately 70.893 acres are off-site tributaries with rock out- cropping and open brush conditions. These areas occur generally west of the project boundary corresponding to easterly portions of the Coral Mountain natural feature. Based on the current preliminary engineering design, the existing conditions and proposed improvements will result in 38.874 acres (24%) of impervious cover consisting of interior drive aisles, residential structures, hotel-related structures, and the corresponding hardscape. The remaining 123.297 acres (76%) will consist of pervious cover, largely being made up of open space. Based on these conditions and using the Whitewater Watershed BMP Design Volume Worksheet, the Design Storage Volume (Vbmp) for Drainage Area A (as a whole) is 45,337 cubic feet. Runoff from throughout Drainage Area A will be carried to a system of three retention facilities. Two of these retention facilities will be designed to accept the 10-year storm volumes from mentioned off-site areas to the west, while the third retention facility will be the wave pool feature designed to accept stormwater flows from the interior (on-site) portions. The combined retention capacity provided in Drainage Area A is 3,178,217, which is suffi ciently sized to Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 4 contain the flood volume resulting from the controlling 100-year storm, as well as the smaller Vbmp volume for water quality purposes. During the final design process, a more detailed description will be provided of the sub-areas in Drainage Area A. Drainage Area B covers approximately 41.586 acres, occupying a northwest portion of the project site, where the proposed land uses include low-density residential units, recreational open space, interior streets, and an artificial lake feature. Of the 41.586 acres making up this drainage area, approximately 17.512 acres (42%) are expected to be impervious cover consisting of residential structures, interior roads, and the corresponding hardscape. The remaining 24.074 (58%) will consist of pervious cover (open space). Based on these conditions and using the Whitewater Watershed BMP Design Volume Worksheet, the Design Storage Volume (Vbmp) for Drainage Area B is 17,613 cubic feet. Runoff from throughout Drainage Area B will be carried to the centralized artificial lake feature, which will provide a retention capacity of 292,016 cubic feet to handle the controlling 10 0-year storm event and the previously mentioned Vbmp volume for water quality purposes. During the Final Design, a more detailed description will be provided for this drainage area. Drainage Area C covers approximately 10.191 acres, occupying a central portion of the project site, where the proposed land uses residential units, surf resort units, recreational open space, and interior streets. Of the 10.191 acres making up this drainage area, approximately 4.419 acres (43%) are expected to be impervious cover consisting of residential structures, resort structures, interior roads, and the corresponding hardscape. The remaining 5.772 acres (57%) will consist of pervious cover (open space). Based on these conditions and using the Whitewater Watershed BMP Design Volume Worksheet, the Design Storage Volume (Vbmp) for Drainage Area C is 4,423 cubic feet. Runoff from throughout Drainage Area C will be carried to a temporary retention basin with a capacity of 57,966 cubic feet to handle the controlling 100-year storm event and the previously mentioned Vbmp volume for water quality purposes. During the Final Design, a more detailed description will be provided for this drainage area. Drainage Area D covers approximately 28.403 acres, occupying a central portion of the project site, where the proposed land uses residential units, surf resort units, a portion of the hotel, recreational open space, interior streets, and an artificial lake feature. Of the 28.403 acres making up this drainage area, approximately 14.177 acres (49%) are expected to be impervious cover. The remaining 14.799 acres (51%) will consist of pervious cover (open space). Based on these conditions and using the Whitewater Watershed BMP Design Volume Worksheet, the Design Storage Volume (Vbmp) for Drainage Area D is 13,988 cubic feet. Runoff from throughout Drainage Area C will be carried to a proposed artificial lake feature with a rete ntion capacity of 168,719 cubic feet to handle the controlling 100-year storm event and the previously mentioned Vbmp volume for water quality purposes. During the Final Design, a more detailed description will be provided for this drainage area. Drainage Area E covers approximately 61.802 acres, occupying an eastern portion of the project site where the expected land uses will be future low-density residential units. Of the 61.802 acres making up this drainage area, approximately 19.414 acres (31%) are expected to be impervious cover. The remaining 43.489 acres (69%) will consist of pervious cover (open space). Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 5 Based on these conditions and using the Whitewater Watershed BMP Design Volume Worksheet, the Design Storage Volume (Vbmp) for Drainage Area E is 20,990 cubic feet. Runoff from throughout Drainage Area C will be carried to a temporary retention basin with a capacity of 1,216,389 cubic feet to handle the controlling 100-year storm event and the previously mentioned Vbmp volume for water quality purposes. During the Final Design, a more detailed description will be provided for this drainage area. Runoff from throughout the primary project entry driveway will be conveyed to adjacent landscaped swales sized to contain the corresponding runoff volumes. Future development within the Specific Plan area is expected to occur in Drainage Areas F, G, H and I, which have a combined area of 145.728 acres. Based on estimates found in the Preliminary Hydrology Report, these drainage areas are expected to require a combined 13.7 acre-feet of retention capacity to handle their corresponding runoff volumes. The identification and area-specific retention sizing will be a function of the site designed to be determined for these areas. As such, Drainage Areas F, G, H, and I are not covered in the scope of this Preliminary or subsequent Final WQMP. A separate site design, preliminary engineering and WQMP will be necessary to cover these areas. Location of Activities: The project does not have a specific area where heightened activities would warrant additional site design, source control or treatment measures other than those identified for each drainage area. Final WQMP documentation is expected to provide additional detail based on a final site design and engineering. Waste Generation: The proposed project is expected to generate non-hazardous solid waste typical of most residential and commercial land uses. The project’s waste will be collected and managed by Burrtec Waste Industries on a typical schedule. Pollution prevention, waste reduction, and recycling practices will be implemented on-site. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 6 II. Site Characterization Land Use Designation or Zoning: Existing General Plan and Zoning: Specific Plan 03-067 Proposed General Plan & Zoning: Specific Plan 03-067 Current Property Use: Vacant Proposed Property Use: Residential, Resort Hotel, Recreational Availability of Soils Report: Y N Phase 1 Site Assessment: Y N Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 7 Receiving Waters for Urban Runoff from Site Receiving Waters EPA Approved 303(d) List Impairments Designated Beneficial Uses Proximity to RARE Beneficial Use Designated Receiving Waters Coachella Valley Stormwater Channel DDT (Dichlorodiphenyltrichloroethane), Dieldrin, Indicator Bacteria, PCBs (Polychlorinated Biphenyls), Toxaphene, Toxicity, Nitrogen, ammonia (Total Ammonia) FRSH, REC I c, REC II c, WARM, WILD, RARE d Approximately 7.1 miles The preceding table is based on the 2014 and 2016 Integrated Report (Clean Water Act Section 303(d) List/305(b) Report. All impairments listed for Coachella Valley Stormwater Channel are under Category 5, which apply to water segments where standards are not met and a Total Max imum Daily Load (TMDL) is required, but not yet completed. All pollutant sources for this segment are unknown. Abbreviations: I – Intermittent Beneficial Use FRSH – Freshwater Replenishment REC I – Water Contact Recreation REC II – Non-Contact Water Recreation WARM – Warm Freshwater Habitat WILD – Wildlife Habitat RARE – Preservation of Rare, Threatened, or Endangered Species MUN – Municipal & Domestic Supply AGR – Agricultural Supply GWR – Groundwater Recharge AQUA – Acuaculture COLD – Cold Freshwater Habitat POW – Hydropower Generation a. Although it is not encouraged, children play in the water infrequently on the wildlife reserve b. Section of perennial flow from approximately Indio to the Salton Sea. c. Unauthorized use. d. Rare, endangered, or threatened wildlife exists in or utilizes some of this waterway. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 8 III. Pollutants of Concern Table 1. Pollutant of Concern Summary Pollutant Category Potential for Project Causing Receiving Water Impairment Bacteria/Virus (Pathogens) Yes Yes (Pathogens) Heavy Metals Yes No Nutrients Yes No Toxic Organic Compounds Yes No Total Ammonia (Nitrogen, ammonia) No Yes Toxicity No Yes Sediment/Turbidity Yes No Trash & Debris Yes No Oil & Grease Yes No The Coachella Valley Stormwater Channel is impaired by DDT (Dichlorodiphenyltrichloroethane), Dieldrin, Indicator Bacteria, PCBs (Polychlorinated Biphenyls), Toxaphene, Toxicity and Total Ammonia (Nitrogen, ammonia). • The project is not anticipated to generate DDT contamination because the use of this substance (synthetic organic compound) has been banned since 1972; therefore, it will not be handled or form part of the proposed development. • The project is not anticipated to generate Dieldrin contamination because the use of this substance (synthetic organic compound) was related to agricultural operations (found in pesticides for crops) and it has been illegal since 1987; therefore, it will not be handled or form part of the proposed development. • The project is not anticipated to produce polychlorinated biphenyls (PCBs) because manufacturing this substance (synthetic organic compound) stopped in 1977 and its application was banned in 1979; therefore, it will not be handled or form part of the proposed development. • The proposed development is not anticipated to produce toxaphene because the use of this substance (synthetic organic compound) has been illegal since 1990; therefore, it will not be handled or form part of the proposed development. • The proposed office development is not anticipated to produce Nitrogen, ammonia (Total Ammonia). Ammonia is a nutrient typically associated with commercial fertilizers utilized in agricultural operations. The project’s retention facilities will contain runoff, such that it will not reach the impaired receiving waters. • The project has the potential to generate small amounts of pathogens (bacteria/virus). These pollutants are generally associated with various human activities, but pathogens are also present in natural environments. Moreover, pathogens can be associated with wild and domesticated animal waste. Source control measures to address this potential pol lutant are discussed in the subsequent sections of this report. Runoff from the project will be conveyed to proposed retention facilities sized to capture and infiltrate the controlling 100-year storm event and the design capture volume for water Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 9 quality purposes (Vbmp). Therefore, no discharge of pathogens in runoff is expected as part of the standard operating condition. • The project is not expected to generate or discharge toxicants, such as toxic metals and synthetic organic compounds that would result in detrimental physiological responses in human, plant, animal, or indigenous aquatic life in the Coachella Valley Storm Water Channel. Due to the project’s location and proposed improvements, the project will not involve direct or indirect discharges into the Coachella Valley Storm Water Channel. All project runoff will be conveyed to on-site retention facilities. Table 1 (Potential Pollutants Generated by Land Use Type ) of the Riverside County Whitewater River Region Stormwater Quality Best Management Practice Design Handbook for Low Impact Development identifies eight (8) land use categories with their corresponding potential pollutants that may be generated. Based on the allowable land uses under the governing Specific Plan, here are the comparable land use types pertaining to the mentioned list. Type of Development (Land Use) Sediment/ Turbidity Nutrients Toxic Organic Compounds Trash & Debris Bacteria & Viruses (Also: Pathogens) Oil & Grease Heavy Metals Detached Residential Development P P N P P P N Attached Residential Development P P N P P P(2) N Restaurants N N N P P P N Parking Lots P P(1) P(4) P P P P Commercial Development P P(1) P(5) P P(3) P P(6) Abbreviations: P = Potential N = Not potential Notes: (1) A potential Pollutant if non-native landscaping exists or is proposed onsite; otherwise not expected. (2) A potential Pollutant if the project includes uncovered parking areas; otherwise not expected. (3) A potential Pollutant if land use involves food or animal waste products. (4) Specifically, petroleum hydrocarbons. (5) Specifically, solvents; however, this Pollutant is not expected at commercial office or commercial retail sites, unless said retail is vehicle related. (6) A potential Pollutant if the project includes outdoor storage or metal roofs; otherwise not expected. Potential Project Pollutants: The project’s land uses have the generalized potential to produce sediment/turbidity; nutrients; toxic organic compounds; trash and debris; bacteria and viruses (including pathogens); oil and grease; and heavy metals. Legacy Pollutants: There is no evidence or other known information of legacy pollutants on-site. Pollutants of Concern: Based on the comparison of potential project pollutants with the pollutant categories causing receiving water impairments, the po llutants of concern include bacteria/virus. The project’s proposed storm drain improvements are designed to intercept and retai n the flood volume resulting from the 100-year storm event. Therefore, the project will not produce pollutants that could affect off-site or downstream resources, such as the proximate receiving waters. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 10 IV. Hydrologic Conditions of Concern Local Jurisdiction Requires On-Site Retention of Urban Runoff: Yes The project will be required to retain urban runoff onsite in conformance with local ordinance (See Table 6 of the WQMP Guidance document, "Local Land use Authorities Requiring Onsite Retention of Stormwater"). This section does not need to be completed; however, retention facility design details and sizing calculations must be included in Appendix F. Note: The Preliminary WQMP and corresponding Preliminary Hydrology Report for this project have identified five (5) drainage management areas (A through E) with the respective required capacity for retaining the flood volume resulting from the 100-year controlling storm event for the corresponding on-site and off-site tributary conditions. The necessary retention capacity will be met through retention facilities at each drainage management area, the details of which will be demonstrated in the Final WQMP and Final Hydrology Report. As a result, the project will not result in changes to the hydrologic regime that will permanently impact downstream channels, receiving waters, or habitat integrity. No Hydrologic Conditions of Concern are expected to result from the project. The local jurisdiction requirements for on-site retention of urban runoff will be met. No This section must be completed. This Project meets the following condition: Condition A: 1) Runoff from the Project is discharged directly to a publicly-owned, operated and maintained MS4 or engineered and maintained channel, 2) the discharge is in full compliance with local land use authority requirements for connections and discharges to the MS4 (including both quality and quantity requirements), 3) the discharge would not significantly impact stream habitat in proximate Receiving Waters, and 4) the discharge is authorized by the local land use authority. Condition B: The project disturbs less than 1 acre and is not part of a larger common plan of development that exceeds 1 acre of disturbance. The disturbed area calculation must include all disturbances associated with larger plans of development. Condition C: The project's runoff flow rate, volume, velocity and duration for the post- development condition do not exceed the pre-development condition for the 2-year, 24-hour and 10-year 24-hour rainfall events. This condition can be achieved by, where applicable, complying with the local land use authority's on-site retention ordinance, or minimizing impervious area on a site and incorporating other Site-Design BMP concepts and LID/Site Design BMPs that assure non-exceedance of pre-development conditions. This condition must be substantiated by hydrologic modeling methods acceptable to the local land use authority. None: Refer to Section 3.4 of the Whitewater River Region WQMP Guidance document for additional requirements. Supporting engineering studies, calculations, and reports are included in Appendix C. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 11 V. Best Management Practices This project implements Best Management Practices (BMPs) to address the Pollutants of Concern that may potentially be generated from the use of the project site. These BMPs have been selected and implemented to comply with Section 3.5 of the WQMP Guidance document, and consist of Site Design BMP concepts, Source Control, LID/Site Design and, if/where necessary, Treatment Control BMPs as described herein. V.1 SITE DESIGN BMP CONCEPTS, LID/SITE DESIGN AND TREATMENT CONTROL BMPS Local Jurisdiction Requires On-Site Retention of Urban Runoff: Yes The project will be required to retain Urban Runoff onsite in conformance with local ordinance (See Table 6 of the WQMP Guidance document, "Local Land use Authorities Requiring Onsite Retention of Stormwater). The LID/Site Design measurable goal has thus been met (100%), and Sections V.1.A and V.1.B do not need to be completed; however, retention facility design details and sizing calculations must be included in Appendix F, and '100%' should be entered into Column 3 of Table 6 below. Note: The Preliminary WQMP and corresponding Preliminary Hydrology Report for this project have identified five (5) drainage management areas (A through E) with the respective required capacity for retaining the flood volume resulting from the 100-year controlling storm event for the corresponding on-site and off-site tributary conditions. The necessary retention capacity will be met through retention facilities at each drainage management area, the details of which will be demonstrated in the Final WQMP and Final Hydrology Report. As a result, the project will not result in changes to the hydrologic regime that will permanently impact downstream channels, receiving waters, or habitat integrity. No Hydrologic Conditions of Concern are expected to result from the project. The local jurisdiction requirements for on-site retention of urban runoff will be met. No Section V.1 must be completed. This section of the Project-Specific WQMP documents the LID/Site Design BMPs and, if/where necessary, the Treatment Control BMPs that will be implemented on the project to meet the requirements detailed within Section 3.5.1 of the WQMP Guidance document. Section 3.5.1 includes requirements to implement Site Design Concepts and BMPs, and includes requirements to address Pollutants of Concern with BMPs. Further, sub-section 3.5.1.1 specifically requires that Pollutants of Concern be addressed with LID/Site Design BMPs to the extent feasible. LID/Site Design BMPs are those BMPs listed within Table 2 below which promote retention and/or feature a natural treatment mechanism; off-site and regionally-based BMPs are also LID/Site Design BMPs, and therefore count towards the measurable goal, if they fit these criteria. This project incorporates LID/Site Design BMPs to fully address the Treatment Control BMP requirement where and to the extent feasible. If and where it has been acceptably demonstrated to the local land use authority that it is infeasible to fully meet this requirement with LID/Site Design BMPs, Section V.1.B (below) includes a description of the conventional Treatment Control BMPs that will be substituted to meet the same requirements. In addressing Pollutants of Concern, BMPs are selected using Table 2 below. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 12 Table 2. BMP Selection Matrix Based Upon Pollutant of Concern Removal Efficiency (1) (Sources: Riverside County Flood Control & Water Conservation District Design Handbook for Low Impact Development Best Management Practices, dated September 2011, the Orange County Technical Guidance Document for Water Quality Management Plans, dated May 19, 2011, and the Caltrans Treatment BMP Technology Report, dated April 2010 and April 2008) Pollutant of Concern Landscape Swale2, 3 Landscape Strip2, 3 Biofiltration (with underdrain)2, 3 Extended Detention Basin2 Sand Filter Basin2 Infiltration Basin2 Infiltration Trench2 Permeable Pavement2 Bioretention (w/o underdrain)2, 3 Other BMPs Including Proprietary BMPs4, 6 Sediment & Turbidity M M H M H H H H H Varies by Product5 Nutrients L/M L/M M L/M L/M H H H H Toxic Organic Compounds M/H M/H M/H L L/M H H H H Trash & Debris L L H H H H H L H Bacteria & Viruses (also: Pathogens) L M H L M H H H H Oil & Grease M M H M H H H H H Heavy Metals M M/H M/H L/M M H H H H Abbreviations: L: Low removal efficiency M: Medium removal efficiency H: High removal efficiency Notes: (1) Periodic performance assessment and updating of the guidance provided by this table may be necessary. (2) Expected performance when designed in accordance with the most current edition of the document, "Riverside County, Whitewater River Region Stormwater Quality Best Management Practice Design Handbook". (3) Performance dependent upon design which includes implementation of thick vegetative cover. Local water conservation and/or landscaping requirements should be considered; approval is based on the discretion of the local land use authority. (4) Includes proprietary stormwater treatment devices as listed in the CASQA Stormwater Best Management Practices Handbooks, other stormwater treatment BMPs not specifically listed in this WQMP (including proprietary filters, hydrodynamic separators, inserts, etc.), or newly developed/emerging stormwater treatment technol ogies. (5) Expected performance should be based on evaluation of unit processes provided by BMP and available testing data. Approval is based on the discretion of the local land use authority. (6) When used for primary treatment as opposed to pre-treatment, requires site-specific approval by the local land use authority. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 13 V.1.A SITE DESIGN BMP CONCEPTS AND LID/SITE DESIGN BMPS Note: This section is not applicable Due to conformance with local retention ordinance per Section 3.5.1.2 of Whitewater River Region WQMP Guidance Document. This section documents the Site Design BMP concepts and LID/Site Design BMPs that will be implemented on this project to comply with the requirements detailed in Section 3.5.1 of the WQMP Guidance document. • Table 3 herein documents the implementation of the Site Design BMP Concepts described in sub-sections 3.5.1.3 and 3.5.1.4. • Table 4 herein documents the extent to which this project has implemented the LID/Site Design goals described in sub-section 3.5.1.1. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 14 Table 3. Implementation of Site Design BMP Concepts Note: Completion of this sub-section is not required since the project retains urban runoff on-site in conformance with the local ordinances. Included Brief Reason for BMPs Indicated as No or N/A Design Concept Technique Specific BMP Yes No N/A Site Design BMP Concept 1 Minimize Urban Runoff, Minimize Impervious Footprint, and Conserve Natural Areas (See WQMP Section 3.5.1.3) Conserve natural areas by concentrating or clustering development on the least environmentally sensitive portions of a site while leaving the remaining land in a natural, undisturbed condition. Conserve natural areas by incorporating the goals of the Multi-Species Habitat Conservation Plan or other natural resource plans. Preserve natural drainage features and natural depressional storage areas on the site. Maximize canopy interception and water conservation by preserving existing native trees and shrubs, and planting additional native or drought tolerant trees and large shrubs. Use natural drainage systems. Where applicable, incorporate Self-Treating Areas Where applicable, incorporate Self-Retaining Areas Increase the building floor to area ratio (i.e., number of stories above or below ground). Construct streets, sidewalks and parking lot aisles to minimum widt hs necessary, provided that public safety and a walkable environment for pedestrians are not compromised. Reduce widths of streets where off-street parking is available. Minimize the use of impervious surfaces, such as decorative concrete, in the landscape design. Other comparable and equally effective Site Design BMP concept(s) as approved by the local land use authority (Note: Additional narrative required to describe BMP and how it addresses site design concept). Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 15 Table 3. Site Design BMP Concepts (continued) Note: Completion of this sub-section is not required since the project retains urban runoff on-site in conformance with the local ordinances. Included Brief Reason for Each BMP Indicated as No or N/A Design Concept Technique Specific BMP Yes No N/A Site Design BMP Concept 2 Minimize Directly Connected Impervious Area (See WQMP Section 3.5.1.4) Design residential and commercial sites to contain and infiltrate roof runoff, or direct roof runoff to landscaped swales or buffer areas. Drain impervious sidewalks, walkways, trails, and patios into adjacent landscaping. Incorporate landscaped buffer areas between sidewalks and streets. Use natural or landscaped drainage swales in lieu of underground piping or imperviously lined swales. Where soil conditions are suitable, use perforated pipe or gravel filtration pits for low flow infiltration. Maximize the permeable area by constructing walkways, trails, patios, overflow parking, alleys, driveways, low-traffic streets, and other low-traffic areas with open-jointed paving materials or permeable surfaces such as pervious concrete, porous asphalt, unit pavers, and granular materials. Use one or more of the following: Rural swale system: street sheet flows to landscaped swale or gravel shoulder, curbs used at street corners, and culverts used under driveways and street crossings. Urban curb/swale system: street slopes to curb; periodic swale inlets drain to landscaped swale or biofilter. Dual drainage system: first flush captured in street catch basins and discharged to adjacent vegetated swale or gravel shoulder; high flows connect directly to MS4s. Other comparable and equally effective Site Design BMP concept(s) as approved by the local land use authority (Note: Additional narrative required to describe BMP and how it addresses site design concept). Use one or more of the following for design of driveways and private residential parking areas: Design driveways with shared access, flared (single lane at street), or wheel strips (paving only under the tires). Uncovered temporary or guest parking on residential lots paved with a permeable surface, or designed to drain into landscaping. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 16 Table 3. Site Design BMP Concepts (continued) Note: Completion of this sub-section is not required since the project retains urban runoff on-site in conformance with the local ordinances. Included Brief Reason for Each BMP Indicated as No or N/A Design Concept Technique Specific BMP Yes No N/A Site Design BMP Concept 2 (cont'd) Minimize Directly Connected Impervious Area (See WQMP Section 3.5.1.4) Other comparable and equally effective Site Design BMP concept(s) as approved by the local land use authority (Note: Additional narrative required to describe BMP and how it addresses site design concept). Use one or more of the following for design of parking areas: Where landscaping is proposed in parking areas, incorporate parking area landscaping into the drainage design. Overflow parking (parking stalls provided in excess of the Permittee's minimum parking requirements) may be constructed with permeable pavement. Other comparable and equally effective Site Design BMP (or BMPs) as approved by the local land use authority (Note: Additional narrative required describing BMP and how it addresses site design concept). Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 17 Project Site Design BMP Concepts: Note: This section is not applicable Due to conformance with local retention ordinance per Section 3.5.1.2 of Whitewater River Region WQMP Guidance Document. Alternative Project Site Design BMP Concepts: Not Applicable Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 18 Table 4. LID/Site Design BMPs Meeting the LID/Site Design Measurable Goal (1) (2) (3) (4) (5) (6) (7) DRAINAGE SUB-AREA ID OR NO. LID/SITE DESIGN BMP TYPE* POTENTIAL POLLUTANTS OF CONCERN WITHIN DRAINAGE SUB-AREA POTENTIAL POLLUTANTS WITHIN SUB-AREA CAUSING RECEIVING WATER IMPAIRMENTS EFFECTIVENESS OF LID/SITE DESIGN BMP AT ADDRESSING IDENTIFIED POTENTIAL POLLUTANTS BMP MEETS WHICH DESIGN CRITERIA? TOTAL AREA WITHIN DRAINAGE SUB- AREA (See Table 2) (Refer to Table 1) (Refer to Table 1) (U, L, M, H/M, H; see Table 2) (Identify as VBMP OR QBMP) (Nearest 0.1 acre) Area A Infiltration BMP (Retention Basin) Bacteria/virus Bacteria/virus H 45,337 CU. FT. (VBMP) Retention Capacity Provided: 3,178,217 CU. FT. 162.745 Area B Artificial Lake Retention Bacteria/virus Bacteria/virus H 17,613 CU. FT. (VBMP) Retention Capacity Provided: 292,016 CU. FT. 41.586 Area C Infiltration BMP (Retention Basin) Bacteria/virus Bacteria/virus H 4,423 CU. FT. (VBMP) Retention Capacity Provided: 57,966 CU. FT. 10.191 Area D Artificial Lake Retention Bacteria/virus Bacteria/virus H 13,988 CU. FT. (VBMP) Retention Capacity Provided: 168,719 CU. FT. 28.403 Area E Infiltration BMP (Retention Basin) Bacteria/virus Bacteria/virus H 20,990 CU. FT. (VBMP) Retention Capacity Provided: 1,216,389 CU. FT. 61.802 TOTAL PROJECT AREA TREATED WITH LID/SITE DESIGN BMPs (NEAREST 0.1 ACRE) 304.727 * LID/Site Design BMPs listed in this table are those that completely address the 'Treatment Control BMP requirement' for their drainage sub-area. Note: This Preliminary WQMP covers drainage areas A through E. The development of drainage areas F through I will be covered by a separate WQMP based on a corresponding future site design. Conformance with the local retention requirements will be satisfied by conveying project runoff into proposed on-site retention facilities. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 19 Justification of infeasibility for sub-areas not addressed with LID/Site Design BMPs Not applicable. V.1.B TREATMENT CONTROL BMPS Conventional Treatment Control BMPs shall be implemented to address the project's Pollutants of Concern as required in WQMP Section 3.5.1 where, and to the extent that, Section V.1.A has demonstrated that it is infeasible to meet these requirements through implementation of LID/Site Design BMPs. The LID/Site Design BMPs described in Section V.1.A of this project-specific WQMP completely address the 'Treatment Control BMP requirement' for the entire project site (and where applicable, entire existing site) as required in Section 3.5.1.1 of the WQMP Guidance document. Supporting documentation for the sizing of these LID/Site Design BMPs is included in Appendix F. *Section V.1.B does not need to be completed. Note: The project includes a system of on-site retention basins sized to retain/infiltrate the volume resulting from the 100-year controlling storm event at each on-site tributary area. As such, the proposed on-site retention capacity will also be sufficient to handled the corresponding Vbmp volume for water quality purposes. The LID/Site Design BMPs described in Section V.1.A of this project-specific WQMP do NOT completely address the 'Treatment Control BMP requirement' for the entire project site (or where applicable, entire existing site) as required in Section 3.5.1.1 of the WQMP. *Section V.1.B must be completed. The Treatment Control BMPs identified in this section are selected, sized and implemented to treat the design criteria of VBMP and/or QBMP for all project (and if required, existing site) drainage sub-areas which were not fully addressed using LID/Site Design BMPs. Supporting documentation for the sizing of these Treatment Control BMPs is included in Appendix F. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 20 Table 5: Treatment Control BMP Summary (1) (2) (3) (4) (5) (6) (7) DRAINAGE SUB-AREA ID OR NO. TREATMENT CONTROL BMP TYPE* POTENTIAL POLLUTANTS OF CONCERN WITHIN DRAINAGE SUB-AREA POTENTIAL POLLUTANTS WITHIN SUB-AREA CAUSING RECEIVING WATER IMPAIRMENTS EFFECTIVENESS OF TREATMENT CONTROL BMP AT ADDRESSING IDENTIFIED POTENTIAL POLLUTANTS BMP MEETS WHICH DESIGN CRITERIA? TOTAL AREA WITHIN DRAINAGE SUB-AREA (See Table 2) (Refer to Table 1) (Refer to Table 1) (U, L, M, H/M, H; see Table 2) (Identify as VBMP OR QBMP) (Nearest 0.1 acre) N/A N/A N/A N/A N/A N/A N/A TOTAL PROJECT AREA TREATED WITH TREATMENT CONTROL BMPs (NEAREST 0.1 ACRE) N/A Note: Conformance with the local retention requirements will be satisfied by conveying project runoff into proposed on-site retention facilities. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 21 V.1.C MEASURABLE GOAL SUMMARY This section documents the extent to which this project has met the measurable goal described in WQMP Section 3.5.1.1 of addressing 100% of the project's 'Treatment Control BMP requirement' with LID/Site Design BMPs. Projects required to retain Urban Runoff onsite in conformance with local ordinance are considered to have met the measurable goal; for these instances, '100%' is entered into Column 3 of the Table. Table 6: Measurable Goal Summary (1) (2) (3) Total Area Treated with LID/Site Design BMPs Total Area Treated with Treatment Control BMPs % of Treatment Control BMP Requirement addressed with LID/Site Design BMPs (Last row of Table 4) (Last row of Table 5) 304.727 (Drainage Areas A through E) N/A Due to conformance with local retention ordinance per Section 3.5.1.2 of Whitewater River Region WQMP Guidance Document. 100 Note: This Preliminary WQMP covers drainage areas A through E. The development of drainage areas F through I will be covered by a separate WQMP based on a corresponding future site design. Conformance with the local retention requirements will be satisfied by conveying project runoff into proposed on-site retention facilities. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 22 V.2 SOURCE CONTROL BMPS This section identifies and describes the Source Control BMPs applicable and implemented on this project. Table 7. Source Control BMPs BMP Name Check One If not applicable, state brief reason Included Not Applicable Non-Structural Source Control BMPs Education for Property Owners, Operators, Tenants, Occupants, or Employees Activity Restrictions Irrigation System and Landscape Maintenance Common Area Litter Control Street Sweeping Private Streets and Parking Lots Drainage Facility Inspection and Maintenance Structural Source Control BMPs Storm Drain Inlet Stenciling and Signage Landscape and Irrigation System Design Protect Slopes and Channels Provide Community Car Wash Racks Not part of the proposed project. Properly Design*: Fueling Areas Air/Water Supply Area Drainage Trash Storage Areas Loading Docks Not part of the proposed project. Maintenance Bays Not part of the proposed project. Vehicle and Equipment Wash Areas Not part of the proposed project. Outdoor Material Storage Areas Not part of the proposed project. Outdoor Work Areas or Processing Areas Not part of the proposed project. Provide Wash Water Controls for Food Preparation Areas Pursuant to Section E.4.b.v of the Whitewater River Region MS4, discharges from food- related wastes into the storm drain system or MS4 are prohibited. *Details demonstrating proper design must be included in Appendix F. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 23 Non-Structural Source Control BMPs Education Program: (Property management/operator) Employees, maintenance staff, and residents should be informed on topics related to stormwater pollution and prevention through various means, which can include the distribution of printed materials or public posting of rules or activity restrictions. A series of guidelines should be formulated and promoted to communicate beneficial habits and restricting activities which could impact the storm drain system. Appendix D includes samples of the educational materials that can be used in implementing this project-specific WQMP. Activity Restrictions: (Property management/operator) The following activities should be prevented or prohibited on-site: littering; discharge and waste dumping into parking storm drain inlets; blowing, sweeping or hosing of debris into streets or parking lots; nuisance water flows from irrigation. Irrigation System and Landscape Maintenance: (Property management/operator) Operation and Maintenance responsibilities and scheduling should be adhered to throughout the life of the project. The irrigation and landscape maintenance will help increase the effectiveness of these systems and minimize the amount of runoff that enters the storm drain system. Erosion and the conveyance of pesticides/fertilizers in runoff should also be prevented through proper routine maintenance. Routine irrigation system and landscape maintenance will also serve as a vector control measure due to the minimization of nuisance water runoff and stagnation. Common Area Litter Control: (Property management/operator) Common area litter control should be implemented to reduce pollution in runoff. Routine or scheduled monitoring should be performed in the common areas, landscaped areas, parking lots, in and around the trash enclosures, and along the perimeter walls of the project. Any observed accumulated trash, vegetation debris or improper disposal should be addressed promptly by the designated staff. Common area litter control measures can be coordinated and improved by the landscaping maintenance that will take place at the site. The raking or sweeping of trash shall only be performed in manner that avoids trash from entering the storm drain system. All landscape-related debris or maintenance deficiencies are to be corrected promptly. Paved Area Sweeping and Cleaning: (Property management/operator) Paved area sweeping and cleaning should be performed on-site on a routine basis to prevent trash, sediment, and other debris from being conveyed into the on-site storm drain system. Paved area sweeping should be performed during dry weather and the frequency should be flexible to accommodate climate conditions and areas of concern. Street sweeping equipment must be operated only by trained personnel based on the manufacturer’s specifications. Street sweeping equipment should be properly maintained off-site by the operator. All collected debris must be taken to an approved permanent disposal site. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 24 Structural Source Control BMPs The project will incorporate measures to discourage illegal dumping in the proposed private storm drain system. • MS4 Stenciling: (Property management/operator) At each storm drain inlet, a stencil or fixed sign (including medallions) should contain a brief statement that prohibits dumping of improper materials into the urban runoff conveyance system. The legibility of markers and signs should be maintained throughout the life of the project. • Rules and Regulations: (Property management/operator) The management should establish and implement rules that prohibit improper non- stormwater discharge into the storm drain system. This measure may also be considered non-structural and form part of the activity restrictions associated with the site’s standard operating procedures. • Signage at the Trash Enclosures: (Property management/operator) Language prohibiting illegal dumping into the storm drain system should be integrated in the signage posted on the side of trash enclosures with the intent to discourage trash and waste misplacement that could ultimately impact the on-site storm drain system. Landscape and Irrigation System Design: (Property management/operator) The site’s structural source control BMP involves an efficient landscape irrigation design. The system will include native or drought-tolerant plants and mechanisms to minimize excess irrigation and nuisance water into the stormwater conveyance system while working to reduce soil amendments and irrigation frequency. The system should also minimize the conveyance of landscape related chemicals, including pesticides. Trash Containers: (Property management/operator) Trash containers shall be leak proof and have attached covers or lids. Connection of trash to the MS4 shall be prohibited. Storm Drain System Facilities: (Property management/operator) Storm drain inlets and storm drainage facilities on-site should be inspected, cleaned, and maintained routinely. Maintenance staff should take prompt action to correct or repair malfunctioning facilities. Safer Alternative Products (CASQA SC-35): (Property management/operator) The use of less harmful products as alternatives to chemical fertilizers, pesticides, cleaning solutions, janitorial chemicals, and consumables will be pursued under the guidance of SC-35 primarily aimed at the commercial portions of the project. The objective of this Source Control BMP will be to integrate the measures as much as possible with the future programs at this facility. Building and Grounds Maintenance (CASQA SC-41): (Property management/operator) A series of maintenance practices can be implemented to prevent or reduce the discharge of potential pollutants into the storm drain system resulting from building and grounds maintenance activities. The BMP implementation will be achieved with the following guidelines under SC-41: Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 25 washing and cleaning up with as little water as possible; following good landscape management practices; preventing and cleaning up spills immediately; keeping debris from entering the storm drains; and properly maintaining the stormwater collection system. Protection of Slopes and Channels: (Property management/operator) Landscaping improvements will help stabilize the proposed landscaped areas and prevent erosion. These areas will be subject to routine maintenance to address potential instances of soil erosion. Basin slopes should be visually inspected on a quarterly basis and after major rainfall events. Physical obstructions caused by vegetation debris or littering should be cleared to ensure that the slopes continue to function as designed. Any material collected (e.g. landscape debris or trash) should be properly handled and disposed of. Note about Wash Water Controls for Food Preparation Areas: Pursuant to Section E.4.b.v of the Whitewater River Region MS4, illicit discharges to the MS4 of food -related wastes (e.g. grease, fish processing, and restaurant kitchen mat and trash bin water, etc.) are prohibited. Food preparation areas (per State Health & Safety Code 27520) shall have either contained areas or sinks, each with connections to the sanitary sewer for disposal of wash waters containing kitchen and food wastes. The entry of wash water controls into urban runoff or the proposed storm drain system is prohibited. V.3 EQUIVALENT TREATMENT CONTROL BMP ALTERNATIVES Not applicable. V.4 REGIONALLY-BASED BMPS Not Applicable Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 26 VI. Operation and Maintenance Responsibility for BMPs The Final WQMP shall include the applicable copies of the mechanisms used to ensure the ongoing operation, maintenance, funding, transfer and implementation of the project -specific WQMP requirements. TABLE 8 -OPERATIONS AND MAINTENANCE BMP Requiring Maintenance Party Responsibility Recommended Inspection and Maintenance Frequency Recommended Self-Inspection and Record Keeping Implementation Period Recommended O & M Activities and Process Landscaped Areas Property Owner, Operator, Hired Management, Home Owner’s Association At least twice monthly or according to a maintenance schedule. Quarterly summaries of inspection and maintenance activities should be appended to the WQMP. Post-Construction (See the following page) Irrigation System Property Owner, Operator, Hired Management, Home Owner’s Association At least twice monthly or according to a maintenance schedule. Trash Enclosures and Common Area Litter Control Property Owner, Operator, Hired Management, Home Owner’s Association Based on trash pick- up intervals and according to a maintenance schedule. Paved Area Sweeping Property Owner, Operator, Hired Management, Home Owner’s Association Twice monthly or according to a maintenance schedule Storm Drain System Property Owner, Operator, Hired Management, Home Owner’s Association Quarterly and after storm events or according to a maintenance schedule Retention Basins Property Owner, Operator, Hired Management, Home Owner’s Association Quarterly and after storm events or according to an established maintenance schedule *Note: “Storm events” refer to precipitation events producing 0.5 inches of rain or greater within a 48-hour period. The occurrence of these events may be confirmed against the local rain event summaries published in the National Weather Service or National Oceanic and Atmospheric Administration web site (www.noaa.gov). The recommended inspection, maintenance, and recordkeeping practices in this WQMP may be addressed by a formal schedule, operations manual, and other standard operating procedures which may be developed for this site. Note: The maintenance recommendations, including responsible parties, inspection intervals, and maintenance intervals, and activities are not intended to be exhaustive in nature and should not serve as the sole source of on-site operating procedures. As the Final WQMP documentation is produced for City review and approval, additional maintenance procedures may be necessary to implement. Where applicable, refer to the equipment manufacturer’s recommendations. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 27 Description of Maintenance Requirements: Landscaped Areas: All trimming, pruning, and removal of fallen organic material from plants, shrubs, and trees should be collected per an approved or adopted landscape maintenance plan, stored in an appropriate location and transported to an approved green-waste collection facility. Any equipment or material temporarily staged during maintenance activities should be placed away from drainage courses and storm drain inlets. Contracted maintenance staff should haul collected material promptly following the maintenance activities to avoid prolonged on-site storage. The planting materials are to remain as indicated on the approved set of landscape planting plans. In conjunction with the routine activities, maintenance staff should verify that the landscape design continues to function properly by adjusting to eliminate overspray to hardscape areas and to verify that irrigation timing and cycle lengths are adjusted in accordance with water demands, given the time of year, weather and day or nighttime temperatures. Irrigation Systems: Water conservation is to be maintained at all times per the approved irrigation plans. Monitoring of the irrigation system should be provided as necessary to ensure that appropriate watering levels are maintained and to verify that no piping or irrigation heads are leaking. Any debris, sediment, mineral and grit deposits should be removed from the irrigation system at regular intervals to provide consistent watering levels. The irrigation and landscape maintenance will help increase the effectiveness of these systems and minimize the amount of runoff that enters the storm drain system. Erosion and the conveyance of pesticides/fertilizers in runoff will also be prevented through routine maintenance. Routine irrigation system and landscape maintenance will also serve as a vector control measure due to the minimization of nuisance water runoff and stagnation. Trash Management and Common Area Litter Control: Common area litter control should be implemented to reduce pollution in runoff. Routine or scheduled monitoring should be performed in the common areas, landscaped areas, parking lots, in and around the trash enclosures, and along the perimeter walls of the project. Any observed accumulated trash, vegetation debris or improper disposal should be addressed promptly by the designated staff. Common area litter control measures can be coordinated and improved by the landscaping maintenance that will take place at the site. All landscape-related debris or maintenance deficiencies are to be corrected immediately. No trash should be allowed to be stored at the base of the containers. Pick-up intervals are to be determined so that the containers are not overfilled. Only approved materials and chemicals should be allowed in the dumpsters. Storm Drain System: Storm water conveyance systems, including inlets, outlets, cleanouts, manholes and pipelines within the project are to be inspected quarterly and after each major storm event or according to a maintenance schedule. All parts of the system are to be periodically cleaned to ensure that the system works properly during any storm event. Any waste collected from the cleaning activities is to be stored and properly disposed of. Paved Area Sweeping and Cleaning Paved area sweeping and cleaning should be performed on-site, specifically in the parking areas, to prevent sediment, litter and other debris from being washed by runoff into the on-site storm drain system. Paved area sweeping should be performed during dry weather if possible and the frequency should be flexible to accommodate climate conditions and areas of concern. Street sweeping equipment must be operated only by trained personnel based on the manufacturer’s specifications. Street sweeping equipment should be properly maintained off-site by the operator. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 28 Sweeping equipment should not be maintained or washed off on-site. All collected debris must be taken to an approved permanent disposal site. Retention Basins: Retention basins should be visually inspected on a quarterly basis or according to a landscaping maintenance schedule. Physical obstructions caused by vegetation debris or littering should be promptly cleared to ensure that the basins continue to function as designed. Any material collected (e.g. landscape debris or trash) should be properly handled and disposed of. Basin outlets must be inspected for signs of erosion or obstruction. The condition and effectiveness of the basin infiltration will depend in part on the maintenance p rocedures, such as those outlined below. Before annual storm seasons and following rainfall events producing precipitation of 0.5 inches or more: • Maintain landscaping and irrigation system as needed. • Remove debris and litter from the entire basin to minimize clogging and improve aesthetics. • Inspect for obvious problems and repair as needed. Address odor, insects, and overgrowth issues associated with stagnant or standing water in the basin bottom. No standing water should be present longer than 72 hours. • Check for erosion and sediment laden areas in the basin. Repair as needed. • Re-stabilize the basin slopes as needed. Perform the following inspection procedures within 72 hours after a rainfall event producing precipitation of 0.5 inches or greater: • Examine the tributary inlet for blockage, the embankment and spillway integrity, as well as damage to any structural element. • Check for erosion, slumping and overgrowth. Repair as needed. • Check basin depth for sediment build up and reduced total capacity. Scrape bottom as needed and remove sediment. Restore to original cross‐section and infiltration rate. Replant basin vegetation. • No water should be present 72 hours after a rainfall event. No long-term standing water should be present at all. No algae formation should be visible. Record Keeping: A copy of this project-specific WQMP shall be maintained on-site or remotely by the project owner or operator (Property Manager). Records of maintenance shall be appended to this WQMP based on the information provided by the contracted management. Whitewater River Region WQMP The Wave at Coral Mountain June 1, 2020 29 VII. Funding The funding source for operation and maintenance of each BMP identified in the Project Specific Preliminary Water Quality Management Plan shall be the responsibility of CM Wave Development, L.L.C. The owner recognizes that a source of funding is required to support the on-going operation and maintenance of BMPs, and that funding will continue for the life of the project. By certifying the final project specific WQMP, the Project applicant is certifying that the funding responsibilities have been addressed and will be transferred to future owners. One example of how to adhere to the requirement to transfer operation and maintenance responsibilities is to record the project specific WQMP against the title to the property. Whitewater River Region WQMP The Wave at Coral Mountain Appendix A CONDITIONS OF APPROVAL (TO BE PROVIDED) Whitewater River Region WQMP The Wave at Coral Mountain Appendix B VICINITY MAP, WQMP SITE PLAN, AND RECEIVING WATERS MAP MAP OF RECEIVING WATERS 0 2 4MI. PROJECTSITE WHITEWATER RIV ER COAC HELLA VALLEY STOR M WATER CHANNEL AVENUE 58 MADISON STREET60TH AVENUE The Hotel The Hotel PROP. RETENTION BASIN PROP. RETENTION BASIN PROP. RETENTION BASIN PROP. RETENTION BASIN L=780 A=61.802 DA-E A=51.629 DA-I A=35.742 DA-G A=7.118 DA-H A=44.811 DA-F L=780 A=28.403 DA-D L=2,000 A=41.586 DA-B L=1,180 A=88.412 DA-A1 L=1,050 A=24.968 DA-A3 L=1,350 A=10.191 DA-C L=1,050 A=17.314 DA-A2 PROP. LAKE & RETENTION EX. LEVEE DIKE NO. 2 PROP. LAKE & RETENTION EX. RETENTION BASIN EX. RETENTION BASIN EX. CATCH BASIN EX. CATCH BASIN Planning Area II-D Future Low Density Residential Development Future Retention Capacity Expected: Planning Area II-A Low Density Residential Planning Area IV Open Space Planning Area III-G Private Club Hosting Area PA III-A Resort PA III-E Resort Planning Area III-B Resort Planning Area II-E Future Low Density Residential Planning Area III-F Resort The Farm The Farm Village Pop-Up Village 3 Pop-Up Village 2 Pop-Up Village 1 Planning Area III-D Resort Pop-Up Village 4 Pop-Up Village 5 EX. LEVEE DIKE NO. 4 Back of House Coral Mountain 4.9 acre-feet Subject to Separate Final WQMP Based on Final Site Design Planning Area II-B Future Low Density Residential Development Future Retention Capacity Expected: 4.0 acre-feet Subject to Separate Final WQMP Based on Final Site Design Planning Area II-C Future Low Density Residential Development Future Retention Capacity Expected: 3.4 acre-feet Subject to Separate Final WQMP Based on Final Site Design Planning Area I Future Neighborhood Development Future Retention Capacity Expected: 1.4 acre-feet Subject to Separate Final WQMP Based on Final Site Design PROP. WAVE LAGOON & RETENTION A=5.701 DA-OFF (S) A=11.704 DA-OFF (N) PA III-C The Beach Club CHECK BY JHC EXHIBIT DATE: THE WAVEPROJECT NAME: TRACT MAP NO. 37815MAP NUMBER: PRELIMINARY WATER QUALITY MANAGEMENT PLANPLAN: JUNE 2020 MSA CONSULTING, INC. > PLANNING > CIVIL ENGINEERING > LAND SURVEYING 34200 Bob Hope Drive, Rancho Mirage, CA 92270 760.320.9811 msaconsultinginc.com DRAWN BY DESIGN BY DG JHC LEGEND AC. DA ELEV. PROPOSED STORM DRAIN LINES PROPOSED DRAINAGE AREA BOUNDARIES PROJECT BOUNDARY PROPOSED STORM DRAIN INLETS PROPOSED DRAINAGE DIRECTION* L = A = DA DRAINAGE SUB-AREA ID FLOW TRAVEL LENGTH (FT) AREA (AC) ACREAGE DRAINAGE AREA ELEVATION EX. PROP. RET. EXISTING PROPOSED RETENTION HYDROLOGIC AREA RECONCILIATION DRAINAGE PRELIMINARY WQMP SUMMARY ROCK OUT-OUTCROPPING 35.652 AC. EXISTING OPEN BRUSH - POOR 35.233 AC. IMPERVIOUS (STREETS/WALKS)11.552 AC. IMPERVIOUS (WATER FEATURE)27.445 AC. SFR - LOW DENSITY 193.047 AC. SFR - MEDIUM DENSITY 4.092 AC. SFR - HIGH DENSITY 22.208 AC. OPEN SPACE (LANDSCAPE)95.642 AC. TOTAL ON-SITE HYDROLOGIC AREA 444.027 AC. SURVEY BOUNDARY 384.389 AC. AREA ADD: 0.037 AC.AREA SUBTRACT: TOTAL AREA - RECONCILED 77.080 AC. 461.432 AC. OFF-SITE TRIBUTARY DA-A ROCK OUTCROPPING IMPERVIOUS (PAVING/HARDSCAPE) IMPERVIOUS (WATER FEATURE) EXISTING OPEN BRUSH - POOR PERVIOUS AREA (LANDSCAPE & RETENTION BASINS) COMMERCIAL SINGLE FAMILY RESIDENTIAL (WITH MS4 STENCILING OR SIGNAGE) TRIBUTARY AREA TO BMP: BMP DESIGN VOLUME: DRAINAGE AREA "E" 61.802 AC. IMPERVIOUS AREA WITHIN TRIBUTARY AREA: IMPERVIOUS AREA RATIO: 19.059 AC. 31% RUNOFF COEFFICIENT:0.23 UNIT STORAGE VOLUME: BMP DESIGN STORAGE VOLUME OF RETENTION BMP: RETENTION STORAGE PROVIDED: 0.09 AC-IN 20,610 CU-FT 1,216,389 CU-FT N.T.S. VICINITY MAP SITE 58TH AVENUE 60TH AVENUE AIRPORT BLVD. 54TH AVENUE MADISON STREETJEFFERSON STREET52ND AVENUE MONROE STREETJACKSON STREETCITY OF LA QUINTA COUNTY OF RIVERSIDE TRIBUTARY AREA TO BMP: BMP DESIGN VOLUME: DRAINAGE AREA "D" 28.403 AC. IMPERVIOUS AREA WITHIN TRIBUTARY AREA: IMPERVIOUS AREA RATIO: 14.157 AC. 50% RUNOFF COEFFICIENT:0.34 UNIT STORAGE VOLUME: BMP DESIGN STORAGE VOLUME OF RETENTION BMP: RETENTION STORAGE PROVIDED: 0.14 AC-IN 13,950 CU-FT 168,719 CU-FT TRIBUTARY AREA TO BMP: BMP DESIGN VOLUME: DRAINAGE AREA "A" 162.745 AC. IMPERVIOUS AREA WITHIN TRIBUTARY AREA: IMPERVIOUS AREA RATIO: 39.291 AC. 24% RUNOFF COEFFICIENT:0.19 UNIT STORAGE VOLUME: BMP DESIGN STORAGE VOLUME OF RETENTION BMP: RETENTION STORAGE PROVIDED: 0.08 AC-IN 45,719 CU-FT 3,178,217 CU-FT TRIBUTARY AREA TO BMP: BMP DESIGN VOLUME: DRAINAGE AREA "B" 41.586 AC. IMPERVIOUS AREA WITHIN TRIBUTARY AREA: IMPERVIOUS AREA RATIO: 17.518 AC. 42% RUNOFF COEFFICIENT:0.29 UNIT STORAGE VOLUME: BMP DESIGN STORAGE VOLUME OF RETENTION BMP: RETENTION STORAGE PROVIDED: 0.12 AC-IN 17,618 CU-FT 292,016 CU-FT TRIBUTARY AREA TO BMP: BMP DESIGN VOLUME: DRAINAGE AREA "C" 10.191 AC. IMPERVIOUS AREA WITHIN TRIBUTARY AREA: IMPERVIOUS AREA RATIO: 4.420 AC. 43% RUNOFF COEFFICIENT:0.30 UNIT STORAGE VOLUME: BMP DESIGN STORAGE VOLUME OF RETENTION BMP: RETENTION STORAGE PROVIDED: 0.12 AC-IN 4,424 CU-FT 57,966 CU-FT AREA TOTAL AREA (acres) DA-B DA-C DA-D DA-E IMPERVIOUS AREA (acres) 39.291 17.518 4.420 14.157 19.059 162.745 41.586 10.191 28.403 61.802 DESIGN VOLUME (cu-ft) DESIGN FLOW (cfs) 45,719 17,618 4,424 13,950 20,610 6.30 2.43 0.61 1.92 2.84 OFF-SITE IMPERVIOUS (STREETS/WALKS)9.768 AC. OPEN SPACE (LANDSCAPE)5.701 AC. TOTAL OFF-SITE HYDROLOGIC AREA 17.405 AC. TOTAL HYDROLOGIC AREA 461.432 AC. STORAGE PROVIDED (cu-ft) 3,178,217 292,016 57,966 168,719 1,216,389 R:\2553\ACAD\Grading\WQMP\2553 WQMP.dwg, 5/29/2020 12:48:02 PM, dgallerani, MSA Consulting, Inc. Whitewater River Region WQMP The Wave at Coral Mountain Appendix C SUPPORTING DETAIL RELATED TO HYDROLOGIC CONDITIONS OF CONCERN (NOT APPLICABLE – SEE APPENDIX F FOR HYDROLOGY REPORT SUMMARY) Whitewater River Region WQMP The Wave at Coral Mountain Appendix D EDUCATIONAL MATERIALS CHECKLIST FOR MINIMIZING VECTOR PRODUCTION IN STORMWATER MANAGEMENT STRUCTURES OUTDOOR CLEANING ACTIVITIES AND PROFESSIONAL MOBILE SERVICE PROVIDERS CALIFORNIA STORMWATER BMP HANDBOOK - MUNICIPAL SC-35: Safer Alternative Products SC-41: Building and Grounds Maintenance SC-43: Parking/Storage Area Maintenance SC-70: Road and Street Maintenance SC-71: Plaza and Sidewalk Cleaning SC-73: Landscape Maintenance SC-74: Drainage System Maintenance SD-12: Efficient Irrigation SD-13: Storm Drain Signage TC-11: Infiltration Basin                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                Safer Alternative Products SC-35 Description Promote the use of less harmful products and products that contain little or no TMDL pollutants. Alternatives exist for most product classes including chemical fertilizers, pesticides, cleaning solutions, janitorial chemicals, automotive and paint products, and consumables (batteries, fluorescent lamps). Approach Pattern a new program after the many established programs around the state and country. Integrate this best management practice as much as possible with existing programs at your facility. Develop a comprehensive program based on: The ³Precautionary Principle,´ which is an alternative to the "Risk Assessment" model that says it's acceptable to use a potentially harmful product until physical evidence of its harmful effects are established and deemed too costly from an environmental or public health perspective. For instance, a risk assessment approach might say it's acceptable to use a pesticide until there is direct proof of an environmental impact. The Precautionary Principle approach is used to evaluate whether a given product is safe, whether it is really necessary, and whether alternative products would perform just as well. Environmentally Preferable Purchasing Program to minimize the purchase of products containing hazardous ingredients used in the facility's custodial services, fleet maintenance, and facility maintenance in favor of using alternate products that pose less risk to employees and to the environment. Integrated Pest Management (IPM) or Less-Toxic Pesticide Program, which uses a pest management approach that minimizes the use of toxic chemicals and gets rid of pests by methods that pose a lower risk to employees, the public, and the environment. Energy Efficiency Program including no-cost and low-cost energy conservation and efficiency actions that can reduce both energy consumption and electricity bills, along with long-term energy efficiency investments. Consider the following mechanisms for developing and implementing a comprehensive program: Policies January 2003 California Stormwater BMP Handbook 1 of 5 Industrial and Commercial www.cabmphandbooks.com Objectives Educate Reduce/Minimize Product Substitution Targeted Constituents Sediment Nutrients Trash Metals Bacteria Oil and Grease Organics SC-35 Safer Alternative Products Procedures -Standard operating procedures (SOPs) -Purchasing guidelines and procedures -Bid packages (services and supplies) Materials -Preferred or approved product and supplier lists -Product and supplier evaluation criteria -Training sessions and manuals -Fact sheets for employees Implement this BMP in conjunction with the Vehicle and Equipment Management fact sheets (SC ± SC) and SC41, Building and Grounds Maintenance. Training Employees who handle potentially harmful materials in the use of safer alternatives. Purchasing departments should be encouraged to procure less hazardous materials and products that contain little or no harmful substances or TMDL pollutants. Regulations This BMP has no regulatory requirements. Existing regulations already encourage facilities to reduce the use of hazardous materials through incentives such as reduced: Specialized equipment storage and handling requirements, Storm water runoff sampling requirements, Training and licensing requirements, and Record keeping and reporting requirements. Equipment There are no major equipment requirements to this BMP. Limitations Alternative products may not be available, suitable, or effective in every case. Requirements Cost Considerations The primary cost is for staff time to: 1) develop new policies and procedures and 2) educate purchasing departments and employees who handle potentially harmful materials about the availability, procurement, and use of safer alternatives. 2 of 5 California Stormwater BMP Handbook January 2003 Industrial and Commercial www.cabmphandbooks.com Safer Alternative Products SC-35 Some alternative products may be slightly more expensive than conventional products. Supplemental Information Employees and contractors / service providers can both be educated about safer alternatives by using information developed by a number of organizations including the references and resources listed below. The following discussion provides some general information on safer alternatives. More specific information on particular hazardous materials and the available alternatives may be found in the references and resources listed below. Automotive products ± Less toxic alternatives are not available for many automotive products, especially engine fluids. But there are alternatives to grease lubricants, car polishes, degreasers, and windshield washer solution. Rerefined motor oil is also available. Vehicle/Trailer lubrication ± Fifth wheel bearings on trucks require routine lubrication. Adhesive lubricants are available to replace typical chassis grease. Cleaners ± Vegetables-based or citrus-based soaps are available to replace petroleum-based soaps/detergents. Paint products ± :ater-based paints, wood preservatives, stains, and finishes are available. Pesticides ± Specific alternative products or methods exist to control most insects, fungi, and weeds. Chemical Fertilizers ± Compost and soil amendments are natural alternatives. Consumables ± Manufacturers have either reduced or are in the process of reducing the amount of heavy metals in consumables such as batteries and fluorescent lamps. All fluorescent lamps contain mercury, however low-mercury containing lamps are now available from most hardware and lighting stores. Fluorescent lamps are also more energy efficient than the average incandescent lamp. Janitorial chemicals ± Even biodegradable soap can harm fish and wildlife before it biodegrades. Biodegradable does not mean non-toxic. Safer products and procedures are available for floor stripping and cleaning, as well as carpet, glass, metal, and restroom cleaning and disinfecting. Examples There are a number of business and trade associations, and communities with effective programs. Some of the more prominent are listed below in the references and resources section. References and Resources Note: Many of these references provide alternative products for materials that typically are used inside and disposed to the sanitary sewer as well as alternatives to products that usually end up in the storm drain. January 2003 California Stormwater BMP Handbook 3 of 5 Industrial and Commercial www.cabmphandbooks.com SC-35 Safer Alternative Products General Sustainable Practices and Pollution Prevention Including Pollutant- Specific Information California Department of Toxic Substances Control (www.dtsc.ca.gov) California Integrated Waste Management Board (www.ciwmb.ca.gov) City of Santa Monica (www.santa-monica.org/environment) City of Palo Alto (www.city.palo-alto.ca.us/cleanbay) City and County of San Francisco, Department of the Environment (www.ci.sf.ca.us/sfenvironment) Earth 911 (www.earth911.org/master.asp) Environmental Finance Center Region IX (www.greenstart.org/efc9) Flex Your Power (www.flexyourpower.ca.gov) GreenBiz.com (www.greenbiz.com) Green Business Program (www.abag.org/bayarea/enviro/gbus/gb.html) Pacific Industrial and Business Association (www.piba.org) Sacramento Clean Water Business Partners (www.sacstormwater.org) USEPA BMP fact sheet ± Alternative products (http://cfpub.epa.gov/npdes/stormwater/menuofbmps/poll_2.cfm) USEPA Region IX Pollution Prevention Program (www.epa.gov/region09/p2) Western Regional Pollution Prevention Network (www.westp2net.org) Metals (mercury, copper) National Electrical Manufacturers Association - Environment, Health and Safety (www.nema.org) Sustainable Conservation (www.suscon.org) Auto Recycling Project Brake Pad Partnership Pesticides and Chemical Fertilizers Bio-Integral Resource Center (www.birc.org) California Department of Pesticide Regulation (www.cdpr.ca.gov) University of California Statewide IPM Program (www.ipm.ucdavis.edu/default.html) 4 of 5 California Stormwater BMP Handbook January 2003 Industrial and Commercial www.cabmphandbooks.com Safer Alternative Products SC-35 January 2003 California Stormwater BMP Handbook 5 of 5 Industrial and Commercial www.cabmphandbooks.com Dioxins Bay Area Dioxins Project (http://dioxin.abag.ca.gov/) Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 1 of 6 Industrial and Commercial www.casqa.org Description Stormwater runoff from building and grounds maintenance activities can be contaminated with toxic hydrocarbons in solvents, fertilizers and pesticides, suspended solids, heavy metals, abnormal pH, and oils and greases. Utilizing the protocols in this fact sheet will prevent or reduce the discharge of pollutants to stormwater from building and grounds maintenance activities by washing and cleaning up with as little water as possible, following good landscape management practices, preventing and cleaning up spills immediately, keeping debris from entering the storm drains, and maintaining the stormwater collection system. Approach Reduce potential for pollutant discharge through source control pollution prevention and BMP implementation. Successful implementation depends on effective training of employees on applicable BMPs and general pollution prevention strategies and objectives. General Pollution Prevention Protocols Switch to non-toxic chemicals for maintenance to the maximum extent possible. Choose cleaning agents that can be recycled. Encourage proper lawn management and landscaping, including use of native vegetation. Encourage use of Integrated Pest Management techniques for pest control. Encourage proper onsite recycling of yard trimmings. Recycle residual paints, solvents, lumber, and other material as much as possible. Objectives Cover Contain Educate Reduce/Minimize Product Substitution Targeted Constituents Sediment Nutrients Trash Metals Bacteria Oil and Grease Organics Minimum BMPs Covered Good Housekeeping Preventative Maintenance Spill and Leak Prevention and Response Material Handling & Waste Management Erosion and Sediment Controls Employee Training Program Quality Assurance Record Keeping Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 2 of 6 Industrial and Commercial www.casqa.org Clean work areas at the end of each work shift using dry cleaning methods such as sweeping and vacuuming. Good Housekeeping Pressure Washing of Buildings, Rooftops, and Other Large Objects In situations where soaps or detergents are used and the surrounding area is paved, pressure washers must use a water collection device that enables collection of wash water and associated solids. A sump pump, wet vacuum or similarly effective device must be used to collect the runoff and loose materials. The collected runoff and solids must be disposed of properly. If soaps or detergents are not used, and the surrounding area is paved, wash runoff does not have to be collected but must be screened. Pressure washers must use filter fabric or some other type of screen on the ground and/or in the catch basin to trap the particles in wash water runoff. If you are pressure washing on a grassed area (with or without soap), runoff must be dispersed as sheet flow as much as possible, rather than as a concentrated stream. The wash runoff must remain on the grass and not drain to pavement. Landscaping Activities Dispose of grass clippings, leaves, sticks, or other collected vegetation as garbage, or by composting. Do not dispose of collected vegetation into waterways or storm drainage systems. Use mulch or other erosion control measures on exposed soils. See also SC-40, Contaminated and Erodible Areas, for more information. Building Repair, Remodeling, and Construction Do not dump any toxic substance or liquid waste on the pavement, the ground, or toward a storm drain. Use ground or drop cloths underneath outdoor painting, scraping, and sandblasting work, and properly dispose of collected material daily. Use a ground cloth or oversized tub for activities such as paint mixing and tool cleaning. Clean paintbrushes and tools covered with water-based paints in sinks connected to sanitary sewers or in portable containers that can be dumped into a sanitary sewer drain. Brushes and tools covered with non-water-based paints, finishes, or other materials must be cleaned in a manner that enables collection of used solvents (e.g., paint thinner, turpentine, etc.) for recycling or proper disposal. Use a storm drain cover, filter fabric, or similarly effective runoff control mechanism if dust, grit, wash water, or other pollutants may escape the work area and enter a catch basin. This is particularly necessary on rainy days. The containment device(s) must be in place at the beginning of the work day, and accumulated dirty runoff and Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 3 of 6 Industrial and Commercial www.casqa.org solids must be collected and disposed of before removing the containment device(s) at the end of the work day. If you need to de-water an excavation site, you may need to filter the water before discharging to a catch basin or off-site. If directed off-site, you should direct the water through hay bales and filter fabric or use other sediment filters or traps. Store toxic material under cover during precipitation events and when not in use. A cover would include tarps or other temporary cover material. Mowing, Trimming, and Planting Dispose of leaves, sticks, or other collected vegetation as garbage, by composting or at a permitted landfill. Do not dispose of collected vegetation into waterways or storm drainage systems. Use mulch or other erosion control measures when soils are exposed. Place temporarily stockpiled material away from watercourses and drain inlets, and berm or cover stockpiles to prevent material releases to the storm drain system. Consider an alternative approach when bailing out muddy water: do not put it in the storm drain; pour over landscaped areas. Use hand weeding where practical. Fertilizer and Pesticide Management Do not use pesticides if rain is expected. Do not mix or prepare pesticides for application near storm drains. Use the minimum amount needed for the job. Calibrate fertilizer distributors to avoid excessive application. Employ techniques to minimize off-target application (e.g., spray drift) of pesticides, including consideration of alternative application techniques. Apply pesticides only when wind speeds are low. Fertilizers should be worked into the soil rather than dumped or broadcast onto the surface. Irrigate slowly to prevent runoff and then only as much as is needed. Clean pavement and sidewalk if fertilizer is spilled on these surfaces before applying irrigation water. Inspection Inspect irrigation system periodically to ensure that the right amount of water is being applied and that excessive runoff is not occurring. Minimize excess watering and repair leaks in the irrigation system as soon as they are observed. Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 4 of 6 Industrial and Commercial www.casqa.org Spill Response and Prevention Procedures Keep your Spill Prevention Control and Countermeasure (SPCC) Plan up-to-date. Place a stockpile of spill cleanup materials, such as brooms, dustpans, and vacuum sweepers (if desired) near the storage area where it will be readily accessible. Have employees trained in spill containment and cleanup present during the loading/unloading of dangerous wastes, liquid chemicals, or other materials. Familiarize employees with the Spill Prevention Control and Countermeasure Plan. Clean up spills immediately. Material Handling and Waste Management Follow all federal, state, and local laws and regulations governing the use, storage, and disposal of fertilizers and pesticides and training of applicators and pest control advisors. Use less toxic pesticides that will do the job when applicable. Avoid use of copper- based pesticides if possible. Dispose of empty pesticide containers according to the instructions on the container label. Use up the pesticides. Rinse containers, and use rinse water as product. Dispose of unused pesticide as hazardous waste. Implement storage requirements for pesticide products with guidance from the local fire department and County Agricultural Commissioner. Provide secondary containment for pesticides. Employee Training Program Educate and train employees on pesticide use and in pesticide application techniques to prevent pollution. Train employees and contractors in proper techniques for spill containment and cleanup. Be sure the frequency of training takes into account the complexity of the operations and the needs of individual staff. Quality Assurance and Record Keeping Keep accurate logs that document maintenance activities performed and minimum BMP measures implemented. Keep accurate logs of spill response actions that document what was spilled, how it was cleaned up, and how the waste was disposed. Establish procedures to complete logs and file them in the central office. Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 5 of 6 Industrial and Commercial www.casqa.org Potential Capital Facility Costs and Operation & Maintenance Requirements Facilities Additional capital costs are not anticipated for building and grounds maintenance. Implementation of the minimum BMPs described above should be conducted as part of regular site operations. Maintenance Maintenance activities for the BMPs described above will be minimal, and no additional cost is anticipated. Supplemental Information Fire Sprinkler Line Flushing Site fire sprinkler line flushing may be a source of non-stormwater runoff pollution. The water entering the system is usually potable water, though in some areas it may be non- potable reclaimed wastewater. There are subsequent factors that may drastically reduce the quality of the water in such systems. Black iron pipe is usually used since it is cheaper than potable piping, but it is subject to rusting and results in lower quality water. Initially, the black iron pipe has an oil coating to protect it from rusting between manufacture and installation; this will contaminate the water from the first flush but not from subsequent flushes. Nitrates, poly-phosphates and other corrosion inhibitors, as well as fire suppressants and antifreeze may be added to the sprinkler water system. Water generally remains in the sprinkler system a long time (typically a year) and between flushes may accumulate iron, manganese, lead, copper, nickel, and zinc. The water generally becomes anoxic and contains living and dead bacteria and breakdown products from chlorination. This may result in a significant BOD problem and the water often smells. Consequently dispose fire sprinkler line flush water into the sanitary sewer. Do not allow discharge to storm drain or infiltration due to potential high levels of pollutants in fire sprinkler line water. References and Resources City of Seattle, Seattle Public Utilities Department of Planning and Development, 2009. Stormwater Manual Vol. 1 Source Control Technical Requirements Manual. Kennedy/Jenks Consultants, 2007.The Truckee Meadows Industrial and Commercial Storm Water Best Management Practices Handbook. Available online at: http://www.cityofsparks.us/sites/default/files/assets/documents/env- control/construction/TM-I-C_BMP_Handbook_2-07-final.pdf. Orange County Stormwater Program, Best Management Practices for Industrial/Commercial Business Activities. Available online at: http://ocwatersheds.com/documents/bmp/industrialcommercialbusinessesactivities. Sacramento Stormwater Management Program.Best Management Practices for Industrial Storm Water Pollution Control . Available online at: Building & Grounds Maintenance SC-41 September 2014 California Stormwater BMP Handbook 6 of 6 Industrial and Commercial www.casqa.org http://www.msa.saccounty.net/sactostormwater/documents/guides/industrial-BMP- manual.pdf. US EPA, 1997.Best Management Practices Handbook for Hazardous Waste Containers. Available online at: http://www.epa.gov/region6/6en/h/handbk4.pdf. Ventura Countywide Stormwater Management Program Clean Business Fact Sheets. Available online at: http://www.vcstormwater.org/documents/programs_business/building.pdf. Parking/Storage Area Maintenance SC-43 January 2003 California Stormwater BMP Handbook 1 of 4 Municipal www.cabmphandbooks.com Description Parking lots and storage areas can contribute a number of substances, such as trash, suspended solids, hydrocarbons, oil and grease, and heavy metals that can enter receiving waters through stormwater runoff or non-stormwater discharges. The following protocols are intended to prevent or reduce the discharge of pollutants from parking/storage areas and include using good housekeeping practices, following appropriate cleaning BMPs, and training employees. Approach Pollution Prevention Encourage alternative designs and maintenance strategies for impervious parking lots. (See New Development and Redevelopment BMP Handbook). Keep accurate maintenance logs to evaluate BMP implementation. Suggested Protocols General Keep the parking and storage areas clean and orderly. Remove debris in a timely fashion. Allow sheet runoff to flow into biofilters (vegetated strip and swale) and/or infiltration devices. Utilize sand filters or oleophilic collectors for oily waste in low concentrations. Objectives Cover Contain Educate Reduce/Minimize Product Substitution Targeted Constituents Sediment Nutrients Trash Metals Bacteria Oil and Grease Organics Oxygen Demanding SC-43 Parking/Storage Area Maintenance 2 of 4 California Stormwater BMP Handbook January 2003 Municipal www.cabmphandbooks.com Arrange rooftop drains to prevent drainage directly onto paved surfaces. Design lot to include semi-permeable hardscape. Controlling Litter Post No Littering signs and enforce anti-litter laws. Provide an adequate number of litter receptacles. Clean out and cover litter receptacles frequently to prevent spillage. Provide trash receptacles in parking lots to discourage litter. Routinely sweep, shovel and dispose of litter in the trash. Surface cleaning Use dry cleaning methods (e.g. sweeping or vacuuming) to prevent the discharge of pollutants into the stormwater conveyance system. Establish frequency of public parking lot sweeping based on usage and field observations of waste accumulation. Sweep all parking lots at least once before the onset of the wet season. If water is used follow the procedures below: -Block the storm drain or contain runoff. -Wash water should be collected and pumped to the sanitary sewer or discharged to a pervious surface, do not allow wash water to enter storm drains. -Dispose of parking lot sweeping debris and dirt at a landfill. When cleaning heavy oily deposits: -Use absorbent materials on oily spots prior to sweeping or washing. -Dispose of used absorbents appropriately. Surface Repair Pre-heat, transfer or load hot bituminous material away from storm drain inlets. Apply concrete, asphalt, and seal coat during dry weather to prevent contamination form contacting stormwater runoff. Cover and seal nearby storm drain inlets (with waterproof material or mesh) and manholes before applying seal coat, slurry seal, etc., where applicable. Leave covers in place until job is complete and until all water from emulsified oil sealants has drained or evaporated. Clean any debris from these covered manholes and drains for proper disposal. Parking/Storage Area Maintenance SC-43 January 2003 California Stormwater BMP Handbook 3 of 4 Municipal www.cabmphandbooks.com Use only as much water as necessary for dust control, to avoid runoff. Catch drips from paving equipment that is not in use with pans or absorbent material placed under the machines. Dispose of collected material and absorbents properly. Inspection Have designated personnel conduct inspections of the parking facilities and stormwater conveyance systems associated with them on a regular basis. Inspect cleaning equipment/sweepers for leaks on a regular basis. Training Provide regular training to field employees and/or contractors regarding cleaning of paved areas and proper operation of equipment. Train employees and contractors in proper techniques for spill containment and cleanup. Spill Response and Prevention Refer to SC-11, Spill Prevention, Control & Cleanup. Keep your Spill Prevention Control and countermeasure (SPCC) plan up-to-date, nad implement accordingly. Have spill cleanup materials readily available and in a known location. Cleanup spills immediately and use dry methods if possible. Properly dispose of spill cleanup material. Other Considerations Limitations related to sweeping activities at large parking facilities may include high equipment costs, the need for sweeper operator training, and the inability of current sweeper technology to remove oil and grease. Requirements Costs Cleaning/sweeping costs can be quite large, construction and maintenance of stormwater structural controls can be quite expensive as well. Maintenance Sweep parking lot to minimize cleaning with water. Clean out oil/water/sand separators regularly, especially after heavy storms. Clean parking facilities on a regular basis to prevent accumulated wastes and pollutants from being discharged into conveyance systems during rainy conditions. SC-43 Parking/Storage Area Maintenance 4 of 4 California Stormwater BMP Handbook January 2003 Municipal www.cabmphandbooks.com Supplemental Information Further Detail of the BMP Surface Repair Apply concrete, asphalt, and seal coat during dry weather to prevent contamination form contacting stormwater runoff. Where applicable, cover and seal nearby storm drain inlets (with waterproof material or mesh) and manholes before applying seal coat, slurry seal, etc. Leave covers in place until job is complete and until all water from emulsified oil sealants has drained or evaporated. Clean any debris from these covered manholes and drains for proper disposal. Use only as much water as necessary for dust control, to avoid runoff. References and Resources http://www.stormwatercenter.net/ Californias Nonpoint Source Program Plan http://www.swrcb.ca.gov/nps/index.html Model Urban Runoff Program: A How-To Guide for Developing Urban Runoff Programs for Small Municipalities. Prepared by City of Monterey, City of Santa Cruz, California Coastal Commission, Monterey Bay National Marine Sanctuary, Association of Monterey Bay Area Governments, Woodward-Clyde, Central Coast Regional Water Quality control Board. July 1998 (Revised February 2002 by the California Coastal Commission). Orange County Stormwater Program http://www.ocwatersheds.com/StormWater/swp_introduction.asp Oregon Association of Clean Water Agencies. Oregon Municipal Stormwater Toolbox for Maintenance Practices. June 1998. Pollution from Surface Cleaning Folder. 1996. Bay Area Stormwater Management Agencies Association (BASMAA) http://www.basma.org San Diego Stormwater Co-permittees Jurisdictional Urban Runoff Management Program (URMP) http://www.projectcleanwater.org/pdf/Model%20Program%20Municipal%20Facilities.pdf Infiltration Basin TC-11 January 2003 California Stormwater BMP Handbook 1 of 3 Municipal www.cabmphandbooks.com General Description An infiltration basin is a shallow impoundment that is designed to infiltrate stormwater. Infiltration basins use the natural filtering ability of the soil to remove pollutants in stormwater runoff. Infiltration facilities store runoff until it gradually infiltrates into the soil and eventually into the water table. This practice has high pollutant removal efficiency and can also help recharge groundwater, thus helping to maintain low flows in stream systems. Infiltration basins can be challenging to apply on many sites, however, because of soils requirements. In addition, some studies have shown relatively high failure rates compared with other management practices. Inspection/Maintenance Considerations Infiltration basins perform better in well-drained permeable soils. Infiltration basins in areas of low permeability can clog within a couple years, and require more frequent inspections and maintenance. The use and regular maintenance of pretreatment BMPs will significantly minimize maintenance requirements for the basin. Spill response procedures and controls should be implemented to prevent spills from reaching the infiltration system. Scarification or other disturbance should only be performed when there are actual signs of clogging or significant loss of infiltrative capacity, rather than on a routine basis. Always remove deposited sediments before scarification, and use a hand-guided rotary tiller, if possible, or a disc harrow pulled by a light tractor. This BMP may require groundwater monitoring. Basins cannot be put into operation until the upstream tributary area is stabilized. Maintenance Concerns, Objectives, and Goals Vector Control Clogged soil or outlet structures Vegetation/Landscape Maintenance Groundwater contamination Accumulation of metals Aesthetics Targeted Constituents Sediment Nutrients Trash Metals Bacteria Oil and Grease Organics Oxygen Demanding Legend (Removal Effectiveness) Low High Medium TC-11 Infiltration Basin 2 of 3 California Stormwater BMP Handbook January 2003 Municipal www.cabmphandbooks.com Clogged infiltration basins with surface standing water can become a breeding area for mosquitoes and midges. Maintenance efforts associated with infiltration basins should include frequent inspections to ensure that water infiltrates into the subsurface completely (recommended infiltration rate of 72 hours or less) and that vegetation is carefully managed to prevent creating mosquito and other vector habitats. Inspection Activities Suggested Frequency Observe drain time for a storm after completion or modification of the facility to confirm that the desired drain time has been obtained. Newly established vegetation should be inspected several times to determine if any landscape maintenance (reseeding, irrigation, etc.) is necessary. Post construction Inspect for the following issues: differential accumulation of sediment, signs of wetness or damage to structures, erosion of the basin floor, dead or dying grass on the bottom, condition of riprap, drain time, signs of petroleum hydrocarbon contamination, standing water, trash and debris, sediment accumulation, slope stability, pretreatment device condition Semi-annual and after extreme events Maintenance Activities Suggested Frequency Factors responsible for clogging should be repaired immediately. Weed once monthly during the first two growing seasons. Post construction Stabilize eroded banks. Repair undercut and eroded areas at inflow and outflow structures. Maintain access to the basin for regular maintenance activities. Mow as appropriate for vegetative cover species. Monitor health of vegetation and replace as necessary. Control mosquitoes as necessary. Remove litter and debris from infiltration basin area as required. Standard maintenance (as needed) Mow and remove grass clippings, litter, and debris. Trim vegetation at the beginning and end of the wet season to prevent establishment of woody vegetation and for aesthetic and vector reasons. Replant eroded or barren spots to prevent erosion and accumulation of sediment. Semi-annual Scrape bottom and remove sediment when accumulated sediment reduces original infiltration rate by 25-50%. Restore original cross-section and infiltration rate. Properly dispose of sediment. Seed or sod to restore ground cover. Disc or otherwise aerate bottom. Dethatch basin bottom. 3-5 year maintenance Infiltration Basin TC-11 January 2003 California Stormwater BMP Handbook 3 of 3 Municipal www.cabmphandbooks.com Additional Information In most cases, sediment from an infiltration basin does not contain toxins at levels posing a hazardous concern. Studies to date indicate that pond sediments are generally below toxicity limits and can be safely landfilled or disposed onsite. Onsite sediment disposal is always preferable (if local authorities permit) as long as the sediments are deposited away from the shoreline to prevent their reentry into the pond and away from recreation areas, where they could possibly be ingested by young children. Sediments should be tested for toxicants in compliance with current disposal requirements if land uses in the catchment include commercial or industrial zones, or if visual or olfactory indications of pollution are noticed. Sediments containing high levels of pollutants should be disposed of properly. Light equipment, which will not compact the underlying soil, should be used to remove the top layer of sediment. The remaining soil should be tilled and revegetated as soon as possible. Sediment removal within the basin should be performed when the sediment is dry enough so that it is cracked and readily separates from the basin floor. This also prevents smearing of the basin floor. References King County, Stormwater Pollution Control Manual Best Management Practices for Businesses. July, 1995 Available at: ftp://dnr metrokc.gov/wlr/dss/spcm/SPCM.HTM Metropolitan Council, Urban Small Sites Best Management Practices Manual. Available at: http://www.metrocouncil.org/environment/Watershed/BMP/manual.htm U.S. Environmental Protection Agency, Post-Construction Stormwater Management in New Development & Redevelopment BMP Factsheets. Available at: http://www.cfpub.epa.gov/npdes/stormwater/menuofbmps/bmp_files.cfm Ventura Countywide Stormwater Quality Management Program, Technical Guidance Manual for Stormwater Quality Control Measures. July, 2002. Whitewater River Region WQMP The Wave at Coral Mountain Appendix E SOILS REPORT Whitewater River Region WQMP The Wave at Coral Mountain Appendix F STRUCTURAL BMP AND/OR RETENTION FACILITY SIZING CALCULATIONS AND DESIGN DETAILS SUMMARY OF PRELIMINARY HYDROLOGY REPORT FOR THE WAVE AT CORAL MOUNTAIN (TTM 37815) ATRIB = 162.171 acres Determine the Impervious Area Within ATRIB (AIMP)AIMP = 38.874 acres Calculate the Impervious Area Ratio (IF) IF = AIMP/ATRIB IF = 0.24 Use the following equation based on the WEF/ASCE Method CBMP = 0.858If 3 - 0.78If 2 + 0.774If + 0.04 CBMP = 0.19 Calculate VU, the 80% Unit Storage Volume VU = 0.40 x CBMP VU = 0.08 (in*ac)/ac Calculate the design storage volume of the BMP, VBMP VBMP (ft3) =VBMP = 45,337 ft3 QBMP = CBMP x I x ATRIB QBMP = 6.24 ft3/s I = Design Rainfall Intensity, 0.2 in/hr Notes: BMP Design Flow Rate, QBMP Company Name Designed By Company Project Number/Name Drainage Area Number/Name THE WAVE - MSA JOB #2553 DRAINAGE AREA ’A’ October 21, 2019 VU (in-ac/ac) x AT (ac) x 43,560 (ft2/ac) 12(in/ft) Calculate the Composite Runoff Coefficient, C for the BMP Tributary Area Determine Design Storage Volume, VBMP Legend: Required Entries Calculated Cells Determine the Impervious Area Ratio WhitewaterWatershed BMP Design Volume, VBMP & Design Flow Rate , QBMP (Rev. 06-2014) Enter the Area Tributary to this Feature (ATRIB) MSA Consulting, Inc DLS Date County/City Case No. PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 451 0 0 548,486 0 0 0.00 456 5 5 178,499 726,985 3,178,217 3,178,217 72.96 WHERE: TOTAL WAVE LAGOON BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 459 0 0 65,765 0 0 0.00 460 1 1 11,545 77,310 71,460 71,460 1.64 461 1 2 12,170 89,480 83,321 154,781 3.55 WHERE: TOTAL 10 YEAR BASIN BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 468 0 0 10,730 0 0 0.00 469 1 1 6,330 17,060 13,773 13,773 0.32 470 1 2 6,965 24,025 20,443 34,217 0.79 WHERE: TOTAL 10 YEAR BASIN BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 ATRIB = 41.586 acres Determine the Impervious Area Within ATRIB (AIMP)AIMP = 17.512 acres Calculate the Impervious Area Ratio (IF) IF = AIMP/ATRIB IF = 0.42 Use the following equation based on the WEF/ASCE Method CBMP = 0.858If 3 - 0.78If 2 + 0.774If + 0.04 CBMP = 0.29 Calculate VU, the 80% Unit Storage Volume VU = 0.40 x CBMP VU = 0.12 (in*ac)/ac Calculate the design storage volume of the BMP, VBMP VBMP (ft3) =VBMP = 17,613 ft3 QBMP = CBMP x I x ATRIB QBMP = 2.43 ft3/s I = Design Rainfall Intensity, 0.2 in/hr Legend: Required Entries Calculated Cells Determine the Impervious Area Ratio WhitewaterWatershed BMP Design Volume, VBMP & Design Flow Rate , QBMP (Rev. 06-2014) Enter the Area Tributary to this Feature (ATRIB) MSA Consulting, Inc DLS Date County/City Case No. Notes: BMP Design Flow Rate, QBMP Company Name Designed By Company Project Number/Name Drainage Area Number/Name THE WAVE - MSA JOB #2553 DRAINAGE AREA ’B’ October 21, 2019 VU (in-ac/ac) x AT (ac) x 43,560 (ft2/ac) 12(in/ft) Calculate the Composite Runoff Coefficient, C for the BMP Tributary Area Determine Design Storage Volume, VBMP PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 458 0 0 279,800 0 0 0.00 459 1 1 24,605 304,405 292,016 292,016 6.70 WHERE: TOTAL BASIN B BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 ATRIB = 10.191 acres Determine the Impervious Area Within ATRIB (AIMP)AIMP = 4.419 acres Calculate the Impervious Area Ratio (IF) IF = AIMP/ATRIB IF = 0.43 Use the following equation based on the WEF/ASCE Method CBMP = 0.858If 3 - 0.78If 2 + 0.774If + 0.04 CBMP = 0.30 Calculate VU, the 80% Unit Storage Volume VU = 0.40 x CBMP VU = 0.12 (in*ac)/ac Calculate the design storage volume of the BMP, VBMP VBMP (ft3) =VBMP = 4,423 ft3 QBMP = CBMP x I x ATRIB QBMP = 0.61 ft3/s I = Design Rainfall Intensity, 0.2 in/hr Notes: BMP Design Flow Rate, QBMP Company Name Designed By Company Project Number/Name Drainage Area Number/Name THE WAVE - MSA JOB #2553 DRAINAGE AREA ’C’ October 21, 2019 VU (in-ac/ac) x AT (ac) x 43,560 (ft2/ac) 12(in/ft) Calculate the Composite Runoff Coefficient, C for the BMP Tributary Area Determine Design Storage Volume, VBMP Legend: Required Entries Calculated Cells Determine the Impervious Area Ratio WhitewaterWatershed BMP Design Volume, VBMP & Design Flow Rate , QBMP (Rev. 06-2014) Enter the Area Tributary to this Feature (ATRIB) MSA Consulting, Inc DLS Date County/City Case No. PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 452 0 0 25,035 0 0 0.00 453 1 1 3,930 28,965 26,976 26,976 0.62 454 1 2 4,095 33,060 30,990 57,966 1.33 WHERE: TOTAL BASIN C BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 ATRIB = 28.976 acres Determine the Impervious Area Within ATRIB (AIMP)AIMP = 14.177 acres Calculate the Impervious Area Ratio (IF) IF = AIMP/ATRIB IF = 0.49 Use the following equation based on the WEF/ASCE Method CBMP = 0.858If 3 - 0.78If 2 + 0.774If + 0.04 CBMP = 0.33 Calculate VU, the 80% Unit Storage Volume VU = 0.40 x CBMP VU = 0.13 (in*ac)/ac Calculate the design storage volume of the BMP, VBMP VBMP (ft3) =VBMP = 13,988 ft3 QBMP = CBMP x I x ATRIB QBMP = 1.93 ft3/s I = Design Rainfall Intensity, 0.2 in/hr Notes: BMP Design Flow Rate, QBMP Company Name Designed By Company Project Number/Name Drainage Area Number/Name THE WAVE - MSA JOB #2553 DRAINAGE AREA ’D’ October 21, 2019 VU (in-ac/ac) x AT (ac) x 43,560 (ft2/ac) 12(in/ft) Calculate the Composite Runoff Coefficient, C for the BMP Tributary Area Determine Design Storage Volume, VBMP Legend: Required Entries Calculated Cells Determine the Impervious Area Ratio WhitewaterWatershed BMP Design Volume, VBMP & Design Flow Rate , QBMP (Rev. 06-2014) Enter the Area Tributary to this Feature (ATRIB) MSA Consulting, Inc DLS Date County/City Case No. PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 451 0 0 101,190 0 0 0.00 452 1 1 11,305 112,495 106,793 106,793 2.45 452.5 0.5 1.5 23,075 135,570 61,927 168,719 3.87 WHERE: TOTAL BASIN D BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 ATRIB = 62.903 acres Determine the Impervious Area Within ATRIB (AIMP)AIMP = 19.414 acres Calculate the Impervious Area Ratio (IF) IF = AIMP/ATRIB IF = 0.31 Use the following equation based on the WEF/ASCE Method CBMP = 0.858If 3 - 0.78If 2 + 0.774If + 0.04 CBMP = 0.23 Calculate VU, the 80% Unit Storage Volume VU = 0.40 x CBMP VU = 0.09 (in*ac)/ac Calculate the design storage volume of the BMP, VBMP VBMP (ft3) =VBMP = 20,990 ft3 QBMP = CBMP x I x ATRIB QBMP = 2.89 ft3/s I = Design Rainfall Intensity, 0.2 in/hr Legend: Required Entries Calculated Cells Determine the Impervious Area Ratio WhitewaterWatershed BMP Design Volume, VBMP & Design Flow Rate , QBMP (Rev. 06-2014) Enter the Area Tributary to this Feature (ATRIB) MSA Consulting, Inc DLS Date County/City Case No. Notes: BMP Design Flow Rate, QBMP Company Name Designed By Company Project Number/Name Drainage Area Number/Name THE WAVE - MSA JOB #2553 DRAINAGE AREA ’E’ October 21, 2019 VU (in-ac/ac) x AT (ac) x 43,560 (ft2/ac) 12(in/ft) Calculate the Composite Runoff Coefficient, C for the BMP Tributary Area Determine Design Storage Volume, VBMP PROECT JOB No. BASIN DESIGNATION: BASIN CHARACTERISTICS CONTOUR ELEVATION INCR TOTAL INCR TOTAL INCR (ft) (ft) (sf) (sf) (cuft) (cuft) (acre-ft) 442 0 0 224,555 0 0 0.00 443 1 1 7,425 231,980 228,257 228,257 5.24 444 1 2 7,480 239,460 235,710 463,968 10.65 445 1 3 7,540 247,000 243,220 707,188 16.23 446 1 4 7,595 254,595 250,788 957,976 21.99 447 1 5 7,655 262,250 258,413 1,216,389 27.92 WHERE: TOTAL BASIN E BASIN VOLUME WORKSHEET DEPTH AREA VOLUME THE WAVE 2553 ( )( )2121213 1 AAAAEEV++-= Basin Volume Worksheet Page 13 of 13 Coral Mountain Preliminary Hydrology Report 1 PROJECT DESCRIPTION & LOCATION The project is proposed to consist of residential structures, a multi -story hotel complex, a wave lagoon and various outdoor amenities. The project site comprises approximately 377 acres with an additional 75 acres of offsite tributary area. The subject property is located on the southwest corner of Avenue 58 and Madison Street in the City of La Quinta and is situated in a portion of Sections 27 & 28, Township 6 South, Range 7 East, SBM. Existing dikes 2 & 4 along with the Coral Mountains border the prop erty to the west and south. A vicinity map obtained from the Riverside TLMA website is included as Appendix A. EXISTING SITE CONDITIONS Flood Rate Map The proposed area is covered by FIRM Panel Number 06065C 2900G, effective date of August 28, 2008, which indicates the subject property lies within Zone X (Shaded), defined as “Areas of 0.2% annual chance flood; areas of 1% annual chance flood with average depths of less than 1 foot or with drainage areas less than 1 square mile; and areas protected by levees from 1% annual chance flood. Insurance purchase is not required in these areas.” Refer to the attached NFIP Flood Insurance Rate Map in Appendix B. Existing Topography The property is generally vacant and undeveloped with CVWD irrigation mains, n umerous dirt road and hiking trails. Various desert vegetation is found throughout the site. The site is bounded to the east by Madison Street, to the north by 58th Avenue, existing levees and the Coral Mountains to the west and south, and 60th Avenue to the south. Groundwater was encountered at a depth of 47 feet for two of the borings. Site drainage appears to be controlled via sheet flow and surface infiltration generally from west to east. PROPOSED FLOOD CONTROL REQUIREMENTS The purpose of this report is to provide preliminary basin analyses for the subject property. The drainage requirements for this project fall under the jurisdiction of the City of La Quinta. Storm flows are conveyed through the site via street flow to localized low points. All proposed pad elevations are set a minimum of 1- foot above the high-side street elevation. HYDROLOGY ANALYSIS DESIGN CRITERIA Storm runoff volumes for the 100-year event were obtained utilizing the Synthetic Unit Hydrograph as described in the RCFC&WCD Hydrology Manual. The hydrologic data used for the calculations are as follows: Hydrologic Soil Group The existing soil is categorized primarily as hydrologic soil groups “A” and “B” for the majority of the subject property with soil group “D” being assigned to the Coral Mountain rock out-cropping as shown per the attached National Cooperative Soil Survey exhibits in Appendix C. For the purposes of this report, Soil Group ‘B’ was assigned to the analyses with the exception of the rock out-cropping. Soil Group ‘B’ is defined by RCFCD as – “soils having moderate infiltration rates when thoroughly wetted and consisting chiefly of moderately deep to deep, moderately well to well drained soils with moderately fine to moderately coarse textures. These soils have a moderate rate of water transmission”. Soil Group ‘D’ is defined by RCFCD as – “soils having a very slow infiltration rate (high runoff potential) when thoroughly wet. These consist chiefly of clays that have a high shrin k-swell potential, soils that have a high- water table, soils that have a claypan or clay layer at or near the surface and soils that are shallow over nearly impervious material”. Coral Mountain Preliminary Hydrology Report 2 Antecedent Moisture Condition AMC II – Moderate runoff potential, an intermediate condition. Per RCFC & WCD Hydrology Manual (Dated: April 1978): “For the purposes of design hydrology using District methods, AMC II should normally be assumed for both the 10-year and 100-year frequency storm”. Land Use Classifications and Runoff Index Numbers Runoff Index Numbers were obtained from RCFCD Plates E6.1, E6.2 and E6.3 are summarized below: Commercial or Residential Landscaping (Soil Group B) 56 Rock Out-cropping (Soil Group D) 93 Existing Open Brush – Poor 76 Percent of Impervious Cover (RCFCD Plate E-6.3): Rock Out-cropping 5% Existing Open Brush – Poor Condition 5% Impervious Areas (Buildings, Pavement, Hardscape) 100% Water Features 100% Commercial Areas 90% SFR – Low Density 30% SFR – Medium Density 40% SFR – High Density 50% Open Space (Landscaping & Retention Basins) 10% Low Loss Rates: 85% Precipitation Frequency Estimates Precipitation depths were obtained from NOAA Atlas 14: 2 Year - 1 Hour Precipitation: 0.358 inches 10 Year – 1 Hour Precipitation: 0.711 inches 10 Year –3 Hour Precipitation: 1.06 inches 10 Year – 6 Hour Precipitation: 1.36 inches 10 Year – 24 Hour Precipitation: 2.23 inches 100 Year – 1 Hour Precipitation: 1.44 inches 100 Year – 3 Hour Precipitation: 2.14 inches 100 Year - 6 Hour Precipitation 2.76 inches 100 Year – 24 Hour Precipitation 4.41 inches Slope of Intensity Duration Curve: 0.52 See Appendix D for the NOAA Atlas 14 Point Precipitation Frequency Estimates and respective RCFCD Plates. Site Infiltration No percolation tests have been performed at the current time, therefore, for the purposes of this report a design percolation rate of 1 in/hr was used in the basin sizing calculations. Prior to the final design submittal, percolation tests will be performed, and should the 1 inch/hour rate not be achieved, Maxwell drywells will be proposed to de-water the basins within the required time period as specified by Riverside County BMP requirements. Coral Mountain Preliminary Hydrology Report 3 Proposed Land Use Summaries Land uses for each of the drainage areas were analyzed based on the preliminary site plan. In addition, a reconciliation was performed to verify the hydrologic boundary corresponds to the existing property boundary accounting for any differences. Land use worksheets are included in Appendix E. SUMMARY of SYNTHETIC UNIT (SHORTCUT METHOD) ANALYSES The proposed retention basins for the associated drainage areas were sized to retain the 100-year controlling storm event flood volumes and were analyzed utilizing the RCFCD Synthetic Unit (Shortcut Method). Per the manual, for areas of less than 100 – 200 acres, and lag times less than 7 – 8 minutes, the shortcut method is applicable. This method assumes that in a small watershed, response time to effective rainfall is very short. Therefore, runoff rates for a given period of time can be assumed to be directly proportional to effective rain. This method yields only approximate results (on the conservative side) and should be used only for watersheds meeting the criteria noted above. It should be noted that the peak flow for the 1-hour storm is not necessarily representative for peak flow. Per RCFCD, peak discharges from the 3-hour storm should normally compare well with rational peaks. The synthetic unit worksheets are included in Appendix F and are summarized on sheets 1 and 2 of the hydrology exhibits in Appendix H. Drainage Area ‘A’ This area is located on the westerly portion of the project and consists primarily of Dike Number 2, the Coral Mountains, a portion of Dike Number 4, the south-westerly portion of Planning Area IX and Planning Area X . Storm runoff (approximately 18.4 acre-feet) from this drainage sub-area is directed to the wave lagoon which provides over 73 acre-feet of retention. Shallow basins are proposed to retain 10-year storm flows from drainage areas ‘A1’ & ‘A3’. During the final design process, once a more detailed land plan is provided, first flush storm flows from drainage area ‘A2’ will be captured and conveyed to an underground storage area prior to being discharged into the lagoon. Drainage Area ‘B’ Storm runoff of 4.2 acre-feet from this drainage area will be retained within the proposed lake. Drainage Area ‘C’ Storm runoff (roughly 1 acre-foot) for this drainage area will be conveyed to and retained in a temporary retention basin located in Drainage Area ‘F’. Drainage Area ‘D’ Storm runoff of approximately 3.1 acre-feet for this drainage area will be conveyed to and retained in the proposed lake located within the “Farm”. Drainage Area ‘E’ Storm runoff of approximately 5.7 acre-feet for this drainage area will be conveyed to and retained in a a large basin located in along the southerly portion of Planning Area VIII (Area 5). This basin will also provide a discharge location for the lagoon. Drainage Area ‘F’ This area is a future low-density residential development. Once developed it is anticipated approximately 4.0 acre-feet of retention will be required in addition to the 1 acre-foot basin required for Drainage Area ‘C’. Coral Mountain Preliminary Hydrology Report 4 Drainage Area ‘G’ This area is a future low-density residential development. Once developed it is anticipated approximately 3.2 acre-feet of retention will be required. Drainage Area ‘H’ This area is a future commercial development. Once developed it is anticipated approximately 1.6 acre-feet of retention will be required. Drainage Area ‘I’ This area is a future low-density residential development. Once developed it is anticipated approximately 4.7 acre-feet of retention will be required. Drainage Area ‘Off-Site North’ This area consists of the south half of Avenue 58 and the northerly west half of Madison Street. The storm flows are captured by an existing catch basin and discharged into an existing basin which will r emain when Drainage Area ‘I’ is developed. Drainage Area ‘Off-Site South’ This area consists of the north half of Avenue 60 and the southerly west half of Madison Street. The storm flows are captured by an existing catch basin and discharged into an exis ting basin which will remain when Drainage Area ‘E’ is developed. PRELIMINARY WQMP ANALYSES Preliminary design volume and flow for BMP measures were based on Worksheets 1 and 2 from the Riverside County – Whitewater River Region Water Quality Management Plan. Impervious area for the drainage sub- areas are derived from the preliminary land use worksheets. A summary of the BMP results is presented on sheet 1 of the Hydrology Exhibits in Appendix H with the worksheets being included as Appendix G. RESULTS AND CONCLUSIONS As the above narrative and appendices confirm, the proposed retention basins are sufficiently sized to contain the flood volume from the controlling 100-year storm. During the final design process, a more detailed hydrologic report will be submitted to the City for review and approval. Whitewater River Region WQMP The Wave at Coral Mountain Appendix G AGREEMENTS – CC&RS, COVENANT AND AGREEMENTS, BMP MAINTENANCE AGREEMENTS AND/OR OTHER MECHANISMS FOR ENSURING ONGOING OPERATION, MAINTENANCE, FUNDING AND TRANSFER OF REQUIREMENTS FOR THIS PROJECT-SPECIFIC WQMP Whitewater River Region WQMP The Wave at Coral Mountain Appendix H PHASE 1 ENVIRONMENTAL SITE ASSESSMENT – SUMMARY OF SITE REMEDIATION CONDUCTED AND USE RESTRICTIONS (NOT AVAILABLE) Whitewater River Region WQMP The Wave at Coral Mountain Appendix I PROJECT-SPECIFIC WQMP SUMMARY DATA FORM Project-Specific WQMP Summary Data Form Applicant Information Name and Title Garrett Simon Company CM Wave Development, L.L.C. Phone (970) 596-6642 Email gsimon@meriwetherco.com Project Information Project Name (as shown on project application/project-specific WQMP) The Wave at Coral Mountain Street Address South of Avenue 58; West of Madison Street Nearest Cross Streets Madison Street Municipality (City or Unincorporated County) City of La Quinta Zip Code 92253 Tract Number(s) and/or Assessor Parcel Number(s) Tentative Tract Map No. 37815 Other (other information to help identify location of project) Indicate type of project. Priority Development Projects (Use an "X" in cell preceding project type): SF hillside residence; impervious area ≥ 10,000 sq. ft.; Slope ≥ 25% SF hillside residence; impervious area ≥ 10,000 sq. ft.; Slope ≥ 10% & erosive soils X Commercial or Industrial ≥ 100,000 sq. ft. (Commercial Only) Automotive repair shop X Retail Gasoline Outlet disturbing > 5,000 sq. ft. X Restaurant disturbing > 5,000 sq. ft. X Home subdivision ≥ 10 housing units X Parking lot ≥ 5,000 sq. ft. or ≥ 25 parking spaces Date Project-Specific WQMP Submitted November 18, 2019, June 1, 2020 Size of Project Area (nearest 0.1 acre) 304.727Acres Will the project replace more than 50% of the impervious surfaces on an existing developed site? No Project Area managed with LID/Site Design BMPs (nearest 0.1 acre) 461.432 Acres (with off-site tributary areas) Are Treatment Control BMPs required? No Is the project subject to onsite retention by ordinance or policy? Yes Did the project meet the 100% LID/Site Design Measurable Goal? Yes Name of the entity that will implement, operate, and maintain the post-construction BMPs CM Wave Development, L.L.C. Contact Name Garrett Simon Street or Mailing Address 2440 Junction Place, Suite 200 City Boulder, CO Zip Code 80301 Phone (970) 596-6642 Space Below for Use by City/County Staff Only Preceding Information Verified by (consistent with information in project-specific WQMP) Name: Date: Date Project-Specific WQMP Approved: Data Entered by Name: Date: Other Comments