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Home My WebLink AboutCOUNCIL - AGENDA ITEM - 04/06/2010 - ITEMS RELATING TO A REVIEW OF THE CITY'S STORMWATE DATE: April 6, 2010 STAFF: Jon Haukaas _ Brian Janonis Items Relating to a Review of the City's Stormwater Management Program. A. Second Reading of Ordinance No. 030, 2010 Amending Section 26-492 of the Code Declaring the Purpose of the Stormwater Utility. B. Second Reading of Ordinance No. 031, 2010 Adopting Landscape Design Standards and Guidelines as an Addendum to the City's Storm Drainage Design Criteria and Construction Standards. EXECUTIVE SUMMARY These Ordinances, unanimously adopted on First Reading on March 16, 2010, adopt a revised stormwater purpose statement and new landscape design standards and guidelines for stormwater and detention facilities. The revised purpose statement was expanded to include a balanced approach to the triple bottom line components of economic, environmental,and social aspects of stormwater management. The landscape design standards and guidelines were developed to provide direction to improve stormwater quality and aesthetics of stormwater facilities. Ordinance No, 030, 2010, updating the purpose statement in the City Code, has been revised between First Reading and Second Reading in order to make the new Code language conform more closely to the Council's direction at the December 8, 2009, Work Session. STAFF RECOMMENDATION Staff recommends adoption of the Ordinances on Second Reading. ATTACHMENTS 1. Copy of First Reading Agenda Item Summary- March 16, 2010 (w/o attachments) 2. Powerpoint presentation ATTACHMENT DATE: March 16, 2010 Lill , V STAFF: Jon Haukaas _ Brian Janonis Items Relating to a Review of the City's Stormwater Management Program. A. First Reading of Ordinance No. 030, 2010 Amending Section 26-492 of the Code Declaring the Purpose of the Stormwater Utility. B. First Reading of Ordinance No=031,\271 pting-Landscape Design Standards and Guidelines as an Addendum to the City's, Storm Drainage Design Gritena a� e nsttructlon Standards. EXECUTIVE SUMMARY These Ordinances adopt revised stormwater purpose statement and new landscape design standards and guidelines for stormwater and detention facilities. The revised purpose statement was expanded to include a balanced approach to the triple bottom line components of economic,environmental,and social aspects of stormwater management. The landscape design standards and guidelines were developed to provide direction to improve stormwater quality and aesthetics of stormwater facilities. BACKGROUND / DISCUSSIONS �� [f:::�)'\\ 1 ll t� 1J I1� Y, In October 2008, Council directed staff`o review�the City s stormwater program. At the December 8, 2009 Work Session, staff and the City's Water Board=di cussed the program with Council. At this work session Council directed staff to present items for Council consideration as they were ready for formal consideration. These items are the first two elements in a number of items that will be presented to Council over the next few months, aimed at achieving a new emphasis and purpose for the Stormwater Utility that recognizes an integrated and multi-functional approach to stormwater management in the City of Fort Collins. The Stormwater program purpose statement is recommended to be revised to reflect the 21 st Century Utility Initiative and provide an expanded triple bottom line emphasis. The new purpose statement places a balanced emphasis on the economic, environmental and social components, developing a holistic and integrated program that focuses on the benefits of the triple bottom line. �� /Y �� I Council discussed the recommended purpose statemenf;from t, he Water!Board at its December 2009 work session and directed staff to make revisions to the Water Board s0proposed purpose statement. Following is the proposed 1 c/. .�\ // l i purpose statement which incorporates t��evlslonsrecomry4nded by%'Until: The City's integrated, sustainable stormwater management program shall reflect the community's values of protecting and restoring the City's watersheds,its tributaries and the Cache la Poudre River for mutual economic, social, and environmental benefits including: • Economic: flood damage reduction, increased recreation and tourism along stream corridors, reduced business interruptions • Social: public safety and welfare,reduced need for emergency response,recreation opportunities promoting community wellness • Environmental. preserve_,natural and•beneficialfunctions offloodplains,enhance stormwater quality p eserve riparian habitat I4 (� 1:1 The City of Fort Collins "Landscape Design�Standa`rds and Guidelines for stormwater and Detention Facilities"will facilitate the infiltration of runoff, enhancing-stormwater quality, increasing habitat value and plant conservation, and increase the aesthetic appeal of detention facilities. March 16, 2010 -2- ITEM 17 FINANCIAL IMPACT Adoption of these Ordinances is not expected to have any significant financial impact on the City's budget or reserves. It may lead to higher initial costs for development which will be offset by lower life-cycle costs, through reduced maintenance and replacement costs and higher property values. SUSTAINABILITY: ECONOMIC, ENVIRONMENTAL AND SOCIAL IMPACTS Stormwater Purpose Statement Economic Impacts ft I r --'1. Increased opportunitiestode elloping, mwater projects and facilities as urban amenities as open space, riparian corridors and multi-use.facilities\�. �J U 2. Reduced costs of flood events in regard to structure and content damage, transportation obstructions, infrastructure repair and emergency response. Environmental Impacts 1. Increased environmental ethos through improving stormwater quality, stream restoration and habitat protection. 2. Reduced damage of flood events from raw sewage overflows, mold disease and solid waste disposal. Social Impacts /� � �`�\V� 1. Increased opportunities related to publ�c recreatiioln(land--eddu/cation!i.e., pedestrian corridors, outdoor class rooms, water quality treatment demonstration projects. 2. Reduced impacts from flood events, loss of-life, personnel injury I I d emotional trauma. Landscape Design Standards and Guidelines for Stormwater and Detention Facilities Economic Impacts 1. More sustainable development regulations will reduce life-cycle costs of operating and maintaining detention facilities, through lower watering and maintenance costs. 2. Less erosion and flooding damages incurred from smaller storms due to higher infiltration capacity of detention ponds. —� � 3. If not properly built and maintained�will lea6to-loss of installed vegetation; erosion threats and ultimately loss of initial investment. (''� " (� . ) 4. Higher initial investment costs four�dscapmg of new(developmentyrojects could discourage development. Environmental Impacts u 1. Higher water quality in streams and water bodies receiving stormwater from detention ponds through increased filtration of pollutants, increased evapotranspiration effects and reduced stream degradation and erosion. 2. Less use of resources for irrigation, heating and cooling needs and land consumption. 3. Improved habitat value for flora and fauna. 4. If not properly designed, built or maintained could lead to stagnant water conditions, nuisance odors, and create a mosquito breeding area. Social Impacts ndueto �=� `;�1-/1. Will improve aesthetics in publicspaces the increased vegetation requirements and standards. 11 2. Can serve an educational function as outdoor-classrooms scattered within the community. 3. More opportunities for recreation and enjoyment of public spaces through the construction of multi-purpose facilities. March 16, 2010 -3- ITEM 17 STAFF RECOMMENDATION Staff recommends adoption of the Ordinances on First Reading. BOARD / COMMISSION RECOMMENDATION At its November 2008 meeting, the Water Board unanimously recommended adoption of revised purpose statement for the stormwater program. The Water Board's purpose statement, as amended by Council, was reviewed by the Water Board at its January 2010 meeting-with no additional comments,and no-additional revisions. The Water Board reviewed the detention pond landscape;stand� aids and`guidelines at its June 2009 and November 2009 meetings. A unanimous recommendation'for adoption,as made at-the November meeting. The Planning and Zoning Board reviewed the draft standards and guidelines as an informational item at its February 2010 work session and offered positive feedback and expressions of support. PUBLIC OUTREACH These standards and guidelines have gone through a significant amount of outreach activities and efforts in order to solicit and receive comments on the proposed standards and guidelines. The outreach was done through a combination of stakeholder group meetings,and publiWreetings. The,stakeholder group consisted of members of the development community, design professionals, and maintenanc professonals. An open house was held in April 2009, with 50 people attending. From that first_open hous1=Land,the initial stakeholder meeting, comments were gathered and incorporated into the revisseeedd dFaft� The revised draft standards and guidelines then went through a second round of outreach in August 2009, going to both the stakeholder group and the general public at an open house and then to the Water Board for comments and recommendation. The Fort Collins Chamber of Commerce Local Legislative Affairs Committee raised concerns on the increased costs and increased land area required to meet the new requirements. ATTACHMENTS 1. City Council Work Session Summary De6em6er8, 2009 V2. Water Board Recommendation Memo and Meeting Excerpts City Council Meeting April 6 , 2010 Stormwater Program Review Stormwater Purpose Statement Detention Pond Landscape Standards Stormwater Program Review Components a . Stormwater Purpose Statement b . BMP Policy Update c. Stormwater Criteria Update d . Detention Pond Construction/Landscape Standards & Guidelines e . Stormwater Quality GIS Coverage f. LID Demonstration Projects g . LID Policy Review h . Stormwater Quality Sampling Review i . City Owned BMP Review j . HOA Assistance Program k. Level of Protection Policy ATTACHMENT 2 I . Rates m . Flsee plain Regulations n . Urban Stream Health rat_f1 Existing Stormwater Purpose Statement (Sec. 26-492 . Declaration of purpose) The City Council hereby finds, determines and declares the necessity of providing stormwater facilities for the drainage and control of flood and surface waters within the City, including areas to be subdivided and developed, in order that storm and surface waters may be properly drained and controlled, pollution may be reduced and the environment enhanced and that the health, property, safety and welfare of the City and its inhabitants may be safeguarded and protected. Proposed Purpose Statement The City Council hereby finds, determines and declares the City's integrated, sustainable stormwater management program shall reflect the community's values of protecting and restoring the City's watersheds, its tributaries and the Cache la Poudre River for mutual economic, social, and environmental benefits including; — Economic; flood damage reduction , increased recreation and tourism along stream corridors , reduced business interruptions — Social ; public safety and welfare , reduced need for emergency response , recreation opportunities promoting community wellness — Environmental ; preserve natural and beneficial functions of floodplains , enhance stormwater quality, preserve riparian habitat �Ft\ Landscape Design Standards and Guidelines Manual • Improve the aesthetics of stormwater ponding areas . • Promote infiltration in appropriate soils . • Design for maintenance . • Use of proper plantings and landscape materials . • Protect wildlife habitat. i 1 rtf ollins � I Discussion [tins ORDINANCE NO . 030, 2010 OF THE COUNCIL OF THE CITY OF FORT COLLINS AMENDING SECTION 26-492 OF THE CODE OF THE CITY OF FORT COLLINS DECLARING THE PURPOSE OF THE STORMWATER UTILITY WHEREAS , the declaration of purpose of the City Stormwater Utility was last updated in 1991 ; and WHEREAS , in October 2008 , the City Council directed City staff to review the City' s stormwater program and return to the City Council with recommendations for possible updates and improvements to the program; and WHEREAS , at an additional work session on December 2009, the City Council considered staff proposals for an updated purpose statement for the stormwater program and provided feedback to staff; and WHEREAS , the Water Board acted in November 2008 to adopt and recommend to City Council for adoption a proposed revised purpose statement for the stormwater program, and considered an updated version of the proposed statement reflecting City Council ' s input at its January 2010 regular meeting; and WHEREAS , the updated stormwater program purpose statement is intended to reflect a balanced emphasis on economic, environmental and social components in order to foster a holistic and integrated stormwater management program consistent with the City ' s 21st Century Utility Initiative. NOW, THEREFORE, BE IT ORDAINED BY THE COUNCIL OF THE CITY OF FORT COLLINS as follows : Section 1 . That the City Council hereby finds, determines and declares the necessity of providing an integrated, sustainable stormwater management program that reflects the community's values of protecting and restoring the City' s watersheds, its tributaries and the Cache la Poudre River for mutual economic, social, and environmental benefits . Section 2 . That Section 26-492 of the Code of the City of Fort Collins is hereby repealed in its entirety and reenacted with the following: Sec. 26-492 . Declaration of purpose. The eity eouncit hereby finds , dktcrinincs and declares the necessity—of providing It is the purpose of the City to provide an integrated, sustainable stormwater management program that reflects the community's values of protecting and restoring the City's watersheds, its tributaries and the Cache la Poudre River for mutual economic, social, and environmental benefits including, but not limited to the following : - 1 - ( 1 ) Economic : flood damage reduction, increased recreation and tourism along stream corridors, reduced business interruptions; (2) Social : public safety and welfare, reduced need for emergency response, recreation opportunities promoting community wellness; and (3 ) Environmental : preserve natural and beneficial functions of floodplains, enhance stormwater quality, preserve riparian habitat. Introduced and considered favorably on first reading and ordered published this 16th day of March, A.D . 2010, and to be presented for final passage on the 6th day of April, A.D . 2010 . Mayor ATTEST : City Clerk Passed and adopted on final reading this 6th day of April, A.D . 2010 . Mayor ATTEST : City Clerk -2- ORDINANCE NO. 031, 2010 OF THE COUNCIL OF THE CITY OF FORT COLLINS ADOPTING LANDSCAPE DESIGN STANDARDS AND GUIDELINES FOR STORMWATER AND DETENTION FACILITIES AS AN ADDENDUM TO THE CITY'S STORM DRAINAGE DESIGN CRITERIA AND CONSTRUCTION STANDARDS WHEREAS, in 1984, the City Council adopted Resolution 1984-41, approving "Storm Drainage Design Criteria and Construction Standards" for the purpose of setting forth the technical criteria to be used in the analysis, design and construction of storm drainage systems within the City; and WHEREAS, in 1991, the City Council adopted Resolution 1991-44, amending the Storm Drainage Design Criteria and Construction Standards by the addition of"Construction Erosion Control Criteria"; and WHEREAS, in 1999, the City Council adopted Ordinance No.042, 1999, amending the Storm Drainage Design Criteria and Construction Standards to substitute and replace the Rainfall Intensity Duration Curve, and reaffirming, readopting and reenacting the Standards as amended; and WHEREAS, all new developments in the City are required to comply with the Storm Drainage Design Criteria and Construction Standards, as amended, pursuant to Section 26-544 of the City Code and Section 3.3.3 of the City's Land Use Code; and WHEREAS, at a work session in December 2009, the City Council considered staff recommendations for updating and improving the City's stormwater program and provided feedback to staff, and WHEREAS, one priority area for improvement identified in City Council discussions was the development of landscape design standards and guidelines to establish and encourage a more integrated approach for stormwater and detention facilities; and WHEREAS, City staff has worked with stakeholders, the general public and the City Water Board to develop and refine a proposed set of "Landscape Design Standards and Guidelines for Stormwater and Detention Facilities", attached hereto as Exhibit A and incorporated herein by this reference (the "Landscape Standards and Facilities Guidelines"; and WHEREAS, the Landscape Standards and Facilities Guidelines are aimed at facilitating the infiltration of runoff, enhancing stormwater quality, increasing habitat value and plant conservation, and increasing aesthetic appeal of detention facilities; and WHEREAS, the Water Board voted unanimously in November 2009 to recommend approval of the Landscape Standards and Facilities Guidelines; and 1 WHEREAS, the Landscape Standards and Facilities Guidelines were presented to the Planning and Zoning Board at its February 2010 work session, and at that time members of the Board offered positive feedback and expressions of support; and WHEREAS, based on consideration of the anticipated economic, environmental and social impacts of adoption of the Landscape Standards and Facilities Guidelines as part of the Storm Drainage Design Criteria and Construction Standards, the City Council desires to adopt the same in order to promote a holistic and integrated stormwater program consistent with the City's 21 st Century Utility Initiative. NOW, THEREFORE, BE IT ORDAINED BY THE COUNCIL OF THE CITY OF FORT COLLINS as follows: Section 1. That the Storm Drainage Design Criteria and Construction Standards are hereby amended to add as an addendum thereto the Landscape Design Standards and Guidelines for Stormwater and Detention Facilities attached hereto as Exhibit A. Section 2. That the Storm Drainage Design Criteria and Construction Standards as amended are hereby reaffirmed, readopted and reenacted by the City Council. Section 3. That the newly adopted addendum to the Storm Drainage Design Criteria and Construction Standards as set forth herein shall not apply to any land development for which an application for preliminary or final subdivision plan approval, or project development plan or final plan approval has been filed with the City prior to April 6, 2010. Introduced, considered favorably on first reading, and ordered published this 16th day of March, A.D. 2010, and to be.presented for final passage on the ay of April, A.D. 2019. ayor ATTEST: City Clerk Passed and adopted on final reading on the 6th day of April, A.D. 2010. Mayor ATTEST: City Clerk EXHIBIT "A" Forta Collins Co ' City of Fort Collins Landscape Design Standards and Guidelines for Stormwater and Detention Facilities November 5, 2009 PREPARED BY BHA DESIGN INC . WITH CITY OF FORT COLLINS UTILITY SERVICES F6rta CollinsCo ' ACKNOWLEDGEMENTS : STEERING COMMITTEE AND CONTRIBUTORS Rodney Albers - City of Fort Collins Utilities Justin Morrison - Mountain - n - Plains Real Estate Services Michael Bello - Larkspur Homes, LLC Les Kaplan Stu MacMillan - Everitt- MacMillan Jim Sell - Jim Sell Design, Inc . Jason Claeys - Jim Sell Design, Inc . Matt Blakely - Jim Sell Design, Inc . Jennifer Williams Almstead - VFR Nick Haws - Northern Engineering Herman Feissner - Feissner Consulting, LLC Brad Anderson - Anderson Consulting Engineers, Inc . Steve Long - Cedar Creek Associates, Inc . Basil Hamdan - City of Fort Collins Utilities Dana Leavitt - City of Fort Collins Planning Steve Olt - City of Fort Collins Current Planning Mark Sears - City of Fort Collins Nat Resources Angela Milewski - BHA Design Inc. Jason Messaros - BHA Design Inc . Glen Schlueter - City of Fort Collins Utilities Lisa Kokes - City of Fort Collins Utilities Louise Herbert - Landscape Architect ACKNOWLEDGEMENTS Page 2 of 21 Stormwater Standards and Guidelines MEN TABLE OF CONTENTS INTRODUCTION 1 VISION AND GOALS 1 STRUCTURE 1 VARIANCE PROCEDURES 1 BACKGROUND 2 CONCEPTS 2 INFILTRATION VS . RUNOFF 2 HABITAT VALUE 2 STORMWATER IS AN AMENITY 3 OBJECTIVES 4 DESIGN GUIDELINES 5 GENERAL CONSIDERATIONS 5 PLANNING/SITE CONTEXT 5 LANDFORM AND SLOPES 6 PLANTING DESIGN 8 PLANT SPECIES SELECTION 8 TABLE 1 : RECOMMENDED PLANT LIST 9 PLANTING TECHNIQUES 10 IRRIGATION 12 MAINTENANCE 13 APPENDICES 14 GLOSSARY OF TERMS & CONCEPTS 14 STAKEHOLDER & OPEN HOUSE COMMENTS 16 TABLE OF CONTENTS Page 3 of 21 � '�• r qt i� AP CIPO. MuVP. se Bas`gm Detention, Water Quality, Passive Recreation, Habitat Restoration r� 04, � W. v.o �l K • rAIL 14 .4 jt AL milk � i N1 Ir PA41 CIPO: Integrated Outfall Structure CIPO - Habitat, Bio-Mimic City of Fort Collins Stormwater Standards and Guidelines INTRODUCTION The following standards and guidelines have been • Larimer County Urban Area Street Standards developed to inform the design and maintenance of • Army Corps of Engineers landscaping within storm drainage and detention facilities • Neighborhood Home Owner's Association in Fort Collins . Currently the City of Fort Collins follows Requirements written standards for the technical design of drainage and • Neighborhood Design Review Committee detention facilities . These facilities represent a significant Requirements portion of open space within both public and private developments in the city. As a result, these standards VARIANCE PROCEDURES and guidelines will improve the overall character of our These standards and guidelines illustrate and regulate community, storm drainage function , reduce irrigation the implementation of the concepts and objectives of demand, improve wildlife habitat, and promote the 21st Century Utilities Initiative . Their purpose is to maintenance of these open areas . convey these fundamental concepts, but also to foster design innovation and collaboration between city staff, VISION AND GOALS developers, and design professionals . Proposed designs These standards and guidelines are part of a that illustrate the spirit and accomplish the goals, but larger vision of both the City of Fort Collins City-Wide do not conform to these standards must be approved Sustainability Initiative and the 21st Century Utilities by the City of Fort Collins Utilities Executive Director Initiative . This vision is : or the Director's designee . A variance request shall be submitted in writing prior to or as part of an application "To inspire community leadership by reducing for development review. The variance request ( s ) shall environmental impacts while benefiting customers, the include : economy and society" • Identifying Issue : Identification of the standard to be waived or varied and why the standard is unfeasible . In order to help achieve this vision, these standards and • Alternate Design : Identification of the proposed guidelines for landscaping have been developed with the alternative design or construction criteria . following goals : • Comparison to Standards : A thorough description • Promote water infiltration and water quality of the variance request and how the new design • Habitat value and plant conservation compares to the standard . • Improve aesthetic quality • Justification : Indication of how the proposed plan ( as varied ) advances the purpose of the standard STRUCTURE sought to be varied equally well or better than would This document includes background information compliance with such standard . and describes concepts and objectives for design of stormwater facilities to meet the goals of the 21st Based upon review of the plans and additional Century Utilities Initiative . It includes both guidelines information submitted, the Director may approve or deny ( suggested recommendations for design improvements) the variance request . If the Director of Utilities approves and standards ( mandatory requirements for design or the variance request, the plans will continue to be documentation ) . The standards or requirements are reviewed and approved within the typical review process . outlined a the end of each section . If the Director denies the variance request, the applicant This document is intended to supplement, not shall subsequently submit revised plans in compliance supercede, current regulatory documents which may with these Standards . The Director shall provide a written include : response outlining the basis for all approvals or denials of • Fort Collins Land Use Code variance requests . • Fort Collins Stormwater Design Criteria Manual ' 11 • Page 5 of 21 F6rtclCollinsf BACKGROUND CONCEPTS through the soil and bedrock, recharging the groundwater The basic concepts of stormwater management are system . not complicated . The goal is to restore the hydrological cycle to the extent possible and to utilize the available Runoff occurs when the soil is saturated, has become precipitation to promote a naturalized environment impermeable or when structures and impermeable in developed areas . This requires understanding the materials are placed on the site . Runoff tends to contain pre-development conditions so they can be an integrated silt and pollutants that require mitigation . Excessive system in the development . runoff also contributes to adverse hydraulic downstream conditions causing unnatural stream bank erosion and Site stormwater design should not simply focus on basin limited groundwater recharge . sizing and outfall rates, but should address site drainage as an integrated multi- use hydrologic system . This system Appropriate site design promotes natural infiltration may include detention , water quality treatments, stream resulting in fewer downstream impacts including excessive bank erosion control, habitat creation, infiltration, energy steam flow, exaggerated geomorphology, and reduced dissipation, and/or recreational use . The concepts stormwater capacity of natural systems . here illustrate specific measures which affect landscape treatments within this overall, integrated stormwater HABITAT VALUE design approach . Historically the area that is now Fort Collins was a short grass prairie with a large variety of plant and animal INFILTRATION VS . RUNOFF species . Many of these species have been displaced by the Infiltration is a natural process by which precipitation is onset of development. Natural waterways and drainage absorbed into the soil . Depending on the local soil type, patterns are altered by development . This decreases some of the water remains in the top layers of soil and the functionality of existing hydrologic systems . It is is used by vegetation . The rest of the water percolates necessary to reasonably accommodate and/or reestablish PRE-DEVELOPMENT POST- DEVELOPMENT the hydrologic systems that existed prior to development (TYPICAL) through the site and landscape design process . RUNOFF INCREASED RUNOFF ' F - DECREASED INFILTRATION l INFILTRATION bone DECREASE RUNOFF INCREASE INFILTRATION Naturalized Planting Improved Habitat Value GOAL: POST - DEVELOPMENT DESIGNED FOR INFILTRATION Page 6 of 21 Clity of Fort Collins Stormwater Standards and Guidelines STORMWATER IS AN AMENITY Stormwater facilities have a reputation for being functional site features without natural qualities . The basic design parameters for a detention pond design is capacity or volume and rate of discharge . These parameters combined with economic factors typically result in designs that maximize the amount of stormwater detention within the smallest possible area . These parameters are typically accomplished by the creation of geometric basins with calculated volume and outflow rates, connected to site and local utilities through standard gray concrete and steel structures . The typical detention basin is functional as a facility, yet, provides little or no aesthetic or habitat benefits . In many cases detention basins of this kind detract from the overall project image or appeal and adversely affect surrounding properties . Detention ponds and waterways can instead be designed to both meet the engineering requirements and provide an attractive diverse space . A detention pond can serve as a multi - use area , wildlife habitat, picturesque scene, entry experience or educational opportunity while maintaining the necessary functions of stormwater detention and water quality improvement . Stormwater facilities should be considered an opportunity for aesthetic interest and natural integration rather than solely necessary features of a development . E " Front 1 • • • A • • • l - Improved Aesthetics BACKGROUNDErr Page 7 of 21 F6rta CollinsCo ' OBJECTIVES In order to achieve the overall goals, the following and showy flowers, fall leaf color, winter texture, and objectives must be met : grasses that persist through the winter while they provide good wildlife habitat . Is INFILTRATION AND WATER QUALITY • Use vegetation to frame viewsheds and enhance the Reduce excess runoff and downstream pollution by natural aesthetic qualities of the site . increasing on -site infiltration and water quality. Maintain the primary functions of detention ponds and stream drainages to attenuate flows and improve water quality while creating and improving wildlife habitat . • Increase pervious surface area and surface conveyance . • Decrease flow concentration . • Take advantage of natural processes through bio-filtration and bio- retention . • Manage vegetation to insure proper drainage functions are maintained while allowing habitat values to be expressed to the extent possible . 2 . HABITAT VALUE AND PLANT CONSERVATION Create and protect habitat for a diverse array of plants and animals; birds, mammals, insects, amphibians, and wetland plants . • Increase plant species diversity including the number and variety of butterfly host plant grasses, forbs, and shrubs as well as the number of nectar plants and shelter plants . • Increase the number and variety of native shrubs and trees that provide valuable cover, berries, insects, nest sites and other resources for migratory, nesting, and wintering birds . • Increase the number and variety of wetland species that provide optimal conditions for amphibian and reptile breeding to occur. 3 . AESTHETIC APPEAL Create a beautiful landscape that people will enjoy and appreciate without sacrificing function and value for wildlife and plant habitat . • Increase the amount of shade and resting areas along trails and open spaces while providing habitat for wildlife and viewing opportunities for visitors . • Use plant species that maintain their beauty in a variety of seasons, such as a species with colorful Page 8 of 21 Clity of Fort Collins Stormwater Standards and Guidelines DESIGN GUIDELINES GENERAL CONSIDERATIONS • Residential Development — neighborhood greenbelts, A significant portion of a developed site often must multi - purpose recreational fields * , pedestrian trails, be used for drainage conveyance and site detention . entry features, water features, wildlife habitat, In planning your site, consider how the storm drainage wetland/riparian amenities, community gardens * , facilities can contribute to the overall character of the orchards, natural playgrounds, off- leash dog play project . areas * . Developers and designers should consider : • How will the stormwater facilities be designed to achieve the goals of this document and the needs of w the project? j ~ r. y • How will the stormwater facilities be designed as an amenity rather than a necessary nuisance for this �y project? ,y Y PLANNING/SITE CONTEXT • Business / Retail Development — Water features, entry Obtain and understand information about site conditions and site context before designing the features, loop trails, picnic shelters * , visual buffer to detention facilities, including : screen service areas from public spaces, bioswale/ landscape islands, etc . • Adjacent and regional drainage, recreational, and open space patterns • On -site topography and drainage conditions • Soil conditions • Unique natural features, amenities or views • Aesthetic expectations Consider how the design of drainage facilities and detention areas can contribute to the overall plan and adjacent developments . Collaborate with adjacent • Industrial Development — Visual buffer to screen property developers to formulate a more effective service and loading areas, trail connections, recreation neighborhood or regional storm drainage plan . Look for areas, etc . opportunities to integrate storm drainage conveyance and water quality systems into the planned development. +� Using bioswales, linear conveyance with check dams, and 1 inverted landscape islands throughout the project will increase distributed infiltration and can result in reduced - or — land dedication requirements for larger detention ponds . Different development types will have differing needs that can be enhanced by thoughtful design of stormwater -* systems that can serve multiple functions. Some concepts to consider for detention areas based on development * Structures and fences should be designed for types include : flooding conditions . DESIGN GUIDEL1NEJ9mL_. Page 9 of 21 FclrtCollinsf o LANDFORM AND SLOPES f Detention ponds engineered solely to meet the minimum holding capacity of the required storm flows generally result in ponds with uniform side slopes with little natural character, or with vertical side walls that may r create unsafe conditions . Design pond slopes in a way that they may also contribute to other goals . stow know If a detention pond is designed to also serve as a FIA neighborhood recreation or athletic field, use gentle side MultimUse : • Passive Recreation slopes to allow for easy access to the play fields . Steeper side slopes can be designed with terraced flat areas to serve as spectator seating . Other greenbelt amenities such as picnic areas and pedestrian trails can be developed adjacent to these spaces to create a neighborhood park amenity that also serves as stormwater detention . While gentler slopes for detention may require more land for the pond, by combining the required pond area with required i community uses, less land may be used for these open areas overall . Sports MultimUse Basin * Detention & Passive Recreation, Trails /MultimUse Basine Detention Passive Recreation, Trails THIS � NOT THIS DESIGN GUIDELINES Page 10 of 21 Stormwater Standards and Guidelines Im Detention ponds designed to be naturalized open and/or brush hogs . Consider that trash and debris must space should include varied side slopes and an be regularly removed by maintenance personnel . Periodic undulating bottom . Varied slope conditions will promote cleanup operations may also require the use of heavy opportunities for plant diversity and wildlife habitat by equipment . If walls are used , they shall be limited to the creating subtle changes in elevation above the average minimum required height and length needed . Ideally no water level . Combine these techniques to create a wide more than 50% of a basin perimeter should be bound by array of diverse soil conditions and exposures for plants walls . All walls shall be built of suitable materials matching and animals to inhabit and " naturalize". adjacent architecture or designed into the landscape scheme with natural stone or integral color concrete with Design detention ponds with positive slopes ( 2% form liner. minimum ) near the outlet to avoid standing water and limit mosquito habitat . Manicured turf areas that require regular mowing should also be sloped to Required Design Standards : drain appropriately (4 : 1 Max) . However, flatter areas In all cases the following standards apply : are encouraged to increase infiltration, but must be • No concrete trickle channels shall be used where landscaped appropriately with wetland plants, forbs free draining soils are present ( Soil Group A, B ) . and shrubs that do not require regular mowing and will Limit their use to areas with clayey soils ( Soil Group tolerate wet and dry conditions . C, D) if necessary. • Side slopes should vary and range from 4 : 1 to 20 : 1 Avoid the use of concrete trickle pans in areas with • No vegetated slope should exceed 3 : 1 well -draining soils as they reduce infiltration and promote • Landscaped areas should slope to drain ( 2% evaporation and increased runoff. Where necessary, minimum ) or be planted appropriately so regular trickle pans shall be designed as an integrated part of mowing is not required ( see PLANTING DESIGN the landscape . Horizontal alignment shall complement section ) . topographic character and be non linear. Embedded • Basin area cannot be 100% bound by walls . All cobbles and/or boulders are encouraged . Color shall be a walls proposed for the pond perimeter are required subtle earth tone . to have a high quality visual character (such as natural stone or integral color concrete with form General access is a primary safety consideration . liner) . Walls should not exceed 30" in height . Fences Ramped access and gentle side slopes allow people and may be required for safety. animals to evacuate the basin in the event of high water. • Provide a minimum of one entry point for regular access by maintenance vehicles and mowers, Access for maintenance equipment and personnel is and for occasional access by heavy equipment if necessary for proper care and management of stormwater necessary. Provide adequate egress to allow users facilities . Design slopes to provide appropriate access for to safely evacuate the area in the event of high wheeled service vehicles, utility vehicles, lawn mowers water. THIS Naturalized drainage channel slows drainage, NOT THIS Concrete trickle channel eliminates promotes infiltration, allows for habitat infiltration and promotes l „�r�� establishment evaporation and excessive runoff a �� lV 1 1�� , U,��,�, '�^°"l.•yr �) ,.y�, jl�+arl. , rrN v- DESIGN GUIDELINES 7 Page 11 of 21 F6rtclCollinsf PLANTING DESIGN PLANT SPECIES SELECTION There is no universal approach to landscape design for Delineate planting zones with similar characteristics detention areas . Planting design must respond to site- and proposed function . Characteristics should include specific stormwater functions, soil types and hydrology, slope, aspect, soil type, and moisture levels . Functions may slopes, solar aspect, availability and type of irrigation, include wildlife habitat, recreational use, or visual amenity habitat creation , planned uses and planned maintenance . or visual screening . A Landscape Architect can assist with a comprehensive plan for the landscape design for your project's open space Develop a plant list for each zone type . See TABLE 1 for a and detention areas . The following guidelines outline sample listing of appropriate plant types . important criteria for the development of landscape plans for these areas . Before finalizing planting plans and seed mixes, obtain horticultural testing of the on -site soils where planting will occur. Testing can be completed by the Colorado State University Soil and Crop Sciences Department for a nominal fee . Contact the Soil -Water- Plant Testing Lab at http ://www. extsoilcrop . colostate . edu/SoiILab/soiIlab . html for more information . Often planting plans must be completed before construction activities take place, so final soil conditions for areas to be planted are not available at the time of design . If overlot grading is planned to occur after the planting plans are complete, require the contractor to incorporate 6" of topsoil from on -site or imported source into final grading operations, and indicate that the final seed mixes will be modified after final grading is complete and subsequent horticultural tests are evaluated . Use native and adapted plants . Proper landscape design with native plants based on a site's unique conditions can : • Reduce or eliminate need for supplemental irrigation • Reduce fertilizer and chemical pest control needs • Enhance wildlife habitat • Reduce maintenance needs Plants should be screened for invasiveness by using the Nature Conservancy's Nature Serve Explorer website at http ://www. natureserve . org/explorer/servlet/ NatureServe ? init=Species Page 12 of 21 Clity of Fort Collins Stormwater Standards and Guidelines MEN TABLE 1 : RECOMMENDED PLANT LIST TREES AND SHRUBS GRASSES Upland Species — North and East Facing Species for Upland Slopes Fourwing Saltbush (Atriplex canescens) Little Bluestem ( Schizachyrium scoparium ) Rubber Rabbitbrush (Chrysothamnus nauseosus) Side Oats Grama ( Bouteloua curtipendula ) Three- leaf Sumac (Rhus trilobata) Blue Grama ( Bouteloua gracilis ) Native Smooth Sumac (Rhus glabra) Western Wheatgrass ( Pascopyrum smithii ) Wood's Rose (Rosa woodsii) Green Needlegrass ( Nassella viridula ) White Snowberry (Symphoricarpos alba) Slender Wheatgrass ( Elymus trachycaulus ) Western Snowberry (Symphoricarpos occidentalis) Buffalograss ( Buchloe dactyloides ) Netleaf Hackberry (Celtis reticulate) Bottlebrush Squirreltail ( Elymus elymoides ) Sand Dropseed ( Sporobolus cryptandrus ) Upland Species — South and West Facing Alkali Bluegrass ( Poa juncifolia ) Fourwing Saltbush (Atriplex canescens) Sun Sedge ( Carex inops ssp . heliophila ) Rubber Rabbitbrush (Chrysothamnus nauseosus) Three- leaf Sumac (Rhus trilobata) Species for Subirrigated Areas Desert False Indigo (Amorpha canescens) Big Bluestem (Andropogon gerardii) Winterfat (Krascheninnikovia lanata) Switchgrass (Panicum virgatum) Yucca (Yucca glauca) Yellow Indiangrass (Sorghastrum nutans) Alkali Sacaton (Sporobolus airoides) Species for Moist, Well-drained Areas Green Needlegrass (Nassella viridula) (2. 5-6 feet above high water line or one-year storm ) Western Wheatgrass (Pascopyrum smithii) Saskatoon Serviceberry (Amelanchier alnifolia) Nuttall Alkaligrass (Puccinellia airoides) Shiny- leaved Hawthorn (Crataegus erythropoda) Canada Wildrye (Elymus canadensis) Wild Plum (Prunus Americana) Western Chokecherry (Padus virginiana var. Species for Wetland Areas melanocarpa) Prairie Cordgrass (Spartina pectinate) Western Sand Cherry (Prunus bessyi) Canada Wildrye (Elymus canadensis) Cottonwood Tree (Populus spp. ) Switchgrass (Panicum virgatum) Netleaf Hackberry (Celtis reticulate) Inland Saltgrass (Distichlis spicata) Fowl Bluegrass (Poo palustris) Species for Subirrigated Areas Nebraska Sedge (Carex nebrascensis) ( 1-3 feet above high water line) Woolly Sedge (Carex lanuginose) Leadplant (Amorpha fruticosa) Creeping Spikerush (Eleocharis palustris) Redosier Dogwood (Cornus sericea) Torrey's Rush (Juncus torreyi) Golden Currant (Ribes aureum) Baltic Rush (Juncus balticus) American Black Currant (Ribes americanum) Peachleaf Willow (Salix amygdaloides) JAL_ Aim DESIGN GUIDELINES 9 Page 13 of 21 F6rtclCollinsf PLANTING TECHNIQUES Drill seed specified mix in two passes, each at right angles to each other. Drill half of the seed in each pass . If Soil Preparation areas are too wet or steep to drill seed, broadcast seed in Good soil is the foundation of a successful landscape . two opposite directions . Restore fine grade after seeding, Planting areas require topsoil with appropriate levels of and cover seed to depth of 1/4 inch by raking or dragging. organic matter. Spread imported or stockpiled topsoil to Firm seeded areas with a roller weighing maximum of 100 a minimum depth of four inches over areas to be planted . lbs . per foot of width . For native seed areas, additional soil amendments are not necessary. Native plants are adapted to the native Use of erosion control blankets may be needed on soils, and the additional organic matter found in soil steeper slopes (greater than 6 : 1 ), or non - irrigated south - amendments may instead promote weed growth . facing and west-facing slopes to reduce erosion, improve soil moisture and seed germination . Natural fiber blankets Sub-grade in planting areas should be loosened to a are preferred to synthetic blankets which can entangle minimum depth of twelve ( 12 ) inches overall ( 8" of existing reptiles and amphibians in pond settings . Install erosion sub-grade and 4" of new topsoil ) . Remove stones and control blankets as per manufacturer's recommendations . clods that could impede planting, seeding, and mowing . Stones protruding from the soil more than 3" should be Remaining seeded areas should be mulched to reduce removed . Collect and legally dispose of sticks, roots, seed loss and improve soil moisture and germination . rubbish, and other extraneous matter. Repeat cultivation Large sites without irrigation can be mulched with straw in areas where equipment used for hauling and spreading mulch . Straw mulch should be certified weed -free hay or topsoil has compacted the soil . Fine grade disturbed certified weed-free straw with no seed heads, crimped into planting areas to a smooth , uniform surface plane with the seed bed after seeding has occurred . Irrigated sites can a loose, uniformly fine texture . Grade to within the be hydromulched after seeding has occurred . acceptable tolerances provided by the certifying civil engineer. Roll and rake, remove ridges, and fill depressions Wetland Plantings and Subirrigated Plugs to meet finish grades based on grading plans . Concentrate wetland plantings in areas where erosion is anticipated or where favorable moisture zones are Weeds thrive in soil disturbed by grading operations . likely to exist . Since planned moisture levels are difficult Use of appropriate herbicides prior to planting can help to to predict, plant species in, above, and below their ideal reduce the onset of noxious weeds and other aggressive zone to accommodate for both high water and low water non-desirable plants . Apply non-selective herbicides seasons . Plants are then likely to establish in their optimal to weeds after fine grading has occurred and prior to conditions . Since detention areas fluctuate with storm planting. Herbicide shall be ' Round - Up' or similar product conditions, use species with wider tolerances to moisture that will not persist in the soil and negatively affect conditions . planting operations . Wetland plugs may be necessary in areas that cannot Seed Mixes and Installation Techniques be seeded due to constant inundation or saturation . Seed mixes should be developed based on the on-site Plant plugs after drill seeding from mid - May through soil conditions determined with the soil horticultural tests . July. Planting small plugs in the fall is less desirable due Since detention and drainage areas have varying moisture to loss of plants to Canada Geese . Plug plantings can conditions and slopes, develop a diverse seed mix with a be completed immediately after seeding. Subsequent wide ecological amplitude . When multiple seed species are plug plantings are recommended after initial seed used, they will tolerate a wide array of soil and moisture establishment when weeds are under control ( 2 -5 seasons conditions . See TABLE 1 for a list of appropriate grass types after initial construction ) . These later plantings can be for various planting zones . concentrated in bare areas and those areas needing erosion control protection . Page 14 of 21 Stormwater Standards and Guidelines Wetland plugs may be planted 12" to 24" on center a natural habitat and reduce the cost of structured and may need protection with turf reinforcement mats, protection measures . Seeding schedule should be per jute or similar erosion control devices . Plugs can be seed source recommendation . Trees and shrubs should be caged or covered with wire fabric, jute or other products planted prior to seeding . for protection if damage by geese or small mammals is anticipated . In areas of standing water, grids of string � ; slightly above the water elevation can also be installed to Required Design Standards : reduce waterfowl access to newly planted areas . In all cases the following standards apply : •Trees and Shrubs Enlist the services of a Landscape Architect to prepare the required landscape construction plans Concentrate or group shrubs and woody plants into for commercial project detention areas . beds or groups to more quickly create habitat for wildlife • Develop plant lists and seed mixes based on and to reduce weeding, watering and maintenance horticultural testing of site soil conditions . requirements . Select species based on the optimal • Delineate planting zones based on soil moisture zones . Construct planting wells around each tree characteristics and function . Develop plant lists or group of woody plants to capture natural moisture for appropriate for each planting zone . the plants . Use organic mulch in planting beds or in tree • Use native and adapted plants . wells to increase moisture retention and to reduce weed • provide a minimum of one entry point for regular and grass encroachment . Avoid using weed barrier around access by maintenance vehicles and mowers, trees an shrubs . and for occasional access by heavy equipment if necessary. Do not block access with designed Use shrubs and wetland plants strategically near inlets landscape features . to soften the visual impact of these man- made structures • Stockpile and redistribute ( or import if necessary) a without impeding storm drainage function . Avoid the use minimum of four inches of topsoil over areas to be of exposed rip- rap . Rip- rap if used shall be a subtle earth planted . tone color, not pink, and should be buried and integrated • Use non - persistent herbicide prior to planting to with erosion control matting, and planting to soften curtail weed establishment . the visual impact and provide opportunities for habitat • Incorporate erosion control blankets and/or establishment . Other types of less intrusive erosion appropriate mulch to reduce erosion and improve control materials which incorporate planting materials soil moisture conditions for new plantings . should be considered . Bio-engineered solutions are • Use wetland species in appropriate areas and pond preferred in lieu of structural erosion control measures . bottoms likely to be too wet for regular mowing Brush layering and use of live branch cuttings can restore and maintenance . and protect stream banks and outFall areas while creating THIS NOT THIS �1 I� `r • 1 % �✓ If III'' .�'•� 1 Ind 1 J ff 0 6 1 Oft � IPL ,✓i� Exposed pipe, `y Naturalized rip-rap or cobble [ � ^�� no landscape context, • �� '� ' stones partially buried, broken �1"ii� �� 1 ' exposed rip-rap of uniform color and edges, streambed appearance size, straight edges and square corners DESIGN GUIDELINES I I Page 15 of 21 F6rta CollinsCo ' IRRIGATION Since storm drainage and detention areas account for the most significant portions of open landscaped space in most projects, their design can greatly impact the amount of irrigation water demand for a project . Irrigation and landscape design should correspond to the types of uses planned for the detention areas . Areas planned for high pedestrian use such as recreational fields will require higher irrigation needs to provide regular, controlled irrigation levels . More natural areas may be able to minimize or eliminate completely the need for supplemental irrigation . Landscape designs are encouraged to respond to each site's unique soil conditions and planned hydrology to minimize or eliminate the need for supplemental irrigation . DESIGN GUIDELINES Page 16 of 21 MAINTENANCE Required Design Standards : Weed Control In all cases the following standards apply : The primary method of weed control during the initial � Use regular mowing as a primary weed control establishment period (two to three growing seasons ) for method during initial establishment period . seeded areas is regular mowing . Regular mowing helps e Limit use of chemical herbicides, and only use those prevent weed seeds from being produced . Careful spot appropriate for conditions . Use non persistent spraying is also acceptable, but many herbicides affect herbicides in upland areas, and aquatic approved seedling grasses and non-target plants . Always read and herbicides near wet, wetland or water areas . follow label directions . After the initial establishment • Suppress cattails for the first three to five growing period , if chemical weed controls are needed in the seasons to allow less aggressive native species to pond bottoms of wet detention areas, herbicides should establish . be selected that have an aquatic label . Even herbicides Monitor and correct areas of erosion . approved for aquatic use should only be used during • Limit irrigation and fertilization to that needed for periods of dry weather and dryer conditions to reduce the plant establishment and specific designed needs . amount of herbicide that gets into the water itself. Side Naturalized areas with native plants are adapted slopes generally above the high water line can be sprayed to Colorado soils so should only require irrigation with non -aquatic but non - persistent herbicides as per the during the initial establishment period , and manufacturer's recommendations . should not require fertilization . High - use or active recreation areas will require more regular irrigation Cattails will generally establish in created detention and standard fertilization practices . areas through natural dispersal . Although they are a native species, they are often so competitive that they become a mono-culture if not managed . Cattails should be suppressed for the first three to five growing seasons to allow less aggressive native species to establish . Erosion Control Areas of erosion should be monitored and corrected to prevent damage to the landscape and storm drainage structures . Irrigation and Fertilization Supplemental irrigation will be needed during the initial establishment period . However, once established, naturalized drainage and detention areas using native plants and species appropriate for the specific moisture regimes should not require fertilizers or supplemental irrigation after establishment . Irrigation used during establishment can either be reduced or eliminated altogether. Limit the use of fertilizers in native plant areas . In detention basins that also serve as recreation fields or active neighborhood spaces, permanent irrigation and more standard fertilization , aeration , and weed control practices are appropriate to keep a more manicured appearance . Page 17 of 21 F6rtclCollinsf APPENDICES GLOSSARY OF TERMS & CONCEPTS Base Flow — The portion of stream flow that is not runoff and Green Roof - A contained space over a building that is covered, results from seepage of water from the ground into a channel partially or entirely, with living plants . over time . The primary source of running water in a stream during dry weather. Groundwater - Water that flows below the ground surface through saturated soil, glacial deposits, or rock. Best Management Practice ( BMP), nonstructural— Strategies implemented to control stormwater runoff that focus on Hydrologic Soil Groups - Soil groups based on estimates of runoff pollution prevention, such as alternative site design, education, potential . Soils are assigned to one of four groups according to and good housekeeping measures . the rate of water infiltration when the soils are not protected by vegetation, are thoroughly wet, and receive precipitation from Best Management Practice ( BMP), structural — Engineered long-duration storms. devices implemented to control, treat, or prevent stormwater Group A . Soils having a high infiltration rate ( low runoff runoff. potential ) when thoroughly wet . These consist mainly of deep, well drained to excessively drained sands or gravelly Bio-filtration — The use of vegetation such as grasses and sands . These soils have a high rate of water transmission . wetland plants to filter and treat stormwater runoff as it is Group B . Soils having a moderate infiltration rate when conveyed through an open channel or swale, or collects in an thoroughly wet . These consist chiefly of moderately deep infiltration basin (see Bio- retention ) . or deep, moderately well drained or well drained soils that have moderately fine texture to moderately coarse texture . Biological Diversity — The concept of multiple species or These soils have a moderate rate of water transmission . organisms living together in balance with their environment and Group C. Soils having a slow infiltration rate when each other. thoroughly wet . These consist chiefly of soils having a layer that impedes the downward movement of water or soils of Bio-retention — The use of vegetation in retention areas moderately fine texture or fine texture . These soils have a designed to allow infiltration of runoff into the ground . The slow rate of water transmission . plants provide additional pollutant removal and filtering Group D. Soils having a very slow infiltration rate ( high functions . runoff potential ) when thoroughly wet. These consist chiefly of clays that have a high shrink-swell potential , soils that Detention - The storage and slow release of stormwater have a high water table, soils that have a claypan or clay following a precipitation event by means of an excavated layer at or near the surface, and soils that are shallow over pond, enclosed depression, or tank. Detention is used for nearly impervious material . These soils have a very slow rate both pollutant removal, stormwater storage, and peak flow of water transmission . reduction . Both wet and dry detention methods can be applied . If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D ), the first letter is for drained areas and the second Evapotranspiration - The loss of water to the atmosphere is for undrained areas . Only the soils that in their natural through the combined processes of evaporation and condition are in group D are assigned to dual classes . transpiration, the process by which plants release water they have absorbed into the atmosphere . Hydrology - The science addressing the properties, distribution, and circulation of water across the landscape, through the Filter Strip - Grassed strips situated along roads or parking ground, and in the atmosphere . areas that remove pollutants from runoff as it passes through, allowing some infiltration, and reductions of velocity. Impervious surface - A surface that cannot be penetrated by water such as pavement, rock, or a rooftop and thereby prevents Floodplain - Can be either a natural feature or statistically infiltration and generates runoff. derived area adjacent to a stream or river where water from the stream or river overflows its banks at some frequency during Imperviousness - The percentage of impervious cover within a extreme storm events . defined area . Page 18 of 21 Stormwater Standards and Guidelines Infiltration - The process or rate at which water percolates from gravitational settling to remove soil or rock particles from the the land surface into the ground . Infiltration is also a general water column . category of BMP designed to collect runoff and allow it to flow through the ground for treatment . Siltation - A solid -liquid separation process utilizing gravitational settling to remove fine-grained soil or rock particles from the Metered Detention and Discharge - A system where stormwater water column . is collected in a cistern pond and then slowly released into the landscape beds or the storm drain in the following hours at Storm sewer system - A system of pipes and channels that carry the rate that allows for better filtration and is less taxing to the stormwater runoff from the surfaces of building, paved surfaces, overall community storm drain . and the land to discharge areas . National Pollutant Discharge Elimination System ( NPDES) - A Stormwater - Water derived from a storm event or conveyed provision of the Clean Water Act that prohibits discharge of through a storm sewer system . pollutants into waters of the United States unless a special permit is issued by the EPA, a state, or (where delegated ) a tribal Surface water - Water that flows across the land surface, in government or and Indian reservation . channels, or is contained in depressions on the land surface (e .g. Runoff , Ponds, Lakes, Rivers, and Streams) . Outfall - The point of discharge from a river, pipe, drain, etc. to a receiving body of water. Swale - A natural or human- made open depression or wide, shallow ditch that intermittently contains or conveys runoff. Peak discharge - The greatest volume of stream flow occurring Swales can be equipped with an underdrain or other man- made during a storm event. drainage device . and can be used as a BMP to detain and filter runoff . Pervious - Admitting of passage or entrance . Material that permits elements such as water and oxygen to enter and or pass Urban runoff - Runoff derived from urban or suburban land- through . uses that is distinguished from agricultural or industrial runoff sources. Polluted runoff - Rainwater or snow melt that picks up pollutants and sediments as it runs off roads, highways, parking lots, lawns, Water ( hydrologic) cycle - The flow and distribution of water agricultural lands, logging areas, mining sites, septic systems, and from the sky, to the Earth's surface, through various routes on or other land- use activities that can generate pollutants . in the Earth, and back to the atmosphere. The main components are precipitation, infiltration, surface runoff, evapotranspiration, Porous pavement and pavers - Alternatives to conventional channel and depression storage, and groundwater. asphalt that utilize a variety of porous media, often supported by a structural matrix, concrete grid, or modular pavement, Water table — The level underground below which the ground is which allow water to percolate though to a sub- base for gradual wholly saturated with water. infiltration . Watershed - The land area, or catchment, that contributes water Retrofit - The creation or modification of a stormwater to a specific water body. All the rain or snow that falls within management practice, usually in a developed area, that this area flows to the water bodies as surface runoff, in tributary improves or combines treatment with existing stormwater streams, or as groundwater. infrastructure . Runoff - Water from rainfall, snow melt, or otherwise discharged that flows across the ground surface instead of infiltrating the ground . Sanitary sewer system - Underground pipes that carry only domestic or industrial wastewater to a sewage treatment plant or receiving water. Sedimentation - A solid- liquid separation process utilizing Page 19 of 21 F6rta CollinsCo ' STAKEHOLDER & OPEN HOUSE COMMENTS • A landscape plan for all stormwater facilities must natural state and not manicured . be prepared by a professionally licensed Landscape • Encourage bioswales, etc . in and around site . Architect with experience in stormwater facility • Incentive to allow water to be treated at source in rain design . gardens / bioswales / etc . • List possible techniques/solutions with examples • Provide support that will lead to decrease in required and case studies to help appease those entering into pond volumes such as narrower streets, pervious uncharted territory ( both applicants and reviewers ) . . . pavements, etc . Currently engineering will not allow this will help avoid the " pioneers get the arrows, and pervious pavement or bioswales the settlers get the land" dilemma . • No pan requirements in ponds • Along with various options, include the design • Don 't just default to Urban Drainage; allow variation criteria to which City Staff will review against. If suitable to project type and size . Allow credit for every applicant and design team needs to justify the developments that try several LID practices even if it proposed solutions on their own, and spend extra can't be modeled or formulated in U . D. Let 's see if it time and money getting Staff on board, it will serve works provided downstream not affected . as a deterrent to implementing some of these new • How can we quantify infiltration / to allow for smaller techniques . Obviously, the guidelines cannot account ponds? for every potential option , and they need to remain • What plants can work in flat- bottom swales ( no fluid to allow future solutions and innovations not yet concrete pan ) known . However, to get the ball rolling and encourage • City inspectors requiring concrete pans ! more imminent alternatives, not asking each project • Keep in mind expansive clay soils, cannot hold / direct to 'fight the battle' so-to-speak would be a great water across them without issues . benefit . • Different standards ( maintenance / design /aesthetics ) • Please put these boards on the website . for different uses / districts = industrial vs . retail • More Wet Ponds, or flat bottom, because it provides • Civil Engineers tend to "engineer" a solution in the additional volume least amount of space • n Desi • How do you handle clay soils ? Integrated g • Use appropriate landscaping materials • Go from utilitarian to "aesthetic" • If using sub drain , provide outlet • Multi use spaces included in final design • Ponds should have concrete weir — because it provides • Need more cooperation between city departments to a reference elevation reduce maintenance requirements ( onerous) on HOA's • Slow H2O down to increase infiltration . • Go for the more natural look. • Remove concrete pans to assist / allow areas to be • Materials : more natural . Use planting in this area to build upon A . No rock? drainage path . B . No concrete ? • Reevaluate stormwater requirements to over store C . No vertical edges ? H2O. D . No irrigation ? — ( native and adaptive ) • Take into account H2O uptake of plant material . • Green ( grass ) vs . Green ( money) vs . Green • Use of injection / percolation wells to speed ( sustainable ) absorption . • Flexible aesthetics per property / project • Combine system with pervious pavement solutions to • Distributed smaller detention maximize usable land . • No regional pond . • Provide incentives for innovation . • Savings from less storm sewer. • How can green roofs help with the reduction / delay of • Raised landscape islands converted to depressed stormwater discharge ? landscape islands • Incentive to developer to allow pond areas to be in • Incentives for : Page 20 of 21 Clity of Fort Collins Stormwater Standards and Guidelines A . Dispersed system • Standards vs . Guidelines B . Water quality • Prescriptive vs . Proscriptive • Slow down the water ! • Requirement for Landscape Architect on design team • Regional / Neighborhood detention facilities vs . each • Combination ? If walls then upgrade site — with fee similar to street over sizing • Engineering staff on team A . Regional ( City) • LUCASS staff on team B . Neighborhood • Life cycle vs . Front end cost C . Private • Continue to promote growth and development • Infill projects • Multiple use = multiple approaches A . Smaller facilities • Difficult with little used areas B . Swales with infiltration • No fertilizer unless play fields • Linear detention keep larger ponds sizes down • No irrigation ( except during establishment) • Inverted landscape islands in parking lots • Required ground cover • Alternatives for wetland mitigation similar to Corp of • Context for plant types Engineers in lieu of fee ? A . Categories for use, wetland , soil type, landscape, • May not apply to detention ponds maintenance • LID — encourage small ponds close to source B . Review Urban Drainage Standards • Concentration of surface area C . New development vs . Infill / redevelopment A . Less curb and gutter B . More infiltration C . * Increased surface area D . Greenbelts conveying and slowing water ( check dams) to increase infiltration • Native soils = little infiltration but slowing rate through bioswales still help with down stream flows • Tucson = standards top in nation as model • City needs to be able to accept new ideas A . Rocky mountain innovation B . Infiltration ? City requires 2X capacity if case it doesn't work C . Include innovation process in standards • Collaboration — encourage collaboration among project team members and between team and city • City to take a leadership role in new techniques • Help developer to understand benefits . * Examples of successful projects ? • Example projects schematics, concepts illustrated • Eliminate risk by having guidelines on the books • Access for maintenance • Mowing ( private Maintenance ) • Backhoes / Dumptrucks for sediment removal ( city) • Partnership between private and city • Gently sloping sod, few trees • No walls? • Limit walls to allow maintenance • Underground detention ? • How do you deal with long term maintenance ? JAKEHOLDER & OPEN HOUSECOMMENTS Page 21 of 21