Target Center Arena Green Roof
View of the Target Center Arena green roof, located in downtown Minneapolis, Minnesota. Image by Bergerson Photography, Courtesy of The Kestrel Design Group, Inc., INSPEC, and Leo A Daly.
Vegetation on the Target Center Arena green roof. Image Courtesy of The Kestrel Design Group, Inc.
Photo showing the sedum mat with additional plants. Image Courtesy of The Kestrel Design Group, Inc.
Aerial view of the Target Center Arena green roof, chowing vegetation-free zones and some of the patterns incorporated into the roof for aesthetic purposes. Image Courtesy of The Kestrel Design Group, Inc.
Aerial view of the Target Center Arena green roof, illustrating the use of different vegetation to create patterns in the roof. Image Courtesy of The Kestrel Design Group, Inc.
When Minneapolis’ Target Center Arena needed a new roof, the City of Minneapolis chose to model a sustainable building and stormwater management approach by re-roofing with a green roof. At 113,000 square feet, the Target Center Arena green roof was the 5th largest extensive green roof at the time of design and the first green roof installed on an arena in North America. The green roof mitigates the urban heat island effect, provides greens views from above, provides wildlife habitat, and improves urban air quality on a scale that is not feasible at grade in an ultra-urban area like the site of the Target Center Arena in downtown Minneapolis. It also mitigates stormwater runoff from a significant amount of previously impervious surface in a downtown location where space does not permit use of other Low Impact Development (LID) techniques for stormwater management at grade. Such positive impacts on local water bodies are valuable in a city that prides itself on its legendary waterbodies - The City of Lakes in the Land of 10,000 Lakes.
The design process began with a quantitative and qualitative lifecycle cost benefit analysis that enabled the City of Minneapolis to decide with confidence that replacing the conventional roof on the Target Center with a green roof was the most cost effective and ecologically sound decision over the lifespan of the proposed roof. Quantitative financial lifecycle cost benefit analysis showed that over a 20 year study period, a green roof is more cost effective than a white reflective or a traditional roof.
A state-of-the-art waterproofing membrane was used to withstand constant dampness, high alkalinity, and exposure to plant roots, fungi and bacterial organisms as well as varying hydrostatic pressures. To test for leaks and facilitate pinpointing the exact location of leaks throughout the roof’s lifespan so that the amount of overburden removed can be minimized, an Electro Field Vector Mapping (EFVM) leak detection system was installed.
One of the most difficult challenges at this site was structural. At 17.4 pounds per square foot on most of the roof, the Target Center’s dead load capacity is much lower than that of a typical green roof. The designers aimed to maximize stormwater holding capacity and plant resilience on a roof with very limited structural capacity. Because this is a public, highly visible project, designing an aesthetically captivating roof that succeeds right away was another especially important objective.
Design strategies used to achieve these design objectives include:
- choosing a mat pre-grown at grade to allow plants to establish before facing the harsh conditions on the roof, as well as to maximize plant cover and wind resistance 150 feet up in the air;
- requiring a lightweight growing medium;
- including drip irrigation and a water retention layer to compensate for the minimal soil depth available to hold water;
- maximizing plant diversity and adding native plugs and seed to maximize resilience to climate extremes, diseases, and pests;
- adding bold sweeps of native plant plugs to not only increase resilience and ecological benefits, but also make a bold aesthetic statement; and
- shaping the firebreaks as a metaphorical leaf, river, or basketball, to not only meet functional requirements prescribed by the insurance company, but also add a powerful aesthetic element.
The Target Center green roof consists of a 2.75 inch deep growing zone in the center of the main arena roof structure and a deeper 3.5 inch growing zone around the perimeter where the structural capacity is greater. The pregrown Sedum mat was supplemented with 22 species of plugs and 16 species of seed native to Minnesota’s bedrock bluff prairies, a plant community with harsh growing conditions similar to the growing conditions on the Target Center Green Roof. As of 2012, the green roof’s 4th growing season, a diversity of sedum species, plugs, as well as species germinated from seed were thriving on the roof.
- Year built: 2009
- Location: Minneapolis, MN, USA
- Building Type: Public
- Green Roof Type: Extensive
- Size: 113,000 square feet (2.6 acres)
- Slope: 1 percent
- Materials used in and components of the green roof (above membrane):
- 80 millimeter PVC waterproofing membrane
- insulation
- coverboard
- leak detection system
- pavers
- extensive growing medium
- drainage sheet of post-industrial recycled polypropylene drainage core of fused, entangled filaments and a geocomposite fabric bonded to each side
- capillary drip irrigation system that uses capillary action to evenly distribute water throughout the growing medium
- sSoil moisture sensor to inform when growing medium is dry enough to need watering
- pregrown Sedum vegetation mat
- 22 species of plugs and 16 species of seed native to Minnesota’s bedrock bluff prairies, a plant community with harsh growing conditions similar to the growing conditions on the Target Center Green Roof
- Plant list: The pregrown Sedum mat was supplemented with 22 species of plugs and 16 species of seed native to Minnesota’s bedrock bluff prairies, a plant community with harsh growing conditions similar to the growing conditions on the Target Center Green Roof.
- Documented maintenance practices: weeding, irrigation, and plant replacement as needed
- Unit cost: $15 per square foot, includes green roof, irrigation, and leak detection; excludes maintenance costs
- Owner: City of Minneapolis
- Designers and installers:
- Landscape Architect/Greenroof Designer: Kestrel Design Group, Inc.
- Roofing Consultant: Inspec
- Architect: Leo Daly
- Irrigation: Hydrologic Design
- General Contractor: Stock Roofing, a Tecta America Company
- Electric Field Vector Mapping (EFVM): International Leak Detection (ILD)
- Irrigation: KISSS
- Access: Not accessible
- Additional information:
Minneapolis Central Library
The Minneapolis Central Library has three green roofs that each have very different microclimates:
- 15,868 square feet of green roof on the building’s top (5th) floor, exposed to full sun
- 2436 square feet of green roof on the building’s 2nd floor, facing south, exposed to full sun plus reflection from an adjacent glass curtain wall
- 363 square feet of green roof facing northwest, with only partial sun exposure
Minneapolis Central Library 5th floor green roof, Minneapolis, MN. Image Courtesy of The Kestrel Design Group, Inc.
Minneapolis Central Library 2nd floor south facing green roof, Minneapolis, MN. Image Courtesy of The Kestrel Design Group, Inc.
Minneapolis Central Library 2nd floor northwest facing green roof, Minneapolis, MN. Image Courtesy of The Kestrel Design Group, Inc.
Minneapolis Central Library aerial view of south facing 2nd floor roof and 5th floor roof green roof, Minneapolis, MN.
The plant palette and irrigation system of each roof is tailored to the growing conditions on that roof - drought tolerant species were planted on the 2nd floor roof that faces south, while shade tolerant species were used on the 2nd floor roof facing northwest.
To maximize irrigation efficiency, a drip irrigation system was used on the 5th floor and the 2nd floor roof that faces northwest. On the 2nd floor roof that faces south, adjacent to a south facing glass curtain wall, a popup sprinkler system is used to help cool plants in addition to watering them. Visitors to the library can view one of the green roofs from windows on 2nd floor, and all roofs are visible from surrounding buildings.
The primary driver behind these green roofs was their ability to provide sustainable stormwater management on a site where little space is available for stormwater management at grade. Further minimizing negative effects of roof runoff on downstream water bodies, the Central Library green roof is equipped with an irrigation system that utilizes a 7,500 gallon capacity cistern system to collect, store, and distribute harvested rainwater for use by the plants. This irrigation system is powered by a solar pump, and is intended for use on the green roof only during the plant establishment period and during periods of extreme drought. When the roof does not need watering, roof runoff collected in the cisterns is used to irrigate at grade landscape.
Minneapolis Central Library cisterns in an underground parking garage. The cisterns harvest stormwater runoff for irrigation
The conceptual design for the Minneapolis Central Library’s green roof connects culture and nature, weaving together local cultural and natural patterns. The concept emphasizes the influence of the Mississippi River on Minneapolis’ street grid and building design, as the flow of the Mississippi River is emulated by waves created across plant palettes of varying, undulating heights, with 20 to 30 species in each palette. Wave patterns change as different waves will be more apparent at different times of the year when prominent species are in bloom. A seasonal wave movement is also superimposed on 3D wave patterns by a purple/pink burst of color that moves west to east from spring to fall in accordance with the flow of Mississippi River. The planting design also complements the frit patterns and geometry of the library windows. The metaphorical connection of the green roof design to the Mississippi River highlights the positive impact of the green roof as it mitigates the effect of storm water runoff from the roof on the Mississippi River.
- Year built: 2005
- Location: Minneapolis, MN
- Building Type: Public
- Green Roof Type: Extensive
- Size: 18,667 square feet.
- Slope: 1 percent
- Materials used in and components of the green roof (above membrane):
- root barrier/synthetic drainboard/filter fabric composite
- 4 inches depth of extensive growing medium, which is the maximum depth that could be accommodated by the roof’s structural capacity
- erosion control blanket
- pop-up irrigation system and temperature sensor on the roof with the most extreme sun exposure
- drip irrigation on both the other green roofs; soil moisture sensors on all roofs
- Plant list: 18 sedum species, which are traditionally used on European green roofs, were combined with 41 grasses and forbs that are native to Minnesota’s bluff prairies, a habitat template similar, in many ways, to conditions found on extensive green roofs.
- Documented maintenance practices: irrigation and weeding as needed
- Unit cost: $28 per square foot (includes fall protection, paving, and other atypical green roof costs)
- Owner: City of Minneapolis
- Designers and installers:
- The Kestrel Design Group, Inc., Landscape Architect/Green Roof Designer
- Cesar Pelli & Associates Architects: Design Architect
- Architectural Alliance: Architect of Record
- Ambe, Ltd.: Roofing Consultant
- Hydrologic, Irrigation Design
- Mortensen/Thor: Construction Manager
- Rosenquist Construction: Green Roof Contractor
- Berwald Roofing: Roofing Contractor
- Aloha Landscaping: Green Roof Plants Installation
Edgewater Condominiums
Located in a very urban location adjacent to Lake Calhoun, the largest lake in Minneapolis’ Chain of Lakes, sustainable stormwater management was especially important when the Edgewater Condominiums, a luxury condo project with 23 condos, was designed and constructed in 2006.With little open space at grade, the Edgewater Condominiums’ green roof serves both to provide sustainable stormwater management as well as an urban oasis on the roof. Each of the three 5th floor condominium owners has access to its own private green roof deck, with views of Lake Calhoun as well as the Downtown Minneapolis Skyline.
Edgewater green roof, Minneapolis, MN, illustrating the view of nearby Lake Calhoun. Image Courtesy of The Kestrel Design Group, Inc.
Edgewater green roof, illustrating the use of native prairie plants and vines (background) Image Courtesy of The Kestrel Design Group, Inc.
Edgewater green roof in late summer. Image Courtesy of The Kestrel Design Group, Inc.
The building’s name and concept are expressed using a greenroof design that creates a calm, luxurious, resort-like atmosphere at each roof terrace, projecting an ‘edge of water’ sensibility for its residents. Short, white vegetation (3 to 6 inch tall traditional white sedums) in 3 inches of growing medium represents water/oasis in form and color. A diverse mix of traditional sedums of various colors and short native bedrock bluff prairie plants in 4 to 5 inches of growing medium represents land/beach around the “water”. Together, the plant communities visually express the water connection between the green roof and adjacent Lake Calhoun. Variation in depth of growing medium also enhances wildlife habitat value of the green roof. Wave-like trellised fence panels planted with vines enhance the metaphorical connection to the nearby lakes and screen rooftop equipment.
- Year built: 2006
- Location: Minneapolis, MN, USA
- Building Type: Multi-Family Residential
- Green Roof Type: Extensive
- Size: 3480 square feet
- Slope: 1 percent
- Materials used in and components of the green roof (above membrane):
- mix of Sedums and prairie plants native to Minnesota on the green roof; native and annual vines on green wall.
- coconut fiber erosion control blanket
- extensive green roof growing medium
- drip irrigation system
- EFVM electronic leak detection system
- dimpled polymeric sheet drainage layer/root barrier/filter fabric composite
- Documented maintenance practices: weeding, irrigation, and plant replacement as needed
- Designers and installers:
- Landscape Architect/Green Roof Designer: Kestrel Design Group
- Irrigation Consultant: Hydrologic
- Architect: Elness Swenson Graham Architects
- Vegetation Installation: Minnesota Native Landscapes
- Irrigation Installation: Green Acres
- Waterproofing Installation: Berwald Roofing
For more information, see Minnesota Green Roof Council project database.
St. Paul Firestation Headquarters
St Paul Firestation green roof, St. Paul, MN. note areas where plants are being established. Image Courtesy of Angie Durhman, AD Greenroofs
St Paul Firestation green roof, illustrating vegetation-free zones and walking paths with informational kiosks. Image Courtesy of Angie Durhman, AD Greenroofs
Vegetables being grown on the St Paul Firestation green roof. Image Courtesy of Angie Durhman, AD Greenroofs
Located on a roof directly outside of the St. Paul Firestation over a parking ramp, the St Paul Firestation green roof includes a wide range of plants: over 100 species of native plants and ornamental plants, no-mow turf, a small pond, and even a vegetable garden where firefighters grow herbs and vegetables for their meals. Amenities include benches, lighting, interpretive signage, a pond, steel trees, and steel trellis structures. Water runoff from the entire building is collected in a 6,000 gallon cistern and used by the green roof subsurface drip irrigation system. A Green Roof Interpretive Center and Garden Classroom, a teacher’s guide and student activity book, along with interpretive materials on the roof, are available for interpretation and environmental education ([Minnesota Green Roof Council]).
- Year built: 2010
- Location: St Paul, MN
- Building Type: Firestation
- Green Roof Type: Intensive and extensive
- Size: 8,100 square feet, 6,000 of which is vegetated
- Slope: Flat, 1 percent to drains
- Materials used in and components of the green roof (above membrane): root barrier, composite filter and retention mat, growing medium, drip irrigation.
- Plant list: over 100 species of native plants and ornamental plants, no-mow turf, a small pond, vegetables and herbs
- Documented maintenance practices: weeding and automated watering as needed, perennials get cut back and biomass is removed at the end of the year, pond and irrigation maintenance.
- Unit cost: $35 per square foot (does not include roofing membrane)
- Owner: City of St. Paul
- Designers and installers:
- Green Roof Designer: Abraham and Associates
- Architect of Record: Collaborative Design Group
- Installer: TectaGreen
- General Contractor: Cost, Planning & Management International, Inc, (CPMI)
- Access: The green roof and patio are accessible to the public during regular weekly hours.
- For more information
St. Simon Stock R.C. Elementary School green roof
When Father Nelson arrived at St. Simon Stock school, an elementary school in New York City’s Bronx, the roof had many leaks. Impressed with the green roof movement in Chicago, Father Nelson spearheaded re-roofing part of the roof with a 3,500 square foot green roof. Aside from providing stormwater benefits, other goals of this green roof project included cleaning the air to reduce the high incidence of asthma, providing space where the school’s inner city students could grow fresh vegetables, conducting science experiments, and enjoying open space. Father Nelson notes that the school’s heating bills have also gone down since the installation of the green roof.
St. Simon Stock R.C. Elementary School Green Roof, Images Courtesy of Jeannette Compton
Native plants being grown on St. Simon Stock R.C. Elementary School's green roof. Images Courtesy of Jeannette Compton
Students planting the St. Simon Stock R.C. Elementary School green roof. Images Courtesy of Jeannette Compton
Students planting vegetables on the St. Simon Stock R.C. Elementary School green roof. Images Courtesy of Karen Argenti
One goal of the St. Simon Stock R.C. Elementary School green roof was to provide educational opportunities for students, as illustrated in this photo. Images Courtesy of Karen Argenti
Vegetables grown on the St. Simon Stock R.C. Elementary School green roof. Images Courtesy of Karen Argenti
The growing medium on the St. Simon Stock R.C. Elementary School green roof consists of shredded polystyrene coated with pectin, compost, and native clay. Images Courtesy of Karen Argenti
St. Simon Stock R.C. Elementary School green roof, located in an ultra-urban area in the Bronx, New York City. Images Courtesy of Karen Argenti
About half of the roof is planted with native plants, and the other half is planted with edible crops. Bees and butterflies are commonly seen in this urban oasis.
This green roof uses an innovative engineered green roof growing medium, developed by New York’s Gaia Institute. The growing medium contains shredded polystyrene coated with pectin, compost, and native clay in 90:10:1 ratio by volume. This growing medium not only turns a waste product into a resource, it is also 75 percent lighter than other engineered green roof growing media, so it allows for a deeper growing media profile and has higher water holding capacity and cation exchange capacity.
Runoff from higher impervious roofs that surround the green roof is collected in rain barrels on the green roof and used by part of the green roof’s drip irrigation system.
Twelve planted bins were installed on the green roof to test evaporation rate and water holding capacity of a zero discharge green roof (i.e. without a drainage layer). Species selected for the bins are able to tolerate both droughty and flooded conditions, and can evapotranspire high volumes of water when water is available. Half the bins were planted with Prairie Cord Grass, and the other half with Canada Goldenrod. Half of each species was in bins with a traditional green roof soil, and the other half in a growing medium made of shredded recycled polystyrene modified to improve water holding capacity and cation exchange capacity, mixed with clay and compost.
The water holding capacity of the bins ranged from 75 percent to 112 percent of a 2 year storm, which is a 3 inch storm in 24 hours in New York City. “… ET from all treatments eliminated free standing water within 8 days, with much of the water loss occurring in the first three days. Evaporative losses were greater than those of the evaporation pan during the first three days. Crop coefficients compare the water loss of the plants to that of an evaporation pan. Solidago averaged 3.86 and 3.80, and the Spartina 3.42 and 3.38 during Trials 1 and 2, respectively” (Compton and Whitlow 2006). These crop coefficients are an order of magnitude greater than those published for a free-draining green roof planted with Sedums (Van Woert et al 2005).
- Year built: 2005
- Location: Bronx, NY, USA
- Building Type: Educational
- Green Roof Type: Extensive, Test/Research
- Size: 3,500 square feet
- Slope: 1 percent
- Materials used in and components of the green roof (above waterproofing assembly):
- Green roof:
- root barrier
- water retention and drainage mat
- filter fabric
- 10 centimeter (4 inch) growing medium containing shredded polystyrene coated with pectin, compost, and native clay in 90:10:1 ratio by volume.
- 5 centimeters of bound coconut fiber, jute, and straw matting, a layer of compost, and a layer of shredded wood mulch
- drip irrigation system
- Test bins:
- Fiberglass tubs were installed level with growing medium, with a removable lysimeter in each tub.
- Open bottom ¾ inch schedule 40 PVC was installed vertically in each tub as an observation well to allow measurement of free water depth.
- Each bin was lined with filter fabric and installed at a slight angle to allow drainage towards a hole drilled at one end. Male adapter barbs attached to flexible PVC tubing was brought to the surface and clamped shut, permitting drainage if necessary, as well as sampling of leachate.
- Half the bins had traditional green roof growing medium consisting of 3/8 inch graded expanded shale, coarse ground perlite, and compost in a 2:1:1 ratio by volume.
- The other half of the bins had growing medium containing shredded polystyrene coated with pectin, compost, and native clay in 90:10:1 ratio by volume
- Both growing media had the same compost and were installed with the same of bound coconut fiber, jute, and straw matting, a layer of compost, and a layer of shredded wood mulch as the rest of the roof.
- Plant list: Prairie Cordgrass (Spartina alterniflora) and Canada Goldenrod (Solidago Canadensis) in the research bins, with a wide diversity of native species and edible plants, including, for example, strawberries, lettuce, and tomatoes, on the remainder of the roof.
- Documented maintenance practices: maintenance tasks include operating the automated drip irrigation system, weeding, supplementing growing medium as needed, and planting annual crops, and harvesting crops. Maintenance tasks are performed by the students from St. Simon Stock School, together with Smartroofs, “a social enterprise developed by Sustainable South Bronx (SSBx). SSBx has an award-winning job training program called the Bronx Environmental Stewardship Training (BEST) Academy that prepares residents of the South Bronx and other New York City neighborhoods for "green" careers. The SmartRoofs social enterprise undertakes projects that enable BEST Academy graduates to obtain resume-building job experience while simultaneously earning income -- and making New York City healthier and greener” (Argenti, 2013).
- Unit cost: $57 per square foot
- Owner: The Archdiocese of New York
- Designers and installers:
- Green Roof: Barrett Company
- Ecological and Horticultural Engineering Consultant: Dr. Paul Mankiewicz, The GAIA Institute
- Ecological and Horticultural Engineering Consultant: Karen Argenti
- Graduate Student: Jeanette Compton, Cornell University
- Roof Contractor: Tony Lado, Bulado Construction
For more information see Greenroofs.com project database.
Hunt Utilities Group green roof
- Description
The Hunt Utilities green roof is an example of a green roof outside of the Metro area, and is also unique in that it was not planted, but the owners just let it be colonized by whatever plants came in naturally.
Hunt Utilities Group Green Roof, Image Courtesy of Ryan Hunt
Hunt Utilities Group Green Roof, Image Courtesy of Ryan Hunt
Hunt Utilities Group Green Roof Details, Courtesy of Ryan Hunt
Hunt Utilities Group green roof
- Description
The Hunt Utilities green roof is an example of a green roof outside of the Metro area, and is also unique in that it was not planted, but the owners just let it be colonized by whatever plants came in naturally.
Hunt Utilities Group Green Roof, Image Courtesy of Ryan Hunt
Hunt Utilities Group Green Roof, Image Courtesy of Ryan Hunt
Hunt Utilities Group Green Roof Details, Courtesy of Ryan Hunt
“When the Hunt Utilities Group's Resilient Living Campus needed a prototyping and fabrication shop, we decided on a living roof for it, primarily so we could gain the experience and demonstrate it. The additional, unique green space and limiting water run off was also an interest. We learned that it requires some serious structure, and that making sure it is all done extremely well to prevent expensive, hard to find leaks is critical. Fortunately, we have not experienced any leaks, yet. We have found the space useful for solar panel testing and watching shooting stars” (Ryan Hunt).
- Year built: 2005
- Location: 2330 Dancing Wind Road, Pine River, MN 56474
- Building Type: (public or private) Private
- Green Roof Type: Semi-intensive (Approximately 6" deep)
- Size: approximately 15,000 Sq Ft
- Slope: Flat
- Materials used in and components of the green roof (above membrane):
Multi-layer system by Carlisle
- Plant list: Whatever grew there
- Documented maintenance practices: None
- Unit cost: The cost was about 22 per square foot including additional structural support.
- Owner: Hunt Utilities Group
- Designers and installers:
- Multi-layer system designed by Carlisle
- Architect: Paul Hirst
- Installed by: Hunt Utilities Group
For more information:
Additional case studies
References
- Argenti, K. 2013. Personal communication.
- Belizario, N.A. 2013. Personal communication.
- Durhman, A. 2013. Personal communication.
- Compton, J. S., and T. H. Whitlow. 2006. A Zero Discharge Green Roof System and Species Selection to Optimize Evapotranspiration and Water Retention. Greening Rooftops for Sustainable Communities, Boston, MA, May 11-12, 2006.
- Compton, Jeannette. 2006. Rethinking the Green Roof. Biocycle, September: 38-41.
- Greenroofs.com project database at http://www.greenroofs.com/projects/pview.php?id=514, downloaded 05/28/2013
- Hunt, R. 2013. Personal Communication.