EFFECTS OF SUBSTRATES AND PLANT SPECIES ON WATER QUALITY OF EXTENSIVE GREEN ROOFS

To select plant species and species combinations for northern climates, mats with different plant species and species combinations were constructed on a green roof plant production farm and later transported and installed on an urban rooftop. There were three treatments: two different planting combinations, which together consisted of 10 diverse plant species [both stonecrop (Sedum) species and nonstonecrop species], and a control, which consisted of 26 stonecrop species used for standard mat production. Growth measurements and observations were made at both sites and special attention was paid to the performance of species during the harvest, transportation, and installation stages, as well as during recovery postinstallation. All species but false rock cress (Aubrieta cultorum) were found to be suitable for extensive green roof applications in northern climates, although there were variations of suitability among the species. Good, mediocre, and poor interactions formed between numerous species, displaying different levels of compatibility. Finally, all species were considered appropriate for a mat production system; species that failed to germinate, species planted postinstallation, the frequently displaced rolling hens and chicks (Jovibarba sobolifera), and false rock cress were exceptions. Overall, many species in this study displayed successful, well-rounded growth. Based on results, species and species combinations were recommended for extensive green roofs in northern climates.

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Assessing Rainwater Quality Treated via a Green Roof System

10.21203/rs.3.rs-354504/v1 ◽

2021 ◽

Author(s):

Thomas Schatzmayr Welp Sá ◽

Mohammad K Najjar ◽

Ahmed W A Hammad ◽

Elaine Garrido Vazquez ◽

Assed Naked Haddad

Keyword(s):

Water Quality ◽

Experimental Study ◽

Green Roof ◽

Green Roofs ◽

Ammonia Nitrogen ◽

Rain Event ◽

Water Crisis ◽

Roof System ◽

Rainwater Quality

Abstract The shortage of water worldwide is increasingly worrying. Studies in the field suggest that sustainable water resource management via water recycling is fundamental to alleviate the issue. The use of rainwater is an important alternative source that must be considered, mainly, in the water crisis facing the planet. When integrated with the concept of green roofs, the capturing and treatment of rainwater in these structures becomes an even more ecological and sustainable practice. The water drained by the roof can be used for non-potable uses, such as flushing toilet bowls. One of the main concerns when using rainwater, even for non-potable uses, is the quality of the water available, so as not to put users' health at risk. In this way, the present work proposes to experimentally analyze the quality of rainwater drained in a green roof prototype for reuse purposes. The green roof prototype was installed on an experimental bench. After each rain event (four in total), two water samples were collected in the following situations: rainwater captured directly by a container next to the bench, and rainwater drained by the green roof prototype, captured by a container through existing drains at the base of the prototype. The analyzes of the collected samples were carried out at the Environmental Engineering Laboratory (LEMA / UFRJ) and performed according to the Standard Methods for the Examination of Water and Wastewater. Specifically, the experiments examine physicochemical and biological parameters following a rain event on a green roof prototype for sanitary use. Experimental results that were observed and analyzed include color, turbidity, pH, ammonia nitrogen, nitrite, nitrate, orthophosphate, total coliforms, and thermotolerant coliforms to indicate the rainwater quality from green roofs. The majority of parameters assessed were within the value thresholds indicated by the Brazilian standards, while the results of orthophosphate, fecal coliforms, color, and turbidity were not. The greatest divergence is in the concentration of orthophosphate, where a concentration of 10.88mg/L was obtained in this experimental study while other authors present values of 0.1 and 0.01mg/L. Total coliforms also presented high values, but within the expected range. Comparisons with technical documents and international references related to water quality to identify possibilities of the use of rainwater were also conducted. Results indicate that the water quality has the same order of quantity for turbidity, nitrite, and ammonia nitrogen parameters across the standards. Based on such observations, filtration and disinfection processes are therefore required in the green roof system for the use of rainwater for sanitary. Finally, the experimental study of rainwater quality on the green roof presented similar results comparing with international references. The use of green roofs combined with the use of rainwater demonstrates the potential and benefits as an alternative to face the water crisis.

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Amount of water runoff from different vegetation types on extensive green roofs: Effects of plant species, diversity and plant structure

Landscape and Urban Planning ◽

10.1016/j.landurbplan.2011.11.001 ◽

2012 ◽

Vol 104 (3-4) ◽

pp. 356-363 ◽

Cited By ~ 116

Author(s):

Ayako Nagase ◽

Nigel Dunnett

Keyword(s):

Species Diversity ◽

Plant Species ◽

Green Roofs ◽

Plant Species Diversity ◽

Water Runoff ◽

Vegetation Types ◽

Plant Structure ◽

Extensive Green Roofs

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Are Biocrusts and Xerophytic Vegetation a Viable Green Roof Typology in a Mediterranean Climate? A Comparison between Differently Vegetated Green Roofs in Water Runoff and Water Quality

Water ◽

10.3390/w13010094 ◽

2021 ◽

Vol 13 (1) ◽

pp. 94

Author(s):

Bernardo Rocha ◽

Teresa A. Paço ◽

Ana Catarina Luz ◽

Paulo Palha ◽

Sarah Milliken ◽

...

Keyword(s):

Water Quality ◽

Drinking Water ◽

Green Roof ◽

Green Roofs ◽

Water Runoff ◽

The European Union ◽

Impact Of Urbanization ◽

Health Organization ◽

Almost All

Green roofs can be an innovative and effective way of mitigating the environmental impact of urbanization by providing several important ecosystem services. However, it is known that the performance of green roofs varies depending on the type of vegetation and, in drier climates, without resorting to irrigation, these are limited to xerophytic plant species and biocrusts. The aim of this research was therefore to compare differently vegetated green roofs planted with this type of vegetation. A particular focus was their ability to hold water during intense stormwater events and also the quality of the harvested rainwater. Six test beds with different vegetation compositions were used on the roof of a building in Lisbon. Regarding stormwater retention, the results varied depending on the composition of the vegetation and the season. As for water quality, almost all the parameters tested were higher than the Drinking Water Directive from the European Union (EU) and Word Health Organization (WHO) guidelines for drinking-water quality standards for potable water. Based on our results, biocrusts and xerophytic vegetation are a viable green roof typology for slowing runoff during stormwater events.

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Cooling Performances on Rainless Days of Extensive Green Roofs Planted with Different Ornamental Species

HortScience ◽

10.21273/hortsci11507-16 ◽

2017 ◽

Vol 52 (3) ◽

pp. 467-474

Author(s):

Yann-Jou Lin ◽

Ai-Tsen Su ◽

Bau-Show Lin

Keyword(s):

Plant Species ◽

Plant Cover ◽

Ornamental Plants ◽

Green Roofs ◽

Species Selection ◽

Aesthetic Quality ◽

Four Seasons ◽

Canopy Volume ◽

Extensive Green Roofs ◽

Selection Of

This study investigated the cooling performances of extensive green roofs (EGRs) planted with 12 ornamental plants on rainless days in a subtropical city for 1 year. Imitating the construction of an EGR, 48 modules were constructed and each module was planted as a monoculture with 100 plants each. Plant growth and greening performance were measured every 2 weeks. Temperatures, solar radiation intensities, and substrate water contents were measured continuously and recorded every 5 minutes. The analyzed results showed that both plant species selection and seasonal variation had a significant impact on the noontime cooling benefit. The modules planted with taller plants, more extensive plant cover, higher albedo, and greater canopy volume had a greater noontime cooling benefit. As the seasons changed, the albedo and canopy volume of the modules were primarily responsible for differences in the noontime cooling benefit provided by the different plant species. Over an entire year of observation, the results of this research could inform the selection of plant species by landscape designers for EGRs with the aim of providing greater cooling benefits and aesthetic quality overall four seasons.

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Moisture Content of Extensive Green Roof Substrate and Growth Response of 15 Temperate Plant Species during Dry Down

HortScience ◽

10.21273/hortsci.46.3.518 ◽

2011 ◽

Vol 46 (3) ◽

pp. 518-522 ◽

Cited By ~ 25

Author(s):

Jennifer M. Bousselot ◽

James E. Klett ◽

Ronda D. Koski

Keyword(s):

Moisture Content ◽

Plant Species ◽

Green Roof ◽

Green Roofs ◽

Herbaceous Plant ◽

Herbaceous Species ◽

Extensive Green Roof ◽

Dry Down ◽

Porous Soils ◽

Extensive Green Roofs

Success of extensive green roof vegetation depends primarily on associated plant species' ability to survive the low moisture content of the substrate. As a result of the well-drained nature of the substrate, plants adaptable to dry, porous soils are primarily used in extensive green roof applications. Although Sedum species have dominated the plant palette for extensive green roofs, there is growing interest in expanding the plant list for extensive green roof systems. To effectively select suitable plants, species need to be evaluated in terms of their response to gradual and prolonged dry down of the substrate. A study to determine the relative rates of dry down for 15 species was conducted in greenhouse trials. During dry downs that extended over 5 months, the substrate of succulent and herbaceous species dried down at different rates. The change in moisture content of the substrate was not consistent among succulent and herbaceous plant species during the initial 18 d of dry down. Despite differences in rate of dry down, the succulent species, as a group, maintained viable foliage for over five times longer than the herbaceous species. The revival rates of the succulent species were nearly double those of the herbaceous species. Therefore, not only are succulent species more likely to survive during periods of drought, but these species are more likely to resume growth soon after water is again made available.

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Investigating the Plant Species and Rainfall Factors on Stormwater Retention Performance of Extensive Green Roofs in Malaysia

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i3.9.15279 ◽

2018 ◽

Vol 7 (3.9) ◽

pp. 71

Author(s):

Chow Ming Fai ◽

Muhammad Fadhlullah Abu Bakar ◽

Lariyah Mohd Sidek1 Wong Jee Khai

Keyword(s):

Plant Species ◽

Green Roofs ◽

Water Runoff ◽

Storm Events ◽

Native Plant ◽

Retention Performance ◽

Rainfall Characteristics ◽

Native Plant Species ◽

Extensive Green Roofs ◽

Stormwater Retention

Information on the influences of native plant species and rainfall characteristics on the stormwater retention performance of extensive green roofs in Malaysia is still scarce. More local data is still required because rainfall and runoff generation processes in tropical environment are very different from the temperate regions. This study is aimed to investigate the stormwater retention performance of native plant species in extensive green roofs with respect to different rainfall characteristics in Malaysia. Two test beds consist of pro-mixing potting soil were vegetated each with different native plant species (Axonopus Compressus (cow grass), Portulaca Grandiflora (sedum) and one test bed with no vegetation (bare ground) was prepared as a control. A total of 22 significant storm events were collected over a 3-month period from March 2016 to May 2016. The rainfall depths for monitored storm events were ranged from 4.5 mm to 63.2 mm and rainfall intensities ranged from 0.5mm/hr to 58.5 mm/hr. The results showed that sedum exhibited higher mean runoff retention percentage than grass which is 75.8% and 70.9%, respectively. Bare soil was the least effective for reducing water runoff with retention percentage of 62.6%. Overall, sedum and grass species provided 90.6% and 88.2% of cumulative rainfall retention in this study. The rainfall depth and intensity are correlated negatively with stormwater retention performance of green roofs. Meanwhile, longer dry weather period are likely to increase the water retention capacity of green roof.

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EFFECT OF GREEN ROOF AGE ON RUNOFF WATER QUALITY IN PORTLAND, OREGON

Journal of Green Building ◽

10.3992/1943-4618.13.2.42 ◽

2018 ◽

Vol 13 (2) ◽

pp. 42-54 ◽

Cited By ~ 2

Author(s):

Jarrett Okita ◽

Cara Poor ◽

Jessica M. Kleiss ◽

Ted Eckmann

Keyword(s):

Water Quality ◽

Urban Areas ◽

Water Retention ◽

Green Roof ◽

Green Roofs ◽

Dry Season ◽

Rain Event ◽

Wet Season ◽

Runoff Water

Green roofs have become a common method to increase water retention on-site in urban areas. However, the long-term water quality of runoff from green roofs is poorly understood. This study evaluated the water quality of stormwater runoff from a regular (non-vegetated) roof, a green roof installed 6 months previously, and a green roof installed 6 years ago in Portland, Oregon. Samples of runoff were taken during every rain event for 10 months, and analyzed for total phosphorus (TP), phosphate (PO3-4), total nitrogen (TN), nitrate (NO-3), ammonia (NH3), copper (Cu), and zinc (Zn). Runoff from the green roofs had higher concentrations of TP and PO3-4 and lower concentrations of Zn compared to the regular roof. Average TP concentrations from the 6-year old roof and 6-month old roof were 6.3 and 14.6 times higher, respectively, than concentrations from the regular roof, and average PO3-4 concentrations from the 6-year old roof and 6-month old roof were 13.5 and 26.6 times higher, respectively, compared to the regular roof. Runoff from the 6-month old green roof had higher concentrations of TP and PO3-4 than the 6-year old green roof during the wet season, but lower concentrations during the dry season. The 6-month old green roof installations where receiving waters are sensitive or impaired may need additional treatment methods to reduce phosphorus levels. As green roofs age, water retention decreases and phosphorus leaching increases during the dry season.

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Impacts of Runoff Water Quality from Extensive Green Roofs

Proceedings of the Water Environment Federation ◽

10.2175/193864712811709139 ◽

2012 ◽

Vol 2012 (11) ◽

pp. 4948-4965

Author(s):

Kevin Gilmore ◽

Rebecca Shopiro ◽

Richard Crago ◽

Jose Maria Guzman

Keyword(s):

Water Quality ◽

Green Roofs ◽

Runoff Water ◽

Extensive Green Roofs

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