Your search keyword '"GREEN roofs"' showing total 7,976 results

51. Selection of succulent species to be used on green roofs according to phytogeographic regions: Türkiye example.

Author

AKSOY, Onur and ERKEN, Kamil

Subjects

GREEN roofs, GLOBAL warming, SUCCULENT plants, PLANT species, SPECIES diversity

Abstract

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Published

2024

52. Nature-Based Solutions to Enhance Urban Resilience in the Climate Change and Post-Pandemic Era: A Taxonomy for the Built Environment.

Author

Sommese, Francesco

Subjects

SCIENTIFIC literature, BUILT environment, ENVIRONMENTAL protection, GREEN infrastructure, CLIMATE change, PUBLIC spaces

Abstract

Global environmental and health issues such as climate change and the COVID-19 pandemic have highlighted the weaknesses of current urban systems, including the poor availability and accessibility of green and public spaces in cities. Nature-based Solutions are configured as promising solutions to increase the resilience and health of the built environment by addressing climate and pandemic issues, promoting the psycho-physical well-being of users and proposing solutions for the protection of the environment and ecosystems. Following a systematic review of the scientific literature using the PRISMA methodology, this study aims to provide a taxonomic framework for Nature-based Solutions for the built environment that is applicable to the urban and building scales, highlighting key benefits in addressing pandemic and climate challenges and achieving urban resilience. This framework proposes a holistic and multifunctional approach that will prove to be a useful tool for researchers and policy makers to incorporate greening strategies into urban regeneration and redevelopment processes. The application of Nature-based Solutions still seems to be limited. It is therefore necessary to raise awareness of this issue among citizens and policy makers and to promote close co-operation between the different actors in territorial decision-making processes. [ABSTRACT FROM AUTHOR]

Published

2024

53. Comfort for Users of the Educational Center Applying Sustainable Design Strategies, Carabayllo-Peru-2023.

Author

Cuya, Nicole, Estrada, Paul, Esenarro, Doris, Vega, Violeta, Vilchez Cairo, Jesica, and Mancilla-Bravo, Diego C.

Subjects

LITERATURE reviews, PUBLIC spaces, GREEN roofs, QUALITY of life, SUSTAINABLE development, SUSTAINABLE design

Abstract

The educational problems in the area, economic disparities, conflict situations, and deficiencies in educational infrastructure directly affect the quality and accessibility of education. Therefore, the present research aims to generate comfort for users of the educational center by applying sustainable design strategies in Carabayllo, Peru. The study started with a literature review, an analysis of flora and fauna, passive design strategies, and climatic analysis applying sustainability strategies supported by digital tools (AutoCAD, Revit Collaborate, Climate Consultant, OpenStreetMap, JOSM, Rhinoceros, and Grasshopper). As a result, the design proposes an educational center that ensures year-round comfort through energy efficiency, the use of eco-friendly materials, and green roofs. Additionally, it includes the implementation of dry toilets, biofilters, and xerophytic vegetation for orchards, promoting food production and enhancing the treatment of nearby public spaces. In conclusion, this proposal enhances the quality of life for users by applying passive design strategies and sustainability principles, adopting clean energy sources, and efficiently managing waste, thereby contributing to the Sustainable Development Goals (SDGs). [ABSTRACT FROM AUTHOR]

Published

2024

54. Evaluation of the Restoration Effects of Rooftop Greening Areas Created by Applying an Ecological Restoration Method.

Author

Kim, Dong Uk, Jung, Songhie, Kim, Gyung Soon, Lim, Bong Soon, and Lee, Chang Seok

Subjects

URBAN ecology, RESTORATION ecology, GREEN roofs, URBAN heat islands, LANDSCAPE architecture

Abstract

Green roofs provide various ecosystem services, including habitats for diverse organisms in urban areas where natural space is very scarce. This study aims to evaluate the restoration effects of green roofs created by applying an ecological restoration method to reinforce habitat function. The reference ecosystem selected for the ecological restoration of a roof was a Korean red pine stand established on Mt. Bulam, considering the soil depth, light, moisture conditions, etc., compared with the roof's environmental conditions. Ecological restoration was carried out by planting two-year-old pine seedlings and scattering surface soil collected from the pine stands. The pine trees showed geometrical growth in height and diameter and a high water-use efficiency. The ecological restoration of the green roofs demonstrated an ecological function for improving the urban climate through the mitigation of the urban heat island effect and high productivity, showing different functions depending on the greening method. The composition and diversity of vegetation and insects at the ecological restoration site were similar to those at the reference site, whereas the landscape architecture sites, which were created using the landscape architecture method, were different from the reference site. These results confirm that applying the ecological restoration method for rooftop greening resulted in better biological habitat function than applying existing landscape architecture methods. [ABSTRACT FROM AUTHOR]

Published

2024

55. Green Roof Substrate Microbes Compose a Core Community of Stress-Tolerant Taxa.

Author

Van Dijck, Thomas, Stevens, Vincent, Steenaerts, Laure, Thijs, Sofie, Van Mechelen, Carmen, Artois, Tom, and Rineau, François

Subjects

GREEN roofs, URBAN ecology, NITROGEN fixation, SOIL microbiology, CARBON fixation

Abstract

Extensive green roofs provide for many ecosystem services in urban environments. The efficacy of these services is influenced by the vegetation structure. Despite their key role in plant performance and productivity, but also their contribution to nitrogen fixation or carbon sequestration, green roof microbial communities have received little attention so far. No study included a spatiotemporal aspect to investigate the core microbiota residing in the substrates of extensive green roofs, although these key taxa are hypothesized to be amongst the most ecologically important taxa. Here, we identified the core microbiota residing in extensive green roof substrates and investigated whether microbial community composition is affected by the vegetation that is planted on extensive green roofs. Eleven green roofs from three different cities in Flanders (Belgium), planted either with a mixture of grasses, wildflowers and succulents (Sedum spp.; Sedum–herbs–grasses roofs) or solely species of Sedum (Sedum–moss roofs), were seasonally sampled to investigate prokaryotic and fungal communities via metabarcoding. Identifying the key microbial taxa revealed that most taxa are dominant phylotypes in soils worldwide. Many bacterial core taxa are capable of nitrogen fixation, and most fungal key taxa are stress-tolerant saprotrophs, endophytes, or both. Considering that soil microbes adapted to the local edaphic conditions have been found to improve plant fitness, further investigation of the core microbiome is warranted to determine the extent to which these stress-tolerant microbes are beneficial for the vegetational layer. Although Sedum–herbs–grasses roofs contained more plant species than Sedum–moss roofs, we observed no discriminant microbial communities between both roof types, likely due to sharing the same substrate textures and the vegetational layers that became more similar throughout time. Future studies are recommended to comprehensively characterize the vegetational layer and composition to examine the primary drivers of microbial community assembly processes. [ABSTRACT FROM AUTHOR]

Published

2024

56. Public Benefits Valuation of Dynamic Green Roof Stormwater Retention.

Author

Cook, Jessica, Huh, Yunsun, and Winden, Matthew

Abstract

This study evaluates the public benefits associated with different green roof systems to manage stormwater runoff in Milwaukee, Wisconsin. An internet-based stated-preference conjoint choice experiment was administered to residents of Milwaukee to ascertain the public benefits value of different potential green roof infrastructure programs. This study contributes to the literature on the public benefits of green roofs in two ways. First, this study examined the perceived value of dynamic stormwater retention facilitated using "smart" green roofs with access to real-time weather data versus traditional extensive green roofs. Second, a wider range of public benefits associated with green roofs, including improved water quality, air quality, biodiversity, and urban heat island effects, were estimated. Estimation of these public benefits allows for determination of the optimal public policy for supporting green roofs as a component of decentralized stormwater management in municipalities. [ABSTRACT FROM AUTHOR]

Published

2024

57. Seasonal variation in preference for green roof vegetation.

Author

Thorpert, Petra, Sang, Àsa Ode, Buffam, Ishi, Bhadouria, Rahul, and Pistón, Nuria

Subjects

GREEN roofs, ECOSYSTEM services, ECOSYSTEMS, URBAN biodiversity, SEASONS, URBAN plants, WELL-being

Abstract

Green roofs are vegetation systems that are particularly well-suited to dense urban environments, and can contribute multiple ecosystem services that support biodiversity, human health, and well-being. Several health benefits are dependent on the way that people perceive the characteristics of the vegetation on the green roof, that is, their environmental appraisal. In this study we set out to explore the effects of different types of green roof vegetation, along with seasonal and successional variations, on visual aesthetical experiences, as well as perceived biodiversity. An online photo elicitation survey was conducted using standardised photographs of a selection of green roofs in Malmo, Sweden, during three different seasons. In the survey, members of the public were asked to evaluate different aesthetic qualities, and to estimate biodiversity and the stress reducing capacity for each photograph. Results showed statistical differences among roof types and by season and successional stage in terms of perceived colour, perceived biodiversity, aesthetic quality, and restorative effects, where the observed differences in perceived values were largely driven by the colour frame of the green roof. Lower scores were associated with a high percentage of red or brown-red shades (p<0.001), while higher scores were associated with a high percentages of green or white (p<0.001). The results of the study therefore have the potential to inform green roof management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

58. Production of lightweight expanded aggregates from smectite clay, palygorskite-rich sediment and phosphate sludge.

Author

Jaha, Sameh, Carvalheiras, João, Mahmoudi, Salah, and Labrincha, João

Subjects

*POROSITY, *LIGHTWEIGHT construction, *SUSTAINABLE construction, *GREEN roofs, *POROUS materials

Abstract

Lightweight expanded clay aggregates (LWAs) are porous materials with low density and high strength (EN-13055-1), and they are important in sustainable construction through their lightweight nature and ability to provide thermal or acoustic insulation. The objective of this work was therefore to evaluate the preparation of LWAs using a smectite clay (M1 formulation), whose application in common ceramic production is difficult. An alternative approach was proposed for the valorization of phosphate sludge and a palygorskite-rich sediment by mixing them with expanded clay (M2 formulation) for LWA production. This could result in economically cost-effective products with significant environmental benefits. Pellets were prepared and fired at various temperatures (1100°C, 1125°C and 1150°C), and relevant properties such as bloating index, density, water absorption and compressive strength were determined. Additionally, the microstructure, mineralogical transformations and phase compositions under various sintering temperatures were investigated. Increasing the temperature from 1000°C to 1150°C significantly improved the expansion properties of LWAs, and 1150°C seemed to be the optimal firing temperature at which the best expansion properties were achieved. In addition, the incorporation of the selected waste improved the properties of the final products, leading to lower density, greater strength and greater bloating with the development of the internal pore structure as compared to the LWAs without this addition. Because of their low density (0.6 g cm –3) and sufficient compressive strength (0.86 MPa), the manufactured LWAs can be used in construction (as insulating panels or in lightweight concrete) and in green roofs. [ABSTRACT FROM AUTHOR]

Published

2024

59. Flora nativa de valor ornamental potencial del extremo sudoriental del sistema serrano de Tandilia (Argentina): una alternativa de uso y conservación.

Author

Echeverría, María L., Alonso, Sara I., and Comparatore, Viviana M.

Subjects

*GREEN roofs, *NATIVE species, *WATER gardens, *VERTICAL gardening, *PLANT germplasm

Abstract

Background and aims: The demand for native ornamentals species has increased and the utilization of novel ornamental crops is a way of promoting their use and care by the community. Considering the high richness of the Tandilia hills, the objective of this study was to survey native plants with potential ornamental value and to propose suggestions for their use in landscaping. M&M: From the floristic survey carried out in a hill area of the south of Tandilia, a list of native species with potential ornamental value was made. For each species, it was recorded: growth habit; ornamental morphological attributes; flowering season and, depending on the environment’s characteristics where they thrive, at least one suggestion for landscaping use was made. Results: A total of 47 species were proposed as ornamental, with predominance of perennial herbs (34), shrubs (11) and spring flowering. Foliage was the most frequent ornamental attribute. The main suggestion use category was: full-sun beds in shallow soils, followed in decreasing order by full-sun beds in deep soils; rock gardens, green roofs or full-sun vertical gardens; partial shadow beds in deep soils; partial shadow beds in shallow soils; shadow beds or shadow vertical gardens ponds. Conclusions: The southern hill areas of Tandilia have native flora of potential ornamental value that could be used in landscaping integrating different plantations, enhancing their cultural and patrimonial value. [ABSTRACT FROM AUTHOR]

Published

2024

60. Local terrestrial biodiversity impacts in life cycle assessment: A case study of sedum roofs in London, UK.

Author

Mason, Adam R., Puchol‐Salort, Pepe, Gathorne‐Hardy, Alfred, Smith, Barbara Maria, and Myers, Rupert J.

Subjects

*PRODUCT life cycle assessment, *URBAN biodiversity, *SEDUM, *GREEN infrastructure, *LIFE cycles (Biology), *URBAN plants, *MINORS, *BIODIVERSITY

Abstract

Urban development is a key driver of global biodiversity loss. "Green" infrastructure is integrated to offset some impacts of development on ecosystem quality by supporting urban biodiversity, a prominent example being green roofs. The effects of green infrastructures on urban biodiversity are not well understood and poorly included in life cycle assessment (LCA) methodology. Here, we present a novel methodology that quantifies the local impact of green infrastructures on terrestrial biodiversity—demonstrated here for sedum roofs in London, UK—and integrates within LCA. It relates energy provision by plants to the metabolic requirements of animals to determine what species richness (number of species) and species abundance (number of individuals) are supported. We demonstrate this methodology using a case study, comparing the life cycle impact of developing 18 buildings, with either asphalt concrete or sedum roofs, on ecosystem quality. We found the sedum roofs (0.018 km2) support 53 species (673 individuals), equivalent to 1.3% of the development's life cycle impacts on ecosystem quality. Complete offsetting requires considerable reduction in transport use throughout the development's lifetime, and lower environmental impact material selection during construction (contributing 98% and 2%, respectively). The results indicate sedum roofs offer minor impact mitigation capacities in the context of urban development, and this capacity is limited for all green infrastructures by species richness in local species pools. This paper demonstrates the potential and limitations of quantifying terrestrial biodiversity offsets offered by green infrastructures alongside urbanization, and the need for realistic expectations of what role it might play in sustainable urban design. [ABSTRACT FROM AUTHOR]

Published

2024

61. A Systematic Review of the Vertical Green System for Balancing Ecology and Urbanity.

Author

Zhao, Jiayu, Rao, Qiuyi, Sun, Chuanhao, Ikram, Rana Muhammad Adnan, Fan, Chengliang, Li, Jianjun, Wang, Mo, and Zhang, Dongqing

Subjects

GREEN roofs, URBAN heat islands, SUSTAINABLE architecture, URBAN planning, VERTICAL gardening, URBAN ecology, AIR quality monitoring, SUSTAINABLE development

Abstract

Skyrise greenery, including green roofs and vertical gardens, has emerged as an indispensable tool for sustainable urban planning with multiple ecological and economic benefits. A bibliometric analysis was used to provide a systematic review of the functions associated with skyrise greenery in urban landscapes. Key research tools, including the "Bibliometrix" R package and "CiteSpace" 6.2 R4, highlight the depth and breadth of the literature covering skyrise greenery. In 2000–2022, a total of 1474 original journal articles were retrieved. Over this period, there was an exponential increase in the number of publications, reflecting both enhanced knowledge and increasing concerns regarding climate change, the urban heat island, and urbanization. Of the total, ~58% of the articles originated from China, followed by the USA, Italy, Australia, and Canada. The research themes, such as urban heat islands, carbon sequestration, hydrology, and air quality, have been identified as the frontier in this fields. Furthermore, researchers from developed countries contributed the most publications to this domain, while developing countries, such as China, play an increasing role in the design and performance evaluation of vertical greenery. Key benefits identified in vertical green systems (e.g., green roofs and walls) include thermal regulation, sustainable water management, air-quality improvement, noise reduction, and biodiversity enhancement. In addition, several potential future research prospectives are highlighted. This review provides a comprehensive insight into exploring the pivotal role of skyrise greenery in shaping sustainable, resilient urban futures, coupled with sustainable urban planning. [ABSTRACT FROM AUTHOR]

Published

2024

62. Weight and structural considerations of potential green roof growth: Media compositions for the Nigerian building industry.

Author

Salihu, Murtala Muhammad, Musa, Muhammad Aminu, Ibrahim, Abdullahi Getso, Usman, Jamilu, and Salisu, Abubakar Sadiq

Subjects

GREEN roofs, LIGHTWEIGHT construction, BUILDING design & construction, BUILT environment

Abstract

The principal objective of this paper was to assess the physical properties and weight or structural implications of some potential green roof growth media compositions practicable for use in the Nigerian built environment. The study carried out an essential selection of material constituents of growth media blends mixed in a 3:1:1 ratio of natural stone-based gravels, soil and compost respectively. Six substrate blends based on later-ite stones, ory and empirical field evaluation methods. The results revealed that the granite-based blend is the heaviest sample with 1,713.30 kg/m3 in its saturated state, while the lightest in weight is the pumice blend with 869.30 kg/m3 which is 50.7% less than the granite blend. The heaviest and the lightest outlined models were subsequently subjected to a weight analysis on a proposed reinforced concrete flat-roofed structure. The results showed that all the extensive green roof samples fall within the IBC stipulated range. The heaviest granite substrate obtained a design load of 0.951 kN/m2, while the lightest pumice blend recorded a design load of 0.576 kN/m2. Hence, it stands to offer an optimum alternative in green roof retrofitting projects for existing flat-roofed buildings. The study, therefore, submits that all samples evaluated involve readily available materials in the studied area and can be used with respect to their characteristic properties as presented in this study. It also serves as a reference point for all stakeholders in the research and building construction industry in Nigeria and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

63. Insect pollinator and natural enemy communities in green roof and ground-level urban habitats.

Author

McNamara Manning, Katherine, Coffman, Reid R., and Bahlai, Christie A.

Subjects

BIOTIC communities, GREEN roofs, INSECT pollinators, POLLINATORS, INSECT communities, POLLINATION, HABITATS

Abstract

Urban greenspaces, including green roofs and ground-level urban habitats provide habitat for insect communities in cities. However, beneficial insect communities likely differ between human-managed habitats because of varying provision of resources and connectivity in these greenspaces. This study examined the insect communities in four extensive green roofs and three non-adjacent, similarly structured, managed ground-level habitats. We detected a high degree of overlap in insect taxa but found moderate differences in overall insect community composition between the green roof and ground-level habitats. While there was no difference in Shannon diversity between green roofs and ground-level habitats, the ground-level habitat had greater insect taxa richness. Green roof and ground-level habitats supported pollinators and natural enemies, while ground-level had greater mean pollinator and natural enemy richness and Shannon diversity. Green roofs intentionally designed for biodiversity using native plants for habitat did not differ from those designed for stormwater management and energy reduction using non-native plants in insect community metrics used in this study. These findings suggest that urban greenspaces continue to provide valuable habitat while connectivity and structure play a role in shaping urban insect communities. [ABSTRACT FROM AUTHOR]

Published

2024

64. Runoff from an extensive green roof during extreme events: Insights from 15 years of observations.

Author

Paus, Kim H. and Braskerud, Bent C.

Subjects

GREEN roofs, RUNOFF, URBAN runoff, CITIES & towns

Abstract

While green roofs have gained widespread popularity as a measure to detain and retain runoff in urban areas, their performance during extreme events is not well studied. In this study 15 years of runoff and precipitation observations from a small extensive green roof in Norway are analysed. GEV‐distributions were fitted to the annual max values for precipitation and runoff in order to develop intensity‐duration‐frequency (IDF) and runoff‐duration‐frequency (RDF) data. Using the IDF and RDF data a total of 31 extreme events were identified (containing precipitation or runoff values with return period greater than 2 years for one or more durations). While nearly all extreme runoff events were caused by extreme precipitation, only 69% of the extreme precipitation events resulted in extreme runoff. The assumption of 1:1 equivalency of return periods did not hold true, and deviations were mainly explained by variations in substrate water content prior to the extreme event. Moreover, in 50% of the events, the runoff duration with the greatest return period was shorter than the precipitation duration with the greatest return period. Hence, the results indicate that the use of design storms to predict runoff from green roofs may be inappropriate. The potential of having IDF and RDF data available was demonstrated by the development of simple empirical equations, which ensure conservations of both return period and duration. To generate reliable green roof RDF data, future research should prioritize evaluating various continuous models with the aim of accurately describing extreme events. [ABSTRACT FROM AUTHOR]

Published

2024

65. Cover Picture and Issue Information.

Subjects

*GREEN roofs, *ARTIFICIAL intelligence, *SUSTAINABILITY

Abstract

Cover image: Securing keystone plant‐pollinator interactions can improve the sustainability of nature‐based solutions that depend on plants, such as the urban green roof depicted here. Image generated using Dall‐E 3 AI by Chris Cosma. For full details see pages 2432–2441.. [Extracted from the article]

Published

2024

66. Seismically Isolated Buildings with Green Roofs for Sustainable Cities

Author

Hacıemiroğlu, Mert, Özenir, Ahmet, Alhan, Cenk, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Sadan, Bahadir, editor, Tuzun, Cuneyt, editor, and Erdik, Mustafa, editor

Published

2024

67. Renewable Energy Sources and Green Elements

Author

Knut, Pavol, Kocúrková, Mária, Vranayová, Zuzana, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Blikharskyy, Zinoviy, editor, and Zhelykh, Vasyl, editor

Published

2024

68. Understanding Urban Heat Island Effect: Causes, Impacts, Factors, and Strategies for Better Livability and Climate Change Mitigation and Adaptation

Author

Aboulnaga, Mohsen, Trombadore, Antonella, Mostafa, Mona, Abouaiana, Ahmed, Aboulnaga, Mohsen, Trombadore, Antonella, Mostafa, Mona, and Abouaiana, Ahmed

Published

2024

69. Urban Green Coverage as a Strategy for Mitigating High Temperatures in Cities

Author

Aboulnaga, Mohsen, Trombadore, Antonella, Mostafa, Mona, Abouaiana, Ahmed, Aboulnaga, Mohsen, Trombadore, Antonella, Mostafa, Mona, and Abouaiana, Ahmed

Published

2024

70. Energy Savings of Green Roofs in Mediterranean Cities

Author

Elmazek, Eman M., Safour, Aziza A., Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Battisti, Alessandra, editor, Piselli, Cristina, editor, Strauss, Eric J, editor, Dobjani, Etleva, editor, and Kristo, Saimir, editor

Published

2024

71. Urban Insect Communities in the Neotropics: A Systematic Literature Review and a Green Path to Promote Biodiversity Conservation

Author

Fenoglio, María Silvina, González, Ezequiel, Calviño, Ana, Videla, Martín, León-Cortés, Jorge L., editor, and Córdoba-Aguilar, Alex, editor

Published

2024

72. Replicability and Pathways for the Scaling of Nature-Based Solutions for Water Treatment: Examples from the Philippines, Sri Lanka, and Vietnam

Author

Jegatheesan, Veeriah, Pachova, Nevelina, Velasco, Perlie, Trang, Ngo Thuy Diem, Thao, Vo Thi Phuong, Vo, Thi-Kim-Quyen, Tran, Cong-Sac, Bui, Xuan-Thanh, Devanedara, Ma. Catriona, Estorba, Darry Shel, Lecciones, Amy, Mowjood, M. I. M., Weragoda, Sujithra, Jinadasa, Shameen, Jegatheesan, Jega V., Series Editor, Shu, Li, Series Editor, Lens, Piet N.L., Series Editor, Chiemchaisri, Chart, Series Editor, Jegatheesan, Veeriah, editor, Velasco, Perlie, editor, and Pachova, Nevelina, editor

Published

2024

73. Urban Heat Islands

Author

Pontius, Jennifer, McIntosh, Alan, Pontius, Jennifer, and McIntosh, Alan

Published

2024

74. Building Materials Circularity of Green Roofs

Author

Vilcekova, Silvia, Burdova, Eva Kridlova, Budajova, Jana, Mesaros, Peter, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Blikharskyy, Zinoviy, editor, Koszelnik, Piotr, editor, Lichołai, Lech, editor, Nazarko, Piotr, editor, and Katunský, Dušan, editor

Published

2024

75. Drinking in the View.

Author

GARVEY, HUGH

Subjects

ARCHITECTURAL design, MODERN movement (Architecture), GREEN roofs

Abstract

The article discusses the Sea Ranch Lodge, a newly renovated hotel and restaurant located in Sea Ranch, California. The lodge is part of a larger residential development that was built in the 1960s and is known for its mindful modernist architecture and integration with nature. The guest rooms have been refreshed with a mid-century design aesthetic, and the landscaping incorporates reclaimed local timber and native plantings. The article highlights the unique experience of staying at the lodge, surrounded by the natural beauty of the California coast. [Extracted from the article]

Published

2024

76. Elemental House by Archmongers.

Author

Hybschmann, Johan

Subjects

STRUCTURAL engineering, HOUSING, GREEN roofs, CONSTRUCTION contractors, SLIDING doors

Abstract

The article focuses on the renovation of Elemental House in Hackney, London, England, by Archmongers, emphasizing its modern energy efficiency, use of exposed materials, and design influences from Northern European Modernism.

Published

2024

77. modern extensions.

Author

Maheshwari, Aditi Sharma

Subjects

ARCHITECTURAL studios, GREEN roofs, INSULATING materials, CORK

Abstract

The article discusses various design considerations for modern extensions. It emphasizes the importance of natural light and suggests different ways to incorporate it, such as roof lanterns and sloped glazing. The article also highlights the need to design the extension in conjunction with its intended use and advises on maintaining a harmonious flow between new and old spaces. Additionally, it showcases different design elements, such as sculptural ceilings, cleverly designed skylights, and the use of colors and materials to create unique and visually appealing extensions. The article also mentions the use of sustainable materials and the addition of dormer extensions for increased functionality. [Extracted from the article]

Published

2024

78. RICHARD HAWKE.

Author

BEUERLEIN, SCOTT

Subjects

*ORNAMENTAL plants, *GARDEN centers, *GREEN roofs, *LANDSCAPE architecture, *CULTIVARS, *LAVENDERS

Abstract

Richard Hawke, the Director of Ornamental Plant Research at the Chicago Botanic Garden, shares his journey from architecture to horticulture and the importance of internships in finding one's passion. He discusses the evaluation program at the Garden, which recommends the best plants to home gardeners and professionals, focusing on perennials but also evaluating shrubs, trees, and vines. Hawke expresses gratitude for the opportunity to influence others and mentions the impact of their work on other gardens' trial programs. He also acknowledges the changing nomenclature in the industry and its potential confusion for gardeners. The article includes information on top-performing plants from Hawke's evaluations. [Extracted from the article]

Published

2024

79. LAND OF PLENTY.

Author

O'Brien, Ed

Subjects

ORNAMENTAL plants, GARDEN design, GREEN roofs, BOTANY, APRICOT

Abstract

This article from the Garden Design Journal discusses garden designer and ecologist Ed O'Brien's visit to Kyrgyzstan, funded by an RHS bursary. O'Brien explores the vast and varied landscape of Kyrgyzstan, which is home to unique and unusual plant species. He finds inspiration in the natural combinations and resilient planting ideas he discovers there. The article highlights the steppe, desert, and alpine regions of Kyrgyzstan, showcasing the plants that thrive in each environment. O'Brien also reflects on the possibility of incorporating his experiences into his own garden designs. [Extracted from the article]

Published

2024

80. Gewinnbringender Austausch.

Author

Borowski, Bianca

Subjects

URBAN planning, GREEN roofs, COMMUNITY involvement, BUILDING additions

Abstract

The article focuses on strategies and discussions surrounding the creation and preservation of green spaces within urban environments to enhance climate resilience and livability. It highlights initiatives and legal frameworks discussed by experts from administration, law, and urban green practices in Berlin, Germany. Key points include the implementation of green roofs, planting obligations in building expansions, and the importance of community involvement for effective urban planning.

Published

2024

81. Rose City Rhythms.

Author

Bishop, Korrin

Subjects

SCIENCE museums, NATURAL history, GREEN roofs, CENTRAL business districts, ROSES

Abstract

The article offers information about the American Society for Engineering Education's (ASEE) 2024 Annual Conference in Portland, Oregon, highlighting the city's quirky culture, iconic bridges, and efforts to address its troubled past.

Published

2024

82. Top Job.

Author

Dolan, Kath

Subjects

PALETTE (Color range), SUSTAINABLE living, GREEN roofs, BUILDING envelopes, HOME offices

Abstract

A young family in Melbourne transformed their dark and thermally leaky 1850s cottage into a sun-drenched and biodiverse home. The renovation included a light-filled rear addition, flexible spaces for working and accommodating family, and provision for a future garden granny flat. The family prioritized energy efficiency and sustainability, incorporating a green roof to insulate and increase biodiversity. The all-electric home features a well-sealed building envelope, passive solar design, and minimal mechanical heating and cooling powered by renewables. The project also includes a 6kW solar array, rainwater harvesting, and the use of sustainable materials. [Extracted from the article]

Published

2024

83. City Steppe.

Author

Craswell, Penny

Subjects

LANDSCAPE architecture, GREEN roofs, ROOF gardening, NATIVE plant gardening, ACAI palm, PALMS

Abstract

This article discusses the renovation and extension of a terrace house in Sydney's Redfern neighborhood, focusing on the innovative ways the owners, including a landscape architect, prioritized greenery. The project includes a rooftop garden planted with Australian natives, a courtyard garden, and a community garden on the street. The rooftop garden is the highlight, visible from the entry and living room and accessed by climbing over a built-in window seat. Native plants were chosen for their low maintenance, and the owners hope to use the space to showcase the benefits of green roofs. The renovation also involved converting a loft bedroom into an extra storey and building a two-storey studio at the rear. The house features a long kitchen, dining, and living room constructed in concrete with round skylights. The courtyard and community garden spaces also contribute to the project's goal of greening the city. [Extracted from the article]

Published

2024

84. Bridging nature and urbanity through green roof resilience framework (GRF): A thematic review

Author

Alishba Saqib, M Sana Ullah Khan, and Irfan Ahmad Rana

Subjects

Climate change, Green roofs, Urban resilience, Urban heat islands, Sustainable development, Environmental sciences, GE1-350

Abstract

The impacts of climate change pose a critical research challenge for sustainability. Despite growing awareness of green roofs as nature-based solutions, a significant gap exists in understanding their role in urban resilience. The research reviews thematic perspectives of green roofs in improving urban resilience. The paper used the PRISMA framework to systematically review the literature on green roofs and climate change, utilizing the keywords ''green roof*” and climate change'' in the Web of Science database. Bibliometric and thematic analysis is used to observe research trends from 123 publications that meet inclusion criteria, which include selected keywords, language, and publication type. Recurrent themes included urban heat islands, stormwater runoff, thermal comfort, biodiversity conservation, carbon footprint reduction, urban agriculture, and human well-being. The study proposes the Green Roof Resilience Framework (GRF), which combines these ideas into a systematic method for enhancing urban resilience. The research advocates for mainstreaming green roofs into adaptation planning, envisioning the creation of sustainable and resilient societies.

Published

2024

85. Tracking arbuscular mycorrhizal fungi to their source: active inoculation and passive dispersal differentially affect community assembly in urban soils.

Author

Metzler, Paul, Ksiazek‐Mikenas, Kelly, and Chaudhary, V. Bala

Subjects

*VESICULAR-arbuscular mycorrhizas, *URBAN soils, *FUNGAL communities, *GREEN roofs, *VACCINATION

Abstract

Summary: Communities of arbuscular mycorrhizal (AM) fungi assemble passively over time via biotic and abiotic mechanisms. In degraded soils, AM fungal communities can assemble actively when humans manage mycorrhizas for ecosystem restoration.We investigated mechanisms of urban AM fungal community assembly in a 2‐yr green roof experiment. We compared AM fungal communities in inoculated and uninoculated trays to samples from two potential sources: the inoculum and air.Active inoculation stimulated more distinct and diverse AM fungal communities, an effect that intensified over time. In the treatment trays, 45% of AM fungal taxa were detected in the inoculum, 2% were detected in aerial samples, 23% were detected in both inoculum and air, and 30% were not detected in either source.Passive dispersal of AM fungi likely resulted in the successful establishment of a small number of species, but active inoculation with native AM fungal species resulted in an immediate shift to a diverse and unique fungal community. When urban soils are constructed or modified by human activity, this is an opportunity for intervention with AM fungi that will persist and add diversity to that system. [ABSTRACT FROM AUTHOR]

Published

2024

86. Plant Density and Health Evaluation in Green Stormwater Infrastructure Using Unmanned-Aerial-Vehicle-Based Imagery.

Author

Xue, Jingwen, Qian, Xuejun, Kang, Dong Hee, and Hunter, James G.

Subjects

PLANT spacing, GREEN infrastructure, NORMALIZED difference vegetation index, PLANT health, SUSTAINABLE architecture, FECAL contamination, GREEN roofs

Abstract

Featured Application: This framework can be applied to evaluate plant density and health in different types of green stormwater infrastructures, agriculture land, and forests. Over the past few decades, there has been a notable surge in interest in green stormwater infrastructure (GSI). This trend is a result of the need to effectively address issues related to runoff, pollution, and the adverse effects of urbanization and impervious surfaces on waterways. Concurrently, umanned aerial vehicles (UAVs) have gained prominence across applications, including photogrammetry, military applications, precision farming, agricultural land, forestry, environmental surveillance, remote-sensing, and infrastructure maintenance. Despite the widespread use of GSI and UAV technologies, there remains a glaring gap in research focused on the evaluation and maintenance of the GSIs using UAV-based imagery. This study aimed to develop an integrated framework to evaluate plant density and health within GSIs using UAV-based imagery. This integrated framework incorporated the UAV (commonly known as a drone), WebOpenDroneMap (WebDOM), ArcMap, PyCharm, and the Canopeo application. The UAV-based images of GSI components, encompassing trees, grass, soil, and unhealthy trees, as well as entire GSIs (e.g., bioretention and green roofs) within the Morgan State University (MSU) campus were collected, processed, and analyzed using this integrated framework. Results indicated that the framework yielded highly accurate predictions of plant density with a high R2 value of 95.8% and lower estimation errors of between 3.9% and 9.7%. Plant density was observed to vary between 63.63% and 75.30% in the GSIs at the MSU campus, potentially attributable to the different types of GSI, varying facility ages, and inadequate maintenance. Normalized difference vegetation index (NDVI) maps and scales of two GSIs were also generated to evaluate plant health. The NDVI and plant density results can be used to suggest where new plants can be added and to provide proper maintenance to achieve proper functions within the GSIs. This study provides a framework for evaluating plant performance within the GSIs using the collected UAV-based imagery. [ABSTRACT FROM AUTHOR]

Published

2024

87. Decreasing the energy demand in public buildings using nature-based solutions: case studies from Novi Sad (Republic of Serbia) and Osijek (Republic of Croatia).

Author

Savić, Stevan, Krstić, Hrvoje, Šećerov, Ivan, and Dunjić, Jelena

Subjects

ENERGY consumption, GREEN roofs, AUTOMATIC meteorological stations, PUBLIC buildings, GREEN infrastructure, SUMMER, THERMAL instability

Abstract

Background: Nature-based solutions (NBS) in urban areas offer an opportunity to improve environmental conditions and to reduce CO2 emissions towards establishing climate-neutral cities in the next few decades. Furthermore, the implementation of NBSs—vertical or horizontal green infrastructures on public facilities—could in particular improve both climate, including outdoor thermal conditions on a micro-scale (especially during the summer season) and the energy demand of buildings as well as save heating energy during the winter period. Results: On both selected buildings, extensive green roofs were implemented as an NBS intervention. The analysed data were obtained using the monitoring systems (from 2019 to 2022) installed on two public buildings in Novi Sad (Republic of Serbia) and Osijek (Republic of Croatia), with a focus on climate/bioclimate characteristics and thermal transmission capacities. Four automatic weather stations (AWS) were used for microclimate monitoring, along with the heat flow meter (HFM) method, to measure the alterations in the thermal transmittance (U value) of a flat concrete roof before and after energy refurbishment and the installation of a green roof. The outcomes of this study show that the air temperatures (Ta) and globe temperatures (Tg) near the green roof are lower by 0–3 °C for Ta and by 0–16.5 °C for Tg than the values captured by the AWSs at other locations. An even more interesting fact is that the green roof has a constant cooling potential during tropical nights, and based upon this research, the cooling value is around 2 °C for Tg (the Ta value is not distinct). The thermal transmittance results show that more savings can be achieved by applying a green roof with an 8 cm thick substrate: U values decreased by 50–69%, as measured by two different heat flux sensors. Conclusions: Nature-based solutions, such as the implementation of an extensive green roof, have positive effects on diverse aspects of urban environments and building energy savings, which are particularly evident in extreme seasons, both summer and winter. Applying the proposed monitoring and assessment system could help local communities in their efforts to reduce carbon-based emissions. This paper provides a good example of the implementation of NBSs on a local- and a micro-scale. [ABSTRACT FROM AUTHOR]

Published

2024

88. Evapotranspiration evaluation using three different protocols on a large green roof in the greater Paris area.

Author

Versini, Pierre-Antoine, Castellanos-Diaz, Leydy Alejandra, Ramier, David, and Tchiguirinskaia, Ioulia

Subjects

*EVAPOTRANSPIRATION, *GREEN roofs, *URBAN heat islands, *SURFACE energy, *ECOSYSTEM services

Abstract

Nature-based solutions have appeared as relevant solutions to mitigate urban heat islands. To improve our knowledge of the assessment of this ecosystem service and the related physical processes (evapotranspiration), monitoring campaigns are required. This was the objective of several experiments carried out on the Blue Green Wave, a large green roof located in Champs-sur-Marne (France). Three different protocols were implemented and tested to assess the evapotranspiration flux at different scales: the first one was based on the surface energy balance (large scale); the second one was carried out using an evapotranspiration chamber (small scale); and the third one was based on the water balance evaluated during dry periods (point scale). In addition to these evapotranspiration estimates, several hydrometeorological variables (especially temperature) were measured. Related data and Python programs providing preliminary elements of the analysis and graphical representation have been made available. They illustrate the space–time variability in the studied processes regarding their observation scale. The dataset is available at 10.5281/zenodo.8064053 (Versini et al., 2023). [ABSTRACT FROM AUTHOR]

Published

2024

89. Quality of Harvested Rainwater from a Green and a Bitumen Roof in an Air Polluted Region.

Author

Tsanov, Emil, Valchev, Dobril, Ribarova, Irina, and Dimova, Galina

Subjects

GREEN roofs, WATER harvesting, RUNOFF, CHEMICAL oxygen demand, RAINFALL

Abstract

A one-year study was conducted to evaluate the impact of air pollution and roof coating on runoff quality. An existing 440 sq meter bitumen roof of a single-story building was coated with an extensive green roof layer on one half. Rainfall and runoff samples from both roofs were collected during 11 rainfall events after the separation of the first flush. The study monitored several key parameters, including pH, electrical conductivity (EC), turbidity, chemical oxygen demand (COD), ammonium nitrogen, nitrate nitrogen, and phosphates. The study revealed that both types of roofs altered the rainfall quality, but the changes caused by the green roof were more substantial. Although the retention of runoff from green roofs has a widely acknowledged positive impact on collecting systems, our study shows that green roofs also result in a 7.5- fold increase in COD concentrations, a 5.4-fold increase in the sum of ammonium and nitrate nitrogen, and a 2.3-fold increase in phosphates compared to bitumen roofs. A clear link between the quality of rainwater/runoff and air pollution was not established. The study's findings will aid in the development and management of local rainwater harvesting systems and enhance global understanding of the primary quality parameters of various roof types, particularly in regions with air pollution. [ABSTRACT FROM AUTHOR]

Published

2024

90. Architectural MICADO Modular Construction. I: Parametric Study of L-Shape Structural Behavior.

Author

Dalalbashi, Ali, Reis, Cristina, Pinto, Jorge, Pimenta, Fernando, Ferreira, Nuno Oliveira, and Pereira, Nelson Bento

Subjects

MODULAR construction, EARTHQUAKE resistant design, WALL panels, EXTERIOR walls, COLUMNS, GREEN roofs, EARTHQUAKES

Abstract

The presented paper explores the potential of the MICADO method in modular structures using a parametric development approach. MICADO is an innovative building production system that uses autonomous production lines to fabricate components, which are then assembled on site. By combining frame-supported modulus systems with prefabricated panels for exterior walls, the MICADO approach allows for the simultaneous installation of components. The study examines how MICADO structures perform under earthquake and gravity loads, addressing practical challenges such as column spacing and roof detailing. It specifically looks at parameters that are still unknown due to its new structural type. An L-shaped architectural case study is employed to evaluate structural elements' resistance and assess the lateral stability of buildings under earthquake load. The results of the study suggest that increasing the distance between columns from 300 to 450 mm is a feasible option though the demand strength of elements increased slightly. In the L-shaped plan, there are important elements such as the edge column that significantly affect the structural behavior. Ultimately, the MICADO structure and its components offer a range of design possibilities, including the creation of green spaces on the roof. [ABSTRACT FROM AUTHOR]

Published

2024

91. Facing Climate Change in a Temperate European City: Urban-Scale Diagnosis of Indoor Overheating and Adaptation Strategies for Residential Buildings.

Author

Arriazu-Ramos, Ainhoa, Pons Izquierdo, Juan José, Ramos Ruiz, Germán, Sánchez-Ostiz, Ana, and Monge-Barrio, Aurora

Subjects

CITIES & towns, CLIMATE change, DWELLINGS, GREEN roofs, HEAT waves (Meteorology)

Abstract

The rise in outdoor temperatures and heatwaves highlights the limitations of buildings in adapting to warming conditions, even in temperate climates. This paper analyses the indoor overheating of residential dwellings in Pamplona (a city in northern Spain, with a Cfb climate) using an urban-scale diagnostic methodology and presents different envelopes' retrofitting scenarios as a strategy to reduce it. The results come from energy simulations conducted during an extremely warm summer in 2022, considering the microclimate effects. The residential typologies most vulnerable to overheating are those with only one orientation, built before the EPBD 2002, and located on top floors. These dwellings show a 23.7% mean of indoor overheating hours (IOH), representing approximately 870 h above the EN 16798-1:2019 adaptive threshold from May to September. Renovating building envelopes to meet current energy standards reduces the IOH by an average of 8.6% and up to 15.35% in the most vulnerable typologies. In the retrofitting scenario with green roof systems, indoor temperatures are up to 0.5 °C lower than when roofs are renovated with traditional systems. This study assists policy-makers in preventing the risk of overheating within cities and encourages them to promote nature-based solutions in order to adapt urban residential buildings and cities to warming conditions. [ABSTRACT FROM AUTHOR]

Published

2024

92. Green Roofs on Shipping Containers: How Substrate Thickness Affects Thermal Performance.

Author

Moura, Cléo de Araújo, Freitas, Bianca Botelho de, Alves Filho, Ailton Pinto, and Albuquerque, Cyro

Subjects

GREEN roofs, SHIPPING containers, SUBSTRATES (Materials science), CONTAINER ships, ECOLOGICAL houses

Abstract

Green roofs have become a popular sustainable solution in urban areas, and in recent years, shipping containers have gained popularity as a sustainable alternative for housing. A promising proposal is to combine these two solutions. This research aims to analyze the thermal behavior of experimental modules of scale constructions. Four modules were constructed with different substrate thicknesses (4, 6, 8, and 12 cm) to verify the impact on thermal behavior and provide guidance for this technology. Additionally, another module was built without a green roof for control purposes. The indoor and outdoor air temperatures and humidities, soil moistures, and temperatures between green roof layers were recorded in a tropical climate in summer. The behavior was similar between the different thicknesses for the whole period but with significant differences in the indoor temperature amplitudes (13.8 °C for the thinner substrate, 9.7 °C for the thicker one, and 38.7 °C for the bare roof). This study also revealed considerable heat conduction between the side walls and the slab, which resulted in an upward heat flow to the substrate during a day with a clear sky, which is the opposite of what is observed in conventional roofs. During the night and rainy periods, temperatures tend to become closer between the roof's layers when the substrate dissipates the energy absorbed throughout the day. [ABSTRACT FROM AUTHOR]

Published

2024

93. Discovering the Perception Differences of Stakeholders on the Sustainable and Innovative Stormwater Management Practices.

Author

Ekmekcioğlu, Ömer

Subjects

ANALYTIC hierarchy process, SUSTAINABILITY, RAIN gardens, GREEN roofs, NONGOVERNMENTAL organizations, WATERSHEDS

Abstract

The overarching aim of the present work is to explore the perception differences of stakeholders, i.e., municipalities (MN), water administrations (WS), non-governmental organizations (NGO), and universities (UN), playing vital roles in the decision mechanisms regarding one of the sustainable flood mitigation techniques, i.e., low impact development (LID) practices. As being rewarding alternative to conventional drainage techniques, four different LID strategies, i.e., green roof (GR), bioretention cells (BC), permeable pavement (PP), and infiltration trench (IT), and three of their combinations were adopted to the densely urbanized Ayamama River basin, Istanbul, Turkey. The performances of the LIDs were comprehensively evaluated based on three pillars of sustainability (i.e., social, economic, and environmental) using a hybrid multi-criteria decision-making (MCDM) framework containing the implementation of fuzzy analytical hierarchy process (fuzzy AHP) and the VIKOR (VIse KriterijumsaOptimiz acija I Kompromisno Resenje) for finding the weights of constraining criteria and prioritizing the LID scenarios, respectively. The major outcomes of this research showed that experts from MN, WS, and UN put forward the environmental dimension of sustainability, whereas respondents from NGO concentrated on the social aspect. Furthermore, MN and WS highlighted initial investment cost as the most determining criterion in optimal LID selection. On the other hand, criteria weights regarding the judgments of the experts attended from NGO revealed the significance of community resistance in specifying the optimal LID practices, while aesthetic appearance was the major concern of the academia. Hence, the present study, as an initial attempt, enabled critical standpoints for discovering perceptions of stakeholders. [ABSTRACT FROM AUTHOR]

Published

2024

94. Urban Greening Strategies for Compact Cities, An-Najaf Historical City, Iraq, A Case Study.

Author

Hamza, Sarah R. and Alrobaee, Tuqa R.

Subjects

SUSTAINABILITY, HUMAN ecology, ROADS, INFRASTRUCTURE (Economics), CLUSTER analysis (Statistics)

Abstract

Urban greening is a crucial trend for achieving sustainability as it helps enhance the local climate and lower temperatures. So interesting green elements in cities is an urgent necessity, not an option. This study tries to elucidate suitable urban greening solutions in cities compact and limited in space. This study aims to clarify relevant urban greening strategies in densely populated cities with limited space, particularly old historical cities, by employing a methodology that involves formulating effective and suitable indicators to enhance urban greening in such places. The findings of the theoretical framework revealed various approaches to implementing urban greening in densely populated cities. These include the establishment of a network of green spaces, the installation of green roofs, the incorporation of front balconies, the use of temporary vegetation, and the creation of gardens and parks outside the city. These strategies were assessed using descriptive methods. These indicators were implemented in the ancient city located in the Al-Najaf Governorate, which is a historically significant city and a crucial hub. The implementation of these strategies can enhance the local climate of the city and transform its roadways and structures in a sustainable manner. [ABSTRACT FROM AUTHOR]

Published

2024

95. Green Roofs: Nature-Based Solution or Forced Substitute for Biologically Active Areas? A Case Study of Lublin City, Poland.

Author

Michalik-Śnieżek, Malwina, Adamczyk-Mucha, Kamila, Sowisz, Rozalia, and Bieske-Matejak, Alicja

Abstract

Green roofs have become an increasingly popular feature in building design, driven by their bio-physical properties and aesthetic and recreational values. They serve as a key element in promoting the integration of Nature-Based Solutions (NBSs) in urban fabrics, aiming to enhance urban environments, mitigate climate impact, and create more sustainable urban spaces. Polish regulations mandate that investors maintain a designated proportion of biologically active areas, ensuring natural vegetation and rainwater retention. Green roofs fulfill this requirement and can serve as compensation for the loss of biologically active areas due to construction. Unfortunately, the regulations lack specificity regarding their construction. This study aimed to examine whether green roofs consistently represent NBSs, as frequently presented in the scientific literature, or rather serve as a legal substitute for biologically active areas. The research was conducted in Lublin, the ninth largest city in Poland. Field studies, analysis of planning documentation, and review of administrative decisions have revealed that the majority of green roofs in Lublin have a greenwashing character, meaning they were installed to meet urbanistic indicators rather than for climate, environmental, or aesthetic reasons. Such studies have not been conducted before in relation to local spatial development plans and administrative decisions in Poland, and they show that this approach does not contribute to increasing biodiversity on investment plots. Notably, the investor would be denied construction permits without the incorporation of green roofs. Consequently, this leads to the conclusion that not all green roofs fulfill the criteria of NBS, as not all ensure an increase in biodiversity. Therefore, legal provisions regarding their establishment should be revised and specified. [ABSTRACT FROM AUTHOR]

Published

2024

96. Identifying potential uses for green roof discharge based on its physical–chemical-microbiological quality.

Author

Pessoa, Jonas Onis, Piccilli, Daniel Gustavo Allasia, Persch, Cristiano Gabriel, Tassi, Rutineia, Georgin, Jordana, Franco, Dison S. P., and de O. Salomón, Yamil L.

Subjects

GREEN roofs, COPPER chlorides, ESCHERICHIA coli, SUSTAINABLE architecture, URBAN planning, SUSTAINABLE urban development, ACID rain, SUSTAINABLE development

Abstract

Green roofs are promising tools in sustainable urban planning, offering benefits such as stormwater management, energy savings, aesthetic appeal, and recreational spaces. They play a crucial role in creating sustainable and resilient cities, providing both environmental and economic advantages. Despite these benefits, concerns persist about their impact on water quality, especially for non-potable use, as conflicting results are found in the literature. This study presents a comparative analysis of the quantity and quality of water drained from an extensive green roof against an adjacent conventional rooftop made of fiber–cement tiles in subtropical Brazil. Over a 14-month period, the water drained from both roofs was evaluated based on physical (turbidity, apparent color, true color, electrical conductivity, total solids, total dissolved solids, suspended solids), chemical (pH, phosphate, total nitrogen, nitrate, nitrite, chlorides, sulfates, and BOD), microbiological (total coliforms and E. coli), and metal (copper, iron, zinc, lead, and chrome) concentration parameters. The discharge from the green roof was 40% lower than its counterpart measured at the control roof, while the water quality from both roofs was quite similar. However, the green roof acted as source of chlorides, electrical conductivity, color, BOD, total hardness, E. coli, phosphate, sulfate, and turbidity. On the other side, the green roof neutralized the slightly acidic character of rainwater, showcasing its potential to mitigate the effects of acid rain. The study's results underscored that the water discharged from the green roof generally aligned with non-potable standards mandated by both Brazilian and international regulations. However, the findings emphasized the imperative need for pre-treatment of the green roof discharge before its utilization, specifically adjusting parameters like turbidity, BOD, total coliforms, and E. coli, which were identified as crucial to ensure water safety and compliance with non-potable use standards. [ABSTRACT FROM AUTHOR]

Published

2024

97. Automation of green roof plant cover measurements using machine learning and a comparison of digital and thermal imaging techniques.

Author

Cao, Ronglan and MacIvor, J. Scott

Subjects

*THERMOGRAPHY, *GREEN roofs, *GROUND cover plants, *MACHINE learning, *DIGITAL learning, *SUSTAINABLE architecture, *THERMAL imaging cameras

Abstract

Aims: Post‐analyses of digital red, green, blue (RGB) and thermal images have become increasingly popular as modern approaches to plant cover analysis. Image analyses are often coupled with semi‐automated or automated workflows to reduce the amount of human labor input compared with traditional manual procedures. This study aims to evaluate and compare different image segmentation methods for plant cover analysis using digital RGB and thermal images, focusing on the effectiveness of semi‐automated and manual segmentation techniques in monitoring plant cover on green roofs. Location: An Extensive green roof in the City of Toronto. Methods: We surveyed the plant cover of an extensive green roof using digital and thermal imagery. The plant cover values were obtained using three methods: traditional manual segmentation based on a visual examination (MS), ImageJ Color Threshold (CT) and Trainable Weka Segmentation (TWS), all performed within FIJI (a distribution of ImageJ). Manual segmentation based on visual examination was used as a reference standard. Results: Significant correlation was found between the cover estimation using the CT and TWS methods relative to MS, and between cover estimation using the thermal image and the RGB image. TWS overestimated plant cover on thermal images while producing an underestimation on RGB images. CT demonstrated a performance closer to MS than TWS, indicating that manually customized methods produced results more aligned with MS. The estimated cover values by MS were not significantly affected by the image type (digital RGB or thermal). Conclusions: Results suggest that RGB and thermal imaging techniques may provide complementary results and reveal unique information regarding the functioning of green roofs. The accuracy of supervised machine‐learning methods could be enhanced with site‐specific data to provide a more accurate and efficient estimation of plant cover, which might be beneficial for long‐term studies on green roofs and ecological sites in remote locations. [ABSTRACT FROM AUTHOR]

Published

2024

98. Green roofs and thermal comfort: a comparative study of soil layers' seasonal thermal performance integrated with ventilation in hot climate.

Author

Abdalazeem, Mohamed E., Hassan, Hamdy, Asawa, Takashi, and Mahmoud, Hatem

Subjects

*GREEN roofs, *THERMAL comfort, *NATURAL ventilation, *VENTILATION, *CLAY soils

Abstract

Green roofs' (GR) positive impact on indoor thermal conditions in hot areas may have possible negative impacts during hot and cold weather. Most previous studies have focused on GR's positive effects as a standalone strategy without mitigating these side effects of GR application. This study contributes to a more comprehensive understanding of the impact of GR and how to mitigate the negative aspects by integrating it with other passive techniques (natural ventilation and thermal insulation). Therefore, this study experimentally compares the seasonal impact of various soil layer configurations, integrated with natural ventilation, on improving Indoor Thermal Comfort (ITC) throughout the day in summer and winter. Field experiments were conducted using two identical validated test boxes. The results revealed that clay soil reduced Indoor Air Temperature (IAT) during the daytime in summer by up to 4.7 and 4°C for low and high soil thickness, respectively. Increasing clay soil thickness improved average IAT during the daytime in summer and winter by up to 6.49% and 2.61%, respectively. Additionally, adding thermal insulation is preferred in winter, while uninsulated soil had a slight positive effect on IAT and Indoor Relative Humidity (IRH) in summer. The use of natural ventilation at night and closed-ventilated systems during the daytime in summer and winter is recommended. Clay soil could save cooling and heating energy by up to 34.8% and 12.18%, respectively. These findings might inform designers by adjusting different GR soil parameters and the importance of natural ventilation in improving multi-seasonal thermal and energy performance. [ABSTRACT FROM AUTHOR]

Published

2024

99. Hydrological properties of biochar-amended expansive soil under dynamic water environment and biochar-amended soil's application in green roofs.

Author

Li, Muyang, Garg, Ankit, Huang, Shan, Jiang, Mingjie, Mei, Guoxiong, Liu, Jiaqin, and Wang, Hao

Subjects

*SWELLING soils, *GREEN roofs, *ENVIRONMENTAL soil science, *PORE size distribution, *SOIL amendments

Abstract

Biochar is widely used as a soil amendment in green roofs because it can increase the soil's water-holding capacity, inhibit cracking, and provide nutrients for vegetation. The interaction mechanism between biochar and expansive soil is a significant factor in the performance of green roofs. However, research mainly focused on the hydrological scale (i.e. runoff regulation and rainwater storage), and there is a lack of research on the hydrological properties (i.e. hysteresis of soil–water characteristic curves, changes in soil pore size and pore distribution, formation and development of cracks and swelling–shrinking characteristics) of biochar-amended expansive soils under dynamic water environment. This test was conducted out on soil columns with expansive soil and 5% (by mass) biochar-amended under 5 drying–wetting cycles. The results showed that within the range of water content suitable for plant growth (i.e. between the anaerobic point and wilting point), the hysteresis area of soil–water characteristic curves of the amended soil is smaller than the bare soil at each drying–wetting cycle. The addition of biochar changes the pore size distribution of the soil, reduces the pore size and swelling–shrinking characteristics of the expansive soil, and inhibits the development of cracks. Therefore, the addition of biochar significantly attenuates the hysteresis characteristics of the soil–water characteristic curves of expansive soils, which may improve the stability of the hydraulic performance of green roofs. The results contribute to the understanding of the physicochemical and water properties of biochar-amended expansive soil and provide theoretical support for the application of biochar to green roofs. [ABSTRACT FROM AUTHOR]

Published

2024

100. Assessing Ecological Gains: A Review of How Arthropods, Bats and Birds Benefit from Green Roofs and Walls.

Author

Tiago, Patrícia, Leal, Ana I., and Silva, Cristina Matos

Subjects

GREEN roofs, VERTICAL gardening, URBAN planning, BATS, CITIES & towns, ARTHROPODA, PUBLIC spaces, BIODIVERSITY

Abstract

Because of the immense amount of infrastructure in cities, the introduction of vegetation into these constructions is expected to play a critical role in reducing the heat island effect, in mitigating the effects of climate change, and in supporting habitat connectivity and associated biodiversity. Although there is the perception that these solutions can improve the biodiversity of cities, their real value is still unclear. This paper focuses on two aspects of urban greening: green roofs and green walls. It provides a systematic review on biodiversity present in green roofs and walls, through an exhaustive worldwide literature analysis. Arthropods, bats, and birds were the three taxonomic groups analyzed in the papers included in our review. We observed a strong increase in the number of recent publications, thus demonstrating a growing interest in this topic. In summary, we found that green roofs/walls offered additional opportunities for plants and animals to thrive in urban environments because of habitat creation and greater spatial connectivity. In addition, the enhancement of other ecosystem services such as stormwater management and heat island mitigation was noted. By incorporating green features into urban design and planning, cities can support biodiversity while also improving the overall sustainability and livability of urban spaces. [ABSTRACT FROM AUTHOR]

Published

2024