Towards a performance-based approach for multifunctional green roofs: An interdisciplinary review

Green roofs have the potential to offer numerous ecosystem services; however, they are rarely designed to achieve them. Instead, design is restricted by perceived structural and maintenance constraints, which consequently diminish the achievable benefits. For green roofs to improve sustainability an...

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Published inBuilding and environment Vol. 188; p. 107489
Main Authors Cook, Lauren M., Larsen, Tove A.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.01.2021
Elsevier BV
Subjects
Albedo
Co-benefits
Design
Design optimization
Design parameters
Ecosystem services
Enthalpy
Evapotranspiration
Green buildings
Green roofs
Insulation
Interdisciplinary aspects
Interdisciplinary review
Irrigation requirements
Leaf area
Moisture content
Net radiation
Organic matter
Performance objectives
Roofs
Sensible heat
Solar energy
Solar panels
Stomata
Stormwater
Substrates
Sustainability
Sustainable design
Tradeoffs
Water balance
Water content
Water discharge
Design
Green roofs
Interdisciplinary review
Co-benefits
Performance objectives
Online AccessGet full text

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Abstract Green roofs have the potential to offer numerous ecosystem services; however, they are rarely designed to achieve them. Instead, design is restricted by perceived structural and maintenance constraints, which consequently diminish the achievable benefits. For green roofs to improve sustainability and resilience of cities, their design should match their promised multi-functional application using performance-based design. The first step towards a comprehensive performance model is to synthesize design recommendations across disciplines to identify synergies and trade-offs in design objectives for multiple benefits. This study discusses design strategies that could alter the energy and water balance in the green roof in order to attenuate urban stormwater, increase building energy performance, mitigate urban heat, and improve the output of solar panels placed on top of green roofs. These benefits are mathematically linked to quantifiable processes (discharge rate, water content, evapotranspiration, sensible heat, net radiation, insulation, and thermal mass), forming the foundation for a performance-based design model. Design recommendations are then summarized for each process, followed by a discussion of synergies, trade-offs, and research needs that arise when green roofs are designed to achieve multiple functions. Selecting vegetation with high leaf area and albedo improves multiple benefits without affecting structural constraints, whereas choosing plants with low stomatal resistance leads to trade-offs between higher evapotranspiration and higher irrigation requirements. Trade-offs in substrate depth and properties including organic matter and moisture are also apparent. Interdisciplinary collaborations are needed to simulate and optimize design parameters based on stakeholder preferences related to co-benefits and constraints. •Green roofs provide benefits for stormwater discharge and climate change mitigation.•Practical design of extensive green roofs do not align with expected co-benefits.•We quantify co-benefits by linking them to energy and water balance phenomena.•When optimizing for benefits, trade-offs and building constraints are important.•Stakeholder preferences must be considered when deciding on the benefits to pursue.
AbstractList Green roofs have the potential to offer numerous ecosystem services; however, they are rarely designed to achieve them. Instead, design is restricted by perceived structural and maintenance constraints, which consequently diminish the achievable benefits. For green roofs to improve sustainability and resilience of cities, their design should match their promised multi-functional application using performance-based design. The first step towards a comprehensive performance model is to synthesize design recommendations across disciplines to identify synergies and trade-offs in design objectives for multiple benefits. This study discusses design strategies that could alter the energy and water balance in the green roof in order to attenuate urban stormwater, increase building energy performance, mitigate urban heat, and improve the output of solar panels placed on top of green roofs. These benefits are mathematically linked to quantifiable processes (discharge rate, water content, evapotranspiration, sensible heat, net radiation, insulation, and thermal mass), forming the foundation for a performance-based design model. Design recommendations are then summarized for each process, followed by a discussion of synergies, trade-offs, and research needs that arise when green roofs are designed to achieve multiple functions. Selecting vegetation with high leaf area and albedo improves multiple benefits without affecting structural constraints, whereas choosing plants with low stomatal resistance leads to trade-offs between higher evapotranspiration and higher irrigation requirements. Trade-offs in substrate depth and properties including organic matter and moisture are also apparent. Interdisciplinary collaborations are needed to simulate and optimize design parameters based on stakeholder preferences related to co-benefits and constraints. •Green roofs provide benefits for stormwater discharge and climate change mitigation.•Practical design of extensive green roofs do not align with expected co-benefits.•We quantify co-benefits by linking them to energy and water balance phenomena.•When optimizing for benefits, trade-offs and building constraints are important.•Stakeholder preferences must be considered when deciding on the benefits to pursue.
Green roofs have the potential to offer numerous ecosystem services; however, they are rarely designed to achieve them. Instead, design is restricted by perceived structural and maintenance constraints, which consequently diminish the achievable benefits. For green roofs to improve sustainability and resilience of cities, their design should match their promised multi-functional application using performance-based design. The first step towards a comprehensive performance model is to synthesize design recommendations across disciplines to identify synergies and trade-offs in design objectives for multiple benefits. This study discusses design strategies that could alter the energy and water balance in the green roof in order to attenuate urban stormwater, increase building energy performance, mitigate urban heat, and improve the output of solar panels placed on top of green roofs. These benefits are mathematically linked to quantifiable processes (discharge rate, water content, evapotranspiration, sensible heat, net radiation, insulation, and thermal mass), forming the foundation for a performance-based design model. Design recommendations are then summarized for each process, followed by a discussion of synergies, trade-offs, and research needs that arise when green roofs are designed to achieve multiple functions. Selecting vegetation with high leaf area and albedo improves multiple benefits without affecting structural constraints, whereas choosing plants with low stomatal resistance leads to trade-offs between higher evapotranspiration and higher irrigation requirements. Trade-offs in substrate depth and properties including organic matter and moisture are also apparent. Interdisciplinary collaborations are needed to simulate and optimize design parameters based on stakeholder preferences related to co-benefits and constraints.
ArticleNumber 107489
Author Cook, Lauren M.
Larsen, Tove A.
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  givenname: Tove A.
  orcidid: 0000-0002-9978-6191
  surname: Larsen
  fullname: Larsen, Tove A.
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Green roofs
Interdisciplinary review
Co-benefits
Performance objectives
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Snippet Green roofs have the potential to offer numerous ecosystem services; however, they are rarely designed to achieve them. Instead, design is restricted by...
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StartPage 107489
SubjectTerms Albedo
Co-benefits
Design
Design optimization
Design parameters
Ecosystem services
Enthalpy
Evapotranspiration
Green buildings
Green roofs
Insulation
Interdisciplinary aspects
Interdisciplinary review
Irrigation requirements
Leaf area
Moisture content
Net radiation
Organic matter
Performance objectives
Roofs
Sensible heat
Solar energy
Solar panels
Stomata
Stormwater
Substrates
Sustainability
Sustainable design
Tradeoffs
Water balance
Water content
Water discharge
Title Towards a performance-based approach for multifunctional green roofs: An interdisciplinary review
URI https://dx.doi.org/10.1016/j.buildenv.2020.107489
https://www.proquest.com/docview/2491199604
Volume 188
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