Details
| Original language | English |
|---|---|
| Pages (from-to) | 1697-1712 |
| Number of pages | 16 |
| Journal | Landscape ecology |
| Volume | 38 |
| Issue number | 7 |
| Early online date | 6 Apr 2023 |
| Publication status | Published - Jul 2023 |
Abstract
Context: Climate change may increase the frequency, intensity, and occurrence of urban heat islands (UHI) in cities worldwide, often with harmful impacts on citizens. Strategic planning and implementation of multifunctional green roofs promises to help mitigating UHI effects, but cities often lack up-to-date scientific understanding of best-suited locations. Objectives: The aim of this paper is to develop and apply a socio-ecological approach to explore and prioritize present and prospective opportunity spaces for roof greening based on remote sensing data to mitigate UHI effects. Methods: The city of Krefeld, Germany, serves as a case study. The research design consists of three steps, applied to the conditions of 2019 and a 2030 scenario: (i) Examining residents’ vulnerability to heat, (ii) Assessing existing green roofs and potentials for greening, and (iii) Prioritizing opportunity spaces for roof greening to reduce UHI effects. Results: Findings showed that the area of high vulnerability due to combined high heat exposures and densities of sensitive residents in Krefeld accounts for almost 300 hectares in 2019 and may triple until 2030. More than 90% of evaluated horizontal roofs have no vegetation cover. Highest priority for roof greening is attributed to 59 ha and 113 ha of roofs in 2019 and 2030, respectively. Conclusions: The findings can inform strategic roof greening efforts for climate adaptation, e.g. for the extension of cadasters, and facilitate communication to increase understandings, public and policy support, and implementation.
Keywords
- City-scale, Climate adaptation, Climate change, Nature-based solutions, Spatial planning, Urban green
ASJC Scopus subject areas
- Social Sciences(all)
- Geography, Planning and Development
- Environmental Science(all)
- Ecology
- Environmental Science(all)
- Nature and Landscape Conservation
Sustainable Development Goals
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In: Landscape ecology, Vol. 38, No. 7, 07.2023, p. 1697-1712.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - Localizing and prioritizing roof greening opportunities for urban heat island mitigation
T2 - insights from the city of Krefeld, Germany
AU - Brenner, Jana
AU - Schmidt, Stefan
AU - Albert, Christian
N1 - Funding Information: Open Access funding enabled and organized by Projekt DEAL. The work was realized within the PlanSmart Research Group funded by Grant 01UU1601 A and B from the German Federal Ministry for Education and Research (Bundesministerium für Bildung und Forschung—BMBF).
PY - 2023/7
Y1 - 2023/7
N2 - Context: Climate change may increase the frequency, intensity, and occurrence of urban heat islands (UHI) in cities worldwide, often with harmful impacts on citizens. Strategic planning and implementation of multifunctional green roofs promises to help mitigating UHI effects, but cities often lack up-to-date scientific understanding of best-suited locations. Objectives: The aim of this paper is to develop and apply a socio-ecological approach to explore and prioritize present and prospective opportunity spaces for roof greening based on remote sensing data to mitigate UHI effects. Methods: The city of Krefeld, Germany, serves as a case study. The research design consists of three steps, applied to the conditions of 2019 and a 2030 scenario: (i) Examining residents’ vulnerability to heat, (ii) Assessing existing green roofs and potentials for greening, and (iii) Prioritizing opportunity spaces for roof greening to reduce UHI effects. Results: Findings showed that the area of high vulnerability due to combined high heat exposures and densities of sensitive residents in Krefeld accounts for almost 300 hectares in 2019 and may triple until 2030. More than 90% of evaluated horizontal roofs have no vegetation cover. Highest priority for roof greening is attributed to 59 ha and 113 ha of roofs in 2019 and 2030, respectively. Conclusions: The findings can inform strategic roof greening efforts for climate adaptation, e.g. for the extension of cadasters, and facilitate communication to increase understandings, public and policy support, and implementation.
AB - Context: Climate change may increase the frequency, intensity, and occurrence of urban heat islands (UHI) in cities worldwide, often with harmful impacts on citizens. Strategic planning and implementation of multifunctional green roofs promises to help mitigating UHI effects, but cities often lack up-to-date scientific understanding of best-suited locations. Objectives: The aim of this paper is to develop and apply a socio-ecological approach to explore and prioritize present and prospective opportunity spaces for roof greening based on remote sensing data to mitigate UHI effects. Methods: The city of Krefeld, Germany, serves as a case study. The research design consists of three steps, applied to the conditions of 2019 and a 2030 scenario: (i) Examining residents’ vulnerability to heat, (ii) Assessing existing green roofs and potentials for greening, and (iii) Prioritizing opportunity spaces for roof greening to reduce UHI effects. Results: Findings showed that the area of high vulnerability due to combined high heat exposures and densities of sensitive residents in Krefeld accounts for almost 300 hectares in 2019 and may triple until 2030. More than 90% of evaluated horizontal roofs have no vegetation cover. Highest priority for roof greening is attributed to 59 ha and 113 ha of roofs in 2019 and 2030, respectively. Conclusions: The findings can inform strategic roof greening efforts for climate adaptation, e.g. for the extension of cadasters, and facilitate communication to increase understandings, public and policy support, and implementation.
KW - City-scale
KW - Climate adaptation
KW - Climate change
KW - Nature-based solutions
KW - Spatial planning
KW - Urban green
UR - http://www.scopus.com/inward/record.url?scp=85152086766&partnerID=8YFLogxK
U2 - 10.1007/s10980-023-01644-8
DO - 10.1007/s10980-023-01644-8
M3 - Article
AN - SCOPUS:85152086766
VL - 38
SP - 1697
EP - 1712
JO - Landscape ecology
JF - Landscape ecology
SN - 0921-2973
IS - 7
ER -