Climate-driven transformations: A framework for the sustainable urban landscape system to enhance heat resilience

Huang, Boze; Qi, Jinda; Pathak, Minal; Sharifi, Ayyoob; Cheshmehzangi, Ali; Attia, Shady; Matzarakis, Andreas; Ghaffarianhoseini, Amirhosein; Yun, Geun Young; Darko, Amos; Liu, Xiao; He, Bao-Jie

doi:10.1016/j.scs.2025.106684

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Climate-driven transformations: A framework for the sustainable urban landscape system to enhance heat resilience

Huang, Boze; Qi, Jinda; Pathak, Minal et al.

2025 • In Sustainable Cities and Society, 131, p. 106684

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https://hdl.handle.net/2268/334830

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10.1016/j.scs.2025.106684

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Keywords :

Landscape heat resilience; Heat resistance; Urban sustainability; Self-organizing capacity; Full landscape cycle; Nature-based solutions

Abstract :

[en] This study presents a transformative framework for building sustainable urban landscapes that are resilient to the escalating heat stress challenges exacerbated by global warming and urban heat islands. In contrast to traditional research that views landscapes as passive cooling tools, ignores heat damage, and adopts a static perspective on landscape heat resilience, this study innovatively redefines landscapes as dynamically sustainable systems, emphasizing their ability to withstand, recover from, and adapt to extreme heat and focusing on the dynamics of their cooling efficiency. The need for resilient landscape systems to support urban vitality and environmental health is argued by parsing the interconnections between landscape, climate, and human activities, detailing how user behavior patterns, exposure times, and demographic characteristics can inform planning and management. The framework follows the logic of the landscape industry and forms a pathway through the entire cycle, including heat vulnerability assessment, resilient landscape planning, spatial design, heat management practices, and post-evaluation. Heat vulnerability is assessed using tools such as remotely sensed data, meteorological observations, drone thermal imagery, and ground-based monitoring systems, with measures such as land surface temperature, vegetation indices, and thermal comfort indicators. Facing potential obstacles like financial constraints, technical difficulties, and political resistance, the framework employs cost-effective designs, adaptive technologies, and policy incentives to ensure feasibility. The study's insights contribute to a broader understanding of landscape heat resilience, providing actionable guidance to enhance urban landscapes' thermal comfort, ecological robustness, and overall resilience in the face of intensifying climate and impacts.

Disciplines :

Architecture

Author, co-author :

Huang, Boze

Qi, Jinda

Pathak, Minal

Sharifi, Ayyoob

Cheshmehzangi, Ali

Attia, Shady ; Université de Liège - ULiège > Département ArGEnCo > Techniques de construction des bâtiments

Matzarakis, Andreas

Ghaffarianhoseini, Amirhosein

Yun, Geun Young

Darko, Amos

Liu, Xiao

He, Bao-Jie

Language :

English

Title :

Climate-driven transformations: A framework for the sustainable urban landscape system to enhance heat resilience

Publication date :

01 September 2025

Journal title :

Sustainable Cities and Society

ISSN :

2210-6707

eISSN :

2210-6715

Publisher :

Elsevier

Volume :

131

Pages :

106684

Peer reviewed :

Peer Reviewed verified by ORBi

Development Goals :

11. Sustainable cities and communities
13. Climate action

Additional URL :

https://authors.elsevier.com/c/1lYX2_oGymK-DE

Funders :

NSCF - National Natural Science Foundation of China

Funding text :

This study was supported by the National Natural Science Foundation of China (No. W2422003; 42301339), Guangdong Basic and Applied Basic Research Foundation (No. 2024A1515012129), the State Key Laboratory of Subtropical Building and Urban Science (No. 2024KA03), “Research on Value Realization of Climate Ecological Products” Youth Innovation Team Project (No. CMA2024QN15), and Chongqing Natural Science Foundation Project (No. CSTB2024NSCQ-MSX0670).

Available on ORBi :

since 27 July 2025

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