Journal
LANDSCAPE ECOLOGY
Volume 36, Issue 7, Pages 2165-2174Publisher
SPRINGER
DOI: 10.1007/s10980-020-00982-1
Keywords
Urban heat island; Urban green infrastructure; Urban thermal security pattern; Hierarchical hexagonal structure; Climate adaption planning
Funding
- Open Foundation of the State Key Laboratory of Urban and Regional Ecology of China [SKLURE2019-2-6]
- National Natural Science Foundation of China [41922007]
- Shanghai Key Lab for Urban Ecological Processes and Eco-Restoration [SHUES2019A01]
- China Scholarship Council [201504910797]
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This study aimed to establish an idealized urban thermal security pattern model to better understand the impact of urban green infrastructure on alleviating the urban heat island effect and support climate adaptation planning and decision-making.
Contexts Urban green infrastructure (UGI) has been recognized as a promising approach to mitigating urban heat island (UHI); however, most of the previous studies are case-based and explore the effects of the existent landscape and its spatial configuration on UHI mitigation rather than modeling an optimized spatial pattern. Objectives We aimed to transcend the existing research logic (from case studies to obtain the patterns of the cooling effect of UGI, then propose implications for UHI mitigation) and established a hypothetical idealized urban thermal security pattern model (TSPurban). Methods Based on two basic concepts deduced from the physical property of UGI-(threshold) size and cooling distance, as well as the simplifying assumptions we defined. Then, three proposed conceptual UGI types (ecological, efficient, and elementary-3E) and subtypes were used to frame the model. Results We deduced that the idealized TSPurban model conforms to a hierarchical hexagonal structure in theory and it can be calculated and applied, although it generally cannot be seen in the real world. Conclusions The idealized TSPurban model can help us better-understanding UGI cooling effects when considering climate adaption planning and decision-making; it also serves as a novel pathway to study the cooling effects of UGI and mitigate the UHI effect.
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