Abstract
Many of the sustainable urban development issues, such as human heath, energy consumption, carbon emission, are related to the climate of cities. As a result, research insights gained in urban climate study can be applied to improve urban sustainability. Although the Local Climate Zones (LCZ) scheme was originally proposed to provide a standardized classification of landscapes to study urban air temperature, its use was not limited to the study of urban heat islands. This study explores the applications of LCZ scheme in various research domains by conducting a bibliometric analysis in CiteSpace on over 800 articles that cites the original article of LCZ. These articles cover a wide range of research categories including meteorology, atmospheric science, environmental science, remote sensing, building technology, civil engineering, ecology, urban studies, etc. The LCZ scheme facilitates urban climate data collection by refining monitoring network, providing reasonable modelling input, and improving database documentation. In addition to the study of urban heat islands, the LCZ scheme was applied in studies of urban thermal comfort, human health, building energy consumption, and carbon emission. The diffusion of the LCZ scheme to other research domains offers an example that the development of urban climate research advances sustainable urban development. This review provides insights of multidisciplinary studies related to urban climate for policy-makers, urban specialists, architects, ecologists, and others.
Highlights
IntroductionA total of 56% of the world population lives in cities in 2020 [1], as a result of rapid urbanization
A total of 56% of the world population lives in cities in 2020 [1], as a result of rapid urbanization.Urbanization greatly changes the form, fabric, structure, and metabolism of a landscape, and alters the local climate of that area
The Local Climate Zone (LCZ) scheme was originally proposed to provide a standard method for consistent documentation of urban and natural landscapes for urban heat island studies
Summary
A total of 56% of the world population lives in cities in 2020 [1], as a result of rapid urbanization. Urbanization greatly changes the form, fabric, structure, and metabolism of a landscape, and alters the local climate of that area. Urban heat island (UHI), which refers to the higher ambient temperature in a city compared to its rural parts [2], has deteriorated urban sustainability. In order to provide an objective protocol for measuring the strength of urban heat island, and to facilitate controlled inter and intra comparisons of UHI results, Stewart and Oke [7] proposed the Local Climate Zones (LCZ) classification system. The LCZ scheme clusters landscapes into different “local climate zones” based on their approximate ability to modify local surface climates due to their typical fabric, land cover, structure, and metabolism
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