Characterizing Temporal Dynamics of Urban Heat Island in a Rapidly Expanding City: A 39 Years Study in Zhengzhou, China

Extreme heat wave weather phenomena have erupted worldwide in recent years. The urban heat island (UHI) effect has exacerbated urban heat waves with serious consequences for urban energy and residents’ health. Therefore, a better understanding of the dynamics of the UHI effect and the influencing fa...

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Published inLand (Basel) Vol. 11; no. 10; p. 1838
Main Authors Li, Huawei, Jombach, Sandor, Tian, Guohang, Li, Yuanzheng, Meng, Handong
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2022
Subjects
air temperature
China
Cities
Climate change
Economic conditions
Environmental aspects
Environmental impact
Extreme heat
GDP
Global warming
Gross Domestic Product
Heat
Heat waves
High rise buildings
local climate change
Population density
Remote sensing
Rural areas
socioeconomic indicators
Sustainable urban development
Temperature
Trends
Urban areas
Urban climatology
Urban development
urban heat island
Urban heat islands
Urban planning
Urban sprawl
Urbanization
China
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Abstract Extreme heat wave weather phenomena have erupted worldwide in recent years. The urban heat island (UHI) effect has exacerbated urban heat waves with serious consequences for urban energy and residents’ health. Therefore, a better understanding of the dynamics of the UHI effect and the influencing factors is needed in the context of carbon neutrality and global warming. This study used long-term observation and statistical data to investigate the urban heat island intensity (UHII) over the past 39 years (1981–2019) and to analyze the temporal changes of the UHI effect and the relationship between the UHI effect and indicators of rapid urbanization in Zhengzhou, China. The results showed that Zhengzhou is warming 2.2-times faster than the global land warming trend of about +0.9 °C from 1981 to 2019. There is a clear phase characteristic of the heat island effect in Zhengzhou, and it offers a rapid upward trend after 2000 and a positive correlation with the urbanization process; it was found that the social and economic conditions of urban expansion in Zhengzhou have a significant relationship with UHII. We also found that the denser the urban built-up area, the more obvious the heat island effect. Compared with other countries, the influence of national policies on urban development is an indirect factor influencing the change of UHI specifically for Chinese cities. This research could provide a reference for understanding the temporal dynamics of UHI in an expanding large city for sustainable urban planning and mitigating urban warming and environmental problems.
AbstractList Extreme heat wave weather phenomena have erupted worldwide in recent years. The urban heat island (UHI) effect has exacerbated urban heat waves with serious consequences for urban energy and residents’ health. Therefore, a better understanding of the dynamics of the UHI effect and the influencing factors is needed in the context of carbon neutrality and global warming. This study used long-term observation and statistical data to investigate the urban heat island intensity (UHII) over the past 39 years (1981–2019) and to analyze the temporal changes of the UHI effect and the relationship between the UHI effect and indicators of rapid urbanization in Zhengzhou, China. The results showed that Zhengzhou is warming 2.2-times faster than the global land warming trend of about +0.9 °C from 1981 to 2019. There is a clear phase characteristic of the heat island effect in Zhengzhou, and it offers a rapid upward trend after 2000 and a positive correlation with the urbanization process; it was found that the social and economic conditions of urban expansion in Zhengzhou have a significant relationship with UHII. We also found that the denser the urban built-up area, the more obvious the heat island effect. Compared with other countries, the influence of national policies on urban development is an indirect factor influencing the change of UHI specifically for Chinese cities. This research could provide a reference for understanding the temporal dynamics of UHI in an expanding large city for sustainable urban planning and mitigating urban warming and environmental problems.
Audience Academic
Author Meng, Handong
Jombach, Sandor
Li, Yuanzheng
Tian, Guohang
Li, Huawei
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Snippet Extreme heat wave weather phenomena have erupted worldwide in recent years. The urban heat island (UHI) effect has exacerbated urban heat waves with serious...
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SubjectTerms air temperature
China
Cities
Climate change
Economic conditions
Environmental aspects
Environmental impact
Extreme heat
GDP
Global warming
Gross Domestic Product
Heat
Heat waves
High rise buildings
local climate change
Population density
Remote sensing
Rural areas
socioeconomic indicators
Sustainable urban development
Temperature
Trends
Urban areas
Urban climatology
Urban development
urban heat island
Urban heat islands
Urban planning
Urban sprawl
Urbanization
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Title Characterizing Temporal Dynamics of Urban Heat Island in a Rapidly Expanding City: A 39 Years Study in Zhengzhou, China
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