Nonlinear causal relationships between urbanization and extreme climate events in China

China has undergone rapid urbanization since 1980s, which could in return alter the occurrences of regional weather and sequential hazards, posing challenges to sustainable development of human society. However, casual relationships between urbanization and climate extremes are still poorly understo...

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Bibliographic Details
Published in:Journal of cleaner production 2024-01, Vol.434, p.139889, Article 139889
Main Authors: Zhao, Qikang, Gao, Liang, Meng, Qingyan, Zhu, Mingming, Xiong, Meiyu
Format: Article
Language:English
Subjects:
Climate change
Extreme events
Nonlinear granger causality
Urbanization effects
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Summary:China has undergone rapid urbanization since 1980s, which could in return alter the occurrences of regional weather and sequential hazards, posing challenges to sustainable development of human society. However, casual relationships between urbanization and climate extremes are still poorly understood. In this study, causal relationships between urbanization and extreme temperature/precipitation are quantified using a nonlinear Granger causality framework. Causal hotspots are observed not only in major urban agglomerations but well as in less urbanized areas. For both temperature and precipitation extremes, the impact of urbanization could last within 5 years (mainly 4 years).The causality varies greatly with different climate background, but the contribution of urbanization to extreme temperature and precipitation exhibits a high level of consistency in individual city. Urbanization has profoundly causal relationships with nighttime extreme heat with higher morbidity and mortality to urban residents. Averagely, urbanization causally accounts for almost 36.9% to temperature extremes. On the other hand, urbanization has higher casual contribution to total precipitation. The inland regions are more likely to be affected by urbanization than coastal regions due to weak monsoon influence. On average, urbanization causally accounts for almost 39.7% to precipitation indices. This study innovatively reveals the significant causal relationships between urbanization and extreme temperature/precipitation changing patterns of China, providing valuable insights for developing sustainable cities in the future. [Display omitted] •Time-lagged effects of urbanization on climate extremes would last within 5 years.•Urbanization has profoundly causal relationships with nighttime extreme heat.•Inland regions are affected more by urbanization than coastal regions due to weaker monsoon influence.•Urbanization contributed totally 36.9% and 39.7% to changes of extreme temperature and precipitation, respectively.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2023.139889