Linking trends in urban extreme rainfall to urban flooding in China

ABSTRACT Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk management. Although China's cities have been experiencing a rapid increase in urban flooding in recent decades, there is a lack of n...

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Published inInternational journal of climatology Vol. 37; no. 13; pp. 4586 - 4593
Main Authors Zhou, Xinyao, Bai, Zhijie, Yang, Yonghui
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 15.11.2017
Wiley Subscription Services, Inc
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Abstract ABSTRACT Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk management. Although China's cities have been experiencing a rapid increase in urban flooding in recent decades, there is a lack of national‐wide analysis of the occurrence of extreme urban rainfall. This study examined the trends in extreme rainfall in 146 cities in China for the period 1960–2014. The trends were also analysed in terms of city size (small, big and mega cities) in two city clusters (Jing‐Jin‐Jin City Cluster and Yangtze City Cluster). There was a strong spatial variation in the trends of extreme rainfall across the country, with negative trends in North China and positive trends in Southeast China. Both positive and negative trends were noted for the other regions of China. All the cities in Jing‐Jin‐Ji City Cluster had a decreasing trend in extreme rainfall, with a significant decline (p = 0.03) for mega cities. Then all cities in the Yangtze City Cluster had an increasing trend in extreme rainfall, with a significant increase (p=0.02) for big cities. The findings suggested that efforts to alleviate storm‐induced urban flash floods should take into account both spatial disparities in climate and future changes in extreme rainfall events. Thresholds used to define extreme rainfall events in the 146 city meteorological stations in the study area. The different colours indicate different threshold values (mm) of 1% of heavy rainfall events in 1960–2014. The circles indicate cities under the three population categories – small cities with population range of 0.5–1.0 million, big cities with 1.0–5.0 million and mega cities with over 5.0 million (China City Statistical Yearbook, 2014). The 12 mega cities are annotated in the figure.
AbstractList ABSTRACT Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk management. Although China's cities have been experiencing a rapid increase in urban flooding in recent decades, there is a lack of national‐wide analysis of the occurrence of extreme urban rainfall. This study examined the trends in extreme rainfall in 146 cities in China for the period 1960–2014. The trends were also analysed in terms of city size (small, big and mega cities) in two city clusters (Jing‐Jin‐Jin City Cluster and Yangtze City Cluster). There was a strong spatial variation in the trends of extreme rainfall across the country, with negative trends in North China and positive trends in Southeast China. Both positive and negative trends were noted for the other regions of China. All the cities in Jing‐Jin‐Ji City Cluster had a decreasing trend in extreme rainfall, with a significant decline (p = 0.03) for mega cities. Then all cities in the Yangtze City Cluster had an increasing trend in extreme rainfall, with a significant increase (p=0.02) for big cities. The findings suggested that efforts to alleviate storm‐induced urban flash floods should take into account both spatial disparities in climate and future changes in extreme rainfall events. Thresholds used to define extreme rainfall events in the 146 city meteorological stations in the study area. The different colours indicate different threshold values (mm) of 1% of heavy rainfall events in 1960–2014. The circles indicate cities under the three population categories – small cities with population range of 0.5–1.0 million, big cities with 1.0–5.0 million and mega cities with over 5.0 million (China City Statistical Yearbook, 2014). The 12 mega cities are annotated in the figure.
Storm-induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk management. Although China's cities have been experiencing a rapid increase in urban flooding in recent decades, there is a lack of national-wide analysis of the occurrence of extreme urban rainfall. This study examined the trends in extreme rainfall in 146 cities in China for the period 1960-2014. The trends were also analysed in terms of city size (small, big and mega cities) in two city clusters (Jing-Jin-Jin City Cluster and Yangtze City Cluster). There was a strong spatial variation in the trends of extreme rainfall across the country, with negative trends in North China and positive trends in Southeast China. Both positive and negative trends were noted for the other regions of China. All the cities in Jing-Jin-Ji City Cluster had a decreasing trend in extreme rainfall, with a significant decline (p = 0.03) for mega cities. Then all cities in the Yangtze City Cluster had an increasing trend in extreme rainfall, with a significant increase (p=0.02) for big cities. The findings suggested that efforts to alleviate storm-induced urban flash floods should take into account both spatial disparities in climate and future changes in extreme rainfall events.
Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk management. Although China's cities have been experiencing a rapid increase in urban flooding in recent decades, there is a lack of national‐wide analysis of the occurrence of extreme urban rainfall. This study examined the trends in extreme rainfall in 146 cities in China for the period 1960–2014. The trends were also analysed in terms of city size (small, big and mega cities) in two city clusters (Jing‐Jin‐Jin City Cluster and Yangtze City Cluster). There was a strong spatial variation in the trends of extreme rainfall across the country, with negative trends in North China and positive trends in Southeast China. Both positive and negative trends were noted for the other regions of China. All the cities in Jing‐Jin‐Ji City Cluster had a decreasing trend in extreme rainfall, with a significant decline ( p = 0.03) for mega cities. Then all cities in the Yangtze City Cluster had an increasing trend in extreme rainfall, with a significant increase ( p =0.02) for big cities. The findings suggested that efforts to alleviate storm‐induced urban flash floods should take into account both spatial disparities in climate and future changes in extreme rainfall events.
Author Bai, Zhijie
Yang, Yonghui
Zhou, Xinyao
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  surname: Yang
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  email: yonghui.yang@sjziam.ac.cn
  organization: Chinese Academy of Sciences
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Snippet ABSTRACT Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood...
Storm‐induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk...
Storm-induced urban flooding is a global issue that causes large damages and fatalities. Characterizing extreme rainfall is critical to urban flood risk...
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SubjectTerms China
Cities
Climate change
Clusters
Extreme weather
Flash flooding
Flash floods
Flood management
Flood risk
Flooding
Floods
Megacities
Rain
Rainfall
Risk management
Spatial variations
sponge city
Storm damage
Storms
trend analysis
Trends
Urban areas
urban extreme rainfall
urban flooding
Urban rainfall
Title Linking trends in urban extreme rainfall to urban flooding in China
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjoc.5107
https://www.proquest.com/docview/1958408479
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