Growing concern on climate-related flood hazards has led to increasing interest in understanding the interactions between climate, flood, and human responses. This paper jointly investigates climate change trends, impacts on flood events, flood vulnerability and risk, and response strategies in the Pearl River Delta (PRD), a rapidly urbanizing coastal area in southeast China. Our analysis based on a reanalysis dataset and model projections are integrated with literature results, which indicates a climate scenario of increasing mean temperature, precipitation, sea level, typhoon intensity, and the frequency of extreme weather events in the PRD. These trends, together with the continuing urbanization in flood-prone areas, are expected to incr...
Coastal cities like Shenzhen are confronting escalating flood risks under the combined impact of cli...
In some of the delta cities which are the most exposed to flooding caused by climate change - like S...
Many coastal cities are experiencing growing risk to hydrological hazards through the combination of...
Currently, concerns are increasing that climate change may intensify natural disasters, like drought...
By the 2050s, more than 120 million people are predicted to settle in the Pearl River Delta (PRD), w...
This article analyses the current flood risk management practices in the Pearl River Delta (PRD), Ch...
This article analyses the current flood risk management practices in the Pearl River Delta (PRD), Ch...
Global warming induces temperature variations and sea level changes for a long period of time. Many ...
Asia’s urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
Asia’s urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
Coastal flood regimes have been irreversibly altered by both climate change and human activities. Th...
Asia's urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
In recent decades, the Pearl River Delta (PRD) region has experienced strong economic and population...
Global urban populations are rising, and more extreme climate events occur, which means more people ...
Although the cities in the Pearl River Delta (PRD) in China are amongst the world’s cities most expo...
Coastal cities like Shenzhen are confronting escalating flood risks under the combined impact of cli...
In some of the delta cities which are the most exposed to flooding caused by climate change - like S...
Many coastal cities are experiencing growing risk to hydrological hazards through the combination of...
Currently, concerns are increasing that climate change may intensify natural disasters, like drought...
By the 2050s, more than 120 million people are predicted to settle in the Pearl River Delta (PRD), w...
This article analyses the current flood risk management practices in the Pearl River Delta (PRD), Ch...
This article analyses the current flood risk management practices in the Pearl River Delta (PRD), Ch...
Global warming induces temperature variations and sea level changes for a long period of time. Many ...
Asia’s urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
Asia’s urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
Coastal flood regimes have been irreversibly altered by both climate change and human activities. Th...
Asia's urbanized mega-deltas are experiencing increased incidences of flooding. Flood risk is increa...
In recent decades, the Pearl River Delta (PRD) region has experienced strong economic and population...
Global urban populations are rising, and more extreme climate events occur, which means more people ...
Although the cities in the Pearl River Delta (PRD) in China are amongst the world’s cities most expo...
Coastal cities like Shenzhen are confronting escalating flood risks under the combined impact of cli...
In some of the delta cities which are the most exposed to flooding caused by climate change - like S...
Many coastal cities are experiencing growing risk to hydrological hazards through the combination of...