Your search keyword '"Heat health risk"' showing total 3 results

1. Spatially explicit assessment of heat health risk by using multi-sensor remote sensing images and socioeconomic data in Yangtze River Delta, China

Author

Qian Chen, Mingjun Ding, Xuchao Yang, Kejia Hu, and Jiaguo Qi

Subjects

Spatial risk assessment, Heat health risk, Remote sensing, GIS, Yangtze River Delta, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background The increase in the frequency and intensity of extreme heat events, which are potentially associated with climate change in the near future, highlights the importance of heat health risk assessment, a significant reference for heat-related death reduction and intervention. However, a spatiotemporal mismatch exists between gridded heat hazard and human exposure in risk assessment, which hinders the identification of high-risk areas at finer scales. Methods A human settlement index integrated by nighttime light images, enhanced vegetation index, and digital elevation model data was utilized to assess the human exposure at high spatial resolution. Heat hazard and vulnerability index were generated by land surface temperature and demographic and socioeconomic census data, respectively. Spatially explicit assessment of heat health risk and its driving factors was conducted in the Yangtze River Delta (YRD), east China at 250 m pixel level. Results High-risk areas were mainly distributed in the urbanized areas of YRD, which were mostly driven by high human exposure and heat hazard index. In some less-urbanized cities and suburban and rural areas of mega-cities, the heat health risks are in second priority. The risks in some less-developed areas were high despite the low human exposure index because of high heat hazard and vulnerability index. Conclusions This study illustrated a methodology for identifying high-risk areas by combining freely available multi-source data. Highly urbanized areas were considered hotspots of high heat health risks, which were largely driven by the increasing urban heat island effects and population density in urban areas. Repercussions of overheating were weakened due to the low social vulnerability in some central areas benefitting from the low proportion of sensitive population or the high level of socioeconomic development. By contrast, high social vulnerability intensifies heat health risks in some less-urbanized cities and suburban areas of mega-cities.

Published

2018

2. Spatially explicit assessment of heat health risk by using multi-sensor remote sensing images and socioeconomic data in Yangtze River Delta, China

Author

Jiaguo Qi, Mingjun Ding, Xuchao Yang, Kejia Hu, and Qian Chen

Subjects

Data Analysis, Male, Satellite Imagery, China, Hot Temperature, 010504 meteorology & atmospheric sciences, General Computer Science, Vulnerability index, Climate Change, Population, Spatial risk assessment, 010501 environmental sciences, lcsh:Computer applications to medicine. Medical informatics, 01 natural sciences, Risk Assessment, Heat health risk, Rivers, Human settlement, Humans, Urban heat island, Cities, education, 0105 earth and related environmental sciences, Aged, Yangtze River Delta, education.field_of_study, Health risk assessment, business.industry, Research, Environmental resource management, Public Health, Environmental and Occupational Health, Extreme Heat, Environmental exposure, Enhanced vegetation index, Environmental Exposure, Middle Aged, Remote sensing, GIS, General Business, Management and Accounting, Hazard, Socioeconomic Factors, Remote Sensing Technology, Environmental science, lcsh:R858-859.7, Female, business, Environmental Monitoring

Abstract

Background The increase in the frequency and intensity of extreme heat events, which are potentially associated with climate change in the near future, highlights the importance of heat health risk assessment, a significant reference for heat-related death reduction and intervention. However, a spatiotemporal mismatch exists between gridded heat hazard and human exposure in risk assessment, which hinders the identification of high-risk areas at finer scales. Methods A human settlement index integrated by nighttime light images, enhanced vegetation index, and digital elevation model data was utilized to assess the human exposure at high spatial resolution. Heat hazard and vulnerability index were generated by land surface temperature and demographic and socioeconomic census data, respectively. Spatially explicit assessment of heat health risk and its driving factors was conducted in the Yangtze River Delta (YRD), east China at 250 m pixel level. Results High-risk areas were mainly distributed in the urbanized areas of YRD, which were mostly driven by high human exposure and heat hazard index. In some less-urbanized cities and suburban and rural areas of mega-cities, the heat health risks are in second priority. The risks in some less-developed areas were high despite the low human exposure index because of high heat hazard and vulnerability index. Conclusions This study illustrated a methodology for identifying high-risk areas by combining freely available multi-source data. Highly urbanized areas were considered hotspots of high heat health risks, which were largely driven by the increasing urban heat island effects and population density in urban areas. Repercussions of overheating were weakened due to the low social vulnerability in some central areas benefitting from the low proportion of sensitive population or the high level of socioeconomic development. By contrast, high social vulnerability intensifies heat health risks in some less-urbanized cities and suburban areas of mega-cities.

Published

2018

3. Spatially explicit assessment of heat health risk by using multi-sensor remote sensing images and socioeconomic data in Yangtze River Delta, China

Author

Chen, Qian, Ding, Mingjun, Yang, Xuchao, Hu, Kejia, and Qi, Jiaguo

Published

2018