Spatiotemporal analysis of the surface urban heat island (SUHI), air pollution and disease pattern: an applied study on the city of Granada (Spain)
Metadata
Show full item recordEditorial
Springer Nature
Materia
Land surface temperature Surface urban heat island Urban hotspots Sentinel 3 Environmental pollution Diseases
Date
2023-03-27Referencia bibliográfica
Hidalgo-García, D., Arco-Díaz, J. Spatiotemporal analysis of the surface urban heat island (SUHI), air pollution and disease pattern: an applied study on the city of Granada (Spain). Environ Sci Pollut Res 30, 57617–57637 (2023). [https://doi.org/10.1007/s11356-023-26564-7]
Sponsorship
Universidad de Granada/ CBUAAbstract
Abstract
There is worldwide concern about how climate change —which involves rising temperatures— may increase the risk of
contracting and developing diseases, reducing the quality of life. This study provides new research that takes into account
parameters such as land surface temperature (LST), surface urban heat island (SUHI), urban hotspot (UHS), air pollution
(
SO2, NO2,
CO, O3
and aerosols), the normalized difference vegetation index (NDVI), the normalized difference building
index (NDBI) and the proportion of vegetation (PV) that allows evaluating environmental quality and establishes mitigation
measures in future urban developments that could improve the quality of life of a given population. With the help of Sentinel
3 and 5P satellite images, we studied these variables in the context of Granada (Spain) during the year 2021 to assess how
they may affect the risk of developing diseases (stomach, colorectal, lung, prostate and bladder cancer, dementia, cerebrovascular
disease, liver disease and suicide). The results, corroborated by the statistical analysis using the Data Panel technique,
indicate that the variables LST, SUHI and daytime UHS, NO2,
SO2
and NDBI have important positive correlations above
99% (p value: 0.000) with an excess risk of developing these diseases. Hence, the importance of this study for the formulation
of healthy policies in cities and future research that minimizes the excess risk of diseases