Geospatial Correlation Analysis between Air Pollution Indicators and Estimated Speed of COVID-19 Diffusion in the Lombardy Region (Italy)

Gianquintieri, Lorenzo; Brovelli, M. A.; Pagliosa, Andrea; Bonora, Rodolfo; Sechi, Giuseppe Maria; Caiani, Enrico G.

doi:10.3390/ijerph182212154

Cited by 8 publications

(1 citation statement)

References 65 publications

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“…Targeting a total population of 100,000 residents, the resulting districts are 96 (see Figure 1). This approach was previously validated, showing a consistent robustness when studying air pollution and its effects [34].…”

Section: Delineation Of Districtsmentioning

confidence: 80%

Exploring Spatial–Temporal Patterns of Air Pollution Concentration and Their Relationship with Land Use

Gianquintieri,

Mahakalkar,

Caiani

2024

Atmosphere

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Understanding the spatial–temporal patterns of air pollution is crucial for mitigation strategies, a task fostered nowadays by the generation of continuous concentration maps by remote sensing technologies. We applied spatial modelling to analyze such spatial–temporal patterns in Lombardy, Italy, one of the most polluted regions in Europe. We conducted monthly spatial autocorrelation (global and local) of the daily average concentrations of PM2.5, PM10, O3, NO2, SO2, and CO from 2016 to 2020, using 10 × 10 km satellite data from the Copernicus Atmosphere Monitoring Service (CAMS), aggregated on districts of approximately 100,000 population. Land-use classes were computed on identified clusters, and the significance of the differences was evaluated through the Wilcoxon rank-sum test with Bonferroni correction. The global Moran’s I autocorrelation was overall high (>0.6), indicating a strong clustering. The local autocorrelation revealed high–high clusters of PM2.5 and PM10 in the central urbanized zones in winter (January–December), and in the agrarian southern districts in summer and autumn (May–October). The temporal decomposition showed that values of PMs are particularly high in winter. Low–low clusters emerged in the northern districts for all the pollutants except O3. Seasonal peaks for O3 occurred in the summer months, with high–high clusters mostly in the hilly and mildly urban districts in the northwest. These findings elaborate the spatial patterns of air pollution concentration, providing insights for effective land-use-based pollution management strategies.

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Section: Delineation Of Districtsmentioning

confidence: 80%

Exploring Spatial–Temporal Patterns of Air Pollution Concentration and Their Relationship with Land Use

Gianquintieri,

Mahakalkar,

Caiani

2024

Atmosphere

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State-of-art in modelling particulate matter (PM) concentration: a scoping review of aims and methods

Gianquintieri,

Oxoli,

Caiani

et al. 2024

Environ Dev Sustain

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Air pollution is the one of the most significant environmental risks to health worldwide. An accurate assessment of population exposure would require a continuous distribution of measuring ground-stations, which is not feasible. Therefore, significant efforts are spent in implementing air-quality models. However, a complex scenario emerges, with the spread of many different solutions, and a consequent struggle in comparison, evaluation and replication, hindering the definition of the state-of-art. Accordingly, aim of this scoping review was to analyze the latest scientific research on air-quality modelling, focusing on particulate matter, identifying the most widespread solutions and trying to compare them. The review was mainly focused, but not limited to, machine learning applications. An initial set of 940 results published in 2022 were returned by search engines, 142 of which resulted significant and were analyzed. Three main modelling scopes were identified: correlation analysis, interpolation and forecast. Most of the studies were relevant to east and south-east Asia. The majority of models were multivariate, including (besides ground stations) meteorological information, satellite data, land use and/or topography, and more. 232 different algorithms were tested across studies (either as single-blocks or within ensemble architectures), of which only 60 were tested more than once. A performance comparison showed stronger evidence towards the use of Random Forest modelling, in particular when included in ensemble architectures. However, it must be noticed that results varied significantly according to the experimental set-up, indicating that no overall best solution can be identified, and a case-specific assessment is necessary.

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Neighborhood determinants of vulnerability to heat for cardiovascular health: a spatial analysis of Milan, Italy

Nawaro,

Gianquintieri,

Pagliosa

et al. 2024

Popul Environ

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Geospatial Correlation Analysis between Air Pollution Indicators and Estimated Speed of COVID-19 Diffusion in the Lombardy Region (Italy)

Cited by 8 publications

References 65 publications

Exploring Spatial–Temporal Patterns of Air Pollution Concentration and Their Relationship with Land Use

Exploring Spatial–Temporal Patterns of Air Pollution Concentration and Their Relationship with Land Use

State-of-art in modelling particulate matter (PM) concentration: a scoping review of aims and methods

Neighborhood determinants of vulnerability to heat for cardiovascular health: a spatial analysis of Milan, Italy

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