Comparison of regression models with land-use and emissions data to predict the spatial distribution of traffic-related air pollution in Rome

Rosenlund, Mats; Forastiére, Francesco; Stafoggia, Massimo; Porta, Daniela; Perucci, Mara; Ranzi, Andrea; Nussio, Fabio; Perucci, Carlo A.

doi:10.1038/sj.jes.7500571

Cited by 93 publications

(61 citation statements)

References 38 publications

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“…Limited by data accessibility of traffic intensity, traffic counts and traffic emissions, which was also a problem in many other studies with the LUR model, we relied on road lengths and distance to the nearest road in this study. Previous studies have successfully applied the use of these two predictor variables, and some of them have reported that the performance of LUR models only using the lengths of roads were comparable with those using the traffic intensity or the traffic emission data for explaining the small-scale variability of pollutants concentrations (Henderson et al, 2007;Rosenlund et al, 2008). Population density is another predictor variable used frequently in LUR models for predicting NO 2 concentration.…”

Section: Discussionmentioning

confidence: 97%

A land use regression model for estimating the NO2 concentration in shanghai, China

Meng

Chen

Cai

et al. 2015

Environmental Research

129

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Section: Discussionmentioning

confidence: 97%

A land use regression model for estimating the NO2 concentration in shanghai, China

Meng

Chen

Cai

et al. 2015

Environmental Research

129

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“…The NO 2 concentration in the census block of residence (a small area of about 500 inhabitants per census block) was estimated for each child by a land use regression model described in detail elsewhere 24. This model was built by assessing the association between variables describing land use and traffic information and NO 2 concentrations measured at 68 sites in Rome.…”

Section: Methodsmentioning

confidence: 99%

Traffic-related air pollution in relation to respiratory symptoms, allergic sensitisation and lung function in schoolchildren

Rosenlund

Forastiére²,

Porta

et al. 2008

Thorax

110

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Background: Urban air pollution can trigger asthma exacerbations, but the effects of long-term exposure to traffic-related air pollution on lung function or onset of airway disease and allergic sensitisation in children is less clear. Methods: All 2107 children aged 9-14 years from 40 schools in Rome in 2000-1 were included in a crosssectional survey. Respiratory symptoms were assessed on 1760 children by parental questionnaires (response rate 83.5%). Allergic sensitisation was measured by skin prick tests and lung function was measured by spirometry on 1359 children (77.2%). Three indicators of trafficrelated air pollution exposure were assessed: selfreported heavy traffic outside the child's home; the measured distance between the child's home and busy roads; and the residential nitrogen dioxide (NO 2 ) levels estimated by a land use regression model (R 2 = 0.69). Results: There was a strong association between estimated NO 2 exposure per 10 mg/m 3 and lung function, especially expiratory flows, in linear regression models adjusted for age, gender, height and weight: 20.62% (95% CI 21.05 to 20.19) for forced expiratory volume in 1 s as a percentage of forced vital capacity, 262 ml/s (95% CI 2102 to 221) for forced expiratory flow between 25% and 75% of forced vital capacity and 285 ml/s (95% CI 2135 to 235) for peak expiratory flow. The other two exposure indicators showed similar but weaker associations. The associations appeared stronger in girls, older children, in children of high socioeconomic status and in those exposed to parental smoking. Although lifetime asthma was not an effect modifier, there was a suggestion of a larger effect on lung function in subjects with a positive prick test. Multiple logistic regression models did not suggest a consistent association between traffic-related air pollution exposure and prevalence of respiratory symptoms or allergic sensitisation. Conclusion:The results of this study suggest that residential traffic-related air pollution exposure is associated with reduced expiratory flows in schoolchildren.

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“…Degradation of urban air quality attracted attention because of its adverse effects on human health (Makri and Stilianakis 2008;O'Connor et al 2008;Bernstein et al 2008;Kampa and Castanas 2008;Brunekreef 2007), its impact on material (Lorenzo et al 2007;Vallet et al 2006) and on visibility (Rokjin et al 2006;Young et al 2006;Hand et al 2002). Pollutant emissions, particularly from combustion for space heating and transportation (Braniš et al 2009;Tsikardani et al 2006;Bellander et al 2001;Rosenlund et al 2008;Costabile and Allegrini 2008;Yuval et al 2008;Fenger 1999), local meteorology (Fisher et al 2001(Fisher et al , 2006Aldrin and Haff 2005), and topography (Sládek et al 2007;Kadja et al 1998), are the main contributors to urban air pollution episodes.…”

Section: Introductionmentioning

confidence: 98%

Air pollution forecasting in Ankara, Turkey using air pollution index and its relation to assimilative capacity of the atmosphere

Genç

Yesilyurt

Tuncel

2009

Environ Monit Assess

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Spatial and temporal variations in concentrations of CO, NO, NO(2), SO(2), and PM(10), measured between 1999 and 2000, at traffic-impacted and residential stations in Ankara were investigated. Air quality in residential areas was found to be influenced by traffic activities in the city. Pollutant ratios were proven to be reliable tracers to differentiate between different sources. Air pollution index (API) of the whole city was calculated to evaluate the level of air quality in Ankara. Multiple linear regression model was developed for forecasting API in Ankara. The correlation coefficients were found to be 0.79 and 0.63 for different time periods. The assimilative capacity of Ankara atmosphere was calculated in terms of ventilation coefficient (VC). The relation between API and VC was investigated and found that the air quality in Ankara was determined by meteorology rather than emissions.

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Comparison of regression models with land-use and emissions data to predict the spatial distribution of traffic-related air pollution in Rome

Cited by 93 publications

References 38 publications

A land use regression model for estimating the NO2 concentration in shanghai, China

A land use regression model for estimating the NO2 concentration in shanghai, China

Traffic-related air pollution in relation to respiratory symptoms, allergic sensitisation and lung function in schoolchildren

Air pollution forecasting in Ankara, Turkey using air pollution index and its relation to assimilative capacity of the atmosphere

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