Joyce J.Y. Zhang scite author profile

Joyce J.Y. Zhang

3Publications

54Citation Statements Received

70Citation Statements Given

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184

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Health Canada

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Development of land-use regression models for metals associated with airborne particulate matter in a North American city

Zhang

Sun

Barrett

et al. 2015

Atmospheric Environment

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h i g h l i g h t s PM 1.0 -components displayed significant intra-urban variability in Calgary, Alberta. Land-use regression models were developed for 30 elements in summer and winter. 12 elements had models with R 2 > 0.7 in both seasons; 24 had R 2 > 0.5 in both seasons. Industrial sources were major predictors, as well as traffic, land-use, and wind. Interspecies dependencies were similar for measured and modeled pollutant data. a b s t r a c tAirborne particulate matter has been associated with cardiovascular and respiratory morbidity and mortality, and there is evidence that metals may contribute to these adverse health effects. However, there are few tools for assessing exposure to airborne metals. Land-use regression modeling has been widely used to estimate exposure to gaseous pollutants. This study developed seasonal land-use regression (LUR) models to characterize the spatial distribution of trace metals and other elements associated with airborne particulate matter in Calgary, Alberta.Two-week integrated measurements of particulate matter with <1.0 mm in aerodynamic diameter (PM 1.0 ) were collected in the City of Calgary at 25 sites in August 2010 and 29 sites in January 2011. PM 1.0 filters were analyzed using inductively-coupled plasma mass spectrometry. Industrial sources were obtained through the National Pollutant Release Inventory and their locations verified using Google Maps. Traffic volume data were obtained from the City of Calgary and zoning data were obtained from Desktop Mapping Technologies Incorporated. Seasonal wind direction was incorporated using wind rose shapes produced by Wind Rose PRO3, and predictor variables were generated using ArcMap-10.1. Summer and winter LUR models for 30 PM 1.0 components were developed using SAS 9.2.We observed significant intra-urban gradients for metals associated with airborne particulate matter in Calgary, Alberta. LUR models explained a high proportion of the spatial variability in those PM 1.0 components. Summer models performed slightly better than winter models. However, 24 of the 30 PM 1.0 related elements had models that were either good (R 2 > 0.70) or acceptable (R 2 > 0.50) in both seasons. Industrial point-sources were the most influential predictor for the majority of PM 1.0 components. Industrial and commercial zoning were also significant predictors, while traffic indicators and population density had a modest but significant contribution for most elements. Variables incorporating wind direction were also significant predictors. These findings contrast with LUR models for PM and gaseous pollutants in which traffic indicators are typically the most important predictors of ambient concentrations.These results suggest that airborne PM components vary spatially with the distribution of local industrial sources and that LUR modeling can be used to predict local concentrations of these airborne BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/ 4.0/). Atmospheric Environment 106 (2015) 165e177 elements. These models will support ...

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Predicting intraurban airborne PM1.0-trace elements in a port city: Land use regression by ordinary least squares and a machine learning algorithm

Zhang

Sun

Rainham

et al. 2022

Science of The Total Environment

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Local and regional sources of urban ambient PM2.5 exposures in Calgary, Canada

Anastasopolos

Hopke²,

Sofowote³

et al. 2022

Atmospheric Environment

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Joyce J.Y. Zhang

Development of land-use regression models for metals associated with airborne particulate matter in a North American city

Predicting intraurban airborne PM1.0-trace elements in a port city: Land use regression by ordinary least squares and a machine learning algorithm

Local and regional sources of urban ambient PM2.5 exposures in Calgary, Canada

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