A spatial model of urban winter woodsmoke concentrations

In many urban areas, residential wood burning is a significant wintertime source of PM2.5. In this study, we used a combination of fixed and mobile monitoring along with a novel spatial buffering procedure to estimate the spatial patterns of woodsmoke. Two-week average PM2.5 and levoglucosan (a marker for wood smoke) concentrations were concurrently measured at up to seven sites in the study region. In addition, pre-selected routes spanning the major population areas in and around Vancouver, B.C. were traversed during 19 cold, clear winter evenings from November, 2004 to March, 2005 by a vehicle equipped with GPS receiver and a nephelometer. Fifteen-second-average values of light scattering coefficient (b(sp)) were adjusted for variations between evenings and then combined into a single, highly resolved map of nighttime winter b(sp) levels. A relatively simple but robust (R (2) = 0.64) land use regression model was developed using selected spatial co-variates to predict these temporally adjusted b(sp) values. The b(sp) values predicted by this model were also correlated with the measured average levoglucosan concentrations at our fixed site locations (R (2) = 0.66). This model, the first application of land use regression for woodsmoke, enabled the identification and prediction of previously unrecognized high woodsmoke regions within an urban airshed.