Title

Evaluation of fire weather forecasts using PM2.5 sensitivity analysis

DOI

https://doi.org/10.1016/j.atmosenv.2016.09.010

Document Type

Article

Publication Date

1-1-2017

Publication Title

Atmospheric Environment

Abstract

Fire weather forecasts are used by land and wildlife managers to determine when meteorological and fuel conditions are suitable to conduct prescribed burning. In this work, we investigate the sensitivity of ambient PM to various fire and meteorological variables in a spatial setting that is typical for the southeastern US, where prescribed fires are the single largest source of fine particulate matter. We use the method of principle components regression to estimate sensitivity of PM , measured at a monitoring site in Jacksonville, NC (JVL), to fire data and observed and forecast meteorological variables. Fire data were gathered from prescribed fire activity used for ecological management at Marine Corps Base Camp Lejeune, extending 10–50 km south from the PM monitor. Principal components analysis (PCA) was run on 10 data sets that included acres of prescribed burning activity (PB) along with meteorological forecast data alone or in combination with observations. For each data set, observed PM (unitless) was regressed against PCA scores from the first seven principal components (explaining at least 80% of total variance). PM showed significant sensitivity to PB: 3.6 ± 2.2 μg m per 1000 acres burned at the investigated distance scale of ∼10–50 km. Applying this sensitivity to the available activity data revealed a prescribed burning source contribution to measured PM of up to 25% on a given day. PM showed a positive sensitivity to relative humidity and temperature, and was also sensitive to wind direction, indicating the capture of more regional aerosol processing and transport effects. As expected, PM had a negative sensitivity to dispersive variables but only showed a statistically significant negative sensitivity to ventilation rate, highlighting the importance of this parameter to fire managers. A positive sensitivity to forecast precipitation was found, consistent with the practice of conducting prescribed burning on days when rain can naturally extinguish fires. Perhaps most importantly for land managers, our analysis suggests that instead of relying on the forecasts from a day before, prescribed burning decisions should be based on the forecasts released the morning of the burn when possible, since these data were more stable and yielded more statistically robust results. 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 −3

Volume

148

First Page

128

Last Page

138

ISSN

13522310

Identifier

SCOPUS_ID:84996536597

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