PM2.5 and PM10-2.5 Compositions during Wintertime Episodes of Elevated PM Concentrations across the Midwestern USA

Tanya L Katzman,Sara Van Klooster,Andrew P Rutter,James J Schauer,Glynis C Lough,Catherine J Kolb

doi:10.4209/aaqr.2009.10.0063

Tanya L Katzman, Sara Van Klooster + Show 4 more

Open Access

https://doi.org/10.4209/aaqr.2009.10.0063

Copy DOI

Abstract

Northern cities in the Midwest experience frequent PM concentrations in excess of the Federal PM2.5 and PM10 National Ambient Air Quality Standards (NAAQS) during winter, which increasingly outnumber the summertime excesses the further north the cities are located. In contrast, cities located south of the Great Lakes tended to experience a greater number of excesses during summer. In order to ascertain the key components of PM contributing to these winter exceedances, we examined a regional elevated PM concentration episode which occurred between January 31, 2005 and February 6, 2005. The episode was caused by meteorological stagnation which affected 9 states in the Midwestern US (MN, WI, MI, IA, IL, IN, OH, MO, and KY). The temporal and spatial characteristics of PM2.5 and PM10-2.5 mass and bulk chemistry (nitrate, sulfate, ammonium, organic matter) were measured during this and other wintertime elevated PM episodes at Milwaukee, WI, and compared to Chemical Speciation Network (CSN) data. The observed elevated PM episodes demonstrated that nitrate was the driving anthropogenic component of the wintertime exceedances. This led to the conclusion that winter NOx controls on mobile and stationary sources, in combination with sufficient SO2, VOC and NH3 controls, should be further examined for the mitigation of wintertime PM2.5 episodes in the Midwest. The north-south gradient in exceedances of the PM2.5 NAAQS indicated that strategies for avoidance of violations of the 24-hour standard, and to a lesser degree the annual standard, would benefit from an emphasis on different seasons, and therefore different PM components, depending how far north or south the city is located in the Midwest.

Highlights

Particulate matter less than 2.5 μm in diameter (PM2.5) is harmful to human health, and has been linked to morbidity and mortality caused by cardiac and respiratory illnesses (Dockery et al, 1993; Pope, 2000; Peng et al, 2005; Pope, 2007)
The goal of this study was to arrive at a scientific understanding of the main components of PM2.5 during winter elevated PM episodes in the Midwest, and thereby gain insight into the source contributions of these components
All of the data presented in this study demonstrated that wintertime elevated PM episodes were driven by nitrate, assumed to be present as ammonium nitrate and nitric acid, while summer time episodes were driven by organic carbon (OC) and sulfate

Summary

Introduction

Particulate matter less than 2.5 μm in diameter (PM2.5) is harmful to human health, and has been linked to morbidity and mortality caused by cardiac and respiratory illnesses (Dockery et al, 1993; Pope, 2000; Peng et al, 2005; Pope, 2007). National Ambient Air Quality Standards (NAAQS) for PM2.5 were introduced in 1997, and revised in 2006, to limit the total mass concentrations to protect human health and welfare. PM2.5 NAAQS were as follows: i) the 98th percentile of 24hour averaged mass concentrations over a 3-year period were not to exceed 65 μg/m3, and; ii) the 3-year average of the annual means were not to exceed 15 μg/m3. The PM2.5 24-hour limit was revised to 35 μg/m3 in December 2006, and stands as the current standard. The winter episodes of elevated PM reported in this paper, made in 2004 and 2005 before the 2006 revision, will be interpreted in the context of the current standard to inform current and future air quality strategies

Objectives

Methods

Results

Conclusion