Comparison of Aerosol Measurements from ASCENT Yellowstone Site with IMPROVE Data

YINGJIE SHEN, Shane Murphy, Elena Goodspeed, Roya Bahreini, Ann M. Dillner, Armistead G. Russell, Nga Lee Ng, University of Wyoming

     Abstract Number: 619
     Working Group: Remote and Regional Atmospheric Aerosol

Abstract
Aerosol, especially PM_2.5, plays a critical role in global climate, and has a significant impact on human health. To investigate the sources, chemical and physical properties of aerosol, 12 Atmospheric Science and Chemistry mEasurement NeTwork (ASCENT) sites were created across the US in 2023. The sites conduct a high time-resolution and long-term measurement of aerosol physical and chemical properties with an Aerosol Chemical Speciation Monitor (ACSM), Xact-625i, Aethalometer (AE33), and Scanning Mobility Particle Sizer (SMPS). In this presentation, we will compare the PM2.5 composition measured at the ASCENT Yellowstone site with the filter-based Interagency Monitoring of Protected Visual Environments (IMPROVE) network. The soil calculated based on the IMPROVE protocols using the Xact elements will also be compared and presented. The comparison among the ASCENT ACSM total mass, SMPS mass, and IMPROVE PM_2.5 suggests that submicron dust is an important factor at the Yellowstone site. Strong correlation and agreement between ASCENT calculated total PM_2.5 and IMPROVE filter-based PM_2.5 provides initial validation of the ASCENT Yellowstone measurements.