Observational Needs for a Four-Dimensional Air Quality Characterization
Document ID: 198
Scheffe, Richard1
Philbrick, C. Russell2
MacDonald, Clinton3
Dye, Timothy3
Gilroy, Mike4
Carlton, Annmarie5
1 U.S. Environmental Protection, Agency, Office of Air Quality, Planning and Standards
2 North Carolina State University, Raleigh, NC, U.S.A.
3 Sonoma Technology, Inc., Petaluma, CA, U.S.A.
4 Puget Sound Clean Air Agency, Seattle, WA, U.S.A.
5 U.S. Environmental Protection Agency, Office of Research and Development
Abstract
Surface-based monitoring programs provide the foundation for associating air pollution and causal effects in human health studies, and they support the development of air quality standards and the preparation of emission reduction strategies. While surface-oriented networks remain a key tool for addressing traditional single pollutant human exposure challenges, these networks in isolation are not capable of adequately addressing emerging assessment challenges that consider linkages across pollutant categories, spatial scales, and environmental media.
This increasing complexity of air quality assessments will gradually accelerate the reliance on environmental modeling systems featuring multi-dimensional descriptions in time and space. Accordingly, our design perspectives on observation systems must adapt complementary observation and modeling approaches. Paralleling this increased importance of models are major concerns about the adequacy of existing observation systems to provide the observations needed to support model evaluations and data assimilations for day-to-day operational assessments of the environment. For example, a model’s ability to characterize surface air quality and deposition depends on properly characterizing physical and chemical processes throughout the atmospheric column, as well as the larger scale regional transport into the area. Because most pollutants and precursors for chemical and aerosol production reside above the immediate surface where point sensors provide measurements, it becomes important to examine the spatial and temporal heterogeneity through the atmospheric column. This article provides an overview of observation systems in use today to address comprehensive characterization of the planetary boundary layer, air quality and meteorological variables, and puts forth a series of recommendations to be considered in addressing important observations gaps.
| Citation: | "Observational Needs for a Four-Dimensional Air Quality Characterization", Scheffe, R., C. R. Philbrick, C. MacDonald, T. Dye, M. Gilroy, A. Carlton, EM Magazine, Air & Waste Management Association, October 2009, pp. 5 - 12 |