Publications by authors named "Sathiyamurthi Ramasamy"
Organic aerosol (OA) is a dominant component of PM, and accurate knowledge of its sources is critical for identification of cost-effective measures to reduce PM. For accurate source apportionment of OA, we conducted field measurements of organic tracers at three sites (one urban, one suburban, and one forest) in the Tokyo Metropolitan Area and numerical simulations of forward and receptor models. We estimated the source contributions of OA by calculating three receptor models (positive matrix factorization, chemical mass balance, and secondary organic aerosol (SOA)-tracer method) using the ambient concentrations, source profiles, and production yields of OA tracers.
View Article and Find Full Text PDFFine particulate matter (PM) in the atmosphere is of high priority for air quality management efforts to address adverse health effects in human. We believe that emission control policies, which are traditionally guided by source contributions to PM mass, should also consider source contributions to PM health effects or toxicity. In this study, we estimated source contributions to the toxic potentials of organic aerosols (OA) as measured by a series of chemical and in-vitro biological assays and chemical mass balance model.
View Article and Find Full Text PDFWater-soluble organic nitrogen (WSON) affects the formation, chemical transformations, hygroscopicity, and acidity of organic aerosols as well as biogeochemical cycles of nitrogen. However, large uncertainties exist in the origins and formation processes of WSON. Submicrometer aerosol particles were collected at a suburban forest site in Tokyo in summer 2015 to investigate the relative impacts of anthropogenic and biogenic sources on WSON formations and their linkages with aerosol liquid water (ALW).
View Article and Find Full Text PDFArticle Synopsis
- The study investigates the role of chromophoric water-soluble organic matter in atmospheric aerosols and its influence on chemical reactions and light absorption.
- Researchers identified three types of chromophores in aerosols from various environments (urban, forest, marine) using advanced analytical techniques, linking them to different carbon structures.
- Key findings reveal that HULIS-1 is widely present across environments, HULIS-2 is primarily found in terrestrial aerosols, and PLOM is more common in marine aerosols, aiding future classification and source identification of these compounds.