Reprint
Sources and Composition of Ambient Particulate Matter
Edited by
April 2021
245 pages
- ISBN978-3-0365-0995-2 (Hardback)
- ISBN978-3-0365-0994-5 (PDF)
This is a Reprint of the Special Issue Sources and Composition of Ambient Particulate Matter that was published in
Chemistry & Materials Science
Environmental & Earth Sciences
Summary
Research related to ambient particulate matter (PM) remains very relevant today due to the adverse effects that PM have on human health. PM are pollutants with varying chemical compositions and may originate from multiple emission sources, which directly affects their toxicity. To formulate effective control and mitigation strategies, it is necessary to identify PM sources and to estimate their influence on ambient PM concentration, a process that is known as source apportionment (SA). Depending on the geographical location and characteristics of an area, many anthropogenic and natural sources may contribute to PM concentration levels, such as dust resuspension, sea salt, traffic, secondary aerosol formation, industrial emissions, ship emissions, biomass burning, power plant emissions, etc. Different methodological approaches have been used over the years to study the aforementioned topics, but some scientific challenges remain, mainly related to the following subjects: real-time chemical analysis and SA, uncertainty estimation of SA results, and analytical optimization for PM samples. Additionally, there are areas in the world for which the results regarding composition and sources of PM are still scarce. The objective of this collection was to include studies on all aspects of PM chemical characterization and source apportionment regarding the inorganic and/or organic fractions of PM.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
Mediterranean Sea; particulate matter; volcanic area; air quality; carbonaceous compounds; element analysis; Aerosol mass spectrometry; refractory black carbon; Source; Positive matrix factorization; traffic emissions; industry emissions; megacity; aerosols; source; PCA; fossil fuel; biomass burning; functionalities; source apportionment; Positive Matrix Factorization (PMF); AMS; chemical composition; Antarctic region; Deception Island; atmospheric aerosols; particulate matter; statistical tools; backward trajectories; polar contour maps; radiocarbon; carbonaceous aerosol; urban air quality; black carbon; aethalometer; atmospheric particulate matter; fossil fuel burning; n-alkanes; tunnel measurements; principal component analysis; mineral dust; air quality; modeling; PM10; chemical characterization; source apportionment; PMF; air quality; hybrid modeling; source apportionment; source regions; CAMx; AUSTAL2000; Milan; Po valley; fine particulate matter; oxidative potential; particulate matter composition; filter extraction; seasonal differences; fine particles; carbonaceous and ionic constituents; health impact; field campaign; FEI-GREGAA emission inventory; sources; urban area; aerosol; PMF; elemental composition; PSCF; positive matrix factorization model; trace elements; moss; biomonitoring; neutron activation analysis; n/a