Publication

Spatial and Temporal Variation in Fine Particulate Matter Mass and Chemical Composition: The Middle East Consortium for Aerosol Research Study

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Last modified
  • 03/03/2025
Type of Material
Authors
    Ziad Abdeen, Al Quads UniversityRadwan Qasrawi, Al Quads UniversityJongbae Heo, University of Wisconsin-MadisonBo Wu, University of Wisconsin-MadisonJacob Shpund, Israel Union for Environmental DefenseArye Vanger, Israel Union for Environmental DefenseGeula Sharf, Israel Union for Environmental DefenseTamar Moise, Arava Institute for Environmental StudiesShmuel Brenner, Arava Institute for Environmental StudiesKhaled Nassar, Jordan Society for Sustainable DevelopmentRami Saleh, Jordan Society for Sustainable DevelopmentQusai M. Al-Mahasneh, Jordan Society for Sustainable DevelopmentJeremy Sarnat, Emory UniversityJames J. Schauer, University of Wisconsin-Madison
Language
  • English
Date
  • 2014-01-01
Publisher
  • Hindawi Publishing Corporation
Publication Version
Copyright Statement
  • © 2014 Ziad Abdeen et al.
License
Final Published Version (URL)
Title of Journal or Parent Work
ISSN
  • 2356-6140
Volume
  • 2014
Start Page
  • 878704
End Page
  • 878704
Grant/Funding Information
  • Present research was developed in the framework of the Middle East Consortium for Aerosol Research Study (MECARS), funded by the MERC Grant Award no. M23-020.
Supplemental Material (URL)
Abstract
  • Ambient fine particulate matter (PM2.5) samples were collected from January to December 2007 to investigate the sources and chemical speciation in Palestine, Jordan, and Israel. The 24-h PM2.5samples were collected on 6-day intervals at eleven urban and rural sites simultaneously. Major chemical components including metals, ions, and organic and elemental carbon were analyzed. The mass concentrations of PM2.5across the 11 sites varied from 20.6 to 40.3 g/m3, with an average of 28.7 g/m 3. Seasonal variation of PM2.5concentrations was substantial, with higher average concentrations (37.3 g/m3) in the summer (April-June) months compared to winter (October-December) months (26.0 g/m3) due mainly to high contributions of sulfate and crustal components. PM2.5 concentrations in the spring were greatly impacted by regional dust storms. Carbonaceous mass was the most abundant component, contributing 40% to the total PM2.5mass averaged across the eleven sites. Crustal components averaged 19.1% of the PM2.5mass and sulfate, ammonium, and nitrate accounted for 16.2%, 6.4%, and 3.7%, respectively, of the total PM2.5 mass. The results of this study demonstrate the need to better protect the health and welfare of the residents on both sides of the Jordan River in the Middle East.
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Keywords
Research Categories
  • Environmental Sciences
  • Engineering, Environmental

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