Geula Sharf scite author profile

Particulate sulfate has been measured intermittently at various ground sites in Israel and from an instrumented aircraft for a 10-year period between 1984 and 1993. The measurements were accompanied by concurrent monitoring of primary and secondary air pollutants and meteorological parameters. In three studies, Etzion 1984, Jerusalem 1987, and Jerusalem 1990-1991 were taken for at least a year. The other studies were performed during summer months when higher levels of secondary pollutants, including particulate sulfate, were observed. In most of the studies samples were taken for four sequential 6-hour time segments. In one study, at Caesarea 1993, sulfate samples were taken only when wind flows were perpendicular to the coastline. The airborne measurements were performed along three north-south paths inside the planetary boundary layer, over the Mediterranean coast, over the Judea-Samaria mountains and over the Jordan Valley. Each flight path consisted of 30 to 45 minutes of continuous sampling of SO2 and one integrated sample of particulate sulfate. In all of our studies the concentration of particulate sulfate observed was relatively high compared .... 3 r with other world locations. The h•ghest values, occasionally exceeding 500 nmole rn , we e found during the summer. Wintertime levels were in the range of 50-100 nmole m '3. The annual average, calculated for the three long studies, is 100 q-15 nmole m '3, which is twice as high as predicted for the region by a global model and as high as reported for some of the more polluted regions in the US. Several indicators suggested that the origin of the sulfate in the region is not from local sources but the result of long range transport. The indicators include the lack of correlation between particulate sulfate and primary pollutants, the high sulfate to total sulfur values, the origin of the airmass back trajectories and the fact that similar levels were observed during concurrent periods at different sites. Throughout the study, higher concentration of particulate sulfate was found during the afternoon hours, especially during the summer and at the inland locations. The contribution to the afternoon elevated values could not be associated with long range transport and results probably from major sulfur emission sources located along the Israeli Mediterranean coast. of 1956-1987 [Stanhill and Moreshet, 1992]. This reduction might be attributed to the increasing particulate sulfate concentration in the region. Exposure to acidic aerosols may also pose a potential threat to health [Liang and Waldman, 1993; Waldman et al., 1993]. The possible association of fine particulates and sulfate and health effects was demonstrated by Dockery et al. [1993] in a study based on 15 years of air pollution and mortality data in six U.S. cities that indicated an increase of about 26ø/6 in mortality rate occurred in the more polluted of the cities (particulate sulfate long-term average concentration for the measuring period of about 13 gg m-3 or 135 nmole m-3), as compared with th...

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Some observational and modeling evidence of long‐range transport of air pollutants from Europe toward the Israeli coast

Wanger¹,

Peleg²,

Sharf³

et al. 2000

J. Geophys. Res.

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

Abdeen

Qasrawi

Heo

et al. 2014

The Scientific World Journal

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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 PM2.5 samples 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 PM2.5 across the 11 sites varied from 20.6 to 40.3 μg/m3, with an average of 28.7 μg/m3. Seasonal variation of PM2.5 concentrations was substantial, with higher average concentrations (37.3 μg/m3) in the summer (April–June) months compared to winter (October–December) months (26.0 μg/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 PM2.5 mass averaged across the eleven sites. Crustal components averaged 19.1% of the PM2.5 mass 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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Observational evidence of an ozone episode over the Greater Athens Area

Peleg¹,

Luria²,

Sharf³

et al. 1997

Atmospheric Environment

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Seasonal and spatial trends in the sources of fine particle organic carbon in Israel, Jordan, and Palestine

Schneidemesser¹,

Zhou²,

Stone³

et al. 2010

Atmospheric Environment

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Geula Sharf

Atmospheric sulfur over the east Mediterranean region

Some observational and modeling evidence of long‐range transport of air pollutants from Europe toward the Israeli coast

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

Observational evidence of an ozone episode over the Greater Athens Area

Seasonal and spatial trends in the sources of fine particle organic carbon in Israel, Jordan, and Palestine

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