Passive monitoring of particulate matter and gaseous pollutants in Fogo Island, Cape Verde

An air quality monitoring campaign by passive sampling techniques was carried out, for the first time, between November 2016 and January 2017 on the Cape Verdean island of Fogo, whose volcanic mountain rises up to 2829 m. Levels of SO2 and acid gases (HF, HCl, HNO3, H2SO4 and H3PO4) were, in most ca...

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Bibliographic Details
Published in:Atmospheric research 2018-12, Vol.214, p.250-262
Main Authors: Alves, Célia A., Candeias, Carla, Nunes, Teresa V., Tomé, Mário J.C., Vicente, Estela D., Ávila, Paula F., Rocha, Fernando
Format: Article
Language:English
Subjects:
Acid gases
Africa
air
air quality
ammonium
benzene
biomass
burning
Cabo Verde
carbonates
coasts
dust
Dust deposition
hexane
hydrochloric acid
Ions
iron
minerals
monitoring
Morphology
nitrates
nitric acid
OC and EC
organic carbon
particulate emissions
particulates
phosphoric acid
pollutants
potassium
sampling
scanning electron microscopes
silica
SO2
sodium chloride
sulfates
sulfur dioxide
sulfuric acid
toluene
tracer techniques
VOCs
volatile organic compounds
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Summary:An air quality monitoring campaign by passive sampling techniques was carried out, for the first time, between November 2016 and January 2017 on the Cape Verdean island of Fogo, whose volcanic mountain rises up to 2829 m. Levels of SO2 and acid gases (HF, HCl, HNO3, H2SO4 and H3PO4) were, in most cases, below the detection limits. Alkylpentanes, hexane, cycloalkanes and toluene were the dominant volatile organic compounds. The m,p-xylene/ethylbenzene ratios revealed that air masses arriving at Cape Verde have been subjected to significant aging processes. High toluene/benzene ratios suggested extra sources of toluene in addition to vehicle emissions. Deposition rates of total settleable dust ranged from 23 to 155 mg/m2/day. On average, organic carbon accounted for 15.6% of the dust mass, whereas elemental carbon was generally undetected. Minerals comprised the dominant mass fraction. The dust levels were mostly affected by two main airflows: the westerlies and the Saharan Air Layer. These air masses contributed to the transport of mineral dust from desert regions, secondary inorganic constituents (SO42−, NO3− and NH4+) and tracers of biomass burning emissions, such as potassium. Sea salt represented 12% of the mass of settleable dust. Scanning electron microscope observations of several particles with different compositions, shapes and sizes revealed high silica mass fractions in all samples, as well as variable contents of carbonates, sulphates, aluminosilicates, Fe, Ti, F and NaCl, suggesting that, in addition to the already mentioned sources, dust is likely linked to industrial emissions in the northern and north-western coast of the African continent. Although some atmospheric constituents presented higher concentrations near the crater, the small fumarolic activity still present after cessation of the eruption in February 2015 has a limited impact on air quality, which is most affected by long range transport and some local sources at specific locations. •Settleable dust rates and levels of SO2, acid gases and VOCs were monitored in Fogo.•The westerlies and the Saharan Air Layer highly affected the Cape Verdean Island.•Mineral dust was mixed with anthropogenic emissions from northern Africa and America.•Wildfires in Africa and marine air masses also influenced the dust composition.•Some local sources at specific locations were identified.
ISSN:0169-8095
1873-2895
DOI:10.1016/j.atmosres.2018.08.002