Your search keyword '"Paraskevopoulou, D."' showing total 4 results

1. Yearlong variability of oxidative potential of particulate matter in an urban Mediterranean environment.

Author

Paraskevopoulou, D., Bougiatioti, A., Stavroulas, I., Fang, T., Lianou, M., Liakakou, E., Gerasopoulos, E., Weber, R., Nenes, A., and Mihalopoulos, N.

Subjects

*PARTICULATE matter, *CARBONACEOUS aerosols, *SOOT, *MULTIPLE regression analysis, *BIOMASS burning, *AEROSOL sampling, URBAN ecology (Sociology)

Abstract

Abstract The oxidative potential (OP) of fine and coarse fractions of ambient aerosols was studied in the urban environment of Athens, Greece. OP was quantified using a dithiothreitol (DTT) assay, applied to the water soluble fraction of aerosol that was extracted from 361 fine and 84 coarse mode of 24-h and 12-h filter samples over a one-year period. During the cold period, samples were collected on a 12-h basis, to assess the impact of night-time biomass burning emissions from domestic heating on OP. The chemical characteristics of aerosols were measured in parallel using an Aerosol Chemical Speciation Monitoring (ACSM) and a 7-wavelength Aethalometer. A source apportionment analysis on the ACSM data resulted in the identification of organic aerosol (OA) factors on a seasonal basis. A good correlation of OP with NO 3 −, NH 4 +, BC (Black Carbon), Organics and LV-OOA (low volatility oxygenated OA) was found during winter, revealing the importance of combustion and aging processes for OP. During the summertime, a good correlation between OP and SO 4 −2 and NH 4 +indicates its association with regional aerosol – thus the importance of oxidative aging that reduces its association with any characteristic source. Multiple regression analysis during winter revealed that highly oxygenated secondary aerosol (LV-OOA) and, to a lesser extent, fresh biomass burning (BBOA) and fossil fuel (HOA) organic aerosol, are the prime contributors to the OP of fine aerosol, with extrinsic toxicities of 54 ± 22 pmol min−1 μg−1, 28 ± 7 and 17 ± 4 pmol min−1μg−1, respectively. In summer, OP cannot be attributed to any of the identified components and corresponds to a background aerosol value. In winter however, the regression model can reproduce satisfactorily the water soluble DTT activity of fine aerosol, providing a unique equation for the estimation of aerosol OP in an urban Mediterranean environment. Graphical abstract Image 1 Highlights • Yearlong oxidative potential measurements on 367 fine aerosol samples. • Fine urban aerosol oxidative potential is 3 times higher compared to coarse mode. • Winter elevated oxidative potential attributed to fresh aerosol emissions. • Summer background aerosol oxidative potential due to long-range transport. • Satisfactory reconstruction of fine aerosol water-soluble dithiothreitol activity. [ABSTRACT FROM AUTHOR]

Published

2019

2. Summertime particulate matter and its composition in Greece.

Author

Tsiflikiotou, M.A., Kostenidou, E., Papanastasiou, D.K., Patoulias, D., Zarmpas, P., Paraskevopoulou, D., Diapouli, E., Kaltsonoudis, C., Florou, K., Bougiatioti, A., Stavroulas, I., Theodosi, C., Kouvarakis, G., Vasilatou, V., Siakavaras, D., Biskos, G., Pilinis, C., Eleftheriadis, K., Gerasopoulos, E., and Mihalopoulos, N.

Subjects

*PARTICULATE matter, *CARBONACEOUS aerosols, *AIR masses, *SUMMER, *METROPOLIS, *AEROSOLS, *SULFUR dioxide

Abstract

During the summer of 2012 a coordinated field campaign was conducted in multiple locations in Greece in order to characterize the ambient particulate matter (PM) levels, its chemical composition and the contribution of the regional and local sources. PM 1 , PM 2.5 and PM 10 samples were collected simultaneously at seven different sites in Greece: an urban and a suburban station in Patras, a suburban station in Thessaloniki, a suburban and an urban background station in Athens, a rural background station at the Navarino Environmental Observatory (NEO) in southwestern Peloponnese and a remote background site at Finokalia in the northeastern part of Crete. The sites were selected to facilitate the estimation of the contribution of the local emission sources and long range transport. Sulfate and organics were the major PM 1 components in all sites suggesting that high sulfate levels still remain in parts of Europe. The photochemistry of the Eastern Mediterranean can convert rapidly the emitted sulphur dioxide to sulfate. Our analysis indicated significant sulfate production over the area, with high sulfate levels, especially in the remote site of Finokalia, associated with air masses that had passed over Turkey. There was high regional secondary organic aerosol production dominating organic aerosol levels even in a major city like Athens. High organic aerosol levels were associated with air masses that had crossed the Balkans with a significant biogenic component. The average PM 2.5 concentration ranged from 13 to 18 μg m−3 in the different sites. There were unexpected significant gradients in the concentrations of secondary aerosol components in length scales of a few hundred kilometers. The low concentrations of measured PM 2.5 nitrate are mostly organic nitrates and supermicrometer nitrate associated with sea-salt and dust. Dust was a significant PM 10 constituent in all areas and was quite variable in space showing the importance of the local sources. • High sulfate levels still remain in parts of Europe. • High regional secondary organic aerosol production during summer. • Significant spatial gradients in secondary organic aerosol levels. • Most of the fine PM nitrates are organonitrates. [ABSTRACT FROM AUTHOR]

Published

2019

3. Impact of peri-urban forest fires on air quality and aerosol optical and chemical properties: The case of the August 2021 wildfires in Athens, Greece.

Author

Kaskaoutis, D.G., Petrinoli, K., Grivas, G., Kalkavouras, P., Tsagkaraki, M., Tavernaraki, K., Papoutsidaki, K., Stavroulas, I., Paraskevopoulou, D., Bougiatioti, A., Liakakou, E., Rashki, A., Sotiropoulou, R.E.P., Tagaris, E., Gerasopoulos, E., and Mihalopoulos, N.

Published

2024

4. Impacts of severe residential wood burning on atmospheric processing, water-soluble organic aerosol and light absorption, in an inland city of Southeastern Europe.

Author

Kaskaoutis, D.G., Grivas, G., Oikonomou, K., Tavernaraki, P., Papoutsidaki, K., Tsagkaraki, M., Stavroulas, I., Zarmpas, P., Paraskevopoulou, D., Bougiatioti, A., Liakakou, E., Gavrouzou, M., Dumka, U.C., Hatzianastassiou, N., Sciare, J., Gerasopoulos, E., and Mihalopoulos, N.

Subjects

*CARBONACEOUS aerosols, *WOOD, *LIGHT absorption, *BIOMASS burning, *AEROSOLS, *DIAGNOSTIC examinations

Abstract

This study examines the concentrations and characteristics of carbonaceous aerosols (including saccharides) and inorganic species measured by PM 2.5 filter sampling and a multi-wavelength Aethalometer during two campaigns in a mountainous, medium-sized, Greek city (Ioannina). The first campaign was conducted in summer and used as a baseline of low concentrations, while the second took place in winter under intensive residential wood burning (RWB) emissions. Very high winter-mean OC concentrations (26.0 μg m−3) were observed, associated with an OC/EC ratio of 9.9, and mean BC wb and PM 2.5 levels of 4.5 μg m−3 and 57.5 μg m−3, respectively. Simultaneously, record-high levoglucosan (Lev) concentrations (mean: 6.0 μg m−3; max: 15.9 μg m−3) were measured, revealing a severely biomass burning (BB)-laden environment. The water-soluble OC component (WSOC) accounted for 56 ± 9% of OC in winter, exhibiting high correlations (R2 = 0.93–0.97) with BB tracers (nss-K+, BC wb , Lev), nitrate and light absorption, potentially indicating the formation of water-soluble brown carbon (BrC) from fast oxidation processes. The examination of diagnostic ratios involving BB tracers indicated the prevalence of hardwood burning, while the mean Lev/OC ratio (22%) was remarkably higher than literature values. Applying a mono-tracer method based on levoglucosan, we estimated very high BB contributions to OC (∼92%), EC (∼64%) and WSOC (∼87%) during winter. On the contrary, low levels were registered during summer for all carbonaceous components, with winter/summer ratios of 4–5 for PM 2.5 and BC, 10 for OC, 30 for BC wb and ∼1100 for levoglucosan. The absence of local BB sources in summer, combined with the photochemical processing and aging of regional organic aerosols, resulted in higher WSOC/OC fractions (64 ± 13%). The results indicate highly soluble fine carbonaceous aerosol fraction year-round, which when considered alongside the extreme concentration levels in winter can have important implications for short- and long-term health effects. [Display omitted] • PM 2.5 chemical characterization in a semi-mountainous city of Southeast Europe. • Severe PM 2.5 , OC and levoglusocan levels are found due to wood burning in winter. • Biomass burning contributes 92%, 87%, 64% to OC, WSOC, EC, respectively in winter. • High levoglucosan-to-OC ratio (22%) is found for local hardwood burning emissions. • Fresh wood burning aerosols were highly water-soluble with implication for toxicity. [ABSTRACT FROM AUTHOR]

Published

2022