Your search keyword '"Glojek, Kristina"' showing total 6 results

1. Changes in daily air temperatures and precipitation across the Sava River Basin and their correlation with large-scale atmospheric circulations

Author

Ogrin, Matej, Ogrin, Darko, Milošević, Dragan, Pantelić, Milana, Dolinaj, Dragan, Trobec, Tajan, Glojek, Kristina, and Savić, Stevan

Published

2022

2. Optical properties and simple forcing efficiency of the organic aerosols and black carbon emitted by residential wood burning in rural central Europe.

Author

Cuesta-Mosquera, Andrea, Glojek, Kristina, Močnik, Griša, Drinovec, Luka, Gregorič, Asta, Rigler, Martin, Ogrin, Matej, Romshoo, Baseerat, Weinhold, Kay, Merkel, Maik, van Pinxteren, Dominik, Herrmann, Hartmut, Wiedensohler, Alfred, Pöhlker, Mira, and Müller, Thomas

Subjects

CARBONACEOUS aerosols, MASS attenuation coefficients, CARBON-black, AEROSOLS, WOOD, OPTICAL properties, RURAL geography, TROPOSPHERIC aerosols

Abstract

Recent years have seen an increase in the use of wood for energy production of over 30 %, and this trend is expected to continue due to the current energy crisis and geopolitical instability. At present, residential wood burning (RWB) is one of the most important sources of organic aerosols (OAs) and black carbon (BC), posing a significant risk to air quality and health. Simultaneously, as a substantial aerosol source, RWB also holds relevance in the context of aerosol radiative effects and climate. While BC is recognized for its large light absorption cross-section, the role of OAs in light absorption is still under evaluation due to their heterogeneous composition and source-dependent optical properties. Existing studies that characterize wood-burning aerosol emissions in Europe primarily concentrate on urban and background sites and focus on BC properties. Despite the significant RWB emissions in rural areas, these locations have received comparatively less attention. The present scenario underscores the imperative for an improved understanding of RWB pollution, aerosol optical properties, and their subsequent connection to climate impacts, particularly in rural areas. We have characterized atmospheric aerosol particles from a central European rural site during wintertime in the village of Retje in Loški Potok, Slovenia, from 1 December 2017 to 7 March 2018. The village experienced extremely high aerosol concentrations produced by RWB and near-ground temperature inversion. The isolated location of the site and the substantial local emissions made it an ideal laboratory-like place for characterizing RWB aerosols with low influence from non-RWB sources under ambient conditions. The mean mass concentrations of OA and BC were 35 µgm-3 (max⁡=270 µgm-3) and 3.1 µgm-3 (max⁡=24 µgm-3), respectively. The mean total particle number concentration (10–600 nm) was 9.9×103 particles cm -3 (max⁡=59×103 particles cm -3). The mean total light absorption coefficients at 370 and 880 nm measured by an AE33 Aethalometer were 120 and 22 Mm -1 and had maximum values of 1100 and 180 Mm -1 , respectively. The aerosol concentrations and absorption coefficients measured during the campaign in Loški Potok were significantly larger than reported values for several urban areas in the region with larger populations and a larger extent of aerosol sources. Here, considerable contributions from brown carbon (BrC) to the total light absorption were identified, reaching up to 60 % and 48 % in the near-UV (370 nm) and blue (470 nm) wavelengths. These contributions are up to 3 times higher than values reported for other sites impacted by wood-burning emissions. The calculated mass absorption cross-section and the absorption Ångström exponent for RWB OA were MAC OA,370nm=2.4 m 2 g -1 , and AAE BrC,370-590nm=3.9 , respectively. Simple-forcing-efficiency (SFE) calculations were performed as a sensitivity analysis to evaluate the climate impact of the RWB aerosols produced at the study site by integrating the optical properties measured during the campaign. The SFE results show a considerable forcing capacity from the local RWB aerosols, with a high sensitivity to OA absorption properties and a more substantial impact over bright surfaces like snow, typical during the coldest season with higher OA emissions from RWB. Our study's results are highly significant regarding air pollution, optical properties, and climate impact. The findings suggest that there may be an underestimation of RWB emissions in rural Europe and that further investigation is necessary. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optical properties and simple forcing efficiency of the organic aerosols and black carbon emitted by residential wood burning in rural Central Europe.

Author

Cuesta-Mosquera, Andrea, Glojek, Kristina, Močnik, Griša, Drinovec, Luka, Gregorič, Asta, Rigler, Martin, Ogrin, Matej, Romshoo, Baseerat, Weinhold, Kay, Merkel, Maik, Pinxteren, Dominik van, Herrmann, Hartmut, Wiedensohler, Alfred, Pöhlker, Mira, and Müller, Thomas

Subjects

CARBONACEOUS aerosols, CARBON-black, MASS attenuation coefficients, OPTICAL properties, AEROSOLS, WOOD, RURAL geography, TROPOSPHERIC aerosols

Abstract

Recent years have seen an increase in the use of wood for energy production of over 30 %, and this trend is expected to continue due to the current energy crisis and geopolitical instability. At present, residential wood burning (RWB) is one of the most important sources of organic aerosols (OA) and black carbon (BC). While BC is recognized for its large light absorption cross-section, the role of OA in light absorption is still under evaluation due to their heterogeneous composition and source-dependent optical properties. Studies that characterize wood-burning aerosol emissions in Europe typically focus on urban and background sites and only cover BC properties. However, RWB is more prevalent in rural areas, and the present scenario indicates that an improved understanding of the RWB aerosol optical properties and their subsequent connection to climate impacts is necessary for rural areas. We have characterized atmospheric aerosol particles from a central European rural site during wintertime in the village of Retje in Loški Potok, Slovenia, from 01.12.2017 to 07.03.2018. The village experienced extremely high aerosol concentrations produced by RWB and near-ground temperature inversion. The isolated location of the site and the substantial local emissions made it an ideal laboratory-like place for characterizing RWB aerosols with low influence from non-RWB sources under ambient conditions. The mean mass concentrations of OA and BC were 34.8 µg m-3 (max = 271.8 µg m-3) and 3.1 µg m-3 (max = 24.3 µg m-3), respectively. The mean total particle number concentration (10–600 nm) was 9.9 x 103 particles cm-3 (max = 53.5 x 103 particles cm-3). The mean total light absorption coefficient at 370 nm and 880 nm measured by an Aethalometer AE33 were 122.8 Mm-1 and 15.3 Mm-1 and had maximum values of 1103.9 Mm-1 and 179.1 Mm-1, respectively. The aerosol concentrations and absorption coefficients measured during the campaign in Loški Potok were significantly larger than those reported values for several urban areas in the region with larger populations and extent of aerosol sources. Here, considerable contributions from brown carbon (BrC) to the total light absorption were identified, reaching up to 60 % and 48 % in the near UV (370 nm) and blue (470 nm) wavelengths. These contributions are up to three times higher than values reported for other sites impacted by wood-burning emissions. The calculated mass absorption cross-section and the absorption Ångström exponent for RWB OA were MACOA, 370 nm= 2.4 m2 g-1, and AAEBrC, 370–590 nm= 3.9, respectively. Simple forcing efficiency (SFE) calculations were performed as a sensitivity analysis to evaluate the climate impact of the RWB aerosols produced at the study site by integrating the optical properties measured during the campaign. The SFE results show a considerable forcing capacity from the local RWB aerosols, with a high sensitivity to OA absorption properties and a more substantial impact over bright surfaces like snow, typical during the coldest season with higher OA emissions from RWB. Our study's results are highly significant regarding air pollution, optical properties, and climate impact. The findings suggest that there may be an underestimation of RWB emissions in rural Europe and that further investigation is necessary. [ABSTRACT FROM AUTHOR]

Published

2023

4. The impact of temperature inversions on black carbon and particle mass concentrations in a mountainous area.

Author

Glojek, Kristina, Močnik, Griša, Alas, Honey Dawn C., Cuesta-Mosquera, Andrea, Drinovec, Luka, Gregorič, Asta, Ogrin, Matej, Weinhold, Kay, Ježek, Irena, Müller, Thomas, Rigler, Martin, Remškar, Maja, van Pinxteren, Dominik, Herrmann, Hartmut, Ristorini, Martina, Merkel, Maik, Markelj, Miha, and Wiedensohler, Alfred

Subjects

TEMPERATURE inversions, CARBON-black, WOOD combustion, EARTH temperature, PARTICULATE matter, CARBONACEOUS aerosols, TRACE gases

Abstract

Residential wood combustion is a widespread practice in Europe with a serious impact on air quality, especially in mountainous areas. While there is a significant number of studies conducted in deep urbanized valleys and basins, little is known about the air pollution processes in rural shallow hollows, where around 30 % of the people in mountainous areas across Europe live. We aim to determine the influence of ground temperature inversions on wood combustion aerosol pollution in hilly, rural areas. The study uses Retje karst hollow (Loški Potok, Slovenia) as a representative site for mountainous and hilly rural areas in central and south-eastern Europe with residential wood combustion. Sampling with a mobile monitoring platform along the hollow was performed in December 2017 and January 2018. The backpack mobile monitoring platform was used for the determination of equivalent black carbon (eBC) and particulate matter (PM) mass concentrations along the hollow. To ensure high quality of mobile measurement data, intercomparisons of mobile instruments with reference instruments were performed at two air quality stations during every run. Our study showed that aerosol pollution events in the relief depression were associated with high local emission intensities originating almost entirely from residential wood burning and shallow temperature inversions (58 m on average). The eBC and PM mass concentrations showed stronger associations with the potential temperature gradient (R2=0.8) than with any other meteorological parameters taken into account (ambient temperature, relative humidity, wind speed, wind direction, and precipitation). The strong association between the potential temperature gradient and pollutant concentrations suggests that even a small number of emission sources (total 243 households in the studied hollow) in similar hilly and mountainous rural areas with frequent temperature inversions can significantly increase the levels of eBC and PM and deteriorate local air quality. During temperature inversions the measured mean eBC and PM 2.5 mass concentrations in the whole hollow were as high as 4.5±2.6 and 48.0 ± 27.7 µ g m -3 , respectively, which is comparable to larger European urban centres. [ABSTRACT FROM AUTHOR]

Published

2022

5. The impact of temperature inversions on black carbon and particle mass concentrations in a mountainous area.

Author

Glojek, Kristina, Mocnik, Griša, Alas, Honey Dawn C., Cuesta-Mosquera, Andrea, Drinovec, Luka, Gregoric, Asta, Ogrin, Matej, Weinhold, Kay, Ježek, Irena, Müller, Thomas, Rigler, Martin, Remškar, Maja, van Pinxteren, Dominik, Herrmann, Hartmut, Ristorini, Martina, Merkel, Maik, Markelj, Miha, and Wiedensohler, Alfred

Abstract

Residential wood combustion is a widespread practice in Europe with a serious impact on air quality, especially in mountainous areas. While there is a significant number of studies conducted in deep urbanized valleys and basins, little is known about the air pollution processes in rural shallow hollows where around 30 % of the people in mountainous areas across Europe live. We aim to determine the influence of ground temperature inversions on wood combustion aerosol pollution in hilly, rural areas. The study uses Retje karst hollow (Loški Potok, Slovenia) as representative site for mountainous and hilly rural areas in central and southeastern Europe with residential wood combustion. Sampling with a mobile monitoring platform along the hollow was performed in December 2017 and January 2018. The backpack mobile monitoring platform was used for the determination of equivalent black carbon (eBC) and particulate matter (PM) mass concentrations along the hollow. To assure high quality of mobile measurement data, intercomparisons of mobile instruments with reference instruments were performed at two air quality stations during every run. Our study showed that aerosol pollution events in the relief depression were associated with high local emission intensities originating almost entirely from residential wood burning and shallow temperature inversions (58 m on average). The eBC and PM mass concentrations showed stronger associations with the potential temperature gradient (R2 = 0.8) than with any other meteorological parameters taken into account (ambient temperature, relative humidity, wind speed, wind direction and precipitation). The strong association between the potential temperature gradient and pollutant concentrations suggests that even a small number of emission sources (total 243 households in the studied hollow) in similar hilly and mountainous rural areas with frequent temperature inversions can significantly increase the levels of eBC and PM, and deteriorate local air quality. During temperature inversions the measured mean eBC and PM2.5 mass concentrations in the whole hollow were as high as 4.5 ± 2.6 µg m-3 and 48.0 ± 27.7 µg m-3, respectively, which is comparable to larger European urban centres. [ABSTRACT FROM AUTHOR]

Published

2021

6. Onesnaženost zraka s črnim ogljikom: Black carbon air pollution: case study of Loški Potok: študija primera iz Loškega Potoka

Author

Glojek, Kristina, Gregorič, Asta, and Ogrin, Matej

Abstract

The paper presents a study of air pollution caused by black carbon (BC) and fine particulate matter (PM) carried out in the rural area of the municipality of Loški Potok in the winter season of 2017/2018. Measurements of pollutants were performed at two different locations, one at Retje, a village at the bottom of a karst depression, and the other on the top of the Tabor hill in settlement Hrib. The measurement results exposed the main sources of black carbon air pollution in this area: domestic heating with biomass (almost 80% of all black carbon emissions) and unfavorable meteorological conditions for dilution of pollutants during temperature inversions. Three times higher concentrations were measured at Retje during temperature inversions than in the days of mixed atmosphere. In the winter of 2017/18, the average concentrations in the Retje hollow were even higher than those of Ljubljana, which calls attention to the problem of polluted air in rural areas too. Predstavljena je raziskava onesnaženosti zraka s črnim ogljikom in finimi delci na primeru podeželskega območja v občini Loški Potok v letu 2017/18. Meritve onesnažil so potekale na dveh različnih lokacijah, v vasi Retje na dnu kraške kotanje in na vrhu hriba Tabor v naselju Hrib. Rezultati meritev kažejo, da na onesnaženost zraka s črnim ogljikom vplivajo predvsem ogrevanje gospodinjstev na biomaso (skoraj 80 % vseh izpustov črnega ogljika) in neugodne meteorološke razmere za redčenje onesnažil v času temperaturnih inverzij, ko smo v Retjah izmerili več kot trikrat višje koncentracije kot v dneh s premešanim ozračjem. V zimi 2017/18 so bile povprečne koncentracije v Retijski kotanji celo višje kot v Ljubljani, kar opozarja na problem onesnaženega zraka tudi na podeželju.

Published

2018