Your search keyword '"Przemysław Makuch"' showing total 23 results

1. Lidar observation of aerosol transformation in the atmospheric boundary layer above the Baltic Sea

Author

Tadeusz Stacewicz, Przemysław Makuch, Tomasz Petelski, Stefan Sitarek, and Piotr Markuszewski

Subjects

0106 biological sciences, Effective radius, Atmospheric Science, 010504 meteorology & atmospheric sciences, Planetary boundary layer, 010604 marine biology & hydrobiology, Ocean Engineering, Aquatic Science, Oceanography, Atmospheric sciences, Sea spray, Atmospheric boundary layer, 01 natural sciences, Wind speed, Aerosol, Atmosphere, lcsh:Oceanography, Lidar, Particle-size distribution, Environmental science, Lidars measurements, lcsh:GC1-1581, Physics::Atmospheric and Oceanic Physics, 0105 earth and related environmental sciences

Abstract

Investigation results of a coarse and accumulation mode of aerosol properties above the Baltic Sea are reported. A most important role in the direct aerosol effect on climate have aerosols from the group of coarse and accumulation mode particles. Overseas in the atmosphere, there is a lot of aerosols from the fine fraction but their impact is not so important as coarse and accumulation mode particles. Sea spray emission from the sea surface takes place over a wide range of aerosol particle size distribution, it is also large in size range which are studying in this work ( Lewis and Schwartz, 2004 ). The discussed range is most important in view of atmospheric optical properties, smaller particles do not have such an influence on scattering as particles from range 0.5–2 µm. The research was performed with a multiwavelength lidar. Due to the application of special software, the aerosol particle size distributions were retrieved from the lidar returns. That provided an opportunity to determine the profiles of the aerosol effective radius. We showed that the aerosol properties depend mainly on the direction of the air mass advection and the wind speed. The impact of the Baltic Sea on the aerosol size distribution is huge in the case of the advection from the open sea. Moreover, the aerosol effective radiuses in the whole boundary layer are much larger in the case of strong than for light wind. Our results suggest that the aerosol flux and the aerosol particle size distribution should be related to the wind speed in the emission function.

Published

2021

2. A Decade of Poland-AOD Aerosol Research Network Observations

Author

Joanna Struzewska, Aleksander Pietruczuk, Jacek W. Kaminski, Arkadiusz Remut, Małgorzata Werner, Doina Nicolae, Olga Zawadzka-Manko, Joanna Uscka-Kowalkowska, Maciej Kryza, Piotr Markuszewski, Tymoteusz Sawiński, Krzysztof M. Markowicz, Tymon Zielinski, Kamila M. Harenda, Anna Rozwadowska, Jacek Markowicz, Iwona S. Stachlewska, Przemysław Makuch, Artur Szkop, Dongxiang Wang, Livio Belegante, Patryk Poczta, Anetta Drzeniecka-Osiadacz, Krzysztof Wiejak, Miroslaw Mietus, Michał T. Chiliński, Michał Posyniak, Wojciech Kumala, Bogdan H. Chojnicki, and Tomasz Petelski

Subjects

Atmospheric Science, Angstrom exponent, aerosol, aerosol optical depth, aerosol optical properties, Poland-AOD, radiometer, lidar, sun photometer, Longwave, Environmental Science (miscellaneous), Atmospheric sciences, Aerosol, Sun photometer, Atmospheric radiative transfer codes, Meteorology. Climatology, HYSPLIT, Mixing ratio, Environmental science, QC851-999, Shortwave

Abstract

The Poland-AOD aerosol research network was established in 2011 to improve aerosol–climate interaction knowledge and provide a real-time and historical, comprehensive, and quantitative database for the aerosol optical properties distribution over Poland. The network consists of research institutions and private owners operating 10 measurement stations and an organization responsible for aerosol model transport simulations. Poland-AOD collaboration provides observations of spectral aerosol optical depth (AOD), Ångstrom Exponent (AE), incoming shortwave (SW) and longwave (LW) radiation fluxes, vertical profiles of aerosol optical properties and surface aerosol scattering and absorption coefficient, as well as microphysical particle properties. Based on the radiative transfer model (RTM), the aerosol radiative forcing (ARF) and the heating rate are simulated. In addition, results from GEM-AQ and WRF-Chem models (e.g., aerosol mass mixing ratio and optical properties for several particle chemical components), and HYSPLIT back-trajectories are used to interpret the results of observation and to describe the 3D aerosol optical properties distribution. Results of Poland-AOD research indicate progressive improvement of air quality and at mospheric turbidity during the last decade. The AOD was reduced by about 0.02/10 yr (at 550 nm), which corresponds to positive trends in ARF. The estimated clear-sky ARF trend is 0.34 W/m2/10 yr and 0.68 W/m2/10 yr, respectively, at TOA and at Earth’s surface. Therefore, reduction in aerosol load observed in Poland can significantly contribute to climate warming.

Published

2021

3. Experimental study of smog microphysical and optical vertical structure in the Silesian Beskids, Poland

Author

Krzysztof M. Markowicz, Karolina Borek, Dominika Czyzewska, Kamil Kachniarz, K. Mijal, Przemysław Makuch, Michał Posyniak, S. Kucięba, Olga Zawadzka-Manko, Michał T. Chiliński, and Kinga Kulesza

Subjects

cable car, Atmospheric Science, Single-scattering albedo, Planetary boundary layer, single scattering albedo, Average level, aerosol optical depth, black carbon, Aethalometer, Atmospheric sciences, Pollution, Aerosol, vertical profile, Lidar, Middle phase, Environmental science, Particle, aerosol mass concentration, Waste Management and Disposal

Abstract

This study presents the vertical profiles of aerosol optical and microphysical properties obtained from cable car and ground-based measurements in the Silesian Beskids, Poland. The data were collected during a measurement campaign between 25 February and March 11, 2018. An AE-51 micro-aethalometer and PMS7003 and OPC-N2 optical particle counters were mounted on the cable car and used to measure the profiles of equivalent of black carbon (eBC) concentration and aerosol size distribution. In situ measurements of the optical properties of the aerosols were obtained using an AE-31 aethalometer and photoacoustic devices. A prototype lidar was used to determine the planetary boundary layer (PBL) height and the aerosol layers. In the middle phase of the study (1–6 March 2018), significant night-time temperature inversions were observed. During the inversion period, the parameters describing the amount of aerosols in the air increased significantly. The concentration of eBC exceeded the level of 15 μg/m3 several times, with an average level of 5.39 ± 4.42 μg/m3. Conversely, the results obtained in the first and third phases of the experiment were at the level of the aerosol background, being 1.45 ± 0.88 μg/m3 and 0.90 ± 0.95 μg/m3, respectively. Significant differences were also observed in the vertical profiles of PM10 mass and eBC concentration. In the middle phase of the study, the profiles showed a significant reduction in the concentration of pollutants with height, while in the first and third phases, there were slight variations with height.

Published

2021

4. Aerosol Optical Depth variations due to local breeze circulation in Kongsfjorden, Spitsbergen

Author

Tymon Zielinski, Malgorzata Cisek, Przemysław Makuch, Piotr Markuszewski, Anna Rozwadowska, Tomasz Petelski, and Paulina Pakszys

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Front (oceanography), Ocean Engineering, Fjord, Aerosol Optical Depth, Breeze circulation, Aquatic Science, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Wind speed, Aerosol, Svalbard, lcsh:Oceanography, Circulation (fluid dynamics), Open sea, Climatology, Environmental science, Regional aerosol modifications, lcsh:GC1-1581, 0105 earth and related environmental sciences

Abstract

Summary This paper presents the results of Aerosol Optical Depth (AOD) studies which took place in Ny-Alesund in the spring of 2014 during the iAREA campaign. The measurements were taken using Microtops II hand-held sunphotometers along the Kongsfjorden, on a path leading from the research village to the fjord opening. Local breeze circulation was observed during the measurement campaign which resulted in an evident increase of AOD along the measurement profile towards the open sea. Using the observed AOD, changes over the open sea have been calculated and the location of the breeze front has been determined.

Published

2017

5. Characterization of aerosol particles over the southern and South-Eastern Baltic Sea

Author

Przemysław Makuch, Steigvilė Byčenkienė, Dalia Jasinevičienė, Vadimas Dudoitis, Vidmantas Ulevicius, Jelena Andriejauskienė, Kristina Plauškaitė, Rūta Barisevičiūtė, Narciza Špirkauskaitė, Simonas Kecorius, Tomasz Petelski, Tymon Zielinski, and Andrius Garbaras

Subjects

Marine boundary layer, 010504 meteorology & atmospheric sciences, Particle number, Advection, Breaking wave, General Chemistry, 010501 environmental sciences, Oceanography, 01 natural sciences, Aerosol, Baltic sea, Environmental Chemistry, Environmental science, Cloud condensation nuclei, Air mass, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Studies of aerosol particle number concentration (PNC) level over open sea in the southern and south-eastern Baltic Sea regions were performed during five cruises (2005–2006, 2008–2010) by RV Oceania and at the coastal Preila station (Lithuania). A comparative analysis was performed of aerosol PNC variation at open sea versus measurements taken at the coastal site under various conditions (breaking waves, fog events, NPF), considering transport of forest fire products and advection of different air mass types to the investigation sites. It was found that the average PNC over the open sea (3000–4000 cm− 3) was generally higher than at the coastal site (2000–3000 cm− 3). Breaking waves caused by the latitudinal or longitudinal long-lasting (3–4 days) constant-direction wind under stormy conditions had the strongest effect on the aerosol PNC over the Baltic Sea. The aerosol PNC in the marine boundary layer (MBL) of the south-eastern Baltic Sea during fog did not depend on the air mass type over open sea, in contrast to the coastal site, that is, the average PNC level (3000–4000 cm− 3) in the MBL, which could be constantly affected by specific environmental factors as a source of condensation nuclei for the fog formation. Short-term increases of aerosol PNC in the MBL (5000–10,000 cm− 3) were higher than in the same periods of the time scale at the coastal site (3000–6000 cm− 3) during NPF events, and therefore the open sea environment may facilitate a more favourable condition for the NPF, that is, exhaust and biogenic emissions from ships and the marine environment.

Published

2017

6. Modelling and Observation of Mineral Dust Optical Properties over Central Europe

Author

Bogdan Zagajewski, Krzysztof M. Markowicz, Michał T. Chiliński, Przemysław Makuch, Olga Zawadzka, Wojciech Kumala, Iwona S. Stachlewska, Tomasz Petelski, and Douglas L. Westphal

Subjects

Geophysics, 010504 meteorology & atmospheric sciences, HYSPLIT, Environmental science, Mineral dust, 010502 geochemistry & geophysics, Atmospheric sciences, 01 natural sciences, Optical depth, 0105 earth and related environmental sciences, Aerosol, AERONET

Abstract

This paper is focused on Saharan dust transport to Central Europe/Poland; we compare properties of atmospheric Saharan dust using data from NAAPS, MACC, AERONET as well as observations obtained during HyMountEcos campaign in June 2012. Ten years of dust climatology shows that long-range transport of Saharan dust to Central Europe is mostly during spring and summer. HYSPLIT back-trajectories indicate airmass transport mainly in November, but it does not agree with modeled maxima of dust optical depth. NAAPS model shows maximum of dust optical depth (~0.04–0.05, 550 nm) in April–May, but the MACC modeled peak is broader (~0.04). During occurrence of mineral dust over Central-Europe for 14% (NAAPS) / 12% (MACC) of days dust optical depths are above 0.05 and during 4% (NAAPS) / 2.5% (MACC) of days dust optical depths exceed 0.1. The HyMountEcos campaign took place in June–July 2012 in the mountainous region of Karkonosze. The analysis includes remote sensing data from lidars, sunphotometers, and numerical simulations from NAAPS, MACC, DREAM8b models. Comparison of simulations with observations demonstrates the ability of models to reasonably reproduce aerosol vertical distributions and their temporal variability. However, significant differences between simulated and measured AODs were found. The best agreement was achieved for MACC model.

Published

2016

7. Stable carbon and nitrogen isotope ratio in PM1 and size segregated aerosol particles over the Baltic Sea

Author

Vidmantas Remeikis, null Garbariene, Przemysław Makuch, Agne Masalaite, Andrius Garbaras, Tomasz Petelski, Ulrike Dusek, and Isotope Research

Subjects

Delta, 010504 meteorology & atmospheric sciences, ANTHROPOGENIC SOURCES, DICARBOXYLIC-ACIDS, AIR-QUALITY, Airflow, General Physics and Astronomy, chemistry.chemical_element, OKINAWA ISLAND, 010501 environmental sciences, stable carbon and nitrogen isotope ratios, Combustion, 01 natural sciences, MARINE ATMOSPHERE, Diesel fuel, BACKGROUND SITES, Coal, 0105 earth and related environmental sciences, southeastern Baltic Sea region, business.industry, AMMONIA EMISSIONS, source apportionment, ORGANIC AEROSOLS, OUTFLOW REGION, Isotopes of nitrogen, Aerosol, PM1 and PM0.056-2.5, MAJOR IONS, chemistry, Environmental chemistry, Environmental science, business, Carbon

Abstract

We analysed δ13C of total carbon (TC) and δ15N of total nitrogen (TN) in submicron (PM1) and size segregated aerosol particles (PM0.056–2.5) collected during a cruise in the Baltic Sea from 9 to 17 November 2012. PM1 were characterized by the highest δ13C (–26.4‰) and lowest δ15N (–0.2 and 0.8‰) values when air masses arrived from the southwest direction (Poland). The obtained δ13C values indicated that combined emissions of coal and diesel/gasoline combustion were the most likely sources of TC. The depleted δ15N values indicated that TN originated mainly from liquid fuel combustion (road traffic, shipping) during this period. The lowest δ13C and highest δ15N values were determined in PM1 samples during the western airflow when the air masses had no recent contact with land. The highest δ15N values were probably associated with chemical aging of nitrogenous species during long-range transport, the lowest δ13C values could be related to emissions from diesel/gasoline combustion, potentially from ship traffic. The δ13C analysis of size-segregated aerosol particles PM0.056–2.5 revealed that the lowest δ13C values were observed in the size range from 0.056 to 0.18 µm and gradual 13C enrichment occurred in the size range from 0.18 to 2.5 µm due to different sources or formation mechanisms of the aerosols.

Published

2019

8. Comparison of Columnar, Surface, and UAS Profiles of Absorbing Aerosol Optical Depth and Single-Scattering Albedo in South-East Poland

Author

Michał T. Chiliński, Krzysztof M. Markowicz, Iwona S. Stachlewska, Przemysław Makuch, Justyna Lisok, and Olga Zawadzka

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, AOD, 010501 environmental sciences, Environmental Science (miscellaneous), lcsh:QC851-999, 01 natural sciences, AAOD, Troposphere, SSA, lidar, 0105 earth and related environmental sciences, Remote sensing, Nephelometer, Single-scattering albedo, Ceilometer, AERONET, Aerosol, Lidar, vertical profile, Extinction (optical mineralogy), sunphotometer, Environmental science, lcsh:Meteorology. Climatology, UAS, aethalometer

Abstract

The impact of absorbing aerosols on climate is complex, with their potential positive or negative forcing, depending on many factors, including their height distribution and reflective properties of the underlying background. Measurement data is very limited, due to insufficient remote sensing methods dedicated to the retrieval of their vertical distribution. Columnar values of absorbing aerosol optical depth (AAOD) and single scattering albedo (SSA) are retrieved by the Aerosol Robotic Network (AERONET). However, the number of available results is low due to sky condition and aerosol optical depth (AOD) limitation. Presented research describes results of field campaigns in Strzyż&oacute, w (South-East Poland, Eastern Europe) dedicated to the comparison of the absorption coefficient and SSA measurements performed with on-ground in-situ devices (aethalomter, nephelometer), small unmanned aerial system (UAS) carrying micro-aethalometer, as well as with lidar/ceilometer. An important aspect is the comparison of measurement results with those delivered by AERONET. Correlation of absorption to scattering coefficients measured on ground (0.79) and correlation of extinction on ground to AOD measured by AERONET (0.77) was visibly higher than correlation between AOD and AAOD retrieved by AERONET (0.56). Columnar SSA was weakly correlated with ground SSA (higher values of columnar SSA), which were mainly explained by hygroscopic effects, increasing scattering coefficient in ambient (wet conditions), and partly high uncertainty of SSA retrieval. AAOD derived with the use of profiles from UAS up to PBL height, was estimated to contribute in average to 37% of the total AAOD. A method of AAOD estimation, in the whole troposphere, with use of measured vertical profiles of absorption coefficient and extinction coefficient profiles from lidars was proposed. AAOD measured with this method has poor correlation with AERONET data, however for some measurements, within PBL, AAOD was higher than reported by AERONET, suggesting potential underestimation in photometric measurement under particular conditions. Correlation of absorption coefficient in profile to on ground measurements decrease with altitude. Measurements of SSA from drones agree well with ground measurements and are lower than results from AERONET, which suggests a larger contribution of absorbing aerosols. As an alternative for AAOD estimation in case of lack of AERONET AAOD data simple models are proposed, which base on AOD scaling with SSA measured with different methods. Proposed solution increase potential of absorption coefficient measurements in vertical profiles and columns of the atmosphere. Presented solutions make measurements of absorption coefficients in vertical profiles more affordable and allow rough estimation of columnar values for the whole atmosphere.

Published

2019

9. Study of aerosol optical properties during long-range transport of biomass burning from Canada to Central Europe in July 2013

Author

Anna Rozwadowska, Artur Szkop, Iwona S. Stachlewska, Tomasz Petelski, Lucja Janicka, Douglas L. Westphal, Olga Zawadzka, Tymon Zielinski, Krzysztof M. Markowicz, Aleksander Pietruczuk, Michał T. Chiliński, Przemysław Makuch, Michał Posyniak, Justyna Lisok, and Paulina Pakszys

Subjects

Fluid Flow and Transfer Processes, Atmospheric Science, Environmental Engineering, 010504 meteorology & atmospheric sciences, Single-scattering albedo, Mechanical Engineering, Forcing (mathematics), 010501 environmental sciences, Radiative forcing, Atmospheric sciences, 01 natural sciences, Pollution, Aerosol, AERONET, Troposphere, Environmental science, Tropopause, Air mass, 0105 earth and related environmental sciences

Abstract

The subject of this study is to use in-situ measurements, passive and active remote sensing observations, as well as numerical simulations to describe the temporal variability of aerosol single-scattering properties such as aerosol optical depth (AOD), single scattering albedo (SSA), and aerosol direct shortwave forcing at the Earth׳s surface during the transport of biomass burning (BB) aerosols from Canada to Europe between 2nd and 7th of July 2013. According to the MODIS observations made in the IR spectrum, an area of over 200,000 km 2 was affected by the BB during the episode. Regarding the AERONET data in Canada, results show a significant variability of AOD within the whole period with a special enhancement between 6th and 9th July, when AOD anomaly led to an increase up to 1.5 (500 nm). Low-values of SSA reported at Yellowknife Aurora and Waskesiu are likely to be due to flaming combustion from closely located source areas. MODIS and CALIPSO observations, as well as numerical simulations of the NAAPS model, show transport of smoke particles over the Northern Atlantic Ocean and further eastward. Indeed, the event was observed at a different times and locations over Europe between 2nd and 14th July. During that period a number of AERONET stations, mainly located close to the Baltic Sea reported AOD at 500 nm of above 1. Compared to Canada the SSA in Europe was higher, indicating particle transformation over the Atlantic Ocean. Lidar observations in the northern Poland showed aerosol layers occurring between PBL height and tropopause with a significant (up to 55%) contribution to the total AOD. However, lidar measurements in Central Poland (Warsaw and Belsk) indicate that aerosols were confined mainly in the middle and lower troposphere. A diurnal mean aerosol direct radiative forcing estimated at the ground level during the event was below −30 W/m 2 with radiative forcing efficiency between −60 and −100 W/m 2 /τ 500. The strongest efficiency was found at the Strzyzow station, which was caused by further air mass transformation during its transport over Poland.

Published

2016

10. 2014 iAREA campaign on aerosol in Spitsbergen – Part 1: Study of physical and chemical properties

Author

Michał T. Chiliński, Tymon Zielinski, Przemysław Makuch, Krzysztof M. Markowicz, Tomasz Petelski, Justyna Lisok, Paulina Pakszys, Maciej Jefimow, Iwona S. Stachlewska, Piotr Markuszewski, Joanna Struzewska, Anna Rozwadowska, Roberto Udisti, Silvia Becagli, Jacek W. Kaminski, Christoph Ritter, Rita Traversi, and Roland Neuber

Subjects

Arctic haze, Atmospheric Science, Angstrom exponent, 010504 meteorology & atmospheric sciences, Nephelometer, 010501 environmental sciences, Atmospheric sciences, 01 natural sciences, Aerosol, AERONET, Sun photometer, 13. Climate action, Diurnal cycle, Mass concentration (chemistry), Environmental science, 0105 earth and related environmental sciences, General Environmental Science

Abstract

This paper presents the results of measurements of aerosol physical and chemical properties during iAREA2014 campaign that took place on Svalbard between 15th of Mar and 4th of May 2014. With respect to field area, the experiment consisted of two sites: NyeAlesund (78�550N, 11�560E) and Longyearbyen (78�130N, 15�330E) with further integration of Aerosol Robotic Network (AERONET) station in Hornsund (77�000N, 15�330E). The subject of this study is to investigate the inesitu, passive and active remote sensing observations as well as numerical simulations to describe the temporal variability of aerosol singleescattering properties during spring season on Spitsbergen. The retrieval of the data indicates several event days with enhanced singleescattering properties due to the existence of sulphate and additional seaesalt load in the atmosphere which is possibly caused by relatively high wind speed. Optical results were confirmed by numerical simulations made by the GEMeAQ model and by chemical observations that indicated up to 45% contribution of the seaesalt to a PM10 total aerosol mass concentration. An agreement between the in-situ optical and microphysical properties was found, namely: the positive correlation between aerosol scattering coefficient measured by the nephelometer and effective radius obtained from laser aerosol spectrometer as well as negative correlation between aerosol scattering coefficient and the Angstrom exponent indicated that slightly larger particles dominated during special events. The inesitu surface observations do not show any significant enhancement of the absorption coefficient as well as the black carbon concentration which might occur during spring. All of extensive singleescattering properties indicate a diurnal cycle in Longyearbyen, where 21:00e5:00 data stays at the background level, however increasing during the day by the factor of 3e4. It is considered to be highly connected with local emissions originating in combustion, traffic and harbour activities. On the other hand, no daily fluctuations in NyeAlesund are observed. Mean values in NyeAlesund are equal to 8.2, 0.8 Mm�1 and 103 ng/m3 for scattering, absorption coefficients and black carbon concentration; however in Longyearbyen (only data from 21:00e05:00 UTC) they reach 7.9, 0.6 Mm�1 as well as 83 ng/ m3 respectively. Overall, the spring 2014 was considerably clean and seaesalt was the major aerosol component

Published

2016

11. Studies of vertical coarse aerosol fluxes in the boundary layer over the Baltic Sea**This work was supported through the National Science Centre grant NN 306315536; support for this study was also provided by the project ‘Satellite Monitoring of the Baltic Sea Environment – SatBałtyk’ funded by European Union through European Regional Development Fund contract No. POIG 01.01.02-22-011/09

Author

Andrzej Jankowski, Piotr Markuszewski, Tomasz Petelski, Przemysław Makuch, and Anna Rozwadowska

Subjects

Range (particle radiation), Aerosol concentration gradient, Atmospheric Science, food.ingredient, Air-sea interaction, Sea salt, Ocean Engineering, Aquatic Science, Atmospheric sciences, Sea spray, Oceanography, Wind speed, Aerosol, Boundary layer, lcsh:Oceanography, food, Baltic sea, Marine boundary layer, Environmental science, lcsh:GC1-1581, Sea spray aerosol, Sea salt aerosol, Coarse aerosol fluxes

Abstract

The results of studies of the vertical gradient of aerosol concentration measurements made during cruises of r/v ‘Oceania’ between 2008 and 2012 are presented. Using the results from those experiments, sea spray emission fluxes were calculated for all particles of sizes in the range from 0.5 μm to 8 μm, as well as for particles of sizes from fifteen channels of 0.5 μm width. The information obtained was further used to calculate the Sea Salt Generation Function (SSGF) for the Baltic Sea depending on the wind speed and the aerosol size distribution.

Published

2014

12. Corrigendum to 'Aerosol physical properties in Spitsbergen's fjords: Hornsund and Kongsfjorden during AREX campaigns in 2014 and 2015' [Oceanologia 59 (2017) 460–472]

Author

Anna Rozwadowska, Malgorzata Cisek, Przemysław Makuch, Piotr Markuszewski, and Tomasz Petelski

Subjects

lcsh:Oceanography, Atmospheric Science, geography, Oceanography, geography.geographical_feature_category, Environmental science, Ocean Engineering, Fjord, lcsh:GC1-1581, Aquatic Science, Aerosol

Published

2018

13. Chemical Composition of Aerosol over the Arctic Ocean from Summer ARctic EXpedition (AREX) 2011–2012 Cruises: Ions, Amines, Elemental Carbon, Organic Matter, Polycyclic Aromatic Hydrocarbons, n-Alkanes, Metals, and Rare Earth Elements

Author

Tymon Zielinski, Ezio Bolzacchini, Piotr Markuszewski, Giuseppe Sangiorgi, Paulina Pakszys, C Rizzi, Przemysław Makuch, Marco Cataldi, Rita Traversi, Maria Grazia Perrone, Luca Ferrero, Tomasz Petelski, Silvia Becagli, Ferrero, L, Sangiorgi, G, Perrone, M, Rizzi, C, Cataldi, M, Markuszewski, P, Pakszys, P, Makuch, P, Petelski, T, Becagli, S, Traversi, R, Bolzacchini, E, and Zielinski, T

Subjects

carboxylic acids, Atmospheric Science, Inorganic ion, 010504 meteorology & atmospheric sciences, aerosol, amines, Polycyclic aromatic hydrocarbon, chemistry.chemical_element, lcsh:QC851-999, 010501 environmental sciences, Environmental Science (miscellaneous), Inorganic ions, Carboxylic acid, 01 natural sciences, N-alkane, Svalbard, chemistry.chemical_compound, Arctic Ocean, polycyclic aromatic hydrocarbon, Organic matter, Dimethylamine, Chemical composition, Amine, Element, elemental carbon, 0105 earth and related environmental sciences, chemistry.chemical_classification, Total organic carbon, organic carbon, inorganic ions, Aerosol, elements, chemistry, CHIM/12 - CHIMICA DELL'AMBIENTE E DEI BENI CULTURALI, Environmental chemistry, lcsh:Meteorology. Climatology, n-alkanes, Carbon

Abstract

During the summers of 2011 and 2012, two scientific cruises were carried out over the Arctic Ocean aiming at the determination of the aerosol chemical composition in this pristine environment. First, mass spectrometry was applied to study the concentration and gas/particle partitioning of polycyclic aromatic hydrocarbons (PAHs) and n-alkanes. Experimental and modelled data of phase partitioning were compared: results demonstrated an equilibrium between gas and particle phase for PAHs, while n-alkanes showed a particle-oriented partitioning, due to the local marine origin of them, confirmed by the extremely low value of their carbon preference index. Moreover, the inorganic and organic ions (carboxylic acids and amines) concentrations, together with those of elemental carbon (EC) and organic matter (OM), were analyzed: 63% of aerosol was composed of ionic compounds (&gt, 90% from sea-salt) and the OM content was very high (30.5%, close to 29.0% of Cl&minus, ) in agreement with n-alkanes&rsquo, marine signature. Furthermore, the amines&rsquo, (dimethylamine, trimethylamine, diethylamine) concentrations were 3.98 &plusmn, 1.21, 1.70 &plusmn, 0.82, and 1.06 &plusmn, 0.56 p.p.t.v., respectively, fully in keeping with concentration values used in the CLOUD (Cosmics Leaving OUtdoor Droplet)-chamber experiments to simulate the ambient nucleation rate in a H2SO4-DMA-H2O system, showing the amines&rsquo, importance in polar regions to promote new particle formation. Finally, high resolution mass spectrometry was applied to determine trace elements, including Rare Earth Elements (REEs), highlighting the dominant natural versus anthropic inputs for trace metals (e.g., Fe, Mn, Ti vs. As, Cd, Ni) and possible signatures of such anthropic activity.

Published

2019

14. Studies of aerosol optical depth with the use of Microtops II sun photometers and MODIS detectors in coastal areas of the Baltic Sea

Author

Przemysław Makuch, Krzysztof M. Markowicz, Tomasz Petelski, Anna Rozwadowska, Tymon Zielinski, Olga Zawadzka, Dorota Gutowska, Agata Strzalkowska, and Vidmantas Ulevicius

Subjects

Angstrom exponent, Geophysics, Meteorology, Baltic sea, law, Detector, Environmental science, Photometer, Optical depth, Air mass, Remote sensing, law.invention, Aerosol

Abstract

In this paper we describe the results of a research campaign dedicated to the studies of aerosol optical properties in different regions of both the open Baltic Sea and its coastal areas. During the campaign we carried out simultaneous measurements of aerosol optical depth at 4 stations with the use of the hand-held Microtops II sun photometers. The studies were complemented with aerosol data provided by the MODIS. In order to obtain the full picture of aerosol situation over the study area, we added to our analyses the air mass back-trajectories at various altitudes as well as wind fields. Such complex information facilitated proper conclusions regarding aerosol optical depth and Angstrom exponent for the four locations and discussion of the changes of aerosol properties with distance and with changes of meteorological factors. We also show that the Microtops II sun photometers are reliable instruments for field campaigns. They are easy to operate and provide good quality results.

Published

2013

15. 2014 iAREA campaign on aerosol in Spitsbergen – Part 2: Optical properties from Raman-lidar and in-situ observations at Ny-Ålesund

Author

Piotr Markuszewski, Roberto Udisti, Krzysztof M. Markowicz, Justyna Lisok, Przemysław Makuch, Roland Neuber, Paulina Pakszys, Michael Gausa, Tymon Zielinski, Christoph Ritter, Iwona S. Stachlewska, Tomasz Petelski, A. Schulz, Anna Rozwadowska, Silvia Becagli, and Rita Traversi

Subjects

Arctic haze, Atmospheric Science, Lidar, Haze, 010504 meteorology & atmospheric sciences, Optical properties, Lidar ratio, 010501 environmental sciences, Radiative forcing, Atmospheric sciences, 01 natural sciences, Aerosol, Troposphere, Altitude, Environmental Science(all), 13. Climate action, Extinction (optical mineralogy), Arctic atmosphere, Environmental science, 0105 earth and related environmental sciences, General Environmental Science

Abstract

In this work multi wavelength Raman lidar data from Ny-Ålesund, Spitsbergen have been analysed for the spring 2014 Arctic haze season, as part of the iAREA campaign. Typical values and probability distributions for aerosol backscatter, extinction and depolarisation, the lidar ratio and the color ratio for 4 different altitude intervals within the troposphere are given. These quantities and their dependencies are analysed and the frequency of altitude-dependent observed aerosol events are given. A comparison with ground-based size distribution and chemical composition is performed. Hence the aim of this paper is to provide typical and statistically meaningful properties of Arctic aerosol, which may be used in climate models or to constrain the radiative forcing. We have found that the 2014 season was only moderately polluted with Arctic haze and that sea salt and sulphate were the most dominant aerosol species. Moreover the drying of an aerosol layer after cloud disintegration has been observed. Hardly any clear temporal evolution over the 4 week data set on Arctic haze is obvious with the exception of the extinction coefficient and the lidar ratio, which significantly decreased below 2 km altitude by end April. In altitudes between 2 and 5 km the haze season lasted longer and the aerosol properties were generally more homogeneous than closer to the surface. Above 5 km only few particles were found. The variability of the lidar ratio is discussed. It was found that knowledge of the aerosol’s size and shape does not determine the lidar ratio. Contrary to shape and lidar ratio, there is a clear correlation between size and backscatter: larger particles show a higher backscatter coefficient.

Published

2016

16. Remote sensing measurements of the volcanic ash plume over Poland in April 2010

Author

Krzysztof M. Markowicz, Olga Zawadzka, Tadeusz Stacewicz, Iwona S. Stachlewska, Aleksander Pietruczuk, Michał Posyniak, A. K. Jagodnicka, Przemysław Makuch, Piotr Sobolewski, Wojciech Kumala, Tomasz Petelski, and Tymon Zielinski

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, Atmospheric sciences, Ceilometer, Aerosol, Plume, Sun photometer, Lidar, Volcano, Environmental science, Mass concentration (chemistry), General Environmental Science, Volcanic ash, Remote sensing

Abstract

This work provides information on selected optical parameters related to volcanic ash produced during the eruption of the Eyjafjoll volcano in Iceland in 2010. The observations were made between 16 and 18 April 2010 at four stations representative for northern (Sopot), central (Warsaw, Belsk) and south-eastern (Strzyzow) regions of Poland. The largest ash plume (in terms of aerosol optical thickness) over Poland was observed at night of 16/17 April 2010 in the layer between 4 and 5.5 km a.s.l. The highest values of the aerosol extinction coefficient reached 0.06e0.08 km � 1 at 532 nm (based on lidar observations in Warsaw) and 0.02e0.04 km � 1 at 1064 nm (based on ceilometer observations in Warsaw). The corresponding optical thickness due to volcanic ash reached values of about 0.05 at 532 nm and about 0.03 at 1064 nm. These values are similar to those reported for the Belsk station based on lidar observations. The ash mass concentration estimated based on the maximum aerosol extinction coefficient reached 0.22 � 0.11 mg m � 3 . This value is significantly lower than the limit (2 mg m � 3 ) for the aircraft operation.

Published

2012

17. Studies of aerosols advected to coastal areas with the use of remote techniques

Author

Przemysław Makuch, Georgius Chourdakis, George Georgoussis, Susanne Kratzer, Krzysztof M. Markowicz, Tymon Zielinski, Agnieszka Ponczkowska, Agata Strzalkowska, and Tomasz Petelski

Subjects

Advection, Photometer, Atmospheric sciences, law.invention, AERONET, Aerosol, Sun photometer, Atmosphere, Geophysics, Lidar, law, Environmental science, Physics::Atmospheric and Oceanic Physics, Air mass, Remote sensing

Abstract

This paper presents the results of the studies of aerosol optical properties measured using lidars and sun photometers. We describe two case studies of the combined measurements made in two coastal zones in Crete in 2006 and in Rozewie on the Baltic Sea in 2009. The combination of lidar and sun photometer measurements provides comprehensive information on both the total aerosol optical thickness in the entire atmosphere as well as the vertical structure of aerosol optical properties. Combination of such information with air mass back-trajectories and data collected at stations located on the route of air masses provides complete picture of the aerosol variations in the study area both vertically and horizontally. We show that such combined studies are especially important in the coastal areas where depending on air mass advection directions and altitudes the influence of fine or coarse mode (in this case possibly sea-salt) particles on the vertical structure of aerosol optical properties is an important issue to consider.

Published

2012

18. Annual Changes of Aerosol Optical Depth and Ångström Exponent over Spitsbergen

Author

Michał T. Chiliński, Tomasz Petelski, Paulina Pakszys, Krzysztof M. Markowicz, Anna Rozwadowska, Roland Neuber, Justyna Lisok, Ch. Ritter, Tymon Zielinski, Roberto Udisti, Przemysław Makuch, and Mauro Mazzola

Subjects

Angstrom exponent, Haze, 13. Climate action, law, Climatology, Calibration, Environmental science, Atmospheric pollution, Photometer, law.invention, The arctic, Aerosol

Abstract

In this work we present the annual changes of two major, climate related aerosol optical parameters measured at three Spitsbergen locations, Ny-Alesund, Longyearbyen and Hornsund over a period between 2000 and 2012. We discuss the changes of aerosol optical depth (AOD) at 500 nm and the Angstrom exponent (AE) (440–870 nm) measured with use of different types of sun photometers. For the measurement data we adopted several data quality assurance techniques and the calibration of the instruments was taken into consideration. The results obtained show that marine source has been a dominating of aerosol sources over Spitsbergen. Some years (2005, 2006, 2008 and 2011) show very high values of AOD due to strong aerosol events such as the Arctic Haze. In general the mean AOD values increase over the period of 2000 and 2012 over Spitsbergen. This may indicate the presence of larger scale of atmospheric pollution in the region.

Published

2015

19. A Modern Approach to Aerosol Studies Over the Baltic Sea

Author

Paulina Pakszys, Olga Zawadzka, Agata Strzalkowska, and Przemysław Makuch

Subjects

Sun photometer, Earth's energy budget, Baltic sea, law, Open sea, Climatology, Environmental science, Photometer, Air mass, AERONET, law.invention, Aerosol

Abstract

Aerosols measured in coastal areas are significantly different from those over an open sea, both in terms of structure and physical properties. The aerosol composition and concentrations are generally uniform in the open sea area. In the case of coastal areas, the composition may be changed within a short period of time. Aerosols in coastal zone can be divided into three groups: the sea, a mixture of continental and maritime, and continental. This chapter describes the most representative day of a research campaign designed to characterize the optical properties of aerosols in the Baltic Sea (open sea and coastal areas). During the campaign, simultaneous measurements of aerosol optical depth were carried out at four stations around the Baltic Sea—Bornholm, Sopot, Preila and Liepaja, using the hand-held Microtops II sun photometers. The studies were supplemented with satellite data (MODIS) and the analysis of air mass back-trajectories at various altitudes and wind fields. Measurements were performed at four stations. Simultaneous measurements at these stations with use of Microtops sun photometer can provide important information on the aerosol optical depth (AOD) and hence on the radiation balance. Data obtained with Microtops complement well with those obtained from MODIS. Using wind field profiles we possibly detected sea surface impact on aerosol concentrations in Bornholm, where on 3 August 2011 the AOD was significantly greater, along with a strong onshore winds.

Published

2014

20. Aerosol properties and radiative forcing for three air masses transported in Summer 2011 to Sopot, Poland

Author

Anna Rozwadowska, Tymon Zielinski, Krzysztof M. Markowicz, Tomasz Petelski, Agata Strzalkowska, Przemysław Makuch, and Iwona S. Stachlewska

Subjects

Sunlight, Atmospheric radiation, Climatology, Transport pathways, Radiative transfer, Environmental science, Radiative forcing, Atmospheric sciences, Air mass, Atmospheric optics, Aerosol

Abstract

Properties of atmospheric aerosols and solar radiation reaching the Earth’s surface were measured during Summer 2011 in Sopot, Poland. Three cloudless days, characterized by different directions of incoming air-flows, which are typical transport pathways to Sopot, were used to estimate a radiative forcing due to aerosols present in each air mass.

Published

2013

21. Multiwavelength micropulse lidar in atmospheric aerosol study: signal processing

Author

Michał Posyniak, Krzysztof M. Markowicz, Tymon Zielinski, Szymon P. Malinowski, Tadeusz Stacewicz, Przemysław Makuch, and Tomasz Petelski

Subjects

Atmosphere, Depth sounding, Signal processing, Signal-to-noise ratio, Lidar, Environmental science, Kalman filter, Remote sensing, Aerosol

Abstract

Multiwavelength micropulse lidar (MML) designed for continuous optical sounding of the atmosphere is presented. A specific signal processing technique applying two directional Kalman filtering is introduced in order to enhance signal to noise ratio. Application of this technique is illustrated with profiles collected in course of COAST 2009 and WRNP 2010 research campaigns.

Published

2011

22. Impact of wild forest fires in Eastern Europe on aerosol composition and particle optical properties

Author

Tymon Zielinski, Tomasz Petelski, Przemysław Makuch, Agata Strzalkowska, and Paulina Pakszys

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Ocean Engineering, Particle (ecology), AOD, 010501 environmental sciences, Aquatic Science, Oceanography, Atmospheric sciences, 01 natural sciences, Wind speed, lcsh:Oceanography, lcsh:GC1-1581, 0105 earth and related environmental sciences, Smoke, Optical properties, AERONET, Aerosol, Biomass burning aerosols, Baltic sea, Climatology, Period (geology), Environmental science, Regional aerosol modifications, Aerosol composition

Abstract

Summary In this paper the authors discuss the changes of aerosol optical depth (AOD) in the region of eastern Europe and the Baltic Sea due to wild fire episodes which occurred in the area of Belarus and Ukraine in 2002. The authors discuss how the biomass burning aerosols were advected over the Baltic area and changed the composition of aerosol ensemble for a period of several summer weeks. The air pressure situation and slow wind speeds also facilitated the development of such conditions. As a consequence very high AOD levels were recorded, by an order of 3–4 higher versus normal conditions and they significantly increased the annual averages. On particular days of August 2002 the AOD values reached a level of over 0.7. On these days fine particles fully dominated the entire ensemble of aerosol particles. They were either sulfates or smoke particles. Such situation was unique over a period of many years and it had its serious consequences for the region and especially for the Baltic Sea.

23. Studies of the impact of aerosol optical properties on climate change processes

Author

Tymon Zielinski, Jakub Kowalczyk, Agnieszka Ponczkowska, Violeta Drozdowska, Przemysław Makuch, Jedrzej Pasnicki, Tomasz Petelski, Dorota Gutowska, Agata Strzalkowska, and Kasper Zielinski

Subjects

Environmental Engineering, Climate change, Environmental science, Management, Monitoring, Policy and Law, Atmospheric sciences, Pollution, Aerosol