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141 results on '"Stachlewska Iwona S."'

1. Lidar Derived Fine Scale Resolution Properties of Tropospheric Aerosol Mixtures

Author

Janicka Lucja, Böckmann Christine, Stachlewska Iwona S., and Wang Dongxiang

Subjects
Physics, QC1-999
Abstract

Fine scale resolution analysis was applied to the complicated aerosol structures observed with the PollyXT-UW lidar over Warsaw during the night of 9/10 August 2015. The full sets of the particle optical properties profiles, so called 3β+2α+2δ+wv (3 backscattering, 2 extinction coefficients, 2 depolarization ratios and water vapour mixing ratio), were obtained to discriminate multiple aerosol height sectors, which were then used for the microphysical properties inversion. The statistical characterization of the main aerosol/mixture types was obtained.

Published
2020
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2. Stratospheric Smoke Properties Based on Lidar Observations in Autumn 2017 Over Warsaw

Author

Wang Dongxiang and Stachlewska Iwona S.

Subjects
Physics, QC1-999
Abstract

Smoke layers in the stratosphere were observed during autumn 2017 using PollyXT-UW Raman lidar at the European Aerosol Research Lidar Network in the frame of the Aerosol Cloud and Trace Gases Research Infrastructure, i.e. the EARLINET-ACTRIS site in Warsaw, Poland. The analysis was focused on discriminating very weak signatures of smoke layers in the stratosphere and investigating their optical properties. Preliminary results are presented and discussed. A decrease of the lidar-derived stratospheric aerosol optical depth contribution to the total optical depth was detected after the stratospheric smoke particles circled Northern Hemisphere.

Published
2020
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3. Biomass Burning Measurements in Earlinet

Author

Adam Mariana, Nicolae Doina, Belegante Livio, Stachlewska Iwona S., Szczepanik Dominika, Mylonaki Maria, Papanikolaou Christiana Anna, Siomos Nikolaos, Voudouri Kalliopi A., Apituley Arnoud, Alados-Arboledas Luca, Bravo-Aranda Juan Antonio, Pietruczuk Aleksander, Chaikovski Anatoli, Sicard Michaël, Muñoz-Porcar Constantino, Mattis Ina, Papagiannopoulos Nikolaos, Mona Lucia, Baars Holger, Wandinger Ulla, Bortoli Daniele, Grigorov Ivan, Peshev Zahary, and Antonescu Bogdan

Subjects
Physics, QC1-999
Abstract

The biomass burning events are analyzed using the EARLINET-ACTRIS atmospheric profiling of aerosols using lidars. The period of 2008-2017 was chosen to analyze all the events assigned in the EARLINET database under Forest Fire category. A number of fourteen stations were considered. The data provided, ranged from complete data sets (backscatter, extinction and particle linear depolarization ratio) to single profiles (backscatter coefficient). A thorough quality control was performed. Smoke layers geometry was evaluated and the mean properties within each layer were computed. The Hysplit backward-trajectory technique and the FIRMS fire database were used to double check the source of each layer. Discussions were made under the following scenarios: fire events seen by two stations, long range transport from North America, and geographical clusters.

Published
2020
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4. Lidar Based Separation of Polluted Dust Observed Over Warsaw (Case Study on 09 August 2013)

Author

Szczepanik Dominika, Tetoni Eleni, Wang Dongxiang, and Stachlewska Iwona S.

Subjects
Physics, QC1-999
Abstract

This paper presents preliminary results of using an extended POLIPHON method for separation of dust and non-dust aerosol backscatter coefficient, applied on a case study of 9th August 2013. That day, long-range transport of mineral dust over EARLINET-ACTRIS lidar site in Warsaw was observed with the 8-channel PollyXT-UW lidar. The dust particles were also observed by the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) on board the CALIPSO satellite. The backward trajectories calculated using the HYSPLIT model confirmed the air-mass transport from Northern Africa. Results yield possible dust separation for the mixture of dust with other aerosol types, such as pollution, marine type, etc.

Published
2020
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5. Synergetic Observations by Ground-Based and Space Lidar Systems and Aeronet Sun-Radiometers: A Step to Advanced Regional Monitoring of Large Scale Aerosol Changes

Author

Chaikovsky Anatoli, Bril Andrey, Dubovik Oleg, Fedarenka Anton, Goloub Philippe, Hu Qiaoyun, Lopatin Anton, Lapyonok Tatyana, Miatselskaya Natallia, Torres Benjamin, Fuertes David, Peshcharankou Vladislau, Podvin Thierry, Popovici Ioana, Liu Dong, Li Zhengqiang, Soupiona Ourania, Mylonaki Maria, Mona Lucia, Giunta Aldo, Papagiannopoulos Nikolaos, Perrone Maria Rita, Romano Salvatore, Balis Dimitris, Siomos Nikolaos, Voudouri Kalliopi-Artemis, Belegante Livio, Nicolae Doina, Ene Dragos, Ajtai Nicolae, Stefanie Horatiu, Amiridis Vassilis, Tsekeri Alexandra, Bortoli Daniele, Costa Maria Joao, Mattis Ina, Rocadenbosch Francesc, Rodríguez-Gomez Alejandro, Sicard Michael, Fernandez Alfonso J., Molero Francisco, Althausen Dietrich, Baars Holger, Rascado Juan Luis Guerrero, Ortiz-Amezcua Pablo, Oltra José Antonio Benavent, Bedoya-Velásquez Andrés Esteban, Román Roberto, Alados-Arboledas Lucas, Balin Yurii, Kokhanenko Grigorii, Penner Ivan, Chen Boris, Sverdlik Leonid, Milinevsky Genadi, Sugimoto Nobuo, Shimizu Atsushi, Nishizawa Tomoaki, Kudo Rei, Sano Itaru, Yasunari Teppei J., Irie Hitoshi, Takemura Toshihiko, Kim Sang-Woo, Anh Nguyen Xuan, Thanh Pham Xuan, Pietruczuk Aleksander, Stachlewska Iwona S., Sannino Alessia, Wang Xuan, and Boselli Antonela

Subjects
Physics, QC1-999
Abstract

The paper presents the preliminary results of the lidar&radiometer measurement campaign (LRMC-2017), estimation of statistical relations between aerosol mode concentrations retrieved from CALIOP and ground-based lidar stations and case study of fire smoke events in the Eurasian regions using combined ground-based and space lidar and radiometer observations.

Published
2020
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6. Strategy for Multidimensional Peatland Ecosystem Analysis in the Context of the Atmospheric Properties

Author

Harenda Kamila M., Poczta Patryk, Szczepanik Dominika, Wang Dongxiang, Stachlewska Iwona S., and Chojnicki Bogdan H.

Subjects
Information technology, T58.5-58.64
Abstract

There is the need of integration of atmospheric and ecosystem research in order to assess the habitats reaction in the future since the recent climate changes. Peatlands due to their vulnerability are important ecosystems since their strong interaction with the climate system. In stable climatic conditions, they are atmospheric carbon sinks. The study of the atmosphere properties in the context of peatlands productivity requires the application of the multidimensional strategy of field measurements. These kind of measurements are conducted using the following sensors: sun photometer, cloud radar, Raman lidar and eddy covariance (EC) system. They are located and operated at the Rzecin peatland in the framework of the POLIMOS project. So far, aerosols presence in the air was found as a factor that increases the peatland production. This presents the novel strategy of extensive atmospheric studies in order to identify the selected particles type impact on peatlands carbon uptake capabilities.

Published
2018
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7. Strengths and limitations of the NATALI code for aerosol typing from multiwavelength Raman lidar observations

Author

Nicolae Doina, Talianu Camelia, Vasilescu Jeni, Nicolae Victor, and Stachlewska Iwona S.

Subjects
Physics, QC1-999
Abstract

A Python code was developed to automatically retrieve the aerosol type (and its predominant component in the mixture) from EARLINET’s 3 backscatter and 2 extinction data. The typing relies on Artificial Neural Networks which are trained to identify the most probable aerosol type from a set of mean-layer intensive optical parameters. This paper presents the use and limitations of the code with respect to the quality of the inputed lidar profiles, as well as with the assumptions made in the aerosol model.

Published
2018
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8. Lidar derived properties of air-masses advected from Ukraine, Sahara and Carpathian mountains to Warsaw, Poland on 9 - 11 August 2015

Author

Janicka Lucja, Szczepanik Dominika, Borek Karolina, Heese Birgit, and Stachlewska Iwona S.

Subjects
Physics, QC1-999
Abstract

The aerosol layers of different origin, suspended in the atmosphere on 9-11 August 2015 were observed with the PollyXT-UW lidar in Warsaw, Poland. The HYSPLIT ensemble backward trajectories indicate that the observed air-masses attribute to a few different sources, among others, possible transport paths from Ukraine, Slovakia, and Africa. In this paper, we attempt to analyse and discuss the properties of aerosol particles of different origin that were suspended over Warsaw during this event.

Published
2018
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9. PollyNET - an emerging network of automated raman-polarizarion lidars for continuous aerosolprofiling

Author

Baars Holger, Althausen Dietrich, Engelmann Ronny, Heese Birgit, Ansmann Albert, Wandinger Ulla, Hofer Julian, Skupin Annett, Komppula Mika, Giannakaki Eleni, Filioglou Maria, Bortoli Daniele, Silva Ana Maria, Pereira Sergio, Stachlewska Iwona S., Kumala Wojciech, Szczepanik Dominika, Amiridis Vassilis, Marinou Eleni, Kottas Michail, Mattis Ina, and Müller Gerhard

Subjects
Physics, QC1-999
Abstract

PollyNET is a network of portable, automated, and continuously measuring Ramanpolarization lidars of type Polly operated by several institutes worldwide. The data from permanent and temporary measurements sites are automatically processed in terms of optical aerosol profiles and displayed in near-real time at polly.tropos.de. According to current schedules, the network will grow by 3-4 systems during the upcoming 2-3 years and will then comprise 11 permanent stations and 2 mobile platforms.

Published
2018
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10. Validation of new satellite aerosol optical depth retrieval algorithm using Raman lidar observations at radiative transfer laboratory in Warsaw

Author

Zawadzka Olga, Stachlewska Iwona S., Markowicz Krzysztof M., Nemuc Anca, and Stebel Kerstin

Subjects
Physics, QC1-999
Abstract

During an exceptionally warm September of 2016, the unique, stable weather conditions over Poland allowed for an extensive testing of the new algorithm developed to improve the Meteosat Second Generation (MSG) Spinning Enhanced Visible and Infrared Imager (SEVIRI) aerosol optical depth (AOD) retrieval. The development was conducted in the frame of the ESA-ESRIN SAMIRA project. The new AOD algorithm aims at providing the aerosol optical depth maps over the territory of Poland with a high temporal resolution of 15 minutes. It was tested on the data set obtained between 11-16 September 2016, during which a day of relatively clean atmospheric background related to an Arctic airmass inflow was surrounded by a few days with well increased aerosol load of different origin. On the clean reference day, for estimating surface reflectance the AOD forecast available on-line via the Copernicus Atmosphere Monitoring Service (CAMS) was used. The obtained AOD maps were validated against AODs available within the Poland-AOD and AERONET networks, and with AOD values obtained from the PollyXT-UW lidar. of the University of Warsaw (UW).

Published
2018
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11. Earlinet validation of CATS L2 product

Author

Proestakis Emmanouil, Amiridis Vassilis, Kottas Michael, Marinou Eleni, Binietoglou Ioannis, Ansmann Albert, Wandinger Ulla, Yorks John, Nowottnick Edward, Makhmudov Abduvosit, Papayannis Alexandros, Pietruczuk Aleksander, Gialitaki Anna, Apituley Arnoud, Muñoz-Porcar Constantino, Bortoli Daniele, Dionisi Davide, Althausen Dietrich, Mamali Dimitra, Balis Dimitris, Nicolae Doina, Tetoni Eleni, Luigi Liberti Gian, Baars Holger, Stachlewska Iwona S., Voudouri Kalliopi-Artemis, Mona Lucia, Mylonaki Maria, Rita Perrone Maria, João Costa Maria, Sicard Michael, Papagiannopoulos Nikolaos, Siomos Nikolaos, Burlizzi Pasquale, Engelmann Ronny, Abdullaev Sabur F., Hofer Julian, and Pappalardo Gelsomina

Subjects
Physics, QC1-999
Abstract

The Cloud-Aerosol Transport System (CATS) onboard the International Space Station (ISS), is a lidar system providing vertically resolved aerosol and cloud profiles since February 2015. In this study, the CATS aerosol product is validated against the aerosol profiles provided by the European Aerosol Research Lidar Network (EARLINET). This validation activity is based on collocated CATS-EARLINET measurements and the comparison of the particle backscatter coefficient at 1064nm.

Published
2018
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12. Properties of arctic haze aerosol from lidar observations during iarea 2015 campaign on spitsbergen

Author

Stachlewska Iwona S., Ritter Christoph, Böckmann Christine, and Engelmann Ronny

Subjects
Physics, QC1-999
Abstract

Arctic Haze event was observed on 5-8 April 2015 using simultaneously Near-range Aerosol Raman Lidar of IGFUW and Koldewey Aerosol Raman Lidar of AWI, both based at AWIPEV German-French station in Ny-Ålesund, Spitsbergen. The alterations in particle abundance and altitude of the aerosol load observed on following days of the event is analyzed. The daytime profiles of particle optical properties were obtained for both lidars, and then served as input for microphysical parameters inversion. The results indicate aerosol composition typical for the Arctic Haze. However, in some layers, a likely abundance of aqueous aerosol or black carbon originating in biomass burning over Siberia, changes measurably the Arctic Haze properties.

Published
2018
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13. Aerosol absorption profiling from the synergy of lidar and sun-photometry: the ACTRIS-2 campaigns in Germany, Greece and Cyprus

Author

Tsekeri Alexandra, Amiridis Vassilis, Lopatin Anton, Marinou Eleni, Giannakaki Eleni, Pikridas Michael, Sciare Jean, Liakakou Eleni, Gerasopoulos Evangelos, Duesing Sebastian, Corbin Joel C., Gysel Martin, Bukowiecki Nicolas, Baars Holger, Engelmann Ronny, Wehner Birgit, Kottas Michael, Mamali Dimitra, Kokkalis Panagiotis, Raptis Panagiotis I., Stavroulas Iasonas, Keleshis Christos, Müller Detlef, Solomos Stavros, Binietoglou Ioannis, Mihalopoulos Nikolaos, Papayannis Alexandros, Stachlewska Iwona S., Igloffstein Julia, Wandinger Ulla, Ansmann Albert, Dubovik Oleg, and Goloub Philippe

Subjects
Physics, QC1-999
Abstract

Aerosol absorption profiling is crucial for radiative transfer calculations and climate modelling. Here, we utilize the synergy of lidar with sun-photometer measurements to derive the absorption coefficient and single scattering albedo profiles during the ACTRIS-2 campaigns held in Germany, Greece and Cyprus. The remote sensing techniques are compared with in situ measurements in order to harmonize and validate the different methodologies and reduce the absorption profiling uncertainties.

Published
2018
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14. Impact of biomass burning plume on radiation budget and atmospheric dynamics over the arctic

Author

Lisok Justyna, Pedersen Jesper, Ritter Christoph, Markowicz Krzysztof M., Malinowski Szymon, Mazzola Mauro, Udisti Roberto, and Stachlewska Iwona S.

Subjects
Physics, QC1-999
Abstract

The aim of the research was to determine the impact of July 2015 biomass burning event on radiative budget, atmospheric stratification and turbulence over the Arctic using information about the vertical structure of the aerosol load from the ground–based data. MODTRAN simulations indicated very high surface radiative cooling (forcing of –150 Wm–2) and a heating rate of up to 1.8 Kday–1 at 3 km. Regarding LES results, a turbulent layer at around 3 km was clearly seen after 48 h of simulation.

Published
2018
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16. Lidar Measurements of Canadian Forest Fire Smoke Episode Observed in July 2013 over Warsaw, Poland

Author

Janicka Lucja, Stachlewska Iwona S., Markowicz Krzysztof M., Baars Holger, Engelmann Ronny, and Heese Birgit

Subjects
Physics, QC1-999
Abstract

This paper presents a preliminary study of aerosol optical properties of air-mass advected on 10th July 2013 from Canada above Warsaw, Poland, during the forest fire event that occurred in Quebec at the beginning of July 2013. The observations were conducted with use of the modern version of 8-channel PollyXT lidar capable of measuring at 3β+2α+2δ+VW and interpreted with available information from the MACC model, the CALIPSO and MODIS satellite sensors, the AERONET data products and the data gathered within the Poland-AOD network.

Published
2016
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17. Study Case of Air-Mass Modification over Poland and Romania Observed by the Means of Multiwavelength Raman Depolarization Lidars

Author

Costa-Surós Montserrat, Janicka Lucja, Stachlewska Iwona S., Nemuc Anca, Talianu Camelia, Heese Birgit, and Engelmann Ronny

Subjects
Physics, QC1-999
Abstract

An air-mass modification, on its way from Poland to Romania, observed between 19-21 July 2014 is discussed. The air-mass was investigated using data of two multi-wavelength lidars capable of performing regular elastic, depolarization and Raman measurements in Warsaw, Poland, and in Magurele, Romania. The analysis was focused on evaluating optical properties of aerosol in order to search for similarities and differences in the vertical profiles describing the atmospheric layers above the two stations within given period.

Published
2016
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18. Comparing Water Vapor Mixing Ratio Profiles and Cloud Vertical Structure from Multiwavelength Raman Lidar Retrievals and Radiosounding Measurements

Author

Costa-Surós Montserrat, Stachlewska Iwona S., and Markowicz Krzysztof

Subjects
Physics, QC1-999
Abstract

A study of comparison of water vapor mixing ratio profiles, relative humidity profiles, and cloud vertical structures using two different instruments, a multiwavelength Aerosol-Depolarization-Raman lidar and radiosoundings, is presented. The observations were taken by the lidar located in Warsaw center and the radiosoundings located about 30km to the North in Legionowo (Poland). We compared the ground-based remote sensing technology with in-situ method in order to improve knowledge about water content thought the atmosphere and cloud formation. The method used for retrieving the cloud vertical structure can be improved comparing the radiosonde results with the lidar observations, which show promising results.

Published
2016
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19. Near-Range Receiver Unit of Next Generation PollyXT Used with Koldeway Aerosol Raman Lidar in Arctic

Author

Stachlewska Iwona S., Markowicz Krzysztof M., Ritter Christoph, Neuber Roland, Heese Birgit, Engelmann Ronny, and Linne Holger

Subjects
Physics, QC1-999
Abstract

The Near-range Aerosol Raman lidar (NARLa) receiver unit, that was designed to enhance the detection range of the NeXT generation PollyXT Aerosol-Depolarization-Raman (ADR) lidar of the University of Warsaw, was employed next the Koldeway Aerosol Raman Lidar (KARL) at the AWI-IPEV German-French station in Arctic during Spring 2015. Here we introduce shortly design of both lidars, the scheme of their installation next to each other, and preliminary results of observations aiming at arctic haze investigation by the lidars and the iCAP a set of particle counter and aethalometer installed under a tethered balloon.

Published
2016
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23. Dynamics of the Atmospheric Boundary Layer over two middle-latitude rural sites with Doppler lidar

Author

Ortiz-Amezcua, Pablo, Andújar-Maqueda, Juana, Manninen, Antti J., Pentikäinen, Pyry, O'Connor, Ewan J., Stachlewska, Iwona S., de Arruda Moreira, Gregori, Benavent-Oltra, José Antonio, Casquero-Vera, Juan Andrés, Poczta, Patryk, Wang, Dongxiang, Harenda, Kamila M., Chojnicki, Bogdan H., Szczepanik, Dominika M., Janicka, Łucja, Schüttemeyer, Dirk, Alados-Arboledas, Lucas, and Guerrero-Rascado, Juan Luis

Published
2022
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25. Investigation of non-equilibrium turbulence decay in the atmospheric boundary layer using Doppler lidar measurements.

Author

Karasewicz, Maciej, Wacławczyk, Marta, Ortiz-Amezcua, Pablo, Janicka, Łucja, Poczta, Patryk, and Stachlewska, Iwona S.

Abstract

This work concerns analysis of turbulence in the Atmospheric Boundary Layer (ABL) short before and after the sunset. Based on a large set of the Doppler lidar measurements at rural and urban sites we analyze frequency spectra of vertical wind at different heights and show that they increasingly deviate from the -5/3 Kolmogorov's prediction in the measured lowwavenumber part of the inertial range. We find that before the sunset the integral length scales tend to decrease with time. These findings contrast with a classical model of equilibrium decay of isotropic turbulence, which predicts that the scaling exponent should remain constant and equal to -5/3 and the integral length scale should increase in time. We explain the observations using recent theories of non-equilibrium turbulence. The presence of non-equilibrium suggests that classical parametrization schemes fail to predict turbulence statistics short before the sunset. By comparing the classical and the non-equilibrium models we conclude that the former may underestimate the dissipation rate of turbulence kinetic energy in the initial stages of decay. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Long-Term MERRA-2 Reanalysis Data Indicate Atmospheric Environmental Changes for Three Major Concentrating-Solar-Power-Plant Project Areas in Xinjiang, China.

Author

Dai, Zengli, Wang, Dongxiang, Wang, Renbao, Song, Xiupeng, Stachlewska, Iwona S., Han, Zhaohui, and Song, Xiaoquan

Subjects
SPRING, SOLAR energy, AUTUMN, AEROSOLS, HELIOSTATS
Abstract

The characteristics, distributions, and trends of the aerosol optical depth (AOD) and dust aerosol optical depth (DAOD) of three major concentrating solar power (CSP)-plant project areas (Hami, Turpan, and Ruoqiang) in Xinjiang, China were investigated and analyzed during 1980–2022 using the Modern-Era Retrospective analysis for Research and Applications Version 2 (MERRA-2) reanalysis products. The monthly variation, seasonal variation, inter-annual variation, distributions of AOD and DAOD, and proportions of dust in the aerosols in these three CSP-plant project areas were computed and analyzed. Overall, the annual mean AOD at 550 nm in the Turpan project area was the highest (0.20–0.36), while Ruoqiang had the lowest annual mean AOD at 550 nm (0.13–0.30), and the annual mean AOD at 550 nm in Hami was distributed between 0.17 and 0.33. After 2010, the change in the rate of the annual mean AOD showed an overall downward trend in Hami and Ruoqiang, indicating that the atmospheric environmental changes in both areas were more favorable for the operation of CSP plants. In the project areas of Hami, Turpan, and Ruoqiang, more than 90% of the AOD values were mainly in ranges 0.10–0.30, 0.10–0.35, and 0.05–0.30, respectively. As expected, the AOD values in spring and summer were significantly higher than those in autumn and winter in the three study areas. In spring, the dust contents (i.e., ratios of DAOD to AOD) were the highest, accounting for 64% (Hami), 67% (Turpan), and 69% (Ruoqiang) of the total aerosol contents. In all three areas, the proportions of dust in aerosols in spring have shown an increasing trend since 2000, suggesting that the negative impact of the dust on the power generation efficiency in these areas has gradually been increasing. Therefore, it is recommended that the CSP plants in Hami, Turpan, and Ruoqiang develop a strategy for cleaning heliostats, especially in spring, to reduce the impact of dust adhesion on the efficiency of the CSP plants. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Satellite observations showed a negligible reduction in NO2 pollution due to COVID-19 lockdown over Poland

Author

Ugboma, Emeka A., Stachlewska, Iwona S., Schneider, Philipp, and Stebel, Kerstin

Abstract

The tropospheric NO2 column from Sentinel-5P/TROPOMI (2018–2020) and Aura/OMI (2010–2020) over Poland, notably for 7 major Polish cities, was used to assess the annual variability and the COVID-19 lockdown effect. On a national scale, during lockdown (March–June 2020), strong sources of pollution were found in Katowice and Warszawa, as well as at the power plant in Bełchatów. A gradual drop in OMI NO2 values between March and June was found for all cities and the entire domain of Poland, this being a part of the annual NO2 cycle derived for every year from 2010 to 2020. In fact, the gradual drop of NO2 in the lockdown year was within the typical monthly and annual variability. In March 2020, Kraków showed the highest NO2 reduction rate. A reduction of NO2 was observed in Gdańsk, Wrocław, and Warszawa during every month of the lock-down period. Several factors, including wind speed and direction, temperature, and increased emission sources, can limit the dispersion and removal of NO2. Although meteorological conditions have a significant impact on the annual cycle of NO2 in Poland, it is important to note that anthropogenic emissions remain the primary driver of NO2 concentrations. Therefore, the study concludes that the effect of COVID-19 restrictions on NO2 pollution was negligible and clarifies the current understanding of the COVID-19 effect over Poland, with an emphasis on hotspots in the major Polish cities and their vicinity. This is consistent with our understanding that the reduction of NO2 pollution is seen in cities due to reduced traffic (domestic, municipal, and airborne).

Published
2023

31. DeLiAn – a growing collection of depolarization ratio, lidar ratio and Ångström exponent for different aerosol types and mixtures from ground-based lidar observations.

Author

Floutsi, Athena Augusta, Baars, Holger, Engelmann, Ronny, Althausen, Dietrich, Ansmann, Albert, Bohlmann, Stephanie, Heese, Birgit, Hofer, Julian, Kanitz, Thomas, Haarig, Moritz, Ohneiser, Kevin, Radenz, Martin, Seifert, Patric, Skupin, Annett, Yin, Zhenping, Abdullaev, Sabur F., Komppula, Mika, Filioglou, Maria, Giannakaki, Elina, and Stachlewska, Iwona S.

Subjects
TROPOSPHERIC aerosols, MINERAL dusts, AEROSOLS, LIDAR, VOLCANIC ash, tuff, etc., MIXTURES, EXPONENTS
Abstract

This paper presents a collection of lidar-derived aerosol intensive optical properties for several aerosol types, namely the particle linear depolarization ratio, the extinction-to-backscatter ratio (lidar ratio) and the Ångström exponent. The data collection, named DeLiAn, is based on globally distributed, long-term, ground-based, multiwavelength, Raman and polarization lidar measurements, conducted mainly with lidars that have been developed at the Leibniz Institute for Tropospheric Research. The intensive optical properties are presented at two wavelengths, 355 and 532 nm, for 13 aerosol categories. The categories cover the basic aerosol types (i.e., marine, pollution, continental European background, volcanic ash, smoke, mineral dust), as well as the most frequently observed mixtures they form. This extensive collection also incorporates more peculiar aerosol categories, including dried marine aerosol that, compared to marine aerosol, exhibits a significantly enhanced depolarization ratio (up to 15 %). Besides Saharan dust, additional mineral dust types related to their source region were identified due to their lower lidar ratios (Central Asian and Middle Eastern dust). In addition, extreme wildfire events (such as in north America and Australia) emitted smoke into the stratosphere showing significantly different optical properties, i.e., high depolarization values (up to 25 %), compared to tropospheric smoke. The data collection reflects and underlines the variety of aerosol mixtures in the atmosphere and can be used for the development of aerosol-typing schemes. The paper contains the most up-to-date and comprehensive overview of optical properties from aerosol lidar measurements and, therefore, provides a solid basis for future aerosol retrievals in the frame of both spaceborne and ground-based lidars. Furthermore, DeLiAn can assist the efforts for the harmonization of satellite records of aerosol properties performed at different wavelengths. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Editorial: Lidar and ocean color remote sensing for marine ecology.

Author

Peng Chen, Kokkalis, Panagiotis, Yudi Zhou, and Stachlewska, Iwona S.

Subjects
REMOTE sensing of the atmosphere, OPTICAL remote sensing, OCEAN-atmosphere interaction, REMOTE sensing, METEOROLOGICAL optics
Abstract

This document is an editorial titled "Lidar and ocean color remote sensing for marine ecology" published in the journal Frontiers in Remote Sensing. The editorial highlights the advancements and applications of lidar and ocean color remote sensing in marine ecology. It discusses four papers published in the research topic, which cover topics such as machine learning algorithms for cloud and aerosol detection, estimation of planetary boundary layer height, underwater laser detection, and validation protocols for space-borne lidar measurements. The editorial emphasizes the importance of interdisciplinary approaches in advancing marine ecological studies and points towards future directions for research and application in this field. [Extracted from the article]

Published
2024
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35. DeLiAn – a growing collection of depolarization ratio, lidar ratio and Ångström exponent for different aerosol types and mixtures from ground-based lidar observations.

Author

Floutsi, Athena Augusta, Baars, Holger, Engelmann, Ronny, Althausen, Dietrich, Ansmann, Albert, Bohlmann, Stephanie, Heese, Birgit, Hofer, Julian, Kanitz, Thomas, Haarig, Moritz, Ohneiser, Kevin, Radenz, Martin, Seifert, Patric, Skupin, Annett, Zhenping Yin, Abdullaev, Sabur F., Komppula, Mika, Filioglou, Maria, Giannakaki, Elina, and Stachlewska, Iwona S.

Subjects
MINERAL dusts, AEROSOLS, TROPOSPHERIC aerosols, LIDAR, MICROBIOLOGICAL aerosols, VOLCANIC ash, tuff, etc., MIXTURES, EXPONENTS
Abstract

This paper presents a collection of lidar-derived aerosol intensive optical properties for several aerosol types, namely the particle linear depolarization ratio, the extinction-to-backscatter ratio (lidar ratio) and the Ångström exponent. The data collection, named DeLiAn, is based on globally distributed, long-term, ground-based, multiwavelength, Raman and polarisation lidar measurements, conducted mainly with lidars that have been developed at the Leibniz Institute for Tropospheric Research. The intensive optical properties are presented at two wavelengths, 355 and 532 nm, for 13 aerosol categories. The categories cover the basic aerosol types (i.e., marine, pollution, continental European background, volcanic ash, smoke, mineral dust) as well as the most frequently observed mixtures they form. This extensive collection also incorporates more peculiar aerosol categories, including dried marine aerosol that, compared to marine aerosol, exhibits a significantly enhanced depolarization ratio (up to 15 %). Besides Saharan dust, additional mineral dust types related to their source region were identified due to their lower lidar ratios (Central Asian and Middle Eastern dust). In addition, extreme wildfire events (such as in north America and Australia) emitted smoke into the stratosphere showing significant different optical properties, i.e., high depolarization values (up to 25 %), compared to tropospheric smoke. The data collection reflects and underlines the variety of aerosol mixtures in the atmosphere and can be used for the development of aerosol typing schemes. The paper contains the currently most comprehensive overview of optical properties from aerosol lidar measurements and, therefore, provides a solid basis for future aerosol retrievals in the frame of both spaceborne and ground-based lidars. Furthermore, DeLiAn can assist the efforts for harmonization of satellite records of aerosol properties performed at different wavelengths. [ABSTRACT FROM AUTHOR]

Published
2022
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37. First Ever Observations of Mineral Dust in Wintertime over Warsaw, Poland.

Author

Szczepanik, Dominika M., Ortiz-Amezcua, Pablo, Heese, Birgit, D'Amico, Giuseppe, and Stachlewska, Iwona S.

Subjects
MINERAL dusts, WINTER, DUST, TEMPERATE climate, TROPICAL climate, AIR masses, AEROSOLS
Abstract

The long-range transport of desert dust over the area of the temperate climate zone is associated with the influx of hot air masses due to the location of the sources of this aerosol in the tropical climate zone. Between 24–26 February 2021, such an aerosol outbreak took place and reached Central Europe. The mean temperature of +11.7 °C was recorded during the event. A comparison of this value to the 20-year (2000–2020) average February temperature for Warsaw (−0.2 °C) indicates the uniqueness of the meteorological conditions. It was the first wintertime inflow of Saharan dust over Warsaw, the presence of which was confirmed by lidar and sun-photometer measurements. The properties of the desert dust layers were obtained; the mean values of the particle depolarization for the fully developed mineral dust layer were 13 ± 3% and 22 ± 4% for 355 and 532 nm, respectively. The aerosol optical thickness was high with average values >0.36 for all wavelengths smaller than 500 nm. The three-modal, aerosol size distribution was dominated by coarse-mode particles, with a visible contribution of accumulation-mode particles. It suggests the possible presence of other aerosol types. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Pollen observations at four EARLINET stations during the ACTRIS-COVID-19 campaign.

Author

Shang, Xiaoxia, Baars, Holger, Stachlewska, Iwona S., Mattis, Ina, and Komppula, Mika

Subjects
POLLEN, ELECTRONIC data processing, TRACE gases
Abstract

Lidar observations were analysed to characterize atmospheric pollen at four EARLINET (European Aerosol Research Lidar Network) stations (Hohenpeißenberg, Germany; Kuopio, Finland; Leipzig, Germany; and Warsaw, Poland) during the ACTRIS (Aerosol, Clouds and Trace Gases Research Infrastructure) COVID-19 campaign in May 2020. The reanalysis (fully quality-assured) lidar data products, after the centralized and automatic data processing with the Single Calculus Chain (SCC), were used in this study, focusing on particle backscatter coefficients at 355 and 532 nm and particle linear depolarization ratios (PDRs) at 532 nm. A novel method for the characterization of the pure pollen depolarization ratio was presented, based on the non-linear least square regression fitting using lidar-derived backscatter-related Ångström exponents (BAEs) and PDRs. Under the assumption that the BAE between 355 and 532 nm should be zero (±0.5) for pure pollen, the pollen depolarization ratios were estimated: for Kuopio and Warsaw stations, the pollen depolarization ratios at 532 nm were of 0.24 (0.19–0.28) during the birch-dominant pollen periods, whereas for Hohenpeißenberg and Leipzig stations, the pollen depolarization ratios of 0.21 (0.15–0.27) and 0.20 (0.15–0.25) were observed for periods of mixture of birch and grass pollen. The method was also applied for the aerosol classification, using two case examples from the campaign periods; the different pollen types (or pollen mixtures) were identified at Warsaw station, and dust and pollen were classified at Hohenpeißenberg station. [ABSTRACT FROM AUTHOR]

Published
2022
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39. The unprecedented 2017 - 2018 stratospheric smoke event: decay phase and aerosol properties observed with the EARLINET

Author

Baars, Holger, Ansmann, Albert, Ohneiser, Kevin, Haarig, Moritz, Engelmann, Ronny, Althausen, Dietrich, Hanssen, Ingrid, Gausa, Michael, Pietruczuk, Aleksander, Szkop, Artur, Stachlewska, Iwona S., Wang, Dongxiang, Reichardt, Jens, Skupin, Annett, Mattis, Ina, Trickl, Thomas, Vogelmann, Hannes, Navas-Guzmán, Francisco, Haefele, Alexander, Acheson, Karen, Ruth, Albert A., Tatarov, Boyan, Müller, Detlef, Hu, Qiaoyun, Podvin, Thierry, Goloub, Philippe, Veselovskii, Igor, Pietras, Christophe, Haeffelin, Martial, Fréville, Patrick, Sicard, Michaël, Comerón, Adolfo, Fernández García, Alfonso Javier, Molero Menéndez, Francisco, Córdoba-Jabonero, Carmen, Guerrero-Rascado, Juan Luis, Alados-Arboledas, Lucas, Bortoli, Daniele, Costa, Maria João, Dionisi, Davide, Liberti, Gian Luigi, Wang, Xuan, Sannino, Alessia, Papagiannopoulos, Nikolaos, Boselli, Antonella, Mona, Lucia, D&amp, apos, Amico, Giuseppe, Romano, Salvatore, Perrone, Maria Rita, Belegante, Livio, Nicolae, Doina, Grigorov, Ivan, Gialitaki, Anna, Amiridis, Vassilis, Soupiona, Ourania, Papayannis, Alexandros, Mamouri, Rodanthi-Elisaveth, Nisantzi, Argyro, Heese, Birgit, Hofer, Julian, Schechner, Yoav Y., Wandinger, Ulla, and Pappalardo, Gelsomina

Subjects
Earth sciences, EARLINET, stratospheric smoke, ddc:550, lidar
Abstract

Six months of stratospheric aerosol observations with the European Aerosol Research Lidar Network (EARLINET) from August 2017 to January 2018 are presented. The decay phase of an unprecedented, record-breaking stratospheric perturbation caused by wildfire smoke is reported and discussed in terms of geometrical, optical, and microphysical aerosol properties. Enormous amounts of smoke were injected into the upper troposphere and lower stratosphere over fire areas in western Canada on 12 August 2017 during strong thunderstorm–pyrocumulonimbus activity. The stratospheric fire plumes spread over the entire Northern Hemisphere in the following weeks and months. Twenty-eight European lidar stations from northern Norway to southern Portugal and the eastern Mediterranean monitored the strong stratospheric perturbation on a continental scale. The main smoke layer (over central, western, southern, and eastern Europe) was found at heights between 15 and 20 km since September 2017 (about 2 weeks after entering the stratosphere). Thin layers of smoke were detected at heights of up to 22–23 km. The stratospheric aerosol optical thickness at 532 nm decreased from values > 0.25 on 21–23 August 2017 to 0.005–0.03 until 5–10 September and was mainly 0.003–0.004 from October to December 2017 and thus was still significantly above the stratospheric background (0.001–0.002). Stratospheric particle extinction coefficients (532 nm) were as high as 50–200 Mm−1 until the beginning of September and on the order of 1 Mm−1 (0.5–5 Mm−1) from October 2017 until the end of January 2018. The corresponding layer mean particle mass concentration was on the order of 0.05–0.5 µg m−3 over these months. Soot particles (light-absorbing carbonaceous particles) are efficient ice-nucleating particles (INPs) at upper tropospheric (cirrus) temperatures and available to influence cirrus formation when entering the tropopause from above. We estimated INP concentrations of 50–500 L−1 until the first days in September and afterwards 5–50 L−1 until the end of the year 2017 in the lower stratosphere for typical cirrus formation temperatures of −55 ∘C and an ice supersaturation level of 1.15. The measured profiles of the particle linear depolarization ratio indicated a predominance of nonspherical smoke particles. The 532 nm depolarization ratio decreased slowly with time in the main smoke layer from values of 0.15–0.25 (August–September) to values of 0.05–0.10 (October–November) and

Published
2019
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40. Properties of Saharan Dust Versus Local Urban Dust—A Case Study.

Author

Szczepanik, Dominika M., Stachlewska, Iwona S., Tetoni, Eleni, and Althausen, Dietrich

Subjects
*MINERAL dusts, *WATER vapor, *DUST, *AEROSOL analysis, *TRACE gases, *MULTISCALE modeling, *BOUNDARY layer (Aerodynamics)
Abstract

On June 29–30, 2019, the Barcelona Dust Forecast Center with Non‐hydrostatic Multiscale Model (NMMB/BSC‐Dust) and the Navy Aerosol Analysis and Prediction System forecasted huge amounts of mineral dust over Poland. The Hybrid Single Particle Lagrangian Integrated Trajectory model confirmed uniquely fast (120 hr) long‐range air‐mass transport form North Africa to Poland. This remarkable dust event was observed using lidar at the Aerosol, Clouds and Trace Gases Research InfraStructure site in Warsaw, Central Poland; the only site equipped with Raman‐Mie polarization water vapor lidar in East‐Central Europe. The excellent capabilities of PollyXT lidar allowed to obtain an impressive number of 31 full sets of aerosol optical properties profiles, which enabled study of dust properties evolution on a rare hourly scale. The analyses were completed with the separation of fine and coarse mode dust particles form non‐dust particles using the POlarization‐LIdar PHOtometer Networking algorithm. Huge amount of an exceptionally pure mineral dust from Sahara measured in the free troposphere was characterized by a gradually decreasing coarse dust fraction (76%–21%) with a peak of fine dust fraction (67%) and particle linear depolarization ratio (26%) in the middle of the event. Within the boundary layer, a local urban dust mixed with pollution was observed with fine mode dust particles dominating (44%) and lower particle linear depolarization ratio (7.4%). The influx of pure mineral dust has been unique to this geographical region and will therefore be a reference point for future research and comparative studies. Key Points: Unusually fast, uniform, and quasi‐stable pure mineral dust inflow form Sahara Desert to East‐Central EuropeAdvected Saharan dust composed of significant fractions of fine and coarse mode dust particles evolving in timeLocal urban/agro dust with no evidence of coarse mode particles [ABSTRACT FROM AUTHOR]

Published
2021
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41. Pollen observations at four EARLINET stations during the ACTRIS-COVID-19 campaign.

Author

Xiaoxia Shang, Baars, Holger, Stachlewska, Iwona S., Mattis, Ina, and Komppula, Mika

Abstract

Lidar observations were analysed to characterize atmospheric pollen at four EARLINET (European Aerosol Research Lidar Network) stations (Hohenpeißenberg, Germany; Kuopio, Finland, Leipzig, Germany; and Warsaw, Poland) during the ACTRIS-COVID-19 campaign in May 2020. The re-analysis lidar data products, after the centralized and automatic data processing with the Single Calculus Chain (SCC), were used in this study, focusing on particle backscatter coefficients at 355 nm and 532 nm, and particle linear depolarization ratios (PDRs) at 532 nm. A novel method for the characterization of the pure pollen depolarization ratio was presented, based on the non-linear least square regression fitting using lidar-derived backscatter-related Ångström exponents (BAEs) and PDRs. Under the assumption that the BAE between 355 and 532 nm should be zero (± 0.5) for pure pollen, the pollen depolarization ratios were estimated: for Kuopio and Warsaw stations, the pollen depolarization ratios at 532 nm were of 0.24 (0.19-0.28) during the birch dominant pollen periods; whereas for Hohenpeißenberg and Leipzig stations, the pollen depolarization ratios of 0.21 (0.15-0.27) and 0.20 (0.15-0.25) were observed for periods of mixture of birch and grass pollen. The method was also applied for the aerosol classification, using two case examples from the campaign periods: the different pollen types (or pollen mixtures) were identified at Warsaw station, and dust and pollen were classified at Hohenpeißenberg station. [ABSTRACT FROM AUTHOR]

Published
2021
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42. Biomass burning events measured by lidars in EARLINET - Part 2: Optical properties investigation.

Author

Adam, Mariana, Stachlewska, Iwona S., Mona, Lucia, Papagiannopoulos, Nikolaos, Bravo-Aranda, Juan Antonio, Sicard, Michaël, Nicolae, Doina, Belegante, Livio, Janicka, Lucja, Szczepanik, Dominika, Mylonaki, Maria, Papanikolaou, Christina-Anna, Siomos, Nikolaos, Voudouri, Kalliopi Artemis, Alados-Arboledas, Luca, Apituley, Arnoud, Mattis, Ina, Chaikovsky, Anatoli, Munoz-Porcar, Constantino, and Pietruczuk, Aleksander

Abstract

Biomass burning episodes measured at 14 stations of the European Aerosol Research Lidar Network (EARLINET) over 20082017 were analysed using the methodology described in "Biomass burning events measured by lidars in EARLINET -- Part 1: Data analysis methodology" (Adam et al., 2020, this issue). The smoke layers were identified in lidar optical properties profiles. A number of 795 layers for which we measured at least one intensive parameter was analysed. These layers were geographically distributed as follows: 399 layers observed in South-East Europe, 119 layers observed in South-West Europe, 243 layers observed in North-East Europe, and 34 layers observed in Central Europe. The mean layer intensive parameters are discussed following two research directions: (I) the long-range transport of smoke particles from North America, and (II) the smoke properties (fresh versus aged), separating the smoke events into four continental source regions (European, North American, African, Asian or a mixture of two), based on back trajectory analysis. The smoke detected in Central Europe (Cabauw, Leipzig, and Hohenpeißenberg) was mostly transported from North America (87% of fires). In North-East Europe (Belsk, Minsk, Warsaw) smoke advected mostly from Eastern Europe (Ukraine and Russia), but there was a significant contribution (31%) from North America. In South-West Europe (Barcelona, Evora, Granada) smoke originated mainly from the Iberian Peninsula and North Africa (while 9% were originating in North America). In the South-East Europe (Athens, Bucharest, Potenza, Sofia, Thessaloniki) the origin of the smoke was mostly local (only 3% represented North America smoke). The following features, correlated with the increased smoke travel time (corresponding to aging) were found: the colour ratio of the lidar ratio (i.e., the ratio of the lidar ratio at 532 nm to the lidar ratio at 355 nm) and the colour ratio of the backscatter Ängström exponent (i.e., the ratio of the backscatter-related Angstrom exponent for the pair 532 nm -- 1064 nm to the one for the pair 355 nm -- 532 nm) increase, while the extinction Ängström exponent and the colour ratio of the particle depolarization ratio (i.e., the ratio of the particle linear depolarization ratio at 532 nm to the particle depolarization ratio at 355 nm) decrease. The smoke originating from all continental regions can be characterized on average as aged smoke, with a very few exceptions. In general, the long range transported smoke shows higher lidar ratio and lower depolarization ratio compared to the local smoke. [ABSTRACT FROM AUTHOR]

Published
2021
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43. Biomass Burning Measurements in Earlinet.

Author

Liu, D., Wang, Y., Wu, Y., Gross, B., Moshary, F., Adam, Mariana, Nicolae, Doina, Belegante, Livio, Stachlewska, Iwona S., Szczepanik, Dominika, Mylonaki, Maria, Papanikolaou, Christiana Anna, Siomos, Nikolaos, Voudouri, Kalliopi A., Apituley, Arnoud, Alados-Arboledas, Luca, Bravo-Aranda, Juan Antonio, Pietruczuk, Aleksander, Chaikovski, Anatoli, and Sicard, Michaël

Subjects
BIOMASS, AEROSOLS, BACKSCATTERING, DATABASES
Abstract

The biomass burning events are analyzed using the EARLINET-ACTRIS atmospheric profiling of aerosols using lidars. The period of 2008-2017 was chosen to analyze all the events assigned in the EARLINET database under Forest Fire category. A number of fourteen stations were considered. The data provided, ranged from complete data sets (backscatter, extinction and particle linear depolarization ratio) to single profiles (backscatter coefficient). A thorough quality control was performed. Smoke layers geometry was evaluated and the mean properties within each layer were computed. The Hysplit backward-trajectory technique and the FIRMS fire database were used to double check the source of each layer. Discussions were made under the following scenarios: fire events seen by two stations, long range transport from North America, and geographical clusters. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Stratospheric Smoke Properties Based on Lidar Observations in Autumn 2017 Over Warsaw.

Author

Liu, D., Wang, Y., Wu, Y., Gross, B., Moshary, F., Wang, Dongxiang, and Stachlewska, Iwona S.

Subjects
STRATOSPHERE, LIDAR, OPTICAL properties
Abstract

Smoke layers in the stratosphere were observed during autumn 2017 using PollyXT-UW Raman lidar at the European Aerosol Research Lidar Network in the frame of the Aerosol Cloud and Trace Gases Research Infrastructure, i.e. the EARLINET-ACTRIS site in Warsaw, Poland. The analysis was focused on discriminating very weak signatures of smoke layers in the stratosphere and investigating their optical properties. Preliminary results are presented and discussed. A decrease of the lidar-derived stratospheric aerosol optical depth contribution to the total optical depth was detected after the stratospheric smoke particles circled Northern Hemisphere. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Lidar Based Separation of Polluted Dust Observed Over Warsaw (Case Study on 09 August 2013).

Author

Liu, D., Wang, Y., Wu, Y., Gross, B., Moshary, F., Szczepanik, Dominika, Tetoni, Eleni, Wang, Dongxiang, and Stachlewska, Iwona S.

Subjects
LIDAR, DUST, AEROSOLS, BACKSCATTERING, POLLUTION
Abstract

This paper presents preliminary results of using an extended POLIPHON method for separation of dust and non-dust aerosol backscatter coefficient, applied on a case study of 9th August 2013. That day, long-range transport of mineral dust over EARLINET-ACTRIS lidar site in Warsaw was observed with the 8-channel PollyXT-UW lidar. The dust particles were also observed by the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) on board the CALIPSO satellite. The backward trajectories calculated using the HYSPLIT model confirmed the air-mass transport from Northern Africa. Results yield possible dust separation for the mixture of dust with other aerosol types, such as pollution, marine type, etc. [ABSTRACT FROM AUTHOR]

Published
2020
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46. AEROSOL ABSORPTION PROFILING FROM THE SYNERGY OF LIDAR AND SUN-PHOTOMETRY: THE ACTRIS-2 CAMPAIGNS IN GERMANY, GREECE AND CYPRUS

Author

Tsekeri, Alexandra Amiridis, Vassilis Lopatin, Anton and Marinou, Eleni Giannakaki, Eleni Pikridas, Michael Sciare, Jean Liakakou, Eleni Gerasopoulos, Evangelos Duesing, Sebastian Corbin, Joel C. Gysel, Martin Bukowiecki, Nicolas and Baars, Holger Engelmann, Ronny Wehner, Birgit Kottas, Michael Mamali, Dimitra Kokkalis, Panagiotis Raptis, I, Panagiotis Stavroulas, Iasonas Keleshis, Christos Muller, Detlef Solomos, Stavros Binietoglou, Ioannis Mihalopoulos, Nikolaos Papayannis, Alexandros Stachlewska, Iwona S. and Igloffstein, Julia Wandinger, Ulla Ansmann, Albert Dubovik, Oleg Goloub, Philippe

Abstract

Aerosol absorption profiling is crucial for radiative transfer calculations and climate modelling. Here, we utilize the synergy of lidar with sun-photometer measurements to derive the absorption coefficient and single scattering albedo profiles during the ACTRIS-2 campaigns held in Germany, Greece and Cyprus. The remote sensing techniques are compared with in situ measurements in order to harmonize and validate the different methodologies and reduce the absorption profiling uncertainties.

Published
2018

47. Tropospheric and stratospheric smoke over Europe as observed within EARLINET/ACTRIS in summer 2017

Author

Baars, Holger, Acheson, Karen, Althausen, Dietrich, Amiridis, Vassilis, Amodeo, Aldo, Ansmann, Albert, Apituley, Arnoud, Alados Arboledas, Lucal, Baldasano, José M., Baray, Jean-Luc, Barragán, Rubén, Belegante, Livio, Antonio Benavent-Oltra, Jose, Bortoli, Daniele, Bühl, Johannes, Comeron, Adolfo, Córdoba, Carmen, D'Amico, Guiseppe, Aguila, Ana del, Dionisi, Davide, Ene, Dragos, Engelmann, Ronny, Fernández García, Alfonso Javier, Fréville, Patrick, Gausa, Michael, Gialitaki, Anna, Goloub, Philippe, Grigorov, Ivan, Guerrero-Rascado, Jean Luis, Haarig, Moritz, Haefele, Alexander, Haeffelin, Martial, Hanuš, Vlastimil, Heese, Birgit, Hervo, Maxime, Hofer, Julian, Hu, Qiaoyun, Iarlori, Marco, Jimenez, Cristofer, Liberti, Gianluigi, Marinou, Eleni, Martucci, Giovanni, Mattis, Ina, Mona, Lucia, Montoux, Nadège, Müller, Detlef, Mylonaki, Maria, Nicolae, Doina, Ortiz-Amezcua, Pablo, Papagiannopoulos, Nikos, Papayannis, Alex, Perrone, Maria Rita, Pietras, Christophe, Pietruczuk, Aleksander, Podvin, Thierry, Popovici, Ioana, Proestakis, Emmanouil, Radenz, Martin, Romano, Salvatore, Schechner, Yoav, Seifert, Patric, Sicard, Michael, Skupin, Annett, Soupiona, Ourania, Stachlewska, Iwona S., Tetoni, Eleni, Trickl, Thomas, Vesselovski, Igor, Vladimir, Zdimal, Vogelmann, Hannes, and Wandinger, Ulla

Subjects
Earth sciences, EARLINET, stratospheric smoke, ddc:550, ACTRIS, lidar
Abstract

For several weeks in summer 2017, strong smoke layers were observed over Europe at numerous EARLINET stations. EARLINET is the European research lidar network and part of ACTRIS and comprises more than 30 ground-based lidars. The smoke layers were observed in the troposphere as well as in the stratosphere up to 25 km from Northern Scandinavia over whole western and central Europe to the Mediterranean regions. Backward trajectory analysis among other tools revealed that these smoke layers originated from strong wild fires in western Canada in combination with pyrocumulus convection. An extraordinary fire event in the mid of August caused intense smoke layers that were observed across Europe for several weeks starting on 18 August 2017. Maximum aerosol optical depths up to 1.0 at 532 nm were observed at Leipzig, Germany, on 22 August 2017 during the peak of this event. The stratospheric smoke layers reached extinction coefficient values of more than 600 Mm−1 at 532 nm, a factor of 10 higher than observed for volcanic ash after the Pinatubo eruption in the 1990s. First analyses of the intensive optical properties revealed low particle depolarization values at 532 nm for the tropospheric smoke (spherical particles) and rather high values (up to 20%) in the stratosphere. However, a strong wavelength dependence of the depolarization ratio was measured for the stratospheric smoke. This indicates irregularly shaped stratospheric smoke particles in the size range of the accumulation mode. This unique depolarization feature makes it possible to distinguish clearly smoke aerosol from cirrus clouds or other aerosol types by polarization lidar measurements. Particle extinction-to-backscatter ratios were rather low in the order of 40 to 50 sr at 355 nm, while values between 70-90 sr were measured at higher wavelengths. In the western and central Mediterranean, stratospheric smoke layers were most prominent in the end of August at heights between 16 and 20 km. In contrast, stratospheric smoke started to occur in the eastern Mediterranean (Cyprus and Israel) in the beginning of September between 18 and 23 km. Stratospheric smoke was still visible in the beginning of October at certain locations (e.g. Evora, Portugal), while tropospheric smoke was mainly observed until the end of August within Europe. An overview of the smoke layers measured at several EARLINET sites will be given. The temporal development of these layers as well as their geometrical and optical properties will be presented.

Published
2018
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48. Biomass burning events measured by lidars in EARLINET – Part 1: Data analysis methodology.

Author

Adam, Mariana, Nicolae, Doina, Stachlewska, Iwona S., Papayannis, Alexandros, and Balis, Dimitris

Subjects
BIOMASS burning, SMOKE, DATA analysis, TRACE gases, FOREST fires, AIR masses, SMOKING statistics
Abstract

The methodology of analysing the biomass burning events recorded in the database of the European Aerosol Research Lidar Network in the framework of the Aerosol, Clouds and Trace Gases Research Infrastructure is presented. The period of 2008–2017 was chosen to analyse all of the events stored in the database under the Forest Fire category for a total of 14 stations available. The data provided ranged from complete datasets (particle backscatter, extinction and linear depolarization ratio profiles) to single profiles (particle backscatter coefficient profile). Smoke layers geometry was evaluated and the mean optical properties within each layer were computed. The back-trajectory technique was used to double-check the source of all pollution layers. The biomass burning layers were identified by taking into account the presence of the fires along the back trajectory. The biomass burning events are analysed by the means of the intensive parameters. The analysis was structured in three directions: (I) common biomass burning source (fire) recorded by at least two stations, (II) long-range transport from North America, and (III) analysis over four geographical regions (south-eastern Europe, north-eastern Europe, central Europe, and south-western Europe). Based on back-trajectory calculations and fire locations, the lidar measurements can be labelled either as measurements of a "single fire" or "mixed fires" (case I), measurements of North American fires, or measurements of mixed North American and local fires (case II). The histogram of the fire locations reveals the smoke sources for each region. For each region, statistics on intensive parameters are performed. The source origin of the intensive parameters is categorized based on the continental origin of the air mass (European, African, Asian, North American, or a combination of them). The methodology presented here is meant to provide a perspective to explore a large number of lidar data and deliver novel approaches to analyse the intensive parameters based on the assigned biomass burning sources. A thorough consideration of all potential fire sources reveals that most of the time the lidar measurements characterize the smoke from a mixture of fires. A comprehensive discussion of all the results (based on the intensive parameters and the source locations) will be given in a companion paper submitted to the ACP EARLINET special issue. [ABSTRACT FROM AUTHOR]

Published
2020
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49. Biomass burning events measured by lidars in EARLINET. Part II. Results and discussions.

Author

Adam, Mariana, Nicolae, Doina, Belegante, Livio, Stachlewska, Iwona S., Janicka, Lucja, Szczepanik, Dominika, Mylonaki, Maria, Papanikolaou, Christiana Anna, Siomos, Nikos, Artemis Voudouri, Kalliopi, Alados-Arboledas, Luca, Bravo-Aranda, Juan Antonio, Apituley, Arnoud, Papagiannopoulos, Nikolaos, Mona, Lucia, Mattis, Ina, Chaikovsky, Anatoli, Sicard, Michaël, Muñoz-Porcar, Constantino, and Pietruczuk, Aleksander

Abstract

Biomass burning events are analysed using the European Aerosol Research Lidar Network database for atmospheric profiling of aerosols by lidars. Atmospheric profiles containing forest fires layers were identified in data collected by fourteen stations during 2008-2017. The data ranged from complete data sets (particle backscatter coefficient, extinction coefficient and linear depolarization ratio) to single profiles (particle backscatter coefficient). The data analysis methodology was described in Part I (Biomass burning events measured by lidars in EARLINET. Part I. Data analysis methodology, under discussions to ACP, the EARLINET special issue). The results are analysed by means of intensive parameters in three directions: (I) common biomass burning source (fire) recorded by at least two stations, (II) long range transport of smoke particles from North America (here, we divided the events into pure North America and mixed-North America and local) smoke groups, and (III) analysis of smoke particles over four geographical regions (SE Europe, NE Europe, Central Europe and SW Europe). Five events were found for case (I), while 24 events were determined for case (II). A statistical analysis over the four geographical regions considered revealed that smoke originated from different regions. The smoke detected in the Central Europe region (Cabauw, Leipzig, and Hohenpeißenberg) was mostly brought over from North America (87 % of the fires), by long range transport. The smoke in the South West region (Barcelona, Evora, and Granada) came mostly from the Iberian Peninsula and North Africa, the long-range transport from North America accounting for only 9 % here. The smoke in the North Europe region (Belsk, Minsk, and Warsaw) originated mostly in East Europe (Ukraine and Russia), and had a 31 % contribution from smoke by long-range transport from North America. For the South East region (Athens, Bucharest, Potenza, Sofia, Thessaloniki) the origin of the smoke was mostly located in SE Europe (only 3 % from North America). Specific features for the lidar-derived intensive parameters based on smoke continental origin were determined for each region. Based on the whole dataset, the following signatures were observed: (i) the colour ratio of the lidar ratio and the backscatter Ångström exponent increase with travel time, while the extinction Ångström exponent and the colour ratio of the particle depolarization ratio decrease; (ii) an increase of the colour ratio of the particle depolarization ratio corresponds to both a decrease of the colour ratio of the lidar ratios and an increase of the extinction Ångström exponent; (iii) the measured smoke originating from all continental regions is characterized in average as aged smoke, except for a few cases; (iv) in general, the local smoke shows a smaller lidar ratio while the long range transported smoke shows a higher lidar ratio; and (v) the depolarization is smaller for long range transported smoke. A complete characterization of the smoke particles type (either fresh or aged) is presented for each of the four geographical regions versus different continental source regions. [ABSTRACT FROM AUTHOR]

Published
2020
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50. Biomass burning events measured by lidars in EARLINET. Part I. Data analysis methodology.

Author

Adam, Mariana, Nicolae, Doina, Stachlewska, Iwona S., Papayannis, Alexandras, and Balis, Dimitris

Abstract

The methodology of analysing the biomass burning events recorded in the database of the European Aerosol Research Lidar Network in the frame of Aerosol Cloud and Trace Gases Research Infrastructure is presented. The period of 2008-2017 was chosen to analyse all of the events stored in the database under Forest Fire category for a number of 14 stations available. The data provided ranged from complete data sets (particle backscatter, extinction and linear depolarization ratio profiles) to single profiles (particle backscatter coefficient profile). Smoke layers geometry was evaluated and the mean optical properties within each layer were computed. The backtrajectories technique was used to double check the source of all pollution layers. The biomass burning layers were identified taking into account the presence of the fires along the backtrajectory. The biomass burning events are analysed by the means of the intensive parameters. The analysis was structured in three directions: I) common biomass burning source (fire) recorded by at least two stations, II) long-range transport from N. America, III) analysis over four geographical regions (SE Europe, NE Europe, Central Europe and SW Europe). Based on backtrajectories calculations and fires' location, the lidar measurements can be labelled either as measurements of 'single fire' or 'mixed fires' (case I), measurements of N America fires or measurements of mixed N America and local fires (case II). The histogram of the fires' location reveals the smoke sources for each region. For each region, statistics on intensive parameters is performed. The sources' origin of the intensive parameters is categorized based on the continental origin of the air-mass (European, African, Asian, N American or a combination of them). The methodology presented here is meant to provide a perspective to explore large amount of lidar data and deliver novel approaches to analyse the intensive parameters based on the assigned biomass burning sources. A thorough consideration of all potential fires' sources reveals that most of the time the lidar measurements characterise the smoke from a mixture of fires. A comprehensive discussion over all results (based on the intensive parameters and the sources' location), will be given in a companion paper submitted to ACP EARLINET special issue. [ABSTRACT FROM AUTHOR]

Published
2020
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