Search

Your search keyword '"Filioglou, Maria"' showing total 92 results
Start Over Author "Filioglou, Maria"
92 results on '"Filioglou, Maria"'

1. Monitoring biomass burning aerosol transport using CALIOP observations and reanalysis models: a Canadian wildfire event in 2019

Author

Universitat Politècnica de Catalunya. Departament de Teoria del Senyal i Comunicacions, Universitat Politècnica de Catalunya. CommSensLab-UPC - Centre Específic de Recerca en Comunicació i Detecció UPC, Shang, Xiaoxia, Lipponen, Antti, Filioglou, Maria, Sundström, Anu-Maija, Parrington, Mark, Buchard, Virginie, Darmenov, Anton S., Welton, Ellsworth J., Marinou, Eleni, Amiridis, Vassilis, Sicard, Michaël, Rodríguez Gómez, Alejandro Antonio, Komppula, Mika, Mielonen, Tero, Universitat Politècnica de Catalunya. Departament de Teoria del Senyal i Comunicacions, Universitat Politècnica de Catalunya. CommSensLab-UPC - Centre Específic de Recerca en Comunicació i Detecció UPC, Shang, Xiaoxia, Lipponen, Antti, Filioglou, Maria, Sundström, Anu-Maija, Parrington, Mark, Buchard, Virginie, Darmenov, Anton S., Welton, Ellsworth J., Marinou, Eleni, Amiridis, Vassilis, Sicard, Michaël, Rodríguez Gómez, Alejandro Antonio, Komppula, Mika, and Mielonen, Tero

Abstract

In May–June 2019, smoke plumes from wildfires in Alberta, Canada, were advected all the way to Europe. To analyze the evolution of the plumes and to estimate the amount of smoke aerosols transported to Europe, retrievals from the spaceborne lidar CALIOP (Cloud-Aerosol LIdar with Orthogonal Polarization) were used. The plumes were located with the help of a trajectory analysis, and the masses of smoke aerosols were retrieved from the CALIOP observations. The accuracy of the CALIOP mass retrievals was compared with the accuracy of ground-based lidars/ceilometer near the source in North America and after the long-range transport in Europe. Overall, CALIOP and the ground-based lidars/ceilometer produced comparable results. Over North America the CALIOP layer mean mass was 30¿% smaller than the ground-based estimates, whereas over southern Europe that difference varied between 12¿% and 43¿%. Finally, the CALIOP mass retrievals were compared with simulated aerosol concentrations from two reanalysis models: MERRA-2 (Modern-Era Retrospective analysis for Research and Applications, Version 2) and CAMS (Copernicus Atmospheric Monitoring System). The simulated total column aerosol optical depths (AODs) and the total column mass concentration of smoke agreed quite well with CALIOP observations, but the comparison of the layer mass concentration of smoke showed significant discrepancies. The amount of smoke aerosols in the model simulations was consistently smaller than in the CALIOP retrievals. These results highlight the limitations of such models and more specifically their limitation to reproduce properly the smoke vertical distribution. They indicate that CALIOP is a useful tool monitoring smoke plumes over secluded areas, whereas reanalysis models have difficulties in representing the aerosol mass in these plumes. This study shows the advantages of spaceborne aerosol lidars, e.g., being of paramount importance to monitor smoke plumes, and reveals the urgent need of future, This research has been supported by the Academy of Finland (grant nos. 339885 and 337552), the European Union (grant no. 101079201), the Hellenic Foundation for Research and Innovation (grant nos. 3995 and 07222), Horizon Europe (grant no. 101086690), Agencia Estatal de Investigación (grant no. PID2019-103886RB-I00), H2020 Environment (grant nos. 871115 and 101008004), and H2020 Excellent Science (grant no. 778349)., Peer Reviewed, Postprint (published version)

Published
2024

2. How horizontal transport and turbulent mixing impact aerosol particle and precursor concentrations at a background site in the UAE.

Author

Kesti, Jutta, O'Connor, Ewan J., Hirsikko, Anne, Backman, John, Filioglou, Maria, Sundström, Anu-Maija, Tonttila, Juha, Lihavainen, Heikki, Korhonen, Hannele, and Asmi, Eija

Subjects
CLOUD condensation nuclei, BOUNDARY layer (Aerodynamics), DOPPLER lidar, CHEMICAL properties, PETROLEUM refineries
Abstract

The optical, physical, and chemical properties of aerosol particles have been previously studied in the United Arab Emirates (UAE), but there is still a gap in the knowledge of particle sources and in the horizontal and vertical transport of aerosol particles and their precursors in the area. To investigate how aerosol particle and SO2 concentrations at the surface responded to changes in horizontal and vertical transport, we used data from a 1-year measurement campaign at a background site where local sources of SO2 were expected to be minimal. The measurement campaign provided a combination of in situ measurements at the surface and the boundary layer evolution from vertical and horizontal wind profiles measured by a Doppler lidar. The diurnal structure of the boundary layer in the UAE was very similar from day to day, with a deep, well-mixed boundary layer during the day transitioning to a shallow nocturnal layer, with the maximum boundary layer height usually being reached around 14:00 local time. Both SO2 and nucleation-mode aerosol particle concentrations were elevated for surface winds coming from the east or western sectors. We attribute this to oil refineries located on the eastern and western coasts of the UAE. The concentrations of larger cloud condensation nuclei (CCN)-sized particles and their activation fraction did not show any clear dependence on wind direction, but the CCN number concentration showed some dependence on wind speed, with higher concentrations coinciding with the weakest surface winds. Peaks in SO2 concentrations were also observed despite low surface wind speeds and wind directions unfavourable for transport. However, winds aloft were much stronger, with wind speeds of 10ms-1 at 1 km common at night and wind directions favourable for transport; surface-measured concentrations increased rapidly once these particular layers started to be entrained into the growing boundary layer, even if the surface wind direction was from a clean sector. These conditions also displayed higher nucleation-mode aerosol particle concentrations, i.e. new particle formation events occurring due to the increase in the gaseous precursor. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

3. Monitoring biomass burning aerosol transport using CALIOP observations and reanalysis models: a Canadian wildfire event in 2019

Author

Shang, Xiaoxia, primary, Lipponen, Antti, additional, Filioglou, Maria, additional, Sundström, Anu-Maija, additional, Parrington, Mark, additional, Buchard, Virginie, additional, Darmenov, Anton S., additional, Welton, Ellsworth J., additional, Marinou, Eleni, additional, Amiridis, Vassilis, additional, Sicard, Michael, additional, Rodríguez-Gómez, Alejandro, additional, Komppula, Mika, additional, and Mielonen, Tero, additional

Published
2023
Full Text
View/download PDF

4. Monitoring biomass burning aerosol transport using CALIOP observations and reanalysis models: a Canadian wildfire event in 2019.

Author

Shang, Xiaoxia, Lipponen, Antti, Filioglou, Maria, Sundström, Anu-Maija, Parrington, Mark, Buchard, Virginie, Darmenov, Anton S., Welton, Ellsworth J., Marinou, Eleni, Amiridis, Vassilis, Sicard, Michael, Rodríguez-Gómez, Alejandro, Komppula, Mika, and Mielonen, Tero

Subjects
BIOMASS burning, SMOKE plumes, AEROSOLS, SMOKE, WILDFIRES, CARBONACEOUS aerosols, WILDFIRE prevention, CEILOMETER
Abstract

In May–June 2019, smoke plumes from wildfires in Alberta, Canada, were advected all the way to Europe. To analyze the evolution of the plumes and to estimate the amount of smoke aerosols transported to Europe, retrievals from the spaceborne lidar CALIOP (Cloud-Aerosol LIdar with Orthogonal Polarization) were used. The plumes were located with the help of a trajectory analysis, and the masses of smoke aerosols were retrieved from the CALIOP observations. The accuracy of the CALIOP mass retrievals was compared with the accuracy of ground-based lidars/ceilometer near the source in North America and after the long-range transport in Europe. Overall, CALIOP and the ground-based lidars/ceilometer produced comparable results. Over North America the CALIOP layer mean mass was 30 % smaller than the ground-based estimates, whereas over southern Europe that difference varied between 12 % and 43 %. Finally, the CALIOP mass retrievals were compared with simulated aerosol concentrations from two reanalysis models: MERRA-2 (Modern-Era Retrospective analysis for Research and Applications, Version 2) and CAMS (Copernicus Atmospheric Monitoring System). The simulated total column aerosol optical depths (AODs) and the total column mass concentration of smoke agreed quite well with CALIOP observations, but the comparison of the layer mass concentration of smoke showed significant discrepancies. The amount of smoke aerosols in the model simulations was consistently smaller than in the CALIOP retrievals. These results highlight the limitations of such models and more specifically their limitation to reproduce properly the smoke vertical distribution. They indicate that CALIOP is a useful tool monitoring smoke plumes over secluded areas, whereas reanalysis models have difficulties in representing the aerosol mass in these plumes. This study shows the advantages of spaceborne aerosol lidars, e.g., being of paramount importance to monitor smoke plumes, and reveals the urgent need of future lidar missions in space. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

6. Spectral dependence of birch and pine pollen optical properties using a synergy of lidar instruments

Author

Filioglou, Maria, primary, Leskinen, Ari, additional, Vakkari, Ville, additional, O'Connor, Ewan, additional, Tuononen, Minttu, additional, Tuominen, Pekko, additional, Laukkanen, Samuli, additional, Toiviainen, Linnea, additional, Saarto, Annika, additional, Shang, Xiaoxia, additional, Tiitta, Petri, additional, and Komppula, Mika, additional

Published
2023
Full Text
View/download PDF

8. First Results from the German Cal/Val Activities for Aeolus

Author

Baars Holger, Geiß Alexander, Wandinger Ulla, Herzog Alina, Engelmann Ronny, Bühl Johannes, Radenz Martin, Seifert Patric, Ansmann Albert, Martin Anne, Leinweber Ronny, Lehmann Volker, Weissmann Martin, Cress Alexander, Filioglou Maria, Komppula Mika, and Reitebuch Oliver

Subjects
Physics, QC1-999
Abstract

On 22nd August 2018, the European Space Agency (ESA) launched the first direct detection Doppler wind lidar into space. Operating at 355 nm and acquiring signals with a dual channel receiver, it allows wind observations in clear air and particle-laden regions of the atmosphere. Furthermore, particle optical properties can be obtained using the High Spectral Resolution Technique Lidar (HSRL) technique. Measuring with 87 km horizontal and 0.25-2 km vertical resolution between ground and up to 30 km in the stratosphere, the global coverage of Aeolus observations shall fill gaps in the global observing system and thus help improving numerical weather prediction. Within this contribution, first results from the German initiative for experimental Aeolus validation are presented and discussed. Ground-based wind and aerosol measurements from tropospheric radar wind profilers, Doppler wind lidars, radiosondes, aerosol lidars and cloud radars are utilized for that purpose.

Published
2020
Full Text
View/download PDF

9. Airborne Pollen Observed by PollyXT Raman Lidar at Finokalia, Crete

Author

Shang Xiaoxia, Bohlmann Stephanie, Filioglou Maria, Giannakaki Elina, Pitkänen Mikko R.A., Saarto Annika, Amiridis Vassilis, Kanakidou Maria, and Komppula Mika

Subjects
Physics, QC1-999
Abstract

In order to document and study airborne pollen in the Mediterranean region, a pollen measurement campaign was performed during February-May 2018, at the Finokalia station in Crete. A ground-based multi-wavelength Raman polarization lidar PollyXT performed continuous measurements, together with a Hirst-type Burkard pollen sampler. The optical properties of pollen layers with presence of airborne pollen are retrieved and presented. Dust-free condition is applied for pollen study, using the dust models.

Published
2020
Full Text
View/download PDF

10. 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, primary, Baars, Holger, additional, Engelmann, Ronny, additional, Althausen, Dietrich, additional, Ansmann, Albert, additional, Bohlmann, Stephanie, additional, Heese, Birgit, additional, Hofer, Julian, additional, Kanitz, Thomas, additional, Haarig, Moritz, additional, Ohneiser, Kevin, additional, Radenz, Martin, additional, Seifert, Patric, additional, Skupin, Annett, additional, Yin, Zhenping, additional, Abdullaev, Sabur F., additional, Komppula, Mika, additional, Filioglou, Maria, additional, Giannakaki, Elina, additional, Stachlewska, Iwona S., additional, Janicka, Lucja, additional, Bortoli, Daniele, additional, Marinou, Eleni, additional, Amiridis, Vassilis, additional, Gialitaki, Anna, additional, Mamouri, Rodanthi-Elisavet, additional, Barja, Boris, additional, and Wandinger, Ulla, additional

Published
2022
Full Text
View/download PDF

11. Monitoring biomass burning aerosol transport using CALIOP observations and reanalysis models: a Canadian wildfire event in 2019.

Author

Shang, Xiaoxia, Lipponen, Antti, Filioglou, Maria, Sundström, Anu-Maija, Parrington, Mark, Buchard, Virginie, Darmenov, Anton S., Welton, Ellsworth J., Marinou, Eleni, Amiridis, Vassilis, Sicard, Michael, Rodríguez-Gómez, Alejandro, Komppula, Mika, and Mielonen, Tero

Subjects
BIOMASS burning, SMOKE plumes, AEROSOLS, SMOKE, WILDFIRES, CARBONACEOUS aerosols, WILDFIRE prevention, CEILOMETER
Abstract

In May–June 2019, smoke plumes from wildfires in Alberta, Canada, were advected all the way to Europe. To analyze the evolution of the plumes and to estimate the amount of smoke aerosols transported to Europe, retrievals from the space-borne lidar CALIOP (Cloud-Aerosol Lidar with Orthogonal Polarization) were used. The plumes were located with the help of a trajectory analysis, and the mass of smoke aerosols were retrieved from the CALIOP observations. The accuracy of the CALIOP mass retrievals was compared with the accuracy of ground-based lidars/ceilometer near the source in North America and after the long-range transport in Europe. Overall, CALIOP and the ground-based lidars/ceilometer produced comparable results. Over North America the CALIOP layer mean mass was 30 % smaller than the ground-based estimates, whereas over Southern Europe that difference varied between 12 % and 43 %. Finally, the CALIOP mass retrievals were compared with simulated aerosol concentrations from two reanalysis models, MERRA-2 (Modern-Era Retrospective analysis for Research and Applications, Version 2) and CAMS (Copernicus Atmospheric Monitoring System). The simulated total column aerosol optical depths (AOD) and the total column mass concentration of smoke agreed quite well with CALIOP observations, but the comparison of the layer mass concentration of smoke showed significant discrepancies. The amount of smoke aerosols in the model simulations was consistently smaller than in the CALIOP retrievals. These results highlight the limitations of such models, and more specifically their limitation to reproduce properly the smoke vertical distribution. They indicate that CALIOP is a useful tool monitoring smoke plumes over secluded areas whereas reanalysis models have difficulties in representing the aerosol mass in these plumes. This study shows the advantages of space-borne aerosol lidars, e.g. being of paramount importance to monitor smoke plumes, and reveals the urgent need of future lidar missions in space. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

12. Monitoring biomass burning aerosol transport using CALIOP observations and reanalysis models: a Canadian wildfire event in 2019.

Author

Xiaoxia Shang, Lipponen, Antti, Filioglou, Maria, Sundström, Anu-Maija, Parrington, Mark, Buchard, Virginie, Darmenov, Anton S., Welton, Ellsworth J., Marinou, Eleni, Amiridis, Vassilis, Sicard, Michael, Rodríguez-Gómez, Alejandro, Komppula, Mika, and Mielonen, Tero

Abstract

In May-June 2019, smoke plumes from wildfires in Alberta, Canada, were advected all the way to Europe. To analyze the evolution of the plumes and to estimate the amount of smoke aerosols transported to Europe, retrievals from the space-borne lidar CALIOP (Cloud-Aerosol Lidar with Orthogonal Polarization) were used. The plumes were located with the help of a trajectory analysis, and the mass of smoke aerosols were retrieved from the CALIOP observations. The accuracy of the CALIOP mass retrievals was compared with the accuracy of ground-based lidars/ceilometer near the source in North America and after the long-range transport in Europe. Overall, CALIOP and the ground-based lidars/ceilometer produced comparable results. Over North America the CALIOP layer mean mass was 30 % smaller than the ground-based estimates, whereas over Southern Europe that difference varied between 12 % and 43 %. Finally, the CALIOP mass retrievals were compared with simulated aerosol concentrations from two reanalysis models, MERRA-2 (Modern-Era Retrospective analysis for Research and Applications, Version 2) and CAMS (Copernicus Atmospheric Monitoring System). The simulated total column aerosol optical depths (AOD) and the total column mass concentration of smoke agreed quite well with CALIOP observations, but the comparison of the layer mass concentration of smoke showed significant discrepancies. The amount of smoke aerosols in the model simulations was consistently smaller than in the CALIOP retrievals. These results highlight the limitations of such models, and more specifically their limitation to reproduce properly the smoke vertical distribution. They indicate that CALIOP is a useful tool monitoring smoke plumes over secluded areas whereas reanalysis models have difficulties in representing the aerosol mass in these plumes. This study shows the advantages of space-borne aerosol lidars, e.g. being of paramount importance to monitor smoke plumes, and reveals the urgent need of future lidar missions in space. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

13. Spectral dependence of birch and pine pollen optical properties using a synergy of lidar instruments.

Author

Filioglou, Maria, Leskinen, Ari, Vakkari, Ville, O'Connor, Ewan, Tuononen, Minttu, Tuominen, Pekko, Laukkanen, Samuli, Toiviainen, Linnea, Saarto, Annika, Shang, Xiaoxia, Tiitta, Petri, and Komppula, Mika

Subjects
POLLEN, DOPPLER lidar, OPTICAL properties, BIRCH, LIDAR
Abstract

Active remote sensors equipped with the capability to detect polarization, a shape-relevant parameter, are essential to aerosol particle identification in the vertical domain. Most commonly, the linear particle depolarization ratio has been available at the shorter wavelengths of 355 and/or 532 nm. Recently, linear particle depolarization ratios at longer wavelengths (910, 1064, and 1565 nm) have emerged in lidar aerosol research. In this study, a synergy of three lidars, namely a PollyXT lidar, a Vaisala CL61 ceilometer, and a HALO Photonics StreamLine Pro Doppler lidar, as well as in situ aerosol and pollen observations have been utilized to investigate the spectral dependence of birch and pine pollen particles. We found that, regardless of the pollen type, the linear particle depolarization ratio was subject to the amount of pollen and its relative contribution to the aerosol mixture in the air. More specifically, during birch pollination, characteristic linear particle depolarization ratios of 5 ± 2 % (355 nm), 28 ± 6 % (532 nm), 23 ± 6 % (910 nm), and 33 ± 4 % (1565 nm) were retrieved at the pollen layer. Regarding the pine-dominant period, characteristic linear particle depolarization ratios of 6 ± 2 % , 43 ± 11 % , 22 ± 6 % , and 26 ± 3 % were determined at wavelengths of 355, 532, 910, and 1565 nm, respectively. For birch, the linear particle depolarization ratio at 1565 nm was the highest, followed by the 532 and 910 nm wavelengths, respectively. A sharp decrease at 355 nm was evident for birch pollen. For pine pollen, a maximum at the 532 nm wavelength was observed. There was no significant change in the linear particle depolarization ratio at 910 nm for the pollen types considered in this study. Given the low concentration of pollen in the air, the inclusion of the longer wavelengths (910 and 1565 nm) for the detection of birch and pine can be beneficial due to their sensitivity to trace large aerosol particles. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

14. 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
Full Text
View/download PDF

15. Consistency of the single calculus chain for climatological studies using long-term measurements from thessaloniki lidar station

Author

Siomos Nikolaos, Voudouri Kalliopi A., Filioglou Maria, Giannakaki Eleni, Amiridis Vasilis, D’Amico Giuseppe, and Balis Dimitris S.

Subjects
Physics, QC1-999
Abstract

The long term analysis of 15 years of lidar data derived from a Raman lidar at Thessaloniki is presented here. All measurements have been processed with the latest version 4 of the EARLINET Single Calculus Chain algorithm and are compared with the results from the current operational retrieval algorithm. In this paper we investigate the consistency between the EARLINET database and SCC for the case of Thessaloniki and we identify the issues to be considered when switching from current operations to SCC.

Published
2018
Full Text
View/download PDF

16. 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
Full Text
View/download PDF

17. Long term lidar measurements of aerosol properties over thessaloniki

Author

Siomos Nikolaos, Voudouri Kalliopi A., Giannakaki Eleni, Amiridis Vasilis, Filioglou Maria, Papayannis Alexandros, and Balis Dimitris S.

Subjects
Physics, QC1-999
Abstract

In this study we present some first results on the potential of 15 years of lidar measurements over the lidar station of Thessaloniki to compile a climatology of the aerosol properties for the period 2001-2015. This is examined on a monthly, seasonal and annual basis. Both the profile structure and the columnar properties of the aerosol extinction and backscatter products are examined. The results are compared for consistency against co-located sunphotometer measurements.

Published
2018
Full Text
View/download PDF

18. Evaluating modelled winds over an urban area using ground‐based Doppler lidar observations

Author

Filioglou, Maria, primary, Preissler, Jana, additional, Troiville, Anselme, additional, Thobois, Ludovic, additional, Vakkari, Ville, additional, Auvinen, Mikko, additional, Fortelius, Carl, additional, Gregow, Erik, additional, Hämäläinen, Karoliina, additional, Hellsten, Antti, additional, Järvi, Leena, additional, O'Connor, Ewan, additional, Schönach, David, additional, and Hirsikko, Anne, additional

Published
2022
Full Text
View/download PDF

20. 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
Full Text
View/download PDF

23. AIRBORNE POLLEN OBSERVED BY POLLYXT RAMAN LIDAR AT FINOKALIA, CRETE

Author

Shang, Xiaoxia Bohlmann, Stephanie Filioglou, Maria and Giannakaki, Elina Pitkanen, Mikko R. A. Saarto, Annika and Amiridis, Vassilis Kanakidou, Maria Komppula, Mika

Abstract

In order to document and study airborne pollen in the Mediterranean region, a pollen measurement campaign was performed during February-May 2018, at the Finokalia station in Crete. A ground based multi -wavelength Raman polarization lidar Polly(XT) performed continuous measurements, together with a Hirst-type Burkard pollen sampler. The optical properties of pollen layers with presence of airborne pollen are retrieved and presented. Dust-free condition is applied for pollen study, using the dust models.

Published
2020

27. Optical and geometrical aerosol particle properties over the United Arab Emirates

Author

Filioglou, Maria, primary, Giannakaki, Elina, additional, Backman, John, additional, Kesti, Jutta, additional, Hirsikko, Anne, additional, Engelmann, Ronny, additional, O'Connor, Ewan, additional, Leskinen, Jari T. T., additional, Shang, Xiaoxia, additional, Korhonen, Hannele, additional, Lihavainen, Heikki, additional, Romakkaniemi, Sami, additional, and Komppula, Mika, additional

Published
2020
Full Text
View/download PDF

32. Validation of Aeolus aerosol and wind products with sophisticated ground-based instruments in the Northern and Southern Hemisphere

Author

Baars, Holger, primary, Herzog, Alina, additional, Engelmann, Ronny, additional, Bühl, Johannes, additional, Radenz, Martin, additional, Seifert, Patric, additional, Ansmann, Albert, additional, Althausen, Dietrich, additional, Heese, Birgit, additional, Hofer, Julian, additional, Ohneiser, Kevin, additional, Hanbuch, Karsten, additional, Basharova, Elizaveta, additional, Gülbas, Tülin, additional, Chudnovsky, Alexandra, additional, Barja, Boris, additional, Filioglou, Maria, additional, Komppula, Mika, additional, and Wandiger, Ulla, additional

Published
2020
Full Text
View/download PDF

33. Airborne Pollen Observed by PollyXT Raman Lidar at Finokalia, Crete.

Author

Liu, D., Wang, Y., Wu, Y., Gross, B., Moshary, F., Shang, Xiaoxia, Bohlmann, Stephanie, Filioglou, Maria, Giannakaki, Elina, Pitkänen, Mikko R.A., Saarto, Annika, Amiridis, Vassilis, Kanakidou, Maria, and Komppula, Mika

Subjects
POLARIZATION (Economics), POLLEN, LIDAR, OPTICAL properties
Abstract

In order to document and study airborne pollen in the Mediterranean region, a pollen measurement campaign was performed during February-May 2018, at the Finokalia station in Crete. A ground-based multi-wavelength Raman polarization lidar PollyXT performed continuous measurements, together with a Hirst-type Burkard pollen sampler. The optical properties of pollen layers with presence of airborne pollen are retrieved and presented. Dust-free condition is applied for pollen study, using the dust models. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

34. First Results from the German Cal/Val Activities for Aeolus.

Author

Liu, D., Wang, Y., Wu, Y., Gross, B., Moshary, F., Baars, Holger, Geiß, Alexander, Wandinger, Ulla, Herzog, Alina, Engelmann, Ronny, Bühl, Johannes, Radenz, Martin, Seifert, Patric, Ansmann, Albert, Martin, Anne, Leinweber, Ronny, Lehmann, Volker, Weissmann, Martin, Cress, Alexander, and Filioglou, Maria

Subjects
AEROSOLS, LIDAR, DOPPLER effect, OPTICAL properties
Abstract

On 22nd August 2018, the European Space Agency (ESA) launched the first direct detection Doppler wind lidar into space. Operating at 355 nm and acquiring signals with a dual channel receiver, it allows wind observations in clear air and particle-laden regions of the atmosphere. Furthermore, particle optical properties can be obtained using the High Spectral Resolution Technique Lidar (HSRL) technique. Measuring with 87 km horizontal and 0.25-2 km vertical resolution between ground and up to 30 km in the stratosphere, the global coverage of Aeolus observations shall fill gaps in the global observing system and thus help improving numerical weather prediction. Within this contribution, first results from the German initiative for experimental Aeolus validation are presented and discussed. Ground-based wind and aerosol measurements from tropospheric radar wind profilers, Doppler wind lidars, radiosondes, aerosol lidars and cloud radars are utilized for that purpose. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

35. LONG TERM LIDAR MEASUREMENTS OF AEROSOL PROPERTIES OVER THESSALONIKI

Author

Siomos, Nikolaos Voudouri, Kalliopi A. Giannakaki, Eleni and Amiridis, Vasilis Filioglou, Maria Papayannis, Alexandros and Balis, Dimitris S.

Abstract

In this study we present some first results on the potential of 15 years of lidar measurements over the lidar station of Thessaloniki to compile a climatology of the aerosol properties for the period 2001-2015. This is examined on a monthly, seasonal and annual basis. Both the profile structure and the columnar properties of the aerosol extinction and backscatter products are examined. The results are compared for consistency against co-located sunphotometer measurements.

Published
2018

36. CONSISTENCY OF THE SINGLE CALCULUS CHAIN FOR CLIMATOLOGICAL STUDIES USING LONG-TERM MEASUREMENTS FROM THESSALONIKI LIDAR STATION

Author

Siomos, Nikolaos Voudouri, Kalliopi A. Filioglou, Maria and Giannakaki, Eleni Amiridis, Vasilis D'Amico, Giuseppe Balis, Dimitris S.

Abstract

The long term analysis of 15 years of lidar data derived from a Raman lidar at Thessaloniki is presented here. All measurements have been processed with the latest version 4 of the EARLINET Single Calculus Chain algorithm and are compared with the results from the current operational retrieval algorithm. In this paper we investigate the consistency between the EARLINET database and SCC for the case of Thessaloniki and we identify the issues to be considered when switching from current operations to SCC.

Published
2018

39. Aerosol particle characteristics measured in the United Arab Emirates and their response to mixing in the boundary layer.

Author

Kesti, Jutta, Backman, John, O'Connor, Ewan J., Hirsikko, Anne, Asmi, Eija, Aurela, Minna, Makkonen, Ulla, Filioglou, Maria, Komppula, Mika, Korhonen, Hannele, and Lihavainen, Heikki

Abstract

Aerosol particles play an important in role in the microphysics of clouds and hence on their likelihood to precipitate. In the changing climate already dry areas such as the United Arab Emirates (UAE) are predicted to become even drier. Comprehensive observations of the daily and seasonal variation in aerosol particle properties in such locations are required reducing the uncertainty in such predictions. We analyse observations from a one-year measurement campaign at a background location in the United Arab Emirates to investigate the properties of aerosol particles in this region, study the impact of boundary layer mixing on background aerosol particle properties measured at the surface and study the temporal evolution of the aerosol particle cloud formation potential in the region. We used in-situ aerosol particle measurements to characterise the aerosol particle composition, size, number and cloud condensation nuclei (CCN) properties, in-situ SO2 measurements as an anthropogenic signature and a long-range scanning Doppler lidar to provide vertical profiles of the horizontal wind and turbulent properties to monitor the evolution of the boundary layer. Anthropogenic sulphate dominated the aerosol particle mass composition in this location. There was a clear diurnal cycle in the surface wind direction, which had a strong impact on aerosol particle total number concentration, SO2 concentration and black carbon mass concentration. Local sources were the predominant source of black carbon, as concentrations clearly depended on the presence of turbulent mixing, with much higher values during calm nights. The measured concentrations of SO2, instead, were highly dependent on the surface wind direction as well as on the depth of the boundary layer when entrainment from the advected elevated layers occurred. The wind direction at the surface or of the elevated layer suggests that the cities of Dubai, Abu Dhabi and other coastal conurbations were the remote sources of SO2. We observed new aerosol particle formation events almost every day (on four days out of five on average). Calm nights had the highest CCN number concentrations and lowest κ values and activation fractions. We did not observe any clear dependence of CCN number concentration and κ parameter on the height of the daytime boundary layer, whereas the activation fraction did show a slight increase with increasing boundary layer height, due to the change in the shape of the aerosol particle size distribution where the relative portion of larger aerosol particles increased with increasing boundary layer height. We believe that this indicates that size is more important than chemistry for aerosol particle CCN activation at this site. The combination of instrumentation used in this campaign enabled us to identify periods when anthropogenic pollution from remote sources that had been transported in elevated layers was present, and had been mixed down to the surface in the growing boundary layer. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

40. Airborne pollen observations using a multi-wavelength Raman polarization lidar in Finland: characterization of pure pollen types.

Author

Xiaoxia Shang, Giannakaki, Elina, Bohlmann, Stephanie, Filioglou, Maria, Saarto, Annika, Ruuskanen, Antti, Leskinen, Ari, Romakkaniemi, Sami, and Komppula, Mika

Abstract

We present a novel algorithm for characterizing the optical properties of pure pollen particles, based on the depolarization values obtained in lidar measurements. The algorithm was first tested and validated through a simulator, and then applied to the lidar observations during a four-month pollen campaign from May to August 2016 at the European Aerosol Research Lidar Network (EARLINET) station in Kuopio (62°44' N, 27°33' E), in Eastern Finland. Twenty types of pollen were observed and identified from concurrent measurements with Burkard sampler; Birch (Betula), pine (Pinus), spruce (Picea) and nettle (Urtica) pollen were most abundant, contributing more than 90% of total pollen load, regarding number concentrations. Mean values of lidar-derived optical properties in the pollen layer were retrieved for four intense pollination periods (IPPs). Lidar ratios at both 355 and 532 nm ranged from 55 to 70 sr for all pollen types, without significant wavelength-dependence. Enhanced depolarization ratio was found when there were pollen grains in the atmosphere, and even higher depolarization ratio (with mean values of 25% or 14%) was observed with presence of the more non-spherical spruce or pine pollen. The depolarization ratio at 532 nm of pure pollen particles was assessed, resulting to 24 ± 3% and 36 ± 5% for birch and pine pollen, respectively. Pollen optical properties at 1064 nm and 355 nm were also estimated. The backscatter-related Ångström exponent between 532 and 1064 nm was assessed as ~ 0.8 (~ 0.5) for pure birch (pine) pollen, thus the longer wavelength would be better choice to trace pollen in the air. The pollen depolarization ratio at 355 nm of 17% and 30% were found for birch and pine pollen, respectively. The depolarization values show a wavelength dependence for pollen. This can be the key parameter for pollen detection and characterization. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

42. Investigating the quality of modeled aerosol profiles based on combined lidar and sunphotometer data

Author

Barcelona Supercomputing Center, Siomos, Nikolaos, Balis, Dimitris S., Poupkou, Anastasia, Liora, Natalia, Spyridon, Dimopoulos, Melas, Dimitris, Giannakaki, Eleni, Filioglou, Maria, Basart, Sara, Chaikovsky, Anatoli, Barcelona Supercomputing Center, Siomos, Nikolaos, Balis, Dimitris S., Poupkou, Anastasia, Liora, Natalia, Spyridon, Dimopoulos, Melas, Dimitris, Giannakaki, Eleni, Filioglou, Maria, Basart, Sara, and Chaikovsky, Anatoli

Abstract

In this study we present an evaluation of the Comprehensive Air Quality Model with extensions (CAMx) for Thessaloniki using radiometric and lidar data. The aerosol mass concentration profiles of CAMx are compared against the PM2.5 and PM2. 5−10 concentration profiles retrieved by the Lidar-Radiometer Inversion Code (LIRIC). The CAMx model and the LIRIC algorithm results were compared in terms of mean mass concentration profiles, center of mass and integrated mass concentration in the boundary layer and the free troposphere. The mean mass concentration comparison resulted in profiles within the same order of magnitude and similar vertical structure for the PM2. 5 particles. The mean centers of mass values are also close, with a mean bias of 0.57 km. On the opposite side, there are larger differences for the PM2. 5−10 mode, both in the boundary layer and in the free troposphere. In order to grasp the reasons behind the discrepancies, we investigate the effect of aerosol sources that are not properly included in the model's emission inventory and in the boundary conditions such as the wildfires and the desert dust component. The identification of the cases that are affected by wildfires is performed using wind backward trajectories from the Hybrid Single Particle Lagrangian Integrated Trajectory (HYSPLIT) model in conjunction with satellite fire pixel data from MODerate-resolution Imaging Spectroradiometer (MODIS) Terra and Aqua global monthly fire location product MCD14ML. By removing those cases the correlation coefficient improves from 0.69 to 0.87 for the PM2. 5 integrated mass in the boundary layer and from 0.72 to 0.89 in the free troposphere. The PM2.5 center of mass fractional bias also decreases to 0.38 km. Concerning the analysis of the desert dust component, the simulations from the Dust Regional Atmospheric Model (BSC-DREAM8b) were deployed. When only the Saharan dust cases are taken into account, BSC-DREAM8b generally outperforms CAMx when compared with LI, The authors would like to acknowledge the EU projects MACC-III (Monitoring Atmospheric Composition and Climate – III, grant agreement no. 633080) and MACC-II project (Monitoring Atmospheric Composition and Climate – Interim Implementation, grant agreement no. 283576). The simulated results presented in this research paper have been produced using the EGI and HellasGrid infrastructures. The ACTRIS-2 project from the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 654109 is gratefully acknowledged. The authors would also like to acknowledge the support provided by the Scientific Computing Center at Aristotle University of Thessaloniki throughout the progress of the work on air quality forecasting. BSC-DREAM8b simulations were performed on the Mare Nostrum supercomputer hosted by Barcelona Supercomputing Center-Centro Nacional de Supercomputacion (BSC-CNS). S. Basart wants to acknowledge the CICYT project (CGL2013-46736). Elina Giannakaki acknowledges the support of the Academy of Finland (project no. 270108)., Peer Reviewed, Postprint (published version)

Published
2017

46. A methodology for investigating dust model performance using synergistic EARLINET/AERONET dust concentration retrievals [Discussion paper]

Author

Binietoglou, Ioannis, Basart, Sara, Alados Arboledas, Lucas, Amiridis, Vassilis, Argyrouli, Athina, Baars, Holger, Baldasano, José María, Balis, Dimitris, Belegante, Livio, Bravo-Aranda, Juan Antonio, Burlizzi, Pasquale, Sánchez Carrasco, Víctor Manuel, Chaikovsky, Anatoli, Comerón, Adolfo, D'Amico, Giuseppe, Filioglou, Maria, Granados-Muñoz, María José, Guerrero-Rascado, Juan Luis, Ilic, Luka, Kokkalis, Panos, Maurizi, Alberto, Mona, Lucia, Monti, Fabio, Muñoz Porcar, Constantino, Nicolae, Doina, Papayannis, Alex, Pappalardo, Gelsomina, Pejanovic, Goran, Pereira, Sérgio N., Perrone, Maria Rita, Pietruczuk, Aleksander, Posyniak, Michał, Rocadenbosch, Francesc, Rodríguez Gómez, Alejandro, Sicard, Michaël, Siomos, N., Szkop, A., Terradellas, Enric, Tsekeri, A., Vukovic Vimic, Ana, Wandinger, U., and Wagner, J.

Subjects
Remote-sensing networks, Dust concentration, Redes de teledetección, Dust transport models, Polvo del desierto
Abstract

Systematic measurements of dust concentration profiles at a continental scale were recently made possible by the development of synergistic retrieval algorithms using combined lidar and sun photometer data and the establishment of robust remote-sensing networks in the framework of Aerosols, Clouds, and Trace gases Research InfraStructure Network (ACTRIS)/European Aerosol Research Lidar Network (EARLINET). We present a methodology for using these capabilities as a tool for examining the performance of dust transport models. The methodology includes considerations for the selection of a suitable data set and appropriate metrics for the exploration of the results. The approach is demonstrated for four regional dust transport models (BSC-DREAM8b v2, NMMB/BSC-DUST, DREAMABOL, DREAM8-NMME-MACC) using dust observations performed at 10 ACTRIS/EARLINET stations. The financial support of the ACTRIS Research Infrastructure Project supported by the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement no. 262254 is gratefully acknowledged. This project has also received funding from the European Union’s Seventh Framework Programme for research, technological development and demonstration under grant agreement no. 289923 – ITaRS. S. Basart and J. M. Baldasano acknowledge the CICYT project (CGL2010-19652 and CGL2013-46736) and Severo Ochoa (SEV- 2011-00067) programme of the Spanish Government. This program has received funding from the Ministry of Education and Science of the Republic of Serbia through project III43007.

Published
2015

47. 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, Bortoliv, Daniele, Silva, Ana Maria, Pereira, Sergio, Stachlewska, Iwona S., Kumala, Wojciech, Szczepanik, Dominika, Amiridis, Vassilis, Marinou, Eleni, and Kottas, Michail

Subjects
ATMOSPHERIC aerosols, RAMAN scattering, LIDAR, METEOROLOGICAL optics, CLIMATE change
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 measurement 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. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

48. Detection and characterization of birch pollen in the atmosphere using multi-wavelength Raman lidar in Finland.

Author

Bohlmann, Stephanie, Xiaoxia Shang, Giannakaki, Elina, Filioglou, Maria, Saarto, Annika, Romakkaniemi, Sami, and Komppula, Mika

Abstract

We present the results of birch pollen characterization using lidar measurements based on a 11-day period of birch pollination from 5 to 15 May 2016 at the European Aerosol Research Lidar Network (EARLINET) station in Vehmasmäki (Kuopio, 62°44′ N, 27°33′ E), Finland. The ground-based multi-wavelength Raman lidar PollyXT performed continuous measurements at this rural forest site and has been combined with a Hirst-type volumetric air sampler which measured the pollen type and concentration on roof level (4 m). The period was separated into two parts due to different atmospheric conditions and detected pollen types. During the first period, high concentrations of birch pollen were measured with a maximum two-hour average pollen concentration of 3700 grains/m³. Other pollen types represented less than 3 % of the total pollen count. In observed pollen layers, the mean particle depolarization ratio at 532 nm was 10 ± 6 % during the intense birch pollination period. Mean lidar ratios were found to be 45 ± 7 and 55 ± 16 sr at 355 and 532 nm, respectively. During the second period, birch pollen was still dominant but a significant contribution of spruce pollen was observed. Spruce pollen grains are highly non-spherical, leading to a larger mean depolarization ratio of 26 ± 7 % of the birch-spruce pollen mixture. Furthermore, higher lidar ratios were observed during this period with a mean value of 60 ± 3 and 62 ± 10 sr at 355 and 532 nm, respectively. The presented study shows the potential of the particle depolarization ratio to track pollen grains in the atmosphere. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

50. Optimization of Aerosol Seeding In rain enhancement Strategies (OASIS).

Author

Korhonen, Hannele, Lihavainen, Heikki, Niemelä, Sami, Romakkaniemi, Sami, Vehkamäki, Hanna, Maso, Miikka Dal, Komppula, Mika, O'Connor, Ewan, Backman, John, Filioglou, Maria, Kesti, Jutta, Anttila, Timo, Korpinen, Anniina, Fortelius, Carl, Tonttila, Juha, Afzalifar, Ali, Pakarinen, Olli, Roudsari, Golnaz, Ollinaho, Pirkka, and Henriksson, Svante

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results