Your search keyword '"Hofer Julian"' showing total 170 results

1. Is the depolarization ratio a global characteristic of mineral dust particles? Review on existing multiwavelength lidar measurements

Author

Haarig Moritz, Floutsi Athena A., Hofer Julian, and Ansmann Albert

Subjects

Environmental sciences, GE1-350

Abstract

Multi-wavelength lidar measurements of the particle linear depolarization ratio of mineral dust layers at various locations around the Earth are presented from a comprehensive literature review. The values at a wavelength of 532 nm as well as the spectral slope of the depolarization ratio exhibits no significant difference between the Sahara, Arabia and Central Asia. The main difference was observed between freshly emitted and transported dust. Fresh dust has a higher depolarization ratio probably due to a higher amount of large dust particles. The depolarization ratio tends to decrease during transport time. This effect is strongest at 1064 nm and almost not present at 355 nm.

Published

2024

2. Implementation of mineralogy in COSMO5.05–MUSCAT and model dust loading comparison with measurements

Author

Gómez Maqueo Anaya Sofía, Althausen Dietrich, Faust Matthias, Baars Holger, Heinold Bernd, Hofer Julian, Tegen Ina, Ansmann Albert, Engelmann Ronny, Skupin Annett, Heese Birgit, and Schepanski Kerstin

Subjects

Environmental sciences, GE1-350

Abstract

A mineralogical database is included in the simulation of mineral dust atmospheric life cycle for the chemistry and transport model COSMO5.05-MUSCAT. Evaluation of the ability of the model to reproduce the atmospheric drivers and the spatial-temporal resolution of mineral dust in the atmosphere is done through comparisons with remote sensing measurements in the Sahara Desert region for January-February 2022. Results show simultaneously good agreements and suggest that discrepancies could be explained due to the methods used for calculating mineral dust in the atmosphere not considering compositional differences.

Published

2024

3. Low lidar ratios at elevated depolarization ratios in Dushanbe – Revisited using a time–height resolved air mass source attribution tool

Author

Hofer Julian, Althausen Dietrich, Ansmann Albert, Abdullaev Sabur F., Makhmudov Abduvosit N., Lipken Friederike, Jimenez Cristofer, Baars Holger, Engelmann Ronny, and Radenz Martin

Subjects

Environmental sciences, GE1-350

Abstract

First ever lidar observation in Tajikistan were conducted during the Central Asian Dust Experiment 2015–2016 (CADEX) in Dushanbe. Analysis of layer-mean optical properties revealed frequently low lidar ratios at enhanced depolarization ratios. These cases were categorized as background aerosol since they occurred at low extinction conditions. Such optical properties are similar to dried and therefore cubic-like shaped sea salt particles. This led to the hypothesis that Central Asian background aerosol and its optical properties are influenced by dry lakes and saline playas which are frequent in Central Asia. The goal of this study is to extend the existing data analysis with a backward trajectory-based time– height resolved air mass source attribution tool which was not yet available at the time of the CADEX campaign and its data analysis. Despite on average similar air mass origins for all cases irrespective of their optical properties, results suggest slightly more southern and south-western influenced air masses for cases with larger lidar ratios than for cases with lower lidar ratios.

Published

2024

4. Dust influence on oxygenated polycyclic hydrocarbons and aliphatic ketones in Dushanbe particulate matter

Author

Fomba Khanneh Wadinga, Faboya Oluwabamise Lekan, Deabji Nabil, Müller Konrad, Hofer Julian, Makhmudov Abduvosit N., Althausen Dietrich, Abdullaev Sabur F., and Herrmann Hartmut

Subjects

Environmental sciences, GE1-350

Abstract

In the Central Asian region, susceptibility to dust storms and escalating anthropogenic emissions poses challenges for air quality as well as environmental health. This study explores the temporal and seasonal dynamics of oxygenated polycyclic aromatic hydrocarbons (OPAHs) and aliphatic ketones in particulate matter during the Central Asian Dust Experiment (CADEX) in Dushanbe, both determined by Curie-Point Pyrolysis / Gas Chromatography Mass Spectrometry (CPP-GC/MS). The results revealed pronounced variations in the concentrations of OPAHs, particularly 9,10-anthracendione, as the most dominant compound, with a marked dominance in winter. The aliphatic ketones also displayed robust temporal variations, closely associated with combustion sources with 2-nonadecanone and 2-heptadecanone emerging as the dominant compounds. Both compound groups showed higher concentrations in winter. The impact of dust events on OPAHs was more noticeable during summer, with limited influence observed in winter. Combustion sources, particularly wood and coal burning, played a predominant role in shaping the observed concentrations, explaining most of the winter dominance. The elevated levels of OPAHs and ketones in Dushanbe underscore the need for implementing local mitigation strategies to curb exposure and potential health risks. This comprehensive analysis enhances our understanding of the intricate interplay between mineral dust, combustion sources, and atmospheric chemical composition, contributing to the development of air quality management strategies, in regions prone to dust events.

Published

2024

5. Relating cloud and aerosol properties from long-term lidar observations in Tajikistan

Author

Lipken Friederike, Hofer Julian, Jimenez Cristofer, Althausen Dietrich, Radenz Martin, Engelmann Ronny, Baars Holger, and Abdullaev Sabur F.

Subjects

Environmental sciences, GE1-350

Abstract

Focusing on Tajikistan, a region facing critical environmental challenges, this extended abstract provides insights into the relationship between aerosols and clouds in Central Asia by means of lidar observations. Since 2019, a novel Dual-Field-of-View (DFOV) Raman polarization lidar system in Dushanbe has provided highly-resolved data on aerosol and cloud microphysical properties. Given the limited observational experiments in Central Asia, these measurements might play a crucial role in addressing climaterelated concerns. In fact, this technological deployment might not only provide a better picture regarding the spatio-temporal distribution of mineral dust and urban emissions, but also improve our understanding regarding the complex interactions between aerosol and clouds. One of the most uncertain aspects when predicting future temperature and precipitation patterns. Furthermore, an extended trajectory-based source attribution tool has been implemented to track air masses in Tajikistan, providing enhanced support for this and future studies. This research focuses on data evaluation and analysis, building upon established lidar methodologies. The resulting insights can potentially contribute to a better understanding of the relationship between aerosols and clouds in the dry continental conditions that persists in this region.

Published

2024

6. Cloud micro- and macrophysical properties from ground-based remote sensing during the MOSAiC drift experiment

Author

Griesche, Hannes J., Seifert, Patric, Engelmann, Ronny, Radenz, Martin, Hofer, Julian, Althausen, Dietrich, Walbröl, Andreas, Barrientos-Velasco, Carola, Baars, Holger, Dahlke, Sandro, Tukiainen, Simo, and Macke, Andreas

Published

2024

7. Profiling Aerosol Optical Properties at the Central Asian Site of Dushanbe, Tajikistan: Pure Dust Cases

Author

Hofer Julian, Althausen Dietrich, Abdullaev Sabur F., Makhmudov Abduvosit N., Nazarov Bakhron I., Baars Holger, Engelmann Ronny, and Ansmann Albert

Subjects

Physics, QC1-999

Abstract

Tajikistan is often affected by atmospheric mineral dust originating from various surrounding deserts. The direct and indirect radiative effects of that dust play a sensitive role in the Central Asian climate system and therefore need to be quantified. The Central Asian Dust Experiment (CADEX) provides for the first time an aerosol climatology for Central Asia based long-term aerosol profiling by ground-based lidar (PollyXT type) in Dushanbe, Tajikistan. For pure dust cases, mean depolarization(lidar) ratios of 0.23±0.03(44±3 sr) at 355 nm and 0.32±0.02(38±3 sr) at 532 nm wavelength have been measured. The mean extinction-related Ångström exponent was 0.18±0.15.

Published

2020

8. CADEX and beyond: Installation of a new PollyXT site in Dushanbe

Author

Engelmann Ronny, Hofer Julian, Makhmudov Abduvosit N., Baars Holger, Hanbuch Karsten, Ansmann Albert, Abdullaev Sabur F., Macke Andreas, and Althausen Dietrich

Subjects

Environmental sciences, GE1-350

Abstract

During the 18-month Central Asian Dust Experiment we conducted continuous lidar measurements at the Physical Technical Institute of the Academy of Sciences of Tajikistan in Dushanbe between 2015 and 2016. Mineral dust plumes from various source regions have been observed and characterized in terms of their occurrence, and their optical and microphysical properties with the Raman lidar PollyXT. Currently a new container-based lidar system is constructed which will be installed for continuous long-term measurements in Dushanbe.

Published

2019

9. Vertical profiles of dust and other aerosol types above a coastal site

Author

Althausen Dietrich, Mewes Silke, Heese Birgit, Hofer Julian, Schechner Yoav, Aides Amit, and Holodovsky Vadim

Subjects

Environmental sciences, GE1-350

Abstract

Monthly mean vertical profiles of aerosol type occurrences are determined from multiwavelength Raman and polarization lidar measurements above Haifa, Israel, in 2017. This contribution presents the applied methods and threshold values. The results are discussed for one example, May 2017. This month shows more often large, non-spherical particles in lofted layers than within the planetary boundary layer. Small particles are observed at higher altitudes only when they are observed in lower altitudes, too.

Published

2019

10. Aerosol layer heights above Tajikistan during the CADEX campaign

Author

Hofer Julian, Althausen Dietrich, Abdullaev Sabur F., Nazarov Bakhron I., Makhmudov Abduvosit N., Baars Holger, Engelmann Ronny, and Ansmann Albert

Subjects

Environmental sciences, GE1-350

Abstract

Mineral dust influences climate and weather by direct and indirect effects. Surrounded by dust sources, Central Asian countries are affected by atmospheric mineral dust on a regular basis. Climate change effects like glacier retreat and desertification are prevalent in Central Asia as well. Therefore, the role of dust in the climate system in Central Asia needs to be clarified and quantified. During the Central Asian Dust EXperiment (CADEX) first lidar observations in Tajikistan were conducted. Long-term vertically resolved aerosol measurements were performed with the multiwavelength polarization Raman lidar PollyXT from March 2015 to August 2016 in Dushanbe, Tajikistan. In this contribution, a climatology of the aerosol layer heights is presented, which was retrieved from the 18-month lidar measurements. Automatic detection based on backscatter coefficient thresholds were used to retrieve the aerosol layer heights and yield similar layer heights as manual layer height determination. The significant aerosol layer height has a maximum in summer and a minimum in winter. The highest layers occurred in spring, but in summer uppermost layer heights above 6 km AGL are frequent, too.

Published

2019

11. Variations of the aerosol chemical composition during Asian dust storm at Dushanbe, Tajikistan

Author

Fomba Khanneh Wadinga, Müller Konrad, Hofer Julian, Makhmudov Abduvosit N., Althausen Dietrich, Nazarov Bahron I., Abdullaev Sabur F., and Herrmann Hartmut

Subjects

Environmental sciences, GE1-350

Abstract

Aerosol chemical composition was characterized during the Central Asian Dust Experiment (CADEX) at Dushanbe (Tajikistan). Aerosol samples were collected during a period of 2 months from March to May 2015 using a high volume DIGITEL DHA-80 sampler on quartz fiber filters. The filters were analyzed for their ionic, trace metals as well as organic and elemental carbon (OC/EC) content. The aerosol mass showed strong variation with mass concentration ranging from 18 μg/m3 to 110 μg/m3. The mineral dust concentrations varied between 0.9 μg/m3 and 88 μg/m3. Days of high aerosol mass loadings were dominated by mineral dust, which made up to about 80% of the aerosol mass while organic matter and inorganic ions made up about 70% of the aerosol mass during days of low aerosol mass loadings. The mineral dust composition showed different trace metal signatures in comparison to Saharan dust with higher Ca content and Ca/Fe ratios twice as high as that observed in Saharan dust. Strong influence of anthropogenic activities was observed in the trace metal concentrations with Zn and Pb concentrations ranging from 7 to 197 ng/m3 and 2 to 20 ng/m3, respectively. Mineral dust and anthropogenic activities relating to traffic, combustion as well as metallurgical industrial emissions are identified as the sources of the aerosol during this period.

Published

2019

12. Lidar/radar approach to quantify the dust impact on ice nucleation in mid and high level clouds

Author

Ansmann Albert, Mamouri Rodanthi-Elisavet, Bühl Johannes, Seifert Patric, Engelmann Ronny, Nisantzi Agyro, Hofer Julian, and Baars Holger

Subjects

Environmental sciences, GE1-350

Abstract

We present the first attempt of a closure experiment regarding the relationship between ice nucleating particle concentration (INPC) and ice crystal number concentration (ICNC), solely based on active remote sensing. The approach combines aerosol and cloud observations with polarization lidar, Doppler lidar, and cloud radar. Several field campaigns were conducted on the island of Cyprus in the Eastern Mediterranean from 2015-2018 to study heterogeneous ice formation in altocumulus and cirrus layers embedded in Saharan dust. A case study observed on 10 April 2017 is discussed in this contribution.

Published

2019

13. Wild fire aerosol optical properties measured by lidar at Haifa, Israel

Author

Heese Birgit, Hofer Julian, Baars Holger, Engelmann Ronny, Althausen Dietrich, and Schechner Yoav Y.

Subjects

Physics, QC1-999

Abstract

Optical properties of fresh biomass burning aerosol were measured by lidar during the wild fires in Israel in November 2016. A single-wavelength lidar Polly was operated at the Technion Campus at Haifa. The detector with originally two channels at 532 and 607 nm was recently upgraded with a cross- and a co-polarised channel at 532 nm, and a rotational Raman channel at 530.2 nm. Preliminary results show high particle depolarisation ratios probably caused by soil dust and large fly-ash particles.

Published

2018

14. Mineral dust in Central Asia: Combining lidar and other measurements during the Central Asian dust experiment (CADEX)

Author

Althausen Dietrich, Hofer Julian, Abdullaev Sabur, Makhmudov Abduvosit, Baars Holger, Engelmann Ronny, Wadinga Fomba Khanneh, Müller Konrad, Schettler Georg, Klüser Lars, and Kandler Konrad

Subjects

Physics, QC1-999

Abstract

Mineral dust needs to be characterized comprehensively since it contributes to the climate change in Tajikistan / Central Asia. Lidar results from the measurements of mineral dust during CADEX are compared with results of sun photometer measurements, satellite-based measurements, and chemical analysis of ground samples. Although the dust is often advected from far-range sources, it impacts on the local conditions considerably.

Published

2018

15. 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

16. 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

17. Mineral dust in central asia: 18-month lidar measurements in tajikistan during the central Asian dust experiment (CADEX)

Author

Hofer Julian, Althausen Dietrich, Abdullaev Sabur F., Makhmudov Abduvosit, Nazarov Bakhron I., Schettler Georg, Fomba K.Wadinga, Müller Konrad, Heinold Bernd, Baars Holger, Engelmann Ronny, and Ansmann Albert

Subjects

Physics, QC1-999

Abstract

Tajikistan is often affected by atmospheric mineral dust. The direct and indirect radiative effects of dust play a sensitive role in the climate system in Central Asia. The Central Asian Dust Experiment (CADEX) provides first lidar measurements in Tajikistan. The autonomous multiwavelength polarization Raman lidar PollyXT was operated for 1.5 years (2015/16) in Dushanbe. In spring, lofted layers of long-range transported dust and in summer/ autumn, lower laying dust from local or regional sources with large optical thicknesses occurred.

Published

2018

18. Central Asian Dust Experiment (CADEX): Multiwavelength Polarization Raman Lidar Observations in Tajikistan

Author

Hofer Julian, Althausen Dietrich, Abdullaev Sabur F., Engelmann Ronny, and Baars Holger

Subjects

Physics, QC1-999

Abstract

For the first time lidar measurements of vertical aerosol profiles are conducted in Tajikistan/Central Asia. These measurements just started on March 17th, 2015. They are performed within the Central Asian Dust Experiment (CADEX) in Dushanbe and they will last at least one year. The deployed system for these observations is an updated version of the multiwavelength polarization Raman lidar PollyXT. Vertical profiles of the backscatter coefficient, the extinction coefficient, and the particle depolarization ratio are measured by this instrument. A first and preliminary measurement example of an aerosol layer over Dushanbe is shown.

Published

2016

19. The seasonal variation of Asian dust, anthropogenic PM, and their sources in Dushanbe, Tajikistan

Author

Fomba, Khanneh Wadinga, Faboya, Oluwabamise Lekan, Deabji, Nabil, Makhmudov, Abduvosit, Hofer, Julian, Souza, Eduardo J. dos Santos, Müller, Konrad, Althausen, Dietrich, Sharipov, Safarali, Abdullaev, Sabur, and Herrmann, Hartmut

Published

2024

20. Resolving the temporal evolution of line broadening in quantum emitters

Author

Schimpf, Christian, Reindl, Marcus, Klenovský, Petr, Fromherz, Thomas, Da Silva, Saimon F. Covre, Hofer, Julian, Schneider, Christian, Höfling, Sven, Trotta, Rinaldo, and Rastelli, Armando

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Light emission from solid-state quantum emitters is inherently prone to environmental decoherence, which results in an inhomogeneous line broadening and in the deterioration of photon indistinguishability. Here we employ photon correlation Fourier spectroscopy (PCFS) to study the temporal evolution of such a broadening for the biexciton and exciton emission in resonantly driven GaAs quantum dots. Differently from previous experiments, the time scales we probe range from a few nanoseconds to milliseconds and, simultaneously, the spectral resolution we achieve can be as small as 2 $\mu$eV. We find pronounced differences in the temporal evolution of the two lines, which we attribute to differences in their homogeneous linewidth and sensitivity to charge noise. We then analyze the effect of irradiation with additional white light, which reduces blinking at the cost of enhanced charge noise. Due to its robustness against experimental imperfections and its high temporal resolution and bandwidth, PCFS outperforms established spectroscopy techniques, such as Michelson interferometry. We discuss its practical implementation, its limitations, and the possibility to use it to estimate the indistinguishability of consecutively emitted single photons for applications in quantum communication and photonic-based quantum information processing.

Published

2019

21. Atmospheric temperature, water vapour and liquid water path from two microwave radiometers during MOSAiC

Author

Walbröl, Andreas, Crewell, Susanne, Engelmann, Ronny, Orlandi, Emiliano, Griesche, Hannes, Radenz, Martin, Hofer, Julian, Althausen, Dietrich, Maturilli, Marion, and Ebell, Kerstin

Published

2022

22. Modifications in aerosol physical, optical and radiative properties during heavy aerosol events over Dushanbe, Central Asia

Author

Rupakheti, Dipesh, Rupakheti, Maheswar, Yin, Xiufeng, Hofer, Julian, Rai, Mukesh, Hu, Yuling, Abdullaev, Sabur F., and Kang, Shichang

Published

2021

23. Impact of aerosol layering, complex aerosol mixing, and cloud coverage on high-resolution MAIAC aerosol optical depth measurements: Fusion of lidar, AERONET, satellite, and ground-based measurements

Author

Rogozovsky, Irina, Ansmann, Albert, Althausen, Dietrich, Heese, Birgit, Engelmann, Ronny, Hofer, Julian, Baars, Holger, Schechner, Yoav, Lyapustin, Alexei, and Chudnovsky, Alexandra

Published

2021

24. Differences and Similarities of Central Asian, African, and Arctic Dust Composition from a Single Particle Perspective

Author

Kandler, Konrad, Schneiders, Kilian, Heuser, Johannes, Waza, Andebo, Aryasree, Sudharaj, Althausen, Dietrich, Hofer, Julian, Abdullaev, Sabur F., Makhmudov, Abduvosit N., Kandler, Konrad, Schneiders, Kilian, Heuser, Johannes, Waza, Andebo, Aryasree, Sudharaj, Althausen, Dietrich, Hofer, Julian, Abdullaev, Sabur F., and Makhmudov, Abduvosit N.

Abstract

Mineral dust composition affects a multitude of processes in the atmosphere and adjacent compartments. Dust dry deposition was collected near source in northwest Africa, in Central Asia, and on Svalbard and at three locations of the African outflow regime. Samples were subjected to automated scanning electron microscopy with energy-dispersive X-ray analysis to obtain size and composition of 216,000 individual particles. Results show low temporal variation in estimated optical properties for each location, but considerable differences between the African, Central Asian, and Arctic regimes. No significant difference was found between the K-feldspar relative abundances, indicating comparable related ice-nucleation abilities. The mixing state between calcium and iron compounds was different for near source and transport regimes, potentially in part due to size sorting effects. As a result, in certain situations (high acid availability, limited time) atmospheric processing of the dust is expected to lead to less increased iron solubility for near-source dusts (in particular for Central Asian ones) than for transported ones (in particular of Sahelian origin).

Published

2024

25. Large-Scale Network-Based Observations of a Saharan Dust Event across the European Continent in Spring 2022.

Author

Papanikolaou, Christina-Anna, Papayannis, Alexandros, Gidarakou, Marilena, Abdullaev, Sabur F., Ajtai, Nicolae, Baars, Holger, Balis, Dimitris, Bortoli, Daniele, Bravo-Aranda, Juan Antonio, Collaud-Coen, Martine, de Rosa, Benedetto, Dionisi, Davide, Eleftheratos, Kostas, Engelmann, Ronny, Floutsi, Athena A., Abril-Gago, Jesús, Goloub, Philippe, Giuliano, Giovanni, Gumà-Claramunt, Pilar, and Hofer, Julian

Subjects

AEROSOLS, AIR masses, CENTER of mass, HUMIDITY, SPATIAL variation, DUST

Abstract

Between 14 March and 21 April 2022, an extensive investigation of an extraordinary Saharan dust intrusion over Europe was performed based on lidar measurements obtained by the European Aerosol Research Lidar Network (EARLINET). The dust episode was divided into two distinct periods, one in March and one in April, characterized by different dust transport paths. The dust aerosol layers were studied over 18 EARLINET stations, examining aerosol characteristics during March and April in four different regions (M-I, M-II, M-III, and M-IV and A-I, A-II, A-III, and A-IV, respectively), focusing on parameters such as aerosol layer thickness, center of mass (CoM), lidar ratio (LR), particle linear depolarization ratio (PLDR), and Ångström exponents (ÅE). In March, regions exhibited varying dust geometrical and optical properties, with mean CoM values ranging from approximately 3.5 to 4.8 km, and mean LR values typically between 36 and 54 sr. PLDR values indicated the presence of both pure and mixed dust aerosols, with values ranging from 0.20 to 0.32 at 355 nm and 0.24 to 0.31 at 532 nm. ÅE values suggested a range of particle sizes, with some regions showing a predominance of coarse particles. Aerosol Optical Depth (AOD) simulations from the NAAPS model indicated significant dust activity across Europe, with AOD values reaching up to 1.60. In April, dust aerosol layers were observed between 3.2 to 5.2 km. Mean LR values typically ranged from 35 to 51 sr at both 355 nm and 532 nm, while PLDR values confirmed the presence of dust aerosols, with mean values between 0.22 and 0.31 at 355 nm and 0.25 to 0.31 at 532 nm. The ÅE values suggested a mixture of particle sizes. The AOD values in April were generally lower, not exceeding 0.8, indicating a less intense dust presence compared to March. The findings highlight spatial and temporal variations in aerosol characteristics across the regions, during the distinctive periods. From 15 to 16 March 2022, Saharan dust significantly reduced UV-B radiation by approximately 14% over the ATZ station (Athens, GR). Backward air mass trajectories showed that the dust originated from the Western and Central Sahara when, during this specific case, the air mass trajectories passed over GRA (Granada, ES) and PAY (Payerne, CH) before reaching ATZ, maintaining high relative humidity and almost stable aerosol properties throughout its transport. Lidar data revealed elevated aerosol backscatter (baer) and PLDR values, combined with low LR and ÅE values, indicative of pure dust aerosols. [ABSTRACT FROM AUTHOR]

Published

2024

26. The implementation of dust mineralogy in COSMO5.05-MUSCAT

Author

Gómez Maqueo Anaya, Sofía, primary, Althausen, Dietrich, additional, Faust, Matthias, additional, Baars, Holger, additional, Heinold, Bernd, additional, Hofer, Julian, additional, Tegen, Ina, additional, Ansmann, Albert, additional, Engelmann, Ronny, additional, Skupin, Annett, additional, Heese, Birgit, additional, and Schepanski, Kerstin, additional

Published

2024

27. Aerosol-related effects on the occurrence of heterogeneous ice formation over Lauder, New Zealand / Aotearoa.

Author

Hofer, Julian, Seifert, Patric, Liley, J. Ben, Radenz, Martin, Uchino, Osamu, Morino, Isamu, Sakai, Tetsu, Nagai, Tomohiro, and Ansmann, Albert

Subjects

TROPOSPHERIC aerosols, ENVIRONMENTAL sciences, METEOROLOGICAL research, AIR masses, STRATUS clouds, ICE clouds

Abstract

The presented study investigates the efficiency of heterogeneous ice formation in natural clouds over Lauder, New Zealand / Aotearoa. Aerosol conditions in the middle troposphere above Lauder are subject to huge contrasts. Clean, pristine air masses from Antarctica and the Southern Ocean arrive under southerly flow conditions, while high aerosol loads can occur when air masses are advected from nearby Australia. This study assesses how these contrasts in aerosol load affect the ice formation efficiency in stratiform midlevel clouds in the heterogeneous freezing range (- 40 to 0 ∘C). For this purpose, an 11-year dataset was analyzed from a dual-wavelength polarization lidar system operated by National Institute of Water and Atmospheric Research (NIWA), Taihoro Nukurangi, at Lauder in collaboration with the National Institute for Environmental Studies in Japan and the Meteorological Research Institute of the Japan Meteorological Agency. These data were used to investigate the efficiency of heterogeneous ice formation in clouds over the site as a function of cloud-top temperature as in previous studies at other locations. The Lauder cloud dataset was put into context with lidar studies from contrasting regions such as Germany and southern Chile. The ice formation efficiency found at Lauder is lower than in polluted midlatitudes (i.e., Germany) but higher than, for example, in southern Chile. Both Lauder and southern Chile are subject to generally low free-tropospheric aerosol loads, which suggests that the low ice formation efficiency at these two sites is related to low ice-nucleating-particle (INP) concentrations. However, Lauder sees episodes of continental aerosol, more than southern Chile does, which seems to lead to the moderately increased ice formation efficiency. Trajectory-based tools and aerosol model reanalyses are used to relate this cloud dataset to the aerosol load and the air mass sources. Both analyses point clearly to higher ice formation efficiency for clouds which are more strongly influenced by continental aerosol and to lower ice formation efficiency for clouds which are more influenced by Antarctic/marine aerosol and air masses. [ABSTRACT FROM AUTHOR]

Published

2024

28. Assessing aerosol-cloud relationships from dual-field-of-view-polarization lidar: Results and perspectives

Author

Jiménez, Cristofer, Ansmann, Albert, Engelmann, Ronny, Seifert, Patric, Radenz, Martin, Hofer, Julian, Griesche, Hannes, Althausen, Dietrich, and Baars, Holger

Abstract

Cloud-droplet, -ice as well as CCN and INP concentrations, stand as key parameters to improve our knowledge of cloud microphysics and dynamics and to approach a better understanding of aerosol impacts on Earth's radiative and precipitation budgets. This contribution will focus on the relationship between aerosol- and liquid-cloud properties by means of long-term observations with dual-field-of-view polarization lidars, which allow the spatiotemporal sampling of aerosol-microphysical properties, relevant for CCN and INP estimates from the ground-up to the Stratosphere, and of the droplet-number concentration and effective radius at liquid-cloud layers, only possible with the new dual-field-of-view feature. We performed measurements since 2019 at three strategic locations: in the pristine Punta Arenas (south tip of Chile), in the dry and often-polluted city of Dushanbe (in Central Asia), and in the Arctic on board of Polarstern. This lidar-based dataset of collocated aerosol and cloud properties was used to investigate the cloud response to local conditions, in which we found similar cloud-droplet numbers for Punta Arenas and the Arctic (in the order of 100 cm-3), but much larger concentrations for Central Asia reaching values in the order of 500 cm-3 in Dushanbe. Preliminary results on the co-variability of cloud-droplet and CCN number (aerosol-cloud-interaction index) show the highest correlations at Punta Arenas, close to 0.85 on the monthly scale. The potential of these aerosol-cloud scenes to learn about the aerosol-cloud radiative effect, as well as to look into cloud processes will be discussed, giving focus to the observational scale., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published

2023

29. Annual cycle of aerosol properties over the central Arctic during MOSAiC 2019–2020 – light-extinction, CCN, and INP levels from the boundary layer to the tropopause

Author

Ansmann, Albert, Ohneiser, Kevin, Engelmann, Ronny, Radenz, Martin, Griesche, Hannes, Hofer, Julian, Althausen, Dietrich, Creamean, Jessie M, Boyer, Matthew C, Knopf, Daniel A, Dahlke, Sandro, Maturilli, Marion, Gebauer, Henriette, Bühl, Johannes, Jimenez, Cristofer, Seifert, Patric, Wandinger, Ulla, Ansmann, Albert, Ohneiser, Kevin, Engelmann, Ronny, Radenz, Martin, Griesche, Hannes, Hofer, Julian, Althausen, Dietrich, Creamean, Jessie M, Boyer, Matthew C, Knopf, Daniel A, Dahlke, Sandro, Maturilli, Marion, Gebauer, Henriette, Bühl, Johannes, Jimenez, Cristofer, Seifert, Patric, and Wandinger, Ulla

Abstract

The MOSAiC (Multidisciplinary drifting Observatory for the Study of Arctic Climate) expedition was the largest Arctic field campaign ever conducted. MOSAiC offered the unique opportunity to monitor and characterize aerosols and clouds with high vertical resolution up to 30 km height at latitudes from 80 to 90 N over an entire year (October 2019 to September 2020). Without a clear knowledge of the complex aerosol layering, vertical structures, and dominant aerosol types and their impact on cloud formation, a full understanding of the meteorological processes in the Arctic, and thus advanced climate change research, is impossible. Widespread ground-based in situ observations in the Arctic are insufficient to provide these required aerosol and cloud data. In this article, a summary of our MOSAiC observations of tropospheric aerosol profiles with a state-of-the-art multiwavelength polarization Raman lidar aboard the icebreaker Polarstern is presented. Particle optical properties, i.e., light-extinction profiles and aerosol optical thickness (AOT), and estimates of cloud-relevant aerosol properties such as the number concentration of cloud condensation nuclei (CCN) and ice-nucleating particles (INPs) are discussed, separately for the lowest part of the troposphere (atmospheric boundary layer, ABL), within the lower free troposphere (around 2000 m height), and at the cirrus level close to the tropopause. In situ observations of the particle number concentration and INPs aboard Polarstern are included in the study. A strong decrease in the aerosol amount with height in winter and moderate vertical variations in summer were observed in terms of the particle extinction coefficient. The 532 nm light-extinction values dropped from >50 Mm-1 close to the surface to <5 Mm-1 at 4-6 km height in the winter months. Lofted, aged wildfire smoke layers caused a re-increase in the aerosol concentration towards the tropopause. In summer (June to August 2020), much lower particle extincti

Published

2023

30. Aerosol-related effects on the occurrence of heterogeneous ice formation over Lauder, New Zealand/Aotearoa.

Author

Hofer, Julian, Seifert, Patric, Liley, J. Ben, Radenz, Martin, Uchino, Osamu, Isamu Morino, Tetsu Sakai, Tomohiro Nagai, and Ansmann, Albert

Abstract

The presented study investigates the efficiency of heterogeneous ice formation in natural clouds over Lauder, New Zealand/Aotearoa. Aerosol conditions in the middle troposphere above Lauder are subject to huge contrasts. Clean, pristine airmasses from Antarctica and the Southern Ocean arrive under southerly flow conditions while high aerosol loads can occur when air masses are advected from nearby Australia. This study assesses how these contrasts in aerosol load affect the ice formation efficiency in stratiform midlevel clouds in the heterogeneous freezing range (-40°C to 0°C). For this purpose, an 11-year dataset was analyzed from a dual-wavelength polarization lidar system operated by National Institute of Water & Atmospheric Research (NIWA) at Lauder in collaboration with the National Institute for Environmental Studies in Japan and the Meteorological Research Institute of the Japan Meteorological Agency. These data were used to investigate the efficiency of heterogeneous ice formation in clouds over the site as a function of cloud-top temperature as in previous studies at other locations. The Lauder cloud dataset was put into context with lidar studies from contrasting regions such as Germany and southern Chile. The ice formation efficiency found at Lauder is lower than in polluted mid-latitudes (i.e., Germany) but higher than for example in southern Chile. Both, Lauder and southern Chile are subject to generally low free-tropospheric aerosol loads, which suggests that the low ice formation efficiency at these two sites is related to low ice-nucleating particle (INP) concentrations. However, Lauder sees episodes of continental aerosol, more than does southern Chile, which seems to lead to the moderately increased ice formation efficiency. Trajectory-based tools and aerosol model re-analyses are used to relate this cloud dataset to the aerosol load and the air mass sources. Both analyses point clearly to higher ice formation efficiency for clouds which are more strongly influenced by continental aerosol, and to lower ice formation efficiency for clouds which are more influenced by Antarctic/marine aerosol and air masses. [ABSTRACT FROM AUTHOR]

Published

2023

31. The implementation of dust mineralogy in COSMO5.05-MUSCAT.

Author

Gómez Maqueo Anaya, Sofía, Althausen, Dietrich, Faust, Matthias, Baars, Holger, Heinold, Bernd, Hofer, Julian, Tegen, Ina, Ansmann, Albert, Engelmann, Ronny, Skupin, Annett, Heese, Birgit, and Schepanski, Kerstin

Subjects

MINERAL dusts, DUST, CHEMICAL models, MINERALOGY, DESERTS, AEROSOLS

Abstract

Mineral dust aerosols are composed from a complex assemblage of various minerals depending on the region they originated. Giving the different mineral composition of desert dust aerosols, different physico-chemical properties and therefore varying climate effects are expected. Despite the known regional variations in mineral composition, chemical transport models typically assume that mineral dust 5 aerosols have uniform composition. This study adds, for the first time, mineralogical information to the mineral dust emission scheme used in the chemical transport model COSMO-MUSCAT. We provide a detailed description of the implementation of the mineralogical database, GMINER (Nickovic et al., 2012), together with a specific set of physical parametrizations in the model's mineral dust emission module. These changes lead to a general improvement of the model performance when comparing the simulated mineral dust aerosols with measurements over the Sahara Desert region for January - February 2022 . 10 The simulated mineral dust aerosol vertical distribution is tested by a comparison with aerosol lidar measurements from the lidar system PollyXT, located at Cape Verde. For a lofted mineral dust aerosol layer on the 2 February 5:00 UTC the lidar retrievals yield on a dust mass concentration peak of 156 µg/m³ while the model calculates the mineral dust peak at 136 µg/m³. The results highlight the possibility of using the model with resolved mineral dust composition for interpretation of the lidar measurements since higher absorption the UV-VIS wavelength is correlated to particles having higher hematite 15 content. Additionally, the comparison with in-situ mineralogical measurements of dust aerosol particles show how important they are, but also that more of them are needed for model evaluation. [ABSTRACT FROM AUTHOR]

Published

2023

32. Ozone depletion in the Arctic and Antarctic stratosphere induced by wildfire smoke

Author

Ansmann, Albert, primary, Ohneiser, Kevin, additional, Chudnovsky, Alexandra, additional, Knopf, Daniel A., additional, Eloranta, Edwin W., additional, Villanueva, Diego, additional, Seifert, Patric, additional, Radenz, Martin, additional, Barja, Boris, additional, Zamorano, Félix, additional, Jimenez, Cristofer, additional, Engelmann, Ronny, additional, Baars, Holger, additional, Griesche, Hannes, additional, Hofer, Julian, additional, Althausen, Dietrich, additional, and Wandinger, Ulla, additional

Published

2022

33. Overview of the MOSAiC expedition - Atmosphere

Author

Shupe, Matthew D., Rex, Markus, Blomquist, Byron, Persson, P. Ola G., Schmale, Julia, Uttal, Taneil, Althausen, Dietrich, Angot, Hélène, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Bucci, Silvia, Buck, Clifton, Boyer, Matt, Brasseur, Zoé, Brooks, Ian M., Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J., Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, de Boer, Gijs, Deckelmann, Holger, Dethloff, Klaus, Dütsch, Marina, Ebell, Kerstin, Ehrlich, André, Ellis, Jody, Engelmann, Ronny, Fong, Allison A., Frey, Markus M., Gallagher, Michael R., Ganzeveld, Laurens, Gradinger, Rolf, Graeser, Jürgen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Günther, Helmig, Detlev, Herber, Andreas, Heuzé, Céline, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Lüpkes, Christof, Maahn, Maximilian, Macke, Andreas, Maslowski, Wieslaw, Marsay, Christopher, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Pätzold, Falk, Perovich, Donald K., Petäjä, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A., Preußer, Andreas, Quéléver, Lauriane, Radenz, Martin, Rabe, Benjamin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stephens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M., Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, Yue, Fange, Shupe, Matthew D., Rex, Markus, Blomquist, Byron, Persson, P. Ola G., Schmale, Julia, Uttal, Taneil, Althausen, Dietrich, Angot, Hélène, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Bucci, Silvia, Buck, Clifton, Boyer, Matt, Brasseur, Zoé, Brooks, Ian M., Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J., Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, de Boer, Gijs, Deckelmann, Holger, Dethloff, Klaus, Dütsch, Marina, Ebell, Kerstin, Ehrlich, André, Ellis, Jody, Engelmann, Ronny, Fong, Allison A., Frey, Markus M., Gallagher, Michael R., Ganzeveld, Laurens, Gradinger, Rolf, Graeser, Jürgen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Günther, Helmig, Detlev, Herber, Andreas, Heuzé, Céline, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Lüpkes, Christof, Maahn, Maximilian, Macke, Andreas, Maslowski, Wieslaw, Marsay, Christopher, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Pätzold, Falk, Perovich, Donald K., Petäjä, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A., Preußer, Andreas, Quéléver, Lauriane, Radenz, Martin, Rabe, Benjamin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stephens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M., Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, and Yue, Fange

Abstract

With the Arctic rapidly changing, the needs to observe, understand, and model the changes are essential. To support these needs, an annual cycle of observations of atmospheric properties, processes, and interactions were made while drifting with the sea ice across the central Arctic during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition from October 2019 to September 2020. An international team designed and implemented the comprehensive program to document and characterize all aspects of the Arctic atmospheric system in unprecedented detail, using a variety of approaches, and across multiple scales. These measurements were coordinated with other observational teams to explore cross-cutting and coupled interactions with the Arctic Ocean, sea ice, and ecosystem through a variety of physical and biogeochemical processes. This overview outlines the breadth and complexity of the atmospheric research program, which was organized into 4 subgroups: atmospheric state, clouds and precipitation, gases and aerosols, and energy budgets. Atmospheric variability over the annual cycle revealed important influences from a persistent large-scale winter circulation pattern, leading to some storms with pressure and winds that were outside the interquartile range of past conditions suggested by long-term reanalysis. Similarly, the MOSAiC location was warmer and wetter in summer than the reanalysis climatology, in part due to its close proximity to the sea ice edge. The comprehensiveness of the observational program for characterizing and analyzing atmospheric phenomena is demonstrated via a winter case study examining air mass transitions and a summer case study examining vertical atmospheric evolution. Overall, the MOSAiC atmospheric program successfully met its objectives and was the most comprehensive atmospheric measurement program to date conducted over the Arctic sea ice. The obtained data will support a broad range of coupled-system

Published

2022

34. Overview of the MOSAiC expedition: Atmosphere

Author

Shupe, Matthew D, Rex, Markus, Blomquist, Byron, Persson, POG, Schmale, J, Uttal, Taneil, Althausen, Dietrich, Angot, Hélène, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Boyer, Matt, Brasseur, Zoe, Brooks, Ian M, Bucci, Silvia, Buck, Clifton, Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J, Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, De Boer, G, Deckelmann, Holger, Dethloff, Klaus, Dütsch, Marina, Ebell, Kerstin, Ehrlich, André, Ellis, Jody, Engelmann, Ronny, Fong, Allison A, Frey, Markus M, Gallagher, Michael R, Ganzeveld, L, Gradinger, Rolf, Graeser, Juergen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Günther, Helmig, Detlev, Herber, Andreas, Heuzé, Céline, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William M, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Lüpkes, Christof, Maahn, Max, Macke, Andreas, Marsay, Christopher, Maslowski, Wieslaw, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Pätzold, Falk, Perovich, Donald K, Petäjä, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A, Preußer, Andreas, Quelever, Lauriane, Rabe, Benjamin, Radenz, Martin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stevens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M, Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, Yue, Fange, Shupe, Matthew D, Rex, Markus, Blomquist, Byron, Persson, POG, Schmale, J, Uttal, Taneil, Althausen, Dietrich, Angot, Hélène, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Boyer, Matt, Brasseur, Zoe, Brooks, Ian M, Bucci, Silvia, Buck, Clifton, Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J, Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, De Boer, G, Deckelmann, Holger, Dethloff, Klaus, Dütsch, Marina, Ebell, Kerstin, Ehrlich, André, Ellis, Jody, Engelmann, Ronny, Fong, Allison A, Frey, Markus M, Gallagher, Michael R, Ganzeveld, L, Gradinger, Rolf, Graeser, Juergen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Günther, Helmig, Detlev, Herber, Andreas, Heuzé, Céline, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William M, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Lüpkes, Christof, Maahn, Max, Macke, Andreas, Marsay, Christopher, Maslowski, Wieslaw, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Pätzold, Falk, Perovich, Donald K, Petäjä, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A, Preußer, Andreas, Quelever, Lauriane, Rabe, Benjamin, Radenz, Martin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stevens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M, Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, and Yue, Fange

Abstract

With the Arctic rapidly changing, the needs to observe, understand, and model the changes are essential. To support these needs, an annual cycle of observations of atmospheric properties, processes, and interactions were made while drifting with the sea ice across the central Arctic during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition from October 2019 to September 2020. An international team designed and implemented the comprehensive program to document and characterize all aspects of the Arctic atmospheric system in unprecedented detail, using a variety of approaches, and across multiple scales. These measurements were coordinated with other observational teams to explore cross- cutting and coupled interactions with the Arctic Ocean, sea ice, and ecosystem through a variety of physical and biogeochemical processes. This overview outlines the breadth and complexity of the atmospheric research program, which was organized into 4 subgroups: atmospheric state, clouds and precipitation, gases and aerosols, and energy budgets. Atmospheric variability over the annual cycle revealed important influences from a persistent large-scale winter circulation pattern, leading to some storms with pressure and winds that were outside the interquartile range of past conditions suggested by long-term reanalysis. Similarly, the MOSAiC location was warmer and wetter in summer than the reanalysis climatology, in part due to its close proximity to the sea ice edge.The comprehensiveness of the observational program for characterizing and analyzing atmospheric phenomena is demonstrated via a winter case study examining air mass transitions and a summer case study examining vertical atmospheric evolution. Overall, the MOSAiC atmospheric program successfully met its objectives and was the most comprehensive atmospheric measurement program to date conducted over the Arctic sea ice. The obtained data will support a broad range of coupled-system

Published

2022

35. Overview of the MOSAiC expedition-Atmosphere INTRODUCTION

Author

Shupe, Matthew D., Rex, Markus, Blomquist, Byron, Persson, P. Ola G., Schmale, Julia, Uttal, Taneil, Althausen, Dietrich, Angot, Helene, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Bucci, Silvia, Buck, Clifton, Boyer, Matt, Brasseur, Zoe, Brooks, Ian M., Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J., Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, de Boer, Gijs, Deckelmann, Holger, Dethloff, Klaus, Duetsch, Marina, Ebell, Kerstin, Ehrlich, Andre, Ellis, Jody, Engelmann, Ronny, Fong, Allison A., Frey, Markus M., Gallagher, Michael R., Ganzeveld, Laurens, Gradinger, Rolf, Graeser, Juergen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Guenther, Helmig, Detlev, Herber, Andreas, Heuze, Celine, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Luepkes, Christof, Maahn, Maximilian, Macke, Andreas, Maslowski, Wieslaw, Marsay, Christopher, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Paetzold, Falk, Perovich, Donald K., Petaja, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A., Preusser, Andreas, Quelever, Lauriane, Radenz, Martin, Rabe, Benjamin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stephens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M., Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, Yue, Fange, Shupe, Matthew D., Rex, Markus, Blomquist, Byron, Persson, P. Ola G., Schmale, Julia, Uttal, Taneil, Althausen, Dietrich, Angot, Helene, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Bucci, Silvia, Buck, Clifton, Boyer, Matt, Brasseur, Zoe, Brooks, Ian M., Calmer, Radiance, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher J., Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, de Boer, Gijs, Deckelmann, Holger, Dethloff, Klaus, Duetsch, Marina, Ebell, Kerstin, Ehrlich, Andre, Ellis, Jody, Engelmann, Ronny, Fong, Allison A., Frey, Markus M., Gallagher, Michael R., Ganzeveld, Laurens, Gradinger, Rolf, Graeser, Juergen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Guenther, Helmig, Detlev, Herber, Andreas, Heuze, Celine, Hofer, Julian, Houchens, Todd, Howard, Dean, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, Jozef, Gina, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Luepkes, Christof, Maahn, Maximilian, Macke, Andreas, Maslowski, Wieslaw, Marsay, Christopher, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Paetzold, Falk, Perovich, Donald K., Petaja, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri A., Preusser, Andreas, Quelever, Lauriane, Radenz, Martin, Rabe, Benjamin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stephens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey M., Wendisch, Manfred, Werner, Martin, Xie, ZhouQing, and Yue, Fange

Abstract

With the Arctic rapidly changing, the needs to observe, understand, and model the changes are essential. To support these needs, an annual cycle of observations of atmospheric properties, processes, and interactions were made while drifting with the sea ice across the central Arctic during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition from October 2019 to September 2020. An international team designed and implemented the comprehensive program to document and characterize all aspects of the Arctic atmospheric system in unprecedented detail, using a variety of approaches, and across multiple scales. These measurements were coordinated with other observational teams to explore crosscutting and coupled interactions with the Arctic Ocean, sea ice, and ecosystem through a variety of physical and biogeochemical processes. This overview outlines the breadth and complexity of the atmospheric research program, which was organized into 4 subgroups: atmospheric state, clouds and precipitation, gases and aerosols, and energy budgets. Atmospheric variability over the annual cycle revealed important influences from a persistent large-scale winter circulation pattern, leading to some storms with pressure and winds that were outside the interquartile range of past conditions suggested by long-term reanalysis. Similarly, the MOSAiC location was warmer and wetter in summer than the reanalysis climatology, in part due to its close proximity to the sea ice edge. The comprehensiveness of the observational program for characterizing and analyzing atmospheric phenomena is demonstrated via a winter case study examining air mass transitions and a summer case study examining vertical atmospheric evolution. Overall, the MOSAiC atmospheric program successfully met its objectives and was the most comprehensive atmospheric measurement program to date conducted over the Arctic sea ice. The obtained data will support a broad range of coupled-system s

Published

2022

36. 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

37. Optical properties of Central Asian aerosol relevant for spaceborne lidar applications and aerosol typing at 355 and 532 nm

Author

Hofer, Julian, Ansmann, Albert, Althausen, Dietrich, Engelmann, Ronny, Baars, Holger, Fomba, Khanneh Wadinga, Wandinger, Ulla, Abdullaev, Sabur F., and Makhmudov, Abduvosit N.

Subjects

lcsh:Chemistry, lcsh:QD1-999, lcsh:Physics, lcsh:QC1-999

Abstract

For the first time, a dense data set of particle extinction-to-backscatter ratios (lidar ratios), linear depolarization ratios, and backscatter- and extinction-related Ångström exponents for a Central Asian site are presented. The observations were performed with a continuously running multiwavelength polarization Raman lidar at Dushanbe, Tajikistan, during an 18-month campaign (March 2015 to August 2016). The presented seasonally resolved observations fill an important gap in the database of aerosol optical properties used in aerosol typing efforts with spaceborne lidars and ground-based lidar networks. Lidar ratios and depolarization ratios are also basic input parameters in spaceborne lidar data analyses and in efforts to harmonize long-term observations with different space lidar systems operated at either 355 or 532 nm. As a general result, the found optical properties reflect the large range of occurring aerosol mixtures consisting of long-range-transported dust (from the Middle East and the Sahara), regional desert, soil, and salt dust, and anthropogenic pollution. The full range from highly polluted to pure dust situations could be observed. Typical dust depolarization ratios of 0.23–0.29 (355 nm) and 0.30–0.35 (532 nm) were observed. In contrast, comparably low lidar ratios were found. Dust lidar ratios at 532 nm accumulated around 35–40 sr and were even lower for regional background dust conditions (20–30 sr). Detailed correlation studies (e.g., lidar ratio vs. depolarization ratios, Ångström exponent vs. lidar ratio and vs. depolarization ratio) are presented to illuminate the complex relationships between the observed optical properties and to identify the contributions of anthropogenic haze, dust, and background aerosol to the overall aerosol mixtures found within the 18-month campaign. The observation of 532 nm lidar ratios ( sr) and depolarization ratios (around 15 %–20 %) in layers with very low particle extinction coefficient ( sr) suggests that direct emission and emission of resuspended salt dust (initially originated from numerous desiccating lakes and the Aralkum desert) have a sensitive impact on the aerosol background optical properties over Dushanbe.

Published

2020

38. Overview of the MOSAiC expedition: Atmosphere

Author

Shupe, Matthew, Rex, Markus, Blomquist, Byron, Ola, P, Persson, G, Schmale, Julia, Uttal, Taneil, Althausen, Dietrich, Lè Ne Angot, Hé, Archer, Stephen, Bariteau, Ludovic, Beck, Ivo, Bilberry, John, Bucci, Silvia, Buck, Clifton, Boyer, Matt, Brasseur, Zoé, Brooks, Ian, Cassano, John, Castro, Vagner, Chu, David, Costa, David, Cox, Christopher, Creamean, Jessie, Crewell, Susanne, Dahlke, Sandro, Damm, Ellen, de Boer, Gijs, Deckelmann, Holger, Dethloff, Klaus, Dütsch, Marina, Ebell, Kerstin, Ehrlich, André, Ellis, Jody, Engelmann, Ronny, Fong, Allison, Frey, Markus, Gallagher, Michael, Ganzeveld, Laurens, Gradinger, Rolf, Graeser, Jürgen, Greenamyer, Vernon, Griesche, Hannes, Griffiths, Steele, Hamilton, Jonathan, Heinemann, Günther, Helmig, Detlev, Herber, Andreas, Line Heuzé, Cé, Hofer, Julian, Houchens, Todd, Inoue, Jun, Jacobi, Hans-Werner, Jaiser, Ralf, Jokinen, Tuija, Jourdan, Olivier, King, Wessley, Kirchgaessner, Amelie, Klingebiel, Marcus, Krassovski, Misha, Krumpen, Thomas, Lampert, Astrid, Landing, William, Laurila, Tiia, Lawrence, Dale, Lonardi, Michael, Loose, Brice, Lüpkes, Christof, Maahn, Maximilian, Macke, Andreas, Maslowski, Wieslaw, Marsay, Christopher, Maturilli, Marion, Mech, Mario, Morris, Sara, Moser, Manuel, Nicolaus, Marcel, Ortega, Paul, Osborn, Jackson, Pätzold, Falk, Perovich, Donald, Petäjä, Tuukka, Pilz, Christian, Pirazzini, Roberta, Posman, Kevin, Powers, Heath, Pratt, Kerri, Preusser, Andreas, Qué Lé Ver, Lauriane, Radenz, Martin, Rabe, Benjamin, Rinke, Annette, Sachs, Torsten, Schulz, Alexander, Siebert, Holger, Silva, Tercio, Solomon, Amy, Sommerfeld, Anja, Spreen, Gunnar, Stephens, Mark, Stohl, Andreas, Svensson, Gunilla, Uin, Janek, Viegas, Juarez, Voigt, Christiane, von Der Gathen, Peter, Wehner, Birgit, Welker, Jeffrey, Wendisch, Manfred, Werner, Martin, Xie, Zhouqing, Yue, Fange, Jourdan, Olivier, Laboratoire de Météorologie Physique (LaMP), and Institut national des sciences de l'Univers (INSU - CNRS)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Arctic, Field campaign, Atmosphere, [SDU.OCEAN] Sciences of the Universe [physics]/Ocean, Atmosphere

Abstract

International audience; With the Arctic rapidly changing, the needs to observe, understand, and model the changes are essential. To support these needs, an annual cycle of observations of atmospheric properties, processes, and interactions were made while drifting with the sea ice across the central Arctic during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition from October 2019 to September 2020. An international team designed and implemented the comprehensive program to document and characterize all aspects of the Arctic atmospheric system in unprecedented detail, using a variety of approaches, and across multiple scales. These measurements were coordinated with other observational teams to explore crosscutting and coupled interactions with the Arctic Ocean, sea ice, and ecosystem through a variety of physical and biogeochemical processes. This overview outlines the breadth and complexity of the atmospheric research program, which was organized into 4 subgroups: atmospheric state, clouds and precipitation, gases and aerosols, and energy budgets. Atmospheric variability over the annual cycle revealed important influences from a persistent large-scale winter circulation pattern, leading to some storms with pressure and winds that were outside the interquartile range of past conditions suggested by long-term reanalysis. Similarly, the MOSAiC location was warmer and wetter in summer than the reanalysis climatology, in part due to its close proximity to the sea ice edge.The comprehensiveness of the observational program for characterizing and analyzing atmospheric phenomena is demonstrated via a winter case study examining air mass transitions and a summer case study examining vertical atmospheric evolution. Overall, the MOSAiC atmospheric program successfully met its objectives and was the most comprehensive atmospheric measurement program to date conducted over the Arctic sea ice. The obtained data will support a broad range of coupled-system scientific research and provide an important foundation for advancing multiscale modeling capabilities in the Arctic.

Published

2022

39. The vertical aerosol type distribution above Israel – 2 years of lidar observations at the coastal city of Haifa

Author

Heese, Birgit, primary, Floutsi, Athena Augusta, additional, Baars, Holger, additional, Althausen, Dietrich, additional, Hofer, Julian, additional, Herzog, Alina, additional, Mewes, Silke, additional, Radenz, Martin, additional, and Schechner, Yoav Y., additional

Published

2022

40. The unexpected smoke layer in the High Arctic winter stratosphere during MOSAiC 2019–2020

Author

Ohneiser, Kevin, primary, Ansmann, Albert, additional, Chudnovsky, Alexandra, additional, Engelmann, Ronny, additional, Ritter, Christoph, additional, Veselovskii, Igor, additional, Baars, Holger, additional, Gebauer, Henriette, additional, Griesche, Hannes, additional, Radenz, Martin, additional, Hofer, Julian, additional, Althausen, Dietrich, additional, Dahlke, Sandro, additional, and Maturilli, Marion, additional

Published

2021

41. 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

42. Wildfire smoke, Arctic haze, and aerosol effects on mixed-phase and cirrus clouds over the North Pole region during MOSAiC: an introduction

Author

Engelmann, Ronny, primary, Ansmann, Albert, additional, Ohneiser, Kevin, additional, Griesche, Hannes, additional, Radenz, Martin, additional, Hofer, Julian, additional, Althausen, Dietrich, additional, Dahlke, Sandro, additional, Maturilli, Marion, additional, Veselovskii, Igor, additional, Jimenez, Cristofer, additional, Wiesen, Robert, additional, Baars, Holger, additional, Bühl, Johannes, additional, Gebauer, Henriette, additional, Haarig, Moritz, additional, Seifert, Patric, additional, Wandinger, Ulla, additional, and Macke, Andreas, additional

Published

2021

43. The unexpected smoke layer in the High Arctic winter stratosphere during MOSAiC 2019–2020

Author

Ohneiser, Kevin, Ansmann, Albert, Chudnovsky, Alexandra, Engelmann, Ronny, Ritter, Christoph, Veselovskii, Igor, Baars, Holger, Gebauer, Henriette, Griesche, Hannes, Radenz, Martin, Hofer, Julian, Althausen, Dietrich, Dahlke, Sandro, Maturilli, Marion, Ohneiser, Kevin, Ansmann, Albert, Chudnovsky, Alexandra, Engelmann, Ronny, Ritter, Christoph, Veselovskii, Igor, Baars, Holger, Gebauer, Henriette, Griesche, Hannes, Radenz, Martin, Hofer, Julian, Althausen, Dietrich, Dahlke, Sandro, and Maturilli, Marion

Abstract

During the 1-year MOSAiC (Multidisciplinary drifting Observatory for the Study of Arctic Climate) expedition, the German icebreaker Polarstern drifted through Arctic Ocean ice from October 2019 to May 2020, mainly at latitudes between 85 and 88.5∘ N. A multiwavelength polarization Raman lidar was operated on board the research vessel and continuously monitored aerosol and cloud layers up to a height of 30 km. During our mission, we expected to observe a thin residual volcanic aerosol layer in the stratosphere, originating from the Raikoke volcanic eruption in June 2019, with an aerosol optical thickness (AOT) of 0.005–0.01 at 500 nm over the North Pole area during the winter season. However, the highlight of our measurements was the detection of a persistent, 10 km deep aerosol layer in the upper troposphere and lower stratosphere (UTLS), from about 7–8 to 17–18 km height, with clear and unambiguous wildfire smoke signatures up to 12 km and an order of magnitude higher AOT of around 0.1 in the autumn of 2019. Case studies are presented to explain the specific optical fingerprints of aged wildfire smoke in detail. The pronounced aerosol layer was present throughout the winter half-year until the strong polar vortex began to collapse in late April 2020. We hypothesize that the detected smoke originated from extraordinarily intense and long-lasting wildfires in central and eastern Siberia in July and August 2019 and may have reached the tropopause layer by the self-lifting process. In this article, we summarize the main findings of our 7-month smoke observations and characterize the aerosol in terms of geometrical, optical, and microphysical properties. The UTLS AOT at 532 nm ranged from 0.05–0.12 in October–November 2019 and 0.03–0.06 during the main winter season. The Raikoke aerosol fraction was estimated to always be lower than 15 %. We assume that the volcanic aerosol was above the smoke layer (above 13 km height). As an unambiguous sign of the dominance of smoke

Published

2021

44. Aerosol characterization over a Central Asian site: long-term lidar profiling at Dushanbe, Tajikistan (March 2015 – August 2016)

Author

Universität Leipzig, Hofer, Julian, Universität Leipzig, and Hofer, Julian

Abstract

For the first time, a comprehensive characterization of optical, microphysical, and cloud-relevant properties of Central Asian aerosol particles with a state-of-the-art lidar has been performed. This study fills a gap between observations in Eastern Mediterranean (e.g., in Greece, Cyprus, and Israel) and Eastern Asian (e.g, in China, Korea, and Japan) aerosol monitoring. During the Central Asian Dust Experiment (CADEX), an automatic multiwavelength polarization Raman lidar PollyXT was operated in Dushanbe, Tajikistan, from 17 March 2015 until 31 August 2016. During the 18-month campaign, on 487 days, lidar data has been acquired for a time period of at least 3 h. On 308 of these days, the lidar ran even longer than 20 h. 328 manually analyzed profiles of nighttime observations build the data basis of this study and cover well the annual cycle of dust and pollution aerosol layering. Thorough quality assurance and calibration efforts have been made before, during, and after the measurement campaign. With the lidar, vertical profiles of the particle backscatter coefficient at 355 nm, 532 nm, and 1064 nm, of the particle extinction coefficient at 355 nm and 532 nm, and of the particle linear depolarization ratio at 355 nm and 532 nm wavelength were determined. From these quantities, lidar ratios and backscatter-related and extinction-related Ångström exponents were derived. Furthermore, the optical properties were converted to mass concentration and cloud-relevant parameters (CCN and INP concentration) by means of the recently developed lidar technique POLIPHON.

Published

2020

45. Aerosol characterization over a Central Asian site: long-term lidar profiling at Dushanbe, Tajikistan (March 2015 – August 2016)

Author

Hofer, Julian and Hofer, Julian

Abstract

For the first time, a comprehensive characterization of optical, microphysical, and cloud-relevant properties of Central Asian aerosol particles with a state-of-the-art lidar has been performed. This study fills a gap between observations in Eastern Mediterranean (e.g., in Greece, Cyprus, and Israel) and Eastern Asian (e.g, in China, Korea, and Japan) aerosol monitoring. During the Central Asian Dust Experiment (CADEX), an automatic multiwavelength polarization Raman lidar PollyXT was operated in Dushanbe, Tajikistan, from 17 March 2015 until 31 August 2016. During the 18-month campaign, on 487 days, lidar data has been acquired for a time period of at least 3 h. On 308 of these days, the lidar ran even longer than 20 h. 328 manually analyzed profiles of nighttime observations build the data basis of this study and cover well the annual cycle of dust and pollution aerosol layering. Thorough quality assurance and calibration efforts have been made before, during, and after the measurement campaign. With the lidar, vertical profiles of the particle backscatter coefficient at 355 nm, 532 nm, and 1064 nm, of the particle extinction coefficient at 355 nm and 532 nm, and of the particle linear depolarization ratio at 355 nm and 532 nm wavelength were determined. From these quantities, lidar ratios and backscatter-related and extinction-related Ångström exponents were derived. Furthermore, the optical properties were converted to mass concentration and cloud-relevant parameters (CCN and INP concentration) by means of the recently developed lidar technique POLIPHON.

Published

2020

46. Validation of Aeolus wind products above the Atlantic Ocean

Author

Baars, Holger, primary, Herzog, Alina, additional, Heese, Birgit, additional, Ohneiser, Kevin, additional, Hanbuch, Karsten, additional, Hofer, Julian, additional, Yin, Zhenping, additional, Engelmann, Ronny, additional, and Wandinger, Ulla, additional

Published

2020

47. Long-term profiling of aerosol light extinction, particle mass, cloud condensation nuclei, and ice-nucleating particle concentration over Dushanbe, Tajikistan, in Central Asia

Author

Hofer, Julian, primary, Ansmann, Albert, additional, Althausen, Dietrich, additional, Engelmann, Ronny, additional, Baars, Holger, additional, Abdullaev, Sabur F., additional, and Makhmudov, Abduvosit N., additional

Published

2020

48. Differences and Similarities of Central Asian, African, and Arctic Dust Composition from a Single Particle Perspective

Author

Kandler, Konrad, primary, Schneiders, Kilian, additional, Heuser, Johannes, additional, Waza, Andebo, additional, Aryasree, Sudharaj, additional, Althausen, Dietrich, additional, Hofer, Julian, additional, Abdullaev, Sabur F., additional, and Makhmudov, Abduvosit N., additional

Published

2020

49. 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

50. Advanced excitation and spectroscopy schemes of single quantum dots

Author

Hofer, Julian

Abstract

submitted by Julian Hofer, B.Sc. Universität Linz, Masterarbeit, 2019 (VLID)4452117

Published

2019