Publications

2024

Journal Articles

Atmospheric isoprene measurements reveal larger-than-expected Southern Ocean emissions

V. Ferracci; J. Weber; C. G. Bolas; A. D. Robinson; F. Tummon et al. 

Nature Communications. 2024-03-22. Vol. 15, num. 2571. DOI : 10.1038/s41467-024-46744-4.

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Modular Multiplatform Compatible Air Measurement System (MoMuCAMS): a new modular platform for boundary layer aerosol and trace gas vertical measurements in extreme environments

R. Pohorsky; A. Baccarini; J. Tolu; L. Winkel; J. Schmale 

Atmospheric Measurement Techniques. 2024-01-30. Vol. 17, num. 2, p. 731-754. DOI : 10.5194/amt-17-731-2024.

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Characteristics and sources of fluorescent aerosols in the central Arctic Ocean

I. F. Beck; A. Moallemi; B. J. L. Heutte; J. B. Pernov; N. Bergner et al. 

Elem Sci Anth. 2024. Vol. 12, num. 1. DOI : 10.1525/elementa.2023.00125.

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Glucose Enhances Salinity-Driven Sea Spray Aerosol Production in Eastern Arctic Waters

A. Rocchi; A. von Jackowski; A. Welti; G. Li; Z. A. Kanji et al. 

Environmental Science & Technology. 2024. DOI : 10.1021/acs.est.4c02826.

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Comparison of selected surface level ERA5 variables against in‐situ observations in the continental Arctic

J. B. Pernov; J. Gros-Daillon; J. Schmale 

Quarterly Journal of the Royal Meteorological Society. 2024. Vol. 1-24. DOI : 10.1002/qj.4700.

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Overview of the Alaskan Layered Pollution and Chemical Analysis (ALPACA) Field Experiment

W. R. Simpson; J. Mao; G. J. Fochesatto; K. S. Law; P. F. DeCarlo et al. 

ACS ES&T Air. 2024. DOI : 10.1021/acsestair.3c00076.

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Highly Hygroscopic Aerosols Facilitate Summer and Early‐Autumn Cloud Formation at Extremely Low Concentrations Over the Central Arctic Ocean

P. Duplessis; L. Karlsson; A. Baccarini; M. Wheeler; W. R. Leaitch et al. 

Journal of Geophysical Research: Atmospheres. 2024. Vol. 129, num. 2. DOI : 10.1029/2023JD039159.

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Datasets

Equivalent black carbon concentration measured with an aethalometer AE33 during the Arctic Ocean 2018 expedition

B. J. L. Heutte; A. Baccarini; P. Zieger; J. Schmale 

2024.

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2023

Journal Articles

Widespread detection of chlorine oxyacids in the Arctic atmosphere

Y. J. Tham; N. Sarnela; S. Iyer; Q. Li; H. Angot et al. 

Nature Communications. 2023-03-30. Vol. 14, num. 1. DOI : 10.1038/s41467-023-37387-y.

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Late summer transition from a free-tropospheric to boundary layer source of Aitken mode aerosol in the high Arctic

R. Price; A. Baccarini; J. Schmale; P. Zieger; I. M. Brooks et al. 

Atmospheric Chemistry and Physics. 2023-03-06. Vol. 23, num. 5, p. 2927-2961. DOI : 10.5194/acp-23-2927-2023.

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Low ozone dry deposition rates to sea ice during the MOSAiC field campaign: Implications for the Arctic boundary layer ozone budget

J. G. Barten; L. N. Ganzeveld; G-J. Steeneveld; B. W. Blomquist; H. Angot et al. 

Elementa: Science of the Anthropocene. 2023-02-16. Vol. 11, num. 1, p. 00086. DOI : 10.1525/elementa.2022.00086.

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A full year of aerosol size distribution data from the central Arctic under an extreme positive Arctic Oscillation: insights from the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition

M. Boyer; D. Aliaga; J. B. Pernov; H. Angot; L. L. J. Quéléver et al. 

Atmospheric Chemistry and Physics. 2023-01-11. Vol. 23, num. 1, p. 389-415. DOI : 10.5194/acp-23-389-2023.

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Arctic Tropospheric Ozone Trends

K. S. Law; J. L. Hjorth; J. B. Pernov; C. H. Whaley; H. Skov et al. 

Geophysical Research Letters. 2023. Vol. 50, num. 22. DOI : 10.1029/2023GL103096.

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MoMuCAMS: A new modular platform for boundary layer aerosol and trace gas vertical measurements in extreme environments

R. Pohorsky; A. Baccarini; J. Tolu; L. H. E. Winkel; J. Schmale 

Atmospheric Measurement Techniques. 2023. DOI : 10.5194/egusphere-2023-365.

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Polar oceans and sea ice in a changing climate

M. D. Willis; D. Lannuzel; B. Else; H. Angot; K. Campbell et al. 

Elem Sci Anth. 2023. Vol. 11, num. 1. DOI : 10.1525/elementa.2023.00056.

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Measurements of aerosol microphysical and chemical properties in the central Arctic atmosphere during MOSAiC

B. Heutte; N. Bergner; I. Beck; H. Angot; L. Dada et al. 

Scientific Data. 2023. Vol. 10, num. 1, p. 690. DOI : 10.1038/s41597-023-02586-1.

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Thin and transient meltwater layers and false bottoms in the Arctic sea ice pack—Recent insights on these historically overlooked features

M. M. Smith; H. Angot; E. J. Chamberlain; E. S. Droste; S. Karam et al. 

Elem Sci Anth. 2023. Vol. 11, num. 1. DOI : 10.1525/elementa.2023.00025.

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Arctic warming by abundant fine sea salt aerosols from blowing snow

X. Gong; J. Zhang; B. Croft; X. Yang; M. M. Frey et al. 

Nature Geoscience. 2023. DOI : 10.1038/s41561-023-01254-8.

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The Marginal Ice Zone as a dominant source region of atmospheric mercury during central Arctic summertime

F. Yue; H. Angot; B. Blomquist; J. Schmale; C. J. M. Hoppe et al. 

Nature Communications. 2023. Vol. 14, num. 1. DOI : 10.1038/s41467-023-40660-9.

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Snow Loss Into Leads in Arctic Sea Ice: Minimal in Typical Wintertime Conditions, but High During a Warm and Windy Snowfall Event

D. Clemens‐Sewall; C. Polashenski; M. M. Frey; C. J. Cox; M. A. Granskog et al. 

Geophysical Research Letters. 2023. Vol. 50, num. 12, p. e2023GL102816. DOI : 10.1029/2023GL102816.

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Modelling the coupled mercury-halogen-ozone cycle in the central Arctic during spring

S. Ahmed; J. L. Thomas; H. Angot; A. Dommergue; S. D. Archer et al. 

Elem Sci Anth (Elementa: Science of the Anthropocene). 2023. Vol. 11, num. 1, p. 00129. DOI : 10.1525/elementa.2022.00129.

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Measurement report: High Arctic aerosol hygroscopicity at sub- and supersaturated conditions during spring and summer

A. Massling; R. Lange; J. B. Pernov; U. Gosewinkel; L-L. Sørensen et al. 

Atmospheric Chemistry and Physics. 2023. Vol. 23, num. 8, p. 4931-4953. DOI : 10.5194/acp-23-4931-2023.

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Untangling the influence of Antarctic and Southern Ocean life on clouds

M. D. Mallet; R. S. Humphries; S. L. Fiddes; S. P. Alexander; K. Altieri et al. 

Elementa: Science of the Anthropocene. 2023. Vol. 11, num. 1. DOI : 10.1525/elementa.2022.00130.

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Arctic tropospheric ozone: assessment of current knowledge and model performance

C. H. Whaley; K. S. Law; J. L. Hjorth; H. Skov; S. R. Arnold et al. 

Atmospheric Chemistry and Physics. 2023-01-16. Vol. 23, num. 1, p. 637-661. DOI : 10.5194/acp-23-637-2023.

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Posters

Aerosol microphysics and chemical composition in the central Arctic atmosphere during the MOSAiC expedition

B. Heutte; N. Bergner; I. F. Beck; H. Angot; L. Dada et al. 

International MOSAiC Science Conference/Workshop (2023), Boulder, USA, February 13-17, 2023.

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Talks

Exploring the effects of mineral dust acidification on oxidative potential and limiting nutrient solubility

A. Baccarini; C. Kaltsonoudis; K. Seitanidi; M. Georgopoulou; G. Argyropoulou et al. 

European Aerosol Conference (EAC2023), Malaga, Spain, September 3-8, 2023.

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Wintertime vertical distribution of air pollution in suburban Fairbanks during the ALPACA 2022 field campaign

R. Pohorsky; A. Baccarini; B. Barret; N. Brett; G. Pappaccogli et al. 

EGU2023, Vienna, April 23-28, 2023.

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Aerosol source identification in the spring and summertime central Arctic Ocean using high-resolution mass spectrometry during MOSAiC.

B. Heutte; L. Dada; H. Angot; I. El Haddad; G. Chen et al. 

EGU 2023, Vienna, Austria, April 23-28, 2023.

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Sources and seasonality of fluorescent aerosols in the Arctic

I. Beck; K. Barry; N. Bergner; B. J. L. Heutte; J. Creamean et al. 

2nd International MOSAiC science conference 2023, Boulder, CO, USA, February 13-17, 2023.

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Aerosol source identification in the spring and summertime central Arctic Ocean using high-resolution mass spectrometry during MOSAiC

B. Heutte; L. Dada; H. Angot; I. El Haddad; G. Chen et al. 

International MOSAiC Science Conference/Workshop (2023), Boulder, USA, February 13-17, 2023.

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Student Projects

Climate risk and vulnerability assessment tool

C. Dross 

2023-09-01.

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Datasets

Temperature and relative humidity in 10 min time resolution measured in the total inlet of the Swiss container during MOSAiC 2019/2020

B. Heutte; I. F. Beck; L. Quéléver; T. Jokinen; T. Laurila et al. 

2023.

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Temperature and relative humidity in 10 min time resolution measured in the interstitial inlet of the Swiss container during MOSAiC 2019/2020

B. Heutte; Beck ivo; L. Quéléver; T. Jokinen; T. Laurila et al. 

2023.

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Pollution mask for the continuous corrected particle number concentration data in 1 min time resolution measured in the Swiss aerosol container using a whole air inlet during MOSAiC 2019/2020

I. Beck; L. Quéléver; T. Laurila; T. Jokinen; A. Baccarini et al. 

2023.

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Continuous corrected particle number concentration data in 10 sec resolution measured in the Swiss aerosol container using a whole air inlet during MOSAiC 2019/2020

I. Beck; L. Quéléver; T. Laurila; T. Jokinen; J. Schmale 

2023.

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Cloud Condensation Nuclei (CCN) concentrations measured in the Swiss container during MOSAiC 2019/2020

N. Bergner; B. Heutte; H. Angot; L. Dada; I. Beck et al. 

2023.

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Wideband integrated bioaerosol sensor (WIBS) excited, fluorescent, and hyper-fluorescent particle number concentrations and normalized size distributions (dN/dlogDp) measured in the Swiss container during MOSAiC 2019/2020

I. Beck; A. Moallemi; M. Rolo; L. Quéléver; T. Jokinen et al. 

2023.

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Aerodynamic Particle Sizer spectrometer (APS) aerosol number concentrations, measured in the Swiss container during MOSAiC 2019/2020

N. Bergner; I. Beck; L. Quéléver; T. Jokinen; T. Laurila et al. 

2023.

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Bulk size-resolved chemical composition and mass concentration of non-refractory submicron aerosols measured in the Swiss container during MOSAiC 2019/2020

B. Heutte; L. Dada; H. Angot; K. R. Daellenbach; I. El Haddad et al. 

2023.

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Aerosol optical absorption coefficients at seven wavelengths in 10 min resolution measured in the Swiss container during MOSAiC 2019/2020

B. Heutte; I. Beck; L. Quéléver; T. Jokinen; T. Laurila et al. 

2023.

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2022

Journal Articles

The gas-phase formation mechanism of iodic acid as an atmospheric aerosol source

H. Finkenzeller; S. Iyer; X-C. He; M. Simon; T. K. Koenig et al. 

Nature Chemistry. 2022-11-14. DOI : 10.1038/s41557-022-01067-z.

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Exploring the link between austral stratospheric polar vortex anomalies and surface climate in chemistry-climate models

N. Bergner; M. Friedel; D. I. Domeisen; D. Waugh; G. Chiodo 

Atmospheric Chemistry And Physics. 2022-11-01. Vol. 22, num. 21, p. 13915-13934. DOI : 10.5194/acp-22-13915-2022.

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Clean air policies are key for successfully mitigating Arctic warming

K. von Salzen; C. H. Whaley; S. C. Anenberg; R. Van Dingenen; Z. Klimont et al. 

Communications Earth & Environment. 2022-10-02. Vol. 3, num. 222. DOI : 10.1038/s43247-022-00555-x.

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Using Novel Molecular-Level Chemical Composition Observations of High Arctic Organic Aerosol for Predictions of Cloud Condensation Nuclei

K. Siegel; A. Neuberger; L. Karlsson; P. Zieger; F. Mattsson et al. 

Environmental Science & Technology. 2022-09-16. Vol. 56, num. 19, p. 13888–13899. DOI : 10.1021/acs.est.2c02162.

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Substantial contribution of iodine to Arctic ozone destruction

N. Benavent; A. S. Mahajan; Q. Li; C. A. Cuevas; J. Schmale et al. 

Nature Geoscience. 2022-09-15. DOI : 10.1038/s41561-022-01018-w.

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A central arctic extreme aerosol event triggered by a warm air-mass intrusion

L. Dada; H. Angot; I. F. Beck; A. Baccarini; L. L. J. Quéléver et al. 

Nature Communications. 2022-09-08. Vol. 13, num. 1, p. 5290. DOI : 10.1038/s41467-022-32872-2.

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Aerobiology over the Southern Ocean – implications for bacterial colonization of Antarctica

L. A. Malard; M-L. Avila-Jimenez; J. Schmale; L. Cuthbertson; L. Cockerton et al. 

Environment International. 2022-08-30.  p. 107492. DOI : 10.1016/j.envint.2022.107492.

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Mercury isotope evidence for Arctic summertime re-emission of mercury from the cryosphere

B. F. Araujo; S. Osterwalder; N. Szponar; D. Lee; M. V. Petrova et al. 

Nature Communications. 2022-08-24. Vol. 13, num. 1, p. 4956. DOI : 10.1038/s41467-022-32440-8.

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Increased aerosol concentrations in the High Arctic attributable to changing atmospheric transport patterns

J. B. Pernov; D. Beddows; D. Thomas; M. Dall’Osto; R. Harrison et al. 

npj Climate and Atmospheric Science. 2022-08-01. Vol. 5, p. 62. DOI : 10.1038/s41612-022-00286-y.

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Circum-Antarctic abundance and properties of CCN and INPs

C. Tatzelt; S. Henning; A. Welti; A. Baccarini; M. Hartmann et al. 

Atmospheric Chemistry and Physics. 2022-07-29. Vol. 22, num. 14, p. 9721-9745. DOI : 10.5194/acp-22-9721-2022.

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Observing the Central Arctic Atmosphere and Surface with University of Colorado uncrewed aircraft systems

G. de Boer; R. Calmer; G. Jozef; J. J. Cassano; J. Hamilton et al. 

Scientific Data. 2022-07-23. Vol. 9, num. 1, p. 439. DOI : 10.1038/s41597-022-01526-9.

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Automated identification of local contamination in remote atmospheric composition time series

I. Beck; H. Angot; A. Baccarini; L. Dada; L. Quelever et al. 

Atmospheric Measurement Techniques. 2022-07-20. Vol. 15, num. 14, p. 4195-4224. DOI : 10.5194/amt-15-4195-2022.

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High-frequency gaseous and particulate chemical characterization using extractive electrospray ionization mass spectrometry (Dual-Phase-EESI-TOF)

C. P. Lee; M. Surdu; D. M. Bell; J. Dommen; M. Xiao et al. 

Atmospheric Measurement Techniques. 2022-06-23. Vol. 15, num. 12. DOI : 10.5194/amt-15-3747-2022.

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Annual cycle observations of aerosols capable of ice formation in central Arctic clouds

J. M. Creamean; K. Barry; T. C. J. Hill; C. Hume; P. J. DeMott et al. 

Nature Communications. 2022-06-20. Vol. 13, p. 3537. DOI : 10.1038/s41467-022-31182-x.

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A local marine source of atmospheric particles in the High Arctic

J. Nøjgaard; L. Peker; J. B. Pernov; M. Johnson; R. Bossi et al. 

Atmospheric Environment. 2022-06-18. Vol. 285, p. 119241. DOI : 10.1016/j.atmosenv.2022.119241.

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Physical and Chemical Properties of Cloud Droplet Residuals and Aerosol Particles During the Arctic Ocean 2018 Expedition

L. Karlsson; A. Baccarini; P. Duplessis; D. Baumgardner; I. M. Brooks et al. 

Journal of Geophysical Research: Atmospheres. 2022-06-02. Vol. 127, num. 11. DOI : 10.1029/2021JD036383.

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Model evaluation of short-lived climate forcers for the Arctic Monitoring and Assessment Programme: a multi-species, multi-model study

C. H. Whaley; R. Mahmood; K. von Salzen; B. Winter; S. Eckhardt et al. 

Atmospheric Chemistry and Physics. 2022-05-04. Vol. 22, num. 9, p. 5775-5828. DOI : 10.5194/acp-22-5775-2022.

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Pan-Arctic seasonal cycles and long-term trends of aerosol properties from 10 observatories

J. Schmale; S. Sharma; S. Decesari; J. Pernov; A. Massling et al. 

Atmospheric Chemistry and Physics. 2022-03-08. Vol. 22, num. 5, p. 3067-3096. DOI : 10.5194/acp-22-3067-2022.

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Highly Active Ice‐Nucleating Particles at the Summer North Pole

G. C. E. Porter; M. P. Adams; I. M. Brooks; L. Ickes; L. Karlsson et al. 

Journal of Geophysical Research: Atmospheres. 2022-03-01. Vol. 127, num. 6, p. 1-18, e2021JD036059. DOI : 10.1029/2021JD036059.

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Elucidating the present-day chemical composition, seasonality and source regions of climate-relevant aerosols across the Arctic land surface

V. Moschos; J. Schmale; W. Aas; S. Becagli; G. Calzolai et al. 

Environmental Research Letters. 2022-03-01. Vol. 17, num. 3, p. 034032. DOI : 10.1088/1748-9326/ac444b.

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Equal abundance of summertime natural and wintertime anthropogenic Arctic organic aerosols

V. Moschos; K. Dzepina; D. Bhattu; H. Lamkaddam; R. Casotto et al. 

Nature Geoscience. 2022-02-28. Vol. 15, num. 3, p. 196-202. DOI : 10.1038/s41561-021-00891-1.

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Overview of the MOSAiC expedition—Atmosphere

M. D. Shupe; M. Rex; B. Blomquist; P. O. G. Persson; J. Schmale et al. 

Elementa: Science of the Anthropocene. 2022-02-07. Vol. 10, num. 1. DOI : 10.1525/elementa.2021.00060.

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Information content and aerosol property retrieval potential for different types of in situ polar nephelometer data

A. Moallemi; R. L. Modini; T. Lapyonok; A. Lopatin; D. Fuertes et al. 

Atmospheric Measurement Techniques. 2022-10-10. Vol. 15, num. 19, p. 5619-5642. DOI : 10.5194/amt-15-5619-2022.

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Year-round trace gas measurements in the central Arctic during the MOSAiC expedition

H. Angot; B. Blomquist; D. Howard; L. Bariteau; I. F. Beck et al. 

Scientific Data. 2022. Vol. 9, num. 1. DOI : 10.1038/s41597-022-01769-6.

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Atmospheric biogenic volatile organic compounds in the Alaskan Arctic tundra: constraints from measurements at Toolik Field Station

V. Selimovic; D. Ketcherside; S. Chaliyakunnel; C. Wielgasz; W. Permar et al. 

Atmospheric Chemistry And Physics. 2022-11-02. Vol. 22, num. 21, p. 14037-14058. DOI : 10.5194/acp-22-14037-2022.

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Diurnal evolution of negative atmospheric ions above the boreal forest: from ground level to the free troposphere

L. J. Beck; S. Schobesberger; H. Junninen; J. Lampilahti; A. Manninen et al. 

Atmospheric Chemistry And Physics. 2022-07-05. Vol. 22, num. 13, p. 8547-8577. DOI : 10.5194/acp-22-8547-2022.

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Investigation of new particle formation mechanisms and aerosol processes at Marambio Station, Antarctic Peninsula

L. L. J. Quelever; L. Dada; E. Asmi; J. Lampilahti; T. Chan et al. 

Atmospheric Chemistry And Physics. 2022-07-01. Vol. 22, num. 12, p. 8417-8437. DOI : 10.5194/acp-22-8417-2022.

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An evaluation of new particle formation events in Helsinki during a Baltic Sea cyanobacterial summer bloom

R. C. Thakur; L. Dada; L. J. Beck; L. L. J. Quelever; T. Chan et al. 

Atmospheric Chemistry And Physics. 2022-05-17. Vol. 22, num. 9, p. 6365-6391. DOI : 10.5194/acp-22-6365-2022.

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Arctic atmospheric mercury: Sources and changes

A. Dastoor; S. Wilson; O. Travnikov; A. Ryjkov; H. Angot et al. 

Science of The Total Environment. 2022. Vol. 839, p. 156213. DOI : 10.1016/j.scitotenv.2022.156213.

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What are the likely changes in mercury concentration in the Arctic atmosphere and ocean under future emissions scenarios?

A. Schartup; A. Soerensen; H. Angot; K. Bowman; N. Selin 

Science of The Total Environment. 2022-05-10. Vol. 836, p. 155477. DOI : 10.1016/j.scitotenv.2022.155477.

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New particle formation event detection with Mask R-CNN

P. Su; J. Joutsensaari; L. Dada; M. A. Zaidan; T. Nieminen et al. 

Atmospheric Chemistry and Physics. 2022-01-25. Vol. 22, num. 2, p. 1293-1309. DOI : 10.5194/acp-22-1293-2022.

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Observed coupling between air mass history, secondary growth of nucleation mode particles and aerosol pollution levels in Beijing

S. Hakala; V. Vakkari; F. Bianchi; L. Dada; C. Deng et al. 

Environmental Science: Atmospheres. 2022-01-19. Vol. 2, num. 2, p. 146-164. DOI : 10.1039/D1EA00089F.

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Key challenges for tropospheric chemistry in the Southern Hemisphere

C. Paton-Walsh; K. M. Emmerson; R. M. Garland; M. Keywood; J. J. Hoelzemann et al. 

Elementa: Science of the Anthropocene. 2022. Vol. 10, num. 1. DOI : 10.1525/elementa.2021.00050.

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The standard operating procedure for Airmodus Particle Size Magnifier and nano-Condensation Nucleus Counter

K. Lehtipalo; L. Ahonen; R. Baalbaki; J. Sulo; T. Chan et al. 

Journal of Aerosol Science. 2022. Vol. 159, p. 105896. DOI : 10.1016/j.jaerosci.2021.105896.

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Evidence that Pacific tuna mercury levels are driven by marine methylmercury production and anthropogenic inputs

A. Médieu; D. Point; T. Itai; H. Angot; P. Buchanan et al. 

Proceedings of the National Academy of Sciences. 2022. Vol. 119, num. 2, p. e2113032119. DOI : 10.1073/pnas.2113032119.

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Conference Papers

A 5m lightweight composite atmospheric tower for extreme environments

T. Décoppet; F. Guillaumat; I. Liechti; R. P. T. van Wassenhove; A. Baccarini et al. 

2022. 20th European Conference on Composite Materials – Composites Meet Sustainability, EPFL, Lausanne, June 26-30, 2022.

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Reviews

Arctic mercury cycling

A. Dastoor; H. Angot; J. Bieser; J. Christensen; T. Douglas et al. 

Nature reviews earth & environment. 2022-03-22. Vol. 3, p. 270–286. DOI : 10.1038/s43017-022-00269-w.

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Book Chapters

Aerosol processes in high-latitude environments and the effects on climate

A. Ekmann; J. Schmale 

Aerosols and Climate; Elsevier, 2022-08-18. p. 854.

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Posters

Fluorescent aerosols in the Arctic: Seasonality and sources

I. Beck; B. J. L. Heutte; H. Angot; J. B. Pernov; M. Rolo et al. 

EDCE Research Day 2022, Lausanne, Switzerland, September 12, 2022.

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Automated identification of local contamination in remote atmospheric composition time series

I. Beck; A. Baccarini; H. Angot; L. Dada; L. Quéléver et al. 

International MOSAiC science conference 2022, Potsdam, Germany, April 25-29, 2022.

Detailed record

Seasonal variation of airborne coarse and fluorescent particles

N. Bergner; I. Beck; M. Rolo; H. Angot; L. Dada et al. 

International MOSAiC Science Conference, Potsdam, Germany, 25-04-2022 – 29-04-2022.

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Annual aerosol chemical composition retrieved from an aerosol mass spectrometer in the central Arctic

B. Heutte; L. Dada; H. Angot; K. R. Dällenbach; C. Gang et al. 

International MOSAiC Science Conference/Workshop (2022), Potsdam, Germany, April 25-29, 2022.

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Media

Scientists map Arctic aerosols to better understand regional warming

Marc Clara 

2022-03-01.

Detailed record

Dans la chair de thon listao, la trace de la pollution humaine

D. Delbecq; H. Angot 

2022-01-11.

Detailed record

Datasets

Pollution mask for the continuous corrected particle number concentration data in 1 min resolution, measured in the Swiss aerosol container during MOSAiC 2019/2020

I. F. Beck; L. Quéléver; T. Laurila; T. Jokinen; A. Baccarini et al. 

2022-02-22.

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Continuous raw particle number concentration data in 10 sec resolution, measured in the Swiss aerosol container during MOSAiC 2019/2020

I. Beck; L. Quéléver; T. Laurila; T. Jokinen; J. Schmale 

2022.

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Continuous corrected particle number concentration data in 10 sec resolution, measured in the Swiss aerosol container during MOSAiC 2019/2020

I. Beck; L. Quéléver; T. Laurila; T. Jokinen; J. Schmale 

2022.

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Equivalent black carbon concentration in 10 minutes time resolution, measured in the Swiss container during MOSAiC 2019/2020

B. Heutte; I. Beck; L. Quéléver; T. Jokinen; T. Laurila et al. 

2022.

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2021

Journal Articles

Exploring the coupled ocean and atmosphere system with a data science approach applied to observations from the Antarctic Circumnavigation Expedition

S. Landwehr; M. Volpi; F. A. Haumann; C. M. Robinson; I. Thurnherr et al. 

Earth System Dynamics. 2021-11-30. Vol. 12, num. 4, p. 1295-1369. DOI : 10.5194/esd-12-1295-2021.

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Low‐Volatility Vapors and New Particle Formation Over the Southern Ocean During the Antarctic Circumnavigation Expedition

A. Baccarini; J. Dommen; K. Lehtipalo; S. Henning; R. L. Modini et al. 

Journal of Geophysical Research: Atmospheres. 2021-11-11. Vol. 126, num. 22, p. 1-25, e2021JD035126. DOI : 10.1029/2021JD035126.

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New Insights Into the Composition and Origins of Ultrafine Aerosol in the Summertime High Arctic

M. J. Lawler; E. S. Saltzman; L. Karlsson; P. Zieger; M. Salter et al. 

Geophysical Research Letters. 2021-11-06. Vol. 48, num. 21, p. e2021GL094395. DOI : 10.1029/2021GL094395.

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Constraining the response factors of an extractive electrospray ionization mass spectrometer for near-molecular aerosol speciation

D. S. Wang; C. P. Lee; J. E. Krechmer; F. Majluf; Y. Tong et al. 

Atmospheric Measurement Techniques. 2021-11-04. Vol. 14, num. 11, p. 6955-6972. DOI : 10.5194/amt-14-6955-2021.

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Molecular characterization of ultrafine particles using extractive electrospray time-of-flight mass spectrometry

M. Surdu; V. Pospisilova; M. Xiao; M. Wang; B. Mentler et al. 

Environmental Science: Atmospheres. 2021-08-23. Vol. 1, num. 6, p. 434-448. DOI : 10.1039/D1EA00050K.

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Differentiation of coarse-mode anthropogenic, marine and dust particles in the High Arctic islands of Svalbard

C. Song; M. Dall’Osto; A. Lupi; M. Mazzola; R. Traversi et al. 

Atmospheric Chemistry and Physics. 2021-07-28. Vol. 21, num. 14, p. 11317-11335. DOI : 10.5194/acp-21-11317-2021.

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Progress in Unraveling Atmospheric New Particle Formation and Growth Across the Arctic

J. Schmale; A. Baccarini 

Geophysical Research Letters. 2021-07-03. Vol. 48, num. 14, p. e2021GL094198. DOI : 10.1029/2021GL094198.

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Black carbon and dust in the Third Pole glaciers: revaluated concentrations, mass absorption cross-sections and contributions to glacier ablation

Y. Li; S. Kang; X. Zhang; J. Chen; J. Schmale et al. 

Science of The Total Environment. 2021-05-21.  p. 147746. DOI : 10.1016/j.scitotenv.2021.147746.

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Sources, Occurrence and Characteristics of Fluorescent Biological Aerosol Particles Measured over the Pristine Southern Ocean

A. Moallemi; S. Landwehr; C. Robinson; R. Simó; M. Zamanillo et al. 

Journal of Geophysical Research: Atmospheres. 2021-05-18. Vol. 126, num. 11, p. e2021JD034811. DOI : 10.1029/2021JD034811.

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Large contribution to secondary organic aerosol from isoprene cloud chemistry

H. Lamkaddam; J. Dommen; A. Ranjithkumar; H. Gordon; G. Wehrle et al. 

Science Advances. 2021-03-24. Vol. 7, num. 13, p. eabe2952. DOI : 10.1126/sciadv.abe2952.

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Insights into the molecular composition of semi-volatile aerosols in the summertime central Arctic Ocean using FIGAERO-CIMS

K. Siegel; L. Karlsson; P. Zieger; A. Baccarini; J. Schmale et al. 

Environmental Science: Atmospheres. 2021-03-15. Vol. 1, num. 4, p. 161-175. DOI : 10.1039/D0EA00023J.

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Aerosols in current and future Arctic climate

J. Schmale; P. Zieger; A. M. L. Ekman 

Nature Climate Change. 2021-02-08. Vol. 11, p. 95-105. DOI : 10.1038/s41558-020-00969-5.

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Towards understanding the characteristics of new particle formation in the Eastern Mediterranean

R. Baalbaki; M. Pikridas; T. Jokinen; T. Laurila; L. Dada et al. 

Atmospheric Chemistry and Physics. 2021. Vol. 21, num. 11, p. 9223-9251. DOI : 10.5194/acp-21-9223-2021.

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Aerosol formation and growth rates from chamber experiments using Kalman smoothing

M. Ozon; D. Stolzenburg; L. Dada; A. Seppänen; K. E. J. Lehtinen 

Atmospheric Chemistry and Physics. 2021. Vol. 21, num. 16, p. 12595-12611. DOI : 10.5194/acp-21-12595-2021.

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Towards a concentration closure of sub-6 nm aerosol particles and sub-3 nm atmospheric clusters

M. Kulmala; D. Stolzenburg; L. Dada; R. Cai; J. Kontkanen et al. 

Journal of Aerosol Science. 2021. Vol. 159, p. 105878. DOI : 10.1016/j.jaerosci.2021.105878.

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Measurement report: New particle formation characteristics at an urban and a mountain station in northern China

Y. Zhou; S. Hakala; C. Yan; Y. Gao; X. Yao et al. 

Atmospheric Chemistry And Physics. 2021-12-07. Vol. 21, num. 23, p. 17885-17906. DOI : 10.5194/acp-21-17885-2021.

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Atmospheric mercury sources in a coastal-urban environment: a case study in Boston, Massachusetts, USA

H. Angot; E. Rutkowski; M. Sargent; S. Wofsy; L. Hutyra et al. 

Environmental Science: Processes & Impacts. 2021-10-26. Vol. 23, num. 12, p. 1914-1929. DOI : 10.1039/D1EM00253H.

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Temporary pause in the growth of atmospheric ethane and propane in 2015–2018

H. Angot; C. Davel; C. Wiedinmyer; G. Pétron; J. Chopra et al. 

Atmospheric Chemistry and Physics. 2021-10-12. Vol. 21, num. 19, p. 15153-15170. DOI : 10.5194/acp-21-15153-2021.

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Posters

Impact Of Warm Air Mass Intrusions On Atmospheric Chemistry And Microphysics

L. Dada; I. F. Beck; L. L. Quéléver; A. Baccarini; H. Angot et al. 

American Geoscience Union 2021 (AGU Fall Meeting 2021), New Orleans, LA & Online Everywhere, USA, December 13-17, 2021.

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Automated identification of local contamination in an Arctic aerosol time series

I. Beck; A. Baccarini; H. Angot; L. Dada; L. Quélever et al. 

European Aerosol Conference (EAC 2021), [virtual event], August 30 – September ,3 2021.

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Talks

Pan-Arctic seasonal cycles and long-term trends of aerosol properties from ten observatories

J. Schmale; S. Sharma; S. Decesari; J. Pernov; A. Massling et al. 

American Geoscience Union 2021 (AGU Fall Meeting 2021), New Orleans, LA & Online Everywhere, USA, December 13-17, 2021.

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Chemical and Microphysical State of the Central Arctic Atmosphere

H. Angot; L. Dada; I. Beck; T. Jokinen; T. Laurila et al. 

American Geoscience Union 2021 (AGU Fall Meeting 2021), New Orleans, LA & Online Everywhere, USA, December 13-17, 2021.

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Measurements of Atmospheric Variability during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) Expedition

J. Schmale 

Annual Meeting of the European Meteorological Society (EMS 2021), [online], September 6-10, 2021.

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MoMuCAMS – A newly developed Helikite-based modular platform for aerosol and trace gas vertical measurements

R. Pohorsky; A. Baccarini; J. Schmale 

European Aerosol Conference (EAC 2021), [virtual event], 30 August – 3 September 2021.

Detailed record

Impact of warm air mass intrusions on atmospheric chemistry and microphysics

L. Dada; I. Back; L. L. Quéléver; A. Baccarini; H. Angot et al. 

European Aerosol Conference (EAC 2021), Aachen, Germany, 30 August – 3 September 2021.

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Arctic Aerosol Processes : Insights long-term measurements and recent campaigns

J. Schmale 

European Aerosol Conference (EAC 2021), [virtual event], August 30 – September 3, 2021.

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Artic Integrated Urban Systems Twin cities – GURME initiative” session

A. Baklanov; J. Schmale; P. Konstantivov; A. Mahura; T. Petäjä et al. 

PACES 4th Open Science Meeting, [online], 26- 28 May 2021.

Detailed record

Impact of warm air mass intrusions on atmospheric chemistry and microphysics: Observations during MOSAiC

J. Schmale; L. Dada; I. Beck; T. Jokinen; L. Quéléver et al. 

EGU General Assembly 2021 (EGU 2021), online, April 19-30, 2021.

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Impact of warm air mass intrusions on atmospheric chemistry and microphysics

J. Schmale; L. Dada; I. Beck; T. Jokinen; L. Quéléver et al. 

Arctic Science Summit Week (ASSW 2021), Online, Portugal, March 23-26, 2021.

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Datasets

Pollution Detection Algorithm (PDA)

I. F. Beck; H. Angot; A. Baccarini; M. Lampimäki; B. Matthew et al. 

2021.

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2020

Journal Articles

Ship-based measurements of ice nuclei concentrations over the Arctic, Atlantic, Pacific and Southern oceans

A. Welti; E. K. Bigg; P. J. DeMott; X. Gong; M. Hartmann et al. 

Atmospheric Chemistry and Physics. 2020-12-08. Vol. 20, num. 23, p. 15191-15206. DOI : 10.5194/acp-20-15191-2020.

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Prepare Scientists to Engage in Science‐Policy

E. Schneidemesser; M. Melamed; J. Schmale 

Earth’s Future. 2020-11-12. Vol. 8, num. 11, p. 1-7. DOI : 10.1029/2020EF001628.

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Frequent new particle formation over the high Arctic pack ice by enhanced iodine emissions

A. Baccarini; L. Karlsson; J. Dommen; P. Duplessis; J. Vüllers et al. 

Nature Communications. 2020-10-01. Vol. 11, p. 4924. DOI : 10.1038/s41467-020-18551-0.

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The value of remote marine aerosol measurements for constraining radiative forcing uncertainty

L. A. Regayre; J. Schmale; J. S. Johnson; C. Tatzelt; A. Baccarini et al. 

Atmospheric Chemistry and Physics. 2020-08-28. Vol. 20, num. 16, p. 10063-10072. DOI : 10.5194/acp-20-10063-2020.

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Black Carbon Aerosols in the Lower Free Troposphere are Heavily Coated in Summer but Largely Uncoated in Winter at Jungfraujoch in the Swiss Alps

G. Motos; J. C. Corbin; J. Schmale; R. L. Modini; M. Bertò et al. 

Geophysical Research Letters. 2020-07-28. Vol. 47, num. 14, p. e2020GL088011. DOI : 10.1029/2020GL088011.

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Satellite retrieval of cloud condensation nuclei concentrations in marine stratocumulus by using clouds as CCN chambers

A. Efraim; D. Rosenfeld; J. Schmale; Y. Zhu 

Journal of Geophysical Research: Atmospheres. 2020-07-26. Vol. 125, num. 16, p. e2020JD032409. DOI : 10.1029/2020JD032409.

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Overview: Integrative and Comprehensive Understanding on Polar Environments (iCUPE) – concept and initial results

T. Petäjä; E-M. Duplissy; K. Tabakova; J. Schmale; B. Altstädter et al. 

Atmospheric Chemistry and Physics. 2020-07-22. Vol. 20, num. 14, p. 8551-8592. DOI : 10.5194/acp-20-8551-2020.

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Using global reanalysis data to quantify and correct airflow distortion bias in shipborne wind speed measurements

S. Landwehr; I. Thurnherr; N. Cassar; M. Gysel-Beer; J. Schmale 

Atmospheric Measurement Techniques. 2020-06-30. Vol. 13, num. 6, p. 3487-3506. DOI : 10.5194/amt-13-3487-2020.

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Meridional and vertical variations of the water vapour isotopic composition in the marine boundary layer over the Atlantic and Southern Ocean

I. Thurnherr; A. Kozachek; P. Graf; Y. Weng; D. Bolshiyanov et al. 

Atmospheric Chemistry And Physics. 2020-05-15. Vol. 20, num. 9, p. 5811-5835. DOI : 10.5194/acp-20-5811-2020.

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Online Aerosol Chemical Characterization by Extractive Electrospray Ionization-Ultrahigh-Resolution Mass Spectrometry (EESI-Orbitrap)

C. P. Lee; M. Riva; D. Wang; S. Tomaz; D. Li et al. 

Environmental Science & Technology. 2020-04-07. Vol. 54, num. 7, p. 3871-3880. DOI : 10.1021/acs.est.9b07090.

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Posters

Wintertime Aerosol observations during MOSAiC

I. Beck; A. Baccarini; L. Quelever; T. Laurila; Z. Brasseur et al. 

AGU American Geophysical Union Fall Meeting 2020, Online conference, December 1-17, 2020.

Detailed record

INP over the Southern Ocean: abundance and origin during ACE

C. Tatzelt; S. Henning; A. Welti; A. Baccarini; M. Gysel-Beer et al. 

ECA 2020 European Aerosol Conference, Aachen, Germany (online conference), August 2020.

Detailed record

Air ions and new particle formation during polar night in the Arctic Ocean

M. Lampimäki; T. Chan; T. Laurila; J. Lamilahti; L. Quelever et al. 

EAC 2020 European Aerosol Conference, Aachen, Germany (online), August 2020.

Detailed record

Talks

Iodine Drives New Particle Formation in the Central Arctic Ocean

A. Baccarini; L. Karlsson; J. Dommen; P. Duplessis; J. Vüllers et al. 

AGU American Geophysical Union Fall Meeting 2020, Online conference, December 1-17, 2020.

Detailed record

Observations of aerosol precursor molecules during the Polar Night in the Arctic Ocean

L. Quelever; I. F. Beck; T. Laurila; Z. Brasseur; M. Lampimaki et al. 

EAC 2020 European Aerosol Conference, Aachen, Germany (online conference), August 2020.

Detailed record

CCN over the Southern Ocean: Sources and Relevance for Cloud Formation

J. Schmale; A. Nenes; C. Tatzelt; A. Efraim; S. Henning et al. 

AGU Fall Meeting 2020, San Francisco, USA (online conference), December 1-17, 2020.

Detailed record

Observations of Arctic Atmospheric Boundary Layer with Small Unmanned Aerial Vehicles for MOSAiC

G. Jozef; G. de Boer; J. CAssano; D. Lawrence; B. Argrow et al. 

American Geophysical Union, San Francisco, USA (online), December 2020.

Detailed record

Wintertime Aerosol observations during MOSAiC

I. Beck; A. Baccarini; L. Quelever; T. Jokinen; J. Schmale 

European Aerosol Conference – EAC 2020, Aachen, Germany, Septembre, 2020.

Detailed record

Sources and Occurrence of Biological Aerosols over the Pristine Southern Ocean

A. Moallemi; S. J. H-J. Landwehr; C. Robinson; R. Simo; G. Chen et al. 

ECA 2020 European Aerosol Conference, Aachen, Germany (online conference), August 31 – September 4, 2020.

Detailed record

What are the sources of CCN over the Southern Ocean and how sensitive is cloud formation to CCN?

J. Schmale; A. Nenes; C. Tatzelt; A. Efraim; S. Henning et al. 

ECA 2020 European Aerosol Conference, Aachen, Germany (online conference), August 31 – September 4, 2020.

Detailed record

Sparse Principal Component Analysis as a tool for the exploration of heterogeneous datasets from multidisciplinary field experiments

S. Landwehr; M. Volpi; F. Pérez-Cruz; J. Schmale 

Data Science in Climate and Climate Impact Research, Zürich, Switzerland, August 21, 2020.

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Media

Hinaus in Nacht und Kälte: Der Frauenfelder Klimaforscher Ivo Beck nimmt an der grössten Arktisexpedition aller Zeiten teil

M. Frei; I. Beck 

2020-11-16.

Detailed record

Freiwillige Quarantäne trifft auf Monotonie und kaum Privatsphäre: Klimaforscher aus Frauenfeld ist zurück von Arktisexpedition

M. Frei 

2020-05-06.

Detailed record

Expedition Arktis – Ein Jahr. Ein Schiff. Im Eis.

P. Grieß 

2020-11-16.

Detailed record

Expedition Mosaic

S. Charles 

2020-11-21.

Detailed record

“Polarstern” zurüch aus dem Eis

S. Schunke 

2020-10-12.

Detailed record

Recit d’une Scientifique en Arctique : Julia Schmale; EPFL Valais

P. Ferrari 

2020-10-31.

Detailed record

Polarstern ahoi!

A. Tomczak-Plewka 

2020-03-05.

Detailed record

Datasets

Concentration of particles larger than 2.5 nm collected during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020-09-23.

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Ozone concentration measured during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020.

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Iodic acid, sulfuric acid and methanesulfonic acid collected during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020.

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Sulfuric acid condensation sink calculated for the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020.

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Ultrafine particle concentration measured during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale 

2020.

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Size distribution of neutral and charged particles smaller than 42 nm collected during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020.

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Size distribution of interstitial and total particles between 18 and 660 nm collected during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale 

2020.

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Size distribution of aerosol particles between 2.5 and 920 nm measured during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen; L. Karlsson; P. Zieger 

2020.

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Mask to identify polluted periods during the Arctic Ocean 2018 expedition

A. Baccarini; J. Schmale; J. Dommen 

2020.

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Frequent new particle formation over the high Arctic pack ice by enhanced iodine emissions, ancillary data

A. Baccarini; J. Schmale; J. Dommen; P. Zieger; L. Karlsson 

2020.

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ERA-5 reanalysis results interpolated onto the five-minute average cruise track of the Antarctic Circumnavigation Expedition (ACE) during the austral summer of 2016/2017

M. Volpi; S. Landwehr; J. Thomas; J. Schmale 

2020.

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Distance to the nearest land/coastline (including small subantarctic islands) for the five-minute average cruise track of the Antarctic Circumnavigation Expedition (ACE) during the austral summer of 2016/2017

M. Volpi; S. Landwehr; J. Thomas; J. Schmale 

2020.

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One-minute average cruise track and ship velocity of the Antarctic Circumnavigation Expedition (ACE) undertaken during the austral summer of 2016/2017

S. Landwehr; J. Thomas; J. Schmale 

2020.

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One-minute average horizontal wind velocity data (not corrected for air-flow distortion) from the Antarctic Circumnavigation Expedition (ACE) 2016/2017 legs 0 to 4

S. Landwehr; J. Thomas; J. Schmale 

2020.

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Air-flow distortion bias factors of the port and starboard anemometers of the Akademik Tryoshnikov estimated during the Antarctic Circumnavigation Expedition (ACE) legs 0-4 undertaken during the austral summer of 2016/2017.

S. Landwehr; J. Thomas; J. Schmale 

2020.

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One-minute average horizontal wind velocity data (which has been corrected for air-flow distortion) from the Antarctic Circumnavigation Expedition (ACE) 2016/2017 legs 0 to 4

S. Landwehr; J. Thomas; J. Schmale 

2020.

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Five-minute average horizontal wind velocity data combined from both sensors (which has been corrected for air-flow distortion) from the Antarctic Circumnavigation Expedition (ACE) 2016/2017 legs 0 to 4

S. Landwehr; J. Thomas; J. Schmale 

2020.

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2019

Journal Articles

Fostering multidisciplinary research on interactions between chemistry, biology, and physics within the coupled cryosphere-atmosphere system

J. L. Thomas; J. Stutz; M. M. Frey; T. Bartels-Rausch; K. Altieri et al. 

Elementa-Science Of The Anthropocene. 2019-12-30. Vol. 7, p. 58. DOI : 10.1525/elementa.396.

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Evaluation of global simulations of aerosol particle and cloud condensation nuclei number, with implications for cloud droplet formation

G. S. Fanourgakis; M. Kanakidou; A. Nenes; S. E. Bauer; T. Bergman et al. 

Atmospheric Chemistry And Physics. 2019-07-08. Vol. 19, num. 13, p. 8591-8617. DOI : 10.5194/acp-19-8591-2019.

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Variation of Ice Nucleating Particles in the European Arctic Over the Last Centuries

M. Hartmann; T. Blunier; S. Brügger; J. Schmale; M. Schwikowski et al. 

Geophysical Research Letters. 2019. Vol. 46, num. 7, p. 4007-4016. DOI : 10.1029/2019GL082311.

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Cloud droplet activation properties and scavenged fraction of black carbon in liquid-phase clouds at the high-alpine research station Jungfraujoch (3580 m a.s.l.)

G. Motos; J. Schmale; J. C. Corbin; R. L. Modini; N. Karlen et al. 

Atmospheric Chemistry and Physics. 2019. Vol. 19, num. 6, p. 3833-3855. DOI : 10.5194/acp-19-3833-2019.

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Droplet activation behaviour of atmospheric black carbon particles in fog as a function of their size and mixing state

G. Motos; J. Schmale; J. C. Corbin; M. Zanatta; U. Baltensperger et al. 

Atmospheric Chemistry and Physics. 2019. Vol. 19, num. 4, p. 2183-2207. DOI : 10.5194/acp-19-2183-2019.

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Overview of the Antarctic Circumnavigation Expedition: Study of Preindustrial-like Aerosols and Their Climate Effects (ACE-SPACE)

A. Baccarini; J. Schmale; I. Thurnherr; S. Henning; A. Efraim et al. 

Bulletin of the American Meteorological Society. 2019. Vol. 100, num. 11, p. 2260-2283. DOI : 10.1175/BAMS-D-18-0187.1.

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Dissolved organic carbon in snow cover of the Chinese Altai Mountains, Central Asia: Concentrations, sources and light-absorption properties

Y. Zhang; S. Kang; T. Gao; J. Schmale; Y. Liu et al. 

Science of The Total Environment. 2019. Vol. 647, p. 1385-1397. DOI : 10.1016/j.scitotenv.2018.07.417.

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Media

In der Arktis: Forschungsboot soll ein Jahr lang im Eis festfrieren – auch Schweizer sind dabei

A. Banngerter 

2019-08-16.

Detailed record

2018

Journal Articles

Long-term monitoring of black carbon across Germany

R. D. Kutzner; E. von Schneidemesser; F. Kuik; J. Quedenau; E. C. Weatherhead et al. 

Atmospheric Environment. 2018. Vol. 185, p. 41-52. DOI : 10.1016/j.atmosenv.2018.04.039.

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Local Arctic Air Pollution: A Neglected but Serious Problem

J. Schmale; S. R. Arnold; K. S. Law; T. Thorp; S. Anenberg et al. 

Earth’s Future. 2018. Vol. 6, num. 10, p. 1385-1412. DOI : 10.1029/2018EF000952.

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Long-term cloud condensation nuclei number concentration, particle number size distribution and chemical composition measurements at regionally representative observatories

J. Schmale; S. Henning; S. Decesari; B. Henzing; H. Keskinen et al. 

Atmospheric Chemistry and Physics. 2018. Vol. 18, p. 2853-2881. DOI : 10.5194/acp-18-2853-2018.

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2017

Journal Articles

Modulation of snow reflectance and snowmelt from Central Asian glaciers by anthropogenic black carbon

J. Schmale; M. Flanner; S. Kang; M. Sprenger; Q. Zhang et al. 

Scientific Reports. 2017. Vol. 7, num. 1, p. 40501. DOI : 10.1038/srep40501.

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A survey on the perceived need and value of decision-support tools for joint mitigation of air pollution and climate change in cities

E. Von Schneidemesser; R. D. Kutzner; J. Schmale 

Elementa Science of the Anthropocene. 2017. Vol. 5, p. 68. DOI : 10.1525/elementa.126.

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Light-absorbing impurities enhance glacier albedo reduction in the southeastern Tibetan plateau

Y. Zhang; S. Kang; Z. Cong; J. Schmale; M. Sprenger et al. 

Journal of Geophysical Research: Atmospheres. 2017. Vol. 122, num. 13, p. 6915-6933. DOI : 10.1002/2016JD026397.

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Collocated observations of cloud condensation nuclei, particle size distributions, and chemical composition

J. Schmale; S. Henning; B. Henzing; H. Keskinen; K. Sellegri et al. 

Scientific Data. 2017. Vol. 4, p. 170003. DOI : 10.1038/sdata.2017.3.

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2016

Journal Articles

Sustainable policy—key considerations for air quality and climate change

M. L. Melamed; J. Schmale; E. von Schneidemesser 

Current Opinion in Environmental Sustainability. 2016. Vol. 23, p. 85-91. DOI : 10.1016/j.cosust.2016.12.003.

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Measurement of ammonia emissions from temperate and sub-polar seabird colonies

S. Riddick; T. Blackall; U. Dragosits; F. Daunt; M. Newell et al. 

Atmospheric Environment. 2016. Vol. 134, p. 40-50. DOI : 10.1016/j.atmosenv.2016.03.016.

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Book Chapters

Building Interfaces That Work: A Multi-stakeholder Approach to Air Pollution and Climate Change Mitigation

J. Schmale; E. von Schneidemesser; I. Chabay; A. Maas; M. G. Lawrence 

Communicating Climate-Change and Natural Hazard Risk and Cultivating Resilience; Springer, Cham, 2016. p. 12.

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2015

Journal Articles

An Integrated Assessment Method for Sustainable Transport System Planning in a Middle Sized German City

J. Schmale; E. von Schneidemesser; A. Dörrie 

Sustainability. 2015. Vol. 7, num. 2, p. 1329-1354. DOI : 10.3390/su7021329.

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Short-term solutions

J. Schmale 

Nature Climate Change. 2015. Vol. 6, num. 3, p. 234-235. DOI : 10.1038/nclimate2897.

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2014

Journal Articles

Air pollution: Clean up our skies

J. Schmale; D. Shindell; E. von Schneidemesser; I. Chabay; M. Lawrence 

Nature. 2014. Vol. 515, num. 7527, p. 335-337. DOI : 10.1038/515335a.

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New Directions: Support for integrated decision-making in air and climate policies – Development of a metrics-based information portal

J. Schmale; J. van Aardenne; E. von Schneidemesser 

Atmospheric Environment. 2014. Vol. 90, p. 146-148. DOI : 10.1016/j.atmosenv.2014.03.016.

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2013

Journal Articles

Sub-Antarctic marine aerosol: dominant contributions from biogenic sources

J. Schmale; J. Schneider; E. Nemitz; Y. S. Tang; U. Dragosits et al. 

Atmospheric Chemistry and Physics. 2013. Vol. 13, num. 17, p. 8669-8694. DOI : 10.5194/acp-13-8669-2013.

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2011

Journal Articles

Physical and chemical properties of pollution aerosol particles transported from North America to Greenland as measured during the POLARCAT summer campaign

B. Quennehen; A. Schwarzenboeck; J. Schmale; J. Schneider; H. Sodemann et al. 

Atmospheric Chemistry and Physics. 2011. Vol. 11, num. 21, p. 10947-10963. DOI : 10.5194/acp-11-10947-2011.

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Source identification and airborne chemical characterisation of aerosol pollution from long-range transport over Greenland during POLARCAT summer campaign 2008

J. Schmale; J. Schneider; G. Ancellet; B. Quennehen; A. Stohl et al. 

Atmospheric Chemistry and Physics. 2011. Vol. 11, num. 19, p. 10097-10123. DOI : 10.5194/acp-11-10097-2011.

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2010

Journal Articles

Airborne stratospheric ITCIMS measurements of SO2, HCl, and HNO3in the aged plume of volcano Kasatochi

T. Jurkat; C. Voigt; F. Arnold; H. Schlager; H. Aufmhoff et al. 

Journal of Geophysical Research. 2010. Vol. 115, p. 1-14. DOI : 10.1029/2010JD013890.

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Aerosol layers from the 2008 eruptions of Mount Okmok and Mount Kasatochi: In situ upper troposphere and lower stratosphere measurements of sulfate and organics over Europe

J. Schmale; J. Schneider; T. Jurkat; C. Voigt; H. Kalesse et al. 

Journal of Geophysical Research. 2010. Vol. 115, p. D00L07. DOI : 10.1029/2009JD013628.

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In-situ observations of young contrails – overview and selected results from the CONCERT campaign

C. Voigt; U. Schumann; T. Jurkat; D. Schäuble; H. Schlager et al. 

Atmospheric Chemistry and Physics. 2010. Vol. 10, num. 18, p. 9039-9056. DOI : 10.5194/acp-10-9039-2010.

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