====== AWARES: Peer-Reviewed Journal Articles ======
//Please send an email to the author in order to receive a copy of the article.//

//Working group members are given in **bold**.//   //File naming convention: author_et_al_yyyy_journal.pdf// \\
//**<color #00a2e8>Please sort published papers in alphabetical order!</color>**//\\
Example:\\
**Marke, T., S. Crewell**, V. Schemann, **J. H. Schween**, and M. Tuononen, 2018: Long-Term Observations and High Resolution Modeling of Mid-Latitude Nocturnal Boundary-Layer Processes Connected to Low-Level-Jets,  //J. Appl. Meteor. Climatol.//, 57, 1155–1170, https://doi.org/10.1175/JAMC-D-17-0341.1.

==== submitted ==== 

Wendisch, M., **Crewell, S.**, Ehrlich, A., Herber, A., Kirbus, B., Lüpkes, C., **Mech, M.**, Abel, S. J., Akansu, E. F., Ament, F., Aubry, C., Becker, S., Borrmann, S., Bozem, H., Brückner, M., Clemen, H.-C., Dahlke, S., Dekoutsidis, G., Delanoë, J., De La Torre Castro, E., Dorff, H., Dupuy, R., Eppers, O., Ewald, F., George, G., Gorodetskaya, I. V., Grawe, S., Groß, S., Hartmann, J., Henning, S., Hirsch, L., Jäkel, E., Joppe, P., Jourdan, O., Jurányi, Z., Karalis, M., Kellermann, M., Klingebiel, M., Lonardi, M., Lucke, J., Luebke, A., Maahn, M., Maherndl, N., Maturilli, M., Mayer, B., Mayer, J., Mertes, S., Michaelis, J., Michalkov, M., Mioche, G., Moser, M., Müller, H., Neggers, R., **Ori, D.**, **Paul, D.**, Paulus, F., Pilz, C., Pithan, F., Pöhlker, M., Pörtge, V., Ringel, M., **Risse, N.**, Roberts, G. C., Rosenburg, S., Röttenbacher, J., Rückert, J., Schäfer, M., Schäfer, J., **Schemannn, V.**, **Schirmacher, I.**, Schmidt, J., Schmidt, S., Schneider, J., **Schnitt, S.**, Schwarz, A., Siebert, H., Sodemann, H., Sperzel, T., Spreen, G., Stevens, B., Stratmann, F., Svensson, G., Tatzelt, C., Tuch, T., Vihma, T., Voigt, C., Volkmer, L., **Walbröl, A.**, Weber, A., Wehner, B., Wetzel, B., Wirth, M., and Zinner, T.: Overview: Quasi-Lagrangian observations of Arctic air mass transformations – Introduction and initial results of the HALO–(AC)3 aircraft campaign, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2024-783, 2024, submitted 15 Mar 2024.

**Chatterjee, D.**, **S. Schnitt**,** P. Bigalke**, **C. Acquistapace**, and  **S. Crewell**, (2024). Capturing the Diversity of Mesoscale Trade Wind Cumuli Using Complementary Approaches from Self-Supervised Deep Learning. Geophysical Research Letters, https://doi.org/10.22541/essoar.170000384.49382400/v2

**Risse, N.**, **M. Mech**, C. Prigent, G. Spreen, and **S. Crewell**: Assessing the sea ice microwave emissivity up to submillimeter waves from airborne and satellite observations, //The Cryosphere//, submitted on 19 Jan 2024

Rückert, J.E., **A. Walbröl**, **N. Risse**, **P. Krobot**, R. Haseneder-Lind, **M. Mech**, **K. Ebell**, and G. Spreen: Measuring microwave sea ice and ocean brightness
temperature and emissivity between 22 and 243 GHz by ship-based radiometers with rotatable mirrors, //Annals of Glaciology//, submitted on 30 Dec 2023

**Schirmacher, I.**, **S.Schnitt**, M. Klingebiel, N. Maherndl, B. Kirbus, A. Ehrlich, **M. Mech**, and **S. Crewell**, 2024: Clouds and precipitation in the initial phase of marine cold air
outbreaks as observed by airborne remote sensing, //Atmos. Chem. Phys.//, submitted on 26 Mar 2024.

Arteaga, D., C. Planche, F. Tridon, R. Dupuy, A. Baudoux, S. Banson, J.-L. Baray, G. Mioche, A. Ehrlich, **M. Mech**, S. Mertes, M. Wendisch, W. Wobrock, and O. Jourdan: Arctic mixed-phase clouds simulated by the WRF model: Comparisons with ACLOUD radar and in situ airborne observations and sensitivity of microphysics properties, //Atmos. Res.//, submitted on 10 Nov 2023.

**Vicencio, J.**, **C. Böhm**, J.H. Schween, U. Löhnert, and **S. Crewell**, 2023: The overlooked role of westerly moisture as a source of summer rainfall in the hyperarid Atacama Desert, //JGR Atmosphere//, submitted on 17 Feb 2024, in discussion since 18 May 2024 [[https://doi.org/10.22541/essoar.171322686.60605286/v1]].

**Walbröl, A.**, J. Michaelis, S. Becker, H. Dorff, I. Gorodetskaya, B. Kirbus, **M. Lauer**, N. Maherndl, M. Maturilli, J. Mayer, H. Müller, **R. A. J. Neggers**, **F. M. Paulus**, J. Röttenbacher, J. E. Rückert, **I. Schirmacher**,  N. Slättberg, A. Ehrlich, M. Wendisch, and **S. Crewell**: Environmental conditions in the North Atlantic sector of the Arctic during the HALO-(AC)3 campaign, //Atmos. Chem. Phys.//, https://doi.org/10.5194/egusphere-2023-668, in discussion since 13 April 2023

==== accepted ====

Rückert, J.E., P. Rostosky, M. Huntemann, D. Clemens-Sewall, **K. Ebell**, L. Kaleschke, J. Lemmetyinen, A. Macfarlane, R. Naderpour, J. Stroeve, **A. Walbröl**, and G. Spreen: Sea ice concentration satellite retrievals influenced by surface changes due to warm air intrusions: A case study from the MOSAiC expedition //Elementa: Science of the Anthropocene//, accepted on 10 October 2023

==== 2024 ====

Arteaga, D., C. Planche, F. Tridon, R. Dupuy, A. Baudoux, S. Banson, J.-L. Baray, G. Mioche, A. Ehrlich, **M. Mech**, S. Mertes, M. Wendisch, W. Wobrock, and O. Jourdan, 2024: Arctic mixed-phase clouds simulated by the WRF model: Comparisons with ACLOUD radar and in situ airborne observations and sensitivity of microphysics properties. //Atmospheric Research//, 107471, [[https://doi.org/10.1016/j.atmosres.2024.107471]].

Jaeschke, A., **C. Böhm**, J. Schween, E. Schefuß, M. A. Koch, C. Latorre, S. Contreras, J. Rethemeyer, H. Wissel, and A. Lücke, 2024: Evaluating the isotopic composition of leaf organic compounds in fog-dependent Tillandsia landbeckii across the coastal Atacama Desert: Implications for hydroclimate reconstructions at the dry limit. //Global and Planetary Change//, 235, 104393, [[https://doi.org/10.1016/j.gloplacha.2024.104393]]

Kirbus, B., **I. Schirmacher**, M. Klingebiel, M. Schäfer, A. Ehrlich, N. Slättberg, J. Lucke, M. Moser, H. Müller, and M. Wendisch, 2024: Thermodynamic and cloud evolution in a cold-air outbreak during HALO-(AC)3: quasi-Lagrangian observations compared to the ERA5 and CARRA reanalyses. //Atmos. Chem. Phys.//,24, 3883–3904, [[https://doi.org/10.5194/acp-24-3883-2024]].

Maherndl, N., Moser, M., Lucke, J., **Mech, M.**, **Risse, N.**, **Schirmacher, I.**, and Maahn, M.: Quantifying riming from airborne data during the HALO-(AC)3 campaign, Atmos. Meas. Tech., 17, 1475–1495, [[https://doi.org/10.5194/amt-17-1475-2024]], 2024. 

**Schnitt, S.**, A. Foth, H. Kalesse-Los, **M. Mech**, **C. Acquistapace**, F. Jansen, U. Löhnert, B. Pospichal, J. Röttenbacher, **S. Crewell**, und B. Stevens, 2024: Ground- and ship-based microwave radiometer measurements during EUREC$^4$A, //Earth Systems Science Data//,  16, 681–700, [[https://doi.org/10.5194/essd-16-681-2024]].

Stevens, B., Adami, S., Ali, T., Anzt, H., Aslan, Z., Attinger, S., Bäck, J., Baehr, J., Bauer, P., Bernier, N., Bishop, B., Bockelmann, H., Bony, S., Brasseur, G., Bresch, D. N., Breyer, S., Brunet, G., Buttigieg, P. L., Cao, J., Castet, C., Cheng, Y., Dey Choudhury, A., Coen, D., **Crewell, S.**, Dabholkar, A., Dai, Q., Doblas-Reyes, F., Durran, D., El Gaidi, A., Ewen, C., Exarchou, E., Eyring, V., Falkinhoff, F., Farrell, D., Forster, P. M., Frassoni, A., Frauen, C., Fuhrer, O., Gani, S., Gerber, E., Goldfarb, D., Grieger, J., Gruber, N., Hazeleger, W., Herken, R., Hewitt, C., Hoefler, T., Hsu, H.-H., Jacob, D., Jahn, A., Jakob, C., Jung, T., Kadow, C., Kang, I.-S., Kang, S., Kashinath, K., Kleinen-von Königslöw, K., Klocke, D., Kloenne, U., Klöwer, M., Kodama, C., Kollet, S., Kölling, T., Kontkanen, J., Kopp, S., Koran, M., Kulmala, M., Lappalainen, H., Latifi, F., Lawrence, B., Lee, J. Y., Lejeun, Q., Lessig, C., Li, C., Lippert, T., Luterbacher, J., Manninen, P., Marotzke, J., Matsouoka, S., Merchant, C., Messmer, P., Michel, G., Michielsen, K., Miyakawa, T., Müller, J., Munir, R., Narayanasetti, S., Ndiaye, O., Nobre, C., Oberg, A., Oki, R., Özkan-Haller, T., Palmer, T., Posey, S., Prein, A., Primus, O., Pritchard, M., Pullen, J., Putrasahan, D., Quaas, J., Raghavan, K., Ramaswamy, V., Rapp, M., Rauser, F., Reichstein, M., Revi, A., Saluja, S., Satoh, M., **Schemann, V.**, Schemm, S., Schnadt Poberaj, C., Schulthess, T., Senior, C., Shukla, J., Singh, M., Slingo, J., Sobel, A., Solman, S., Spitzer, J., Stier, P., Stocker, T., Strock, S., Su, H., Taalas, P., Taylor, J., Tegtmeier, S., Teutsch, G., Tompkins, A., Ulbrich, U., Vidale, P.-L., Wu, C.-M., Xu, H., Zaki, N., Zanna, L., Zhou, T., and Ziemen, F., 2024: Earth Virtualization Engines (EVE), //Earth Syst. Sci. Data//, 16, 2113–2122, [[https://doi.org/10.5194/essd-16-2113-2024]], 2024.

==== 2023 ====
Bailey, A., Aemisegger, F., Villiger, L., Los, S. A., Reverdin, G., Quiñones Meléndez, E., **Acquistapace, C.**, Baranowski, D. B., Böck, T., Bony, S., Bordsdorff, T., Coffman, D., de Szoeke, S. P., Diekmann, C. J., Dütsch, M., Ertl, B., Galewsky, J., Henze, D., Makuch, P., Noone, D., Quinn, P. K., Rösch, M., Schneider, A., Schneider, M., Speich, S., Stevens, B., and Thompson, E. J., 2023: Isotopic measurements in water vapor, precipitation, and seawater during EUREC4A, //Earth Syst. Sci. Data//, 15, 465–495, [[https://doi.org/10.5194/essd-15-465-2023]].


**Chatterjee, D., Acquistapace, C.**, Deneke, H., **Crewell, S.**, 2023: Understanding cloud systems structure and organization using a machine’s self-learning approach, // Journal of Artificial Intelligence for the Earth Systems//, [[https://doi.org/10.1175/AIES-D-22-0096.1]]

Chellini, G., **R. Gierens**, **K. Ebell**, T. Kiszler, **P. Krobot**, A. Myagkov, **V. Schemann**, and S. Kneifel: Low-level mixed-phase clouds at the high Arctic site of Ny-Ålesund: A comprehensive long-term dataset of remote sensing observations,  //Earth Syst. Sci. Data//, 15, 5427–5448, [[https://doi.org/10.5194/essd-15-5427-2023]]

Chylik, J., Chechin, D., Dupuy, R., **Kulla, B. S.**, Lüpkes, C., Mertes, S., **Mech, M.**, and Neggers, R. A. J., 2023: Aerosol-cloud-turbulence interactions in well-coupled Arctic boundary layers over open water, //Atmos. Chem. Phys.//, 23, 4903–4929, [[https://doi.org/10.5194/acp-23-4903-2023]].

Heinemann, G., L. Schefczyk, R. Zentek, I. M. Brooks, S. Dahlke, and **A. Walbröl**, 2023: Evaluation of Vertical Profiles and Atmospheric Boundary Layer Structure Using the Regional Climate Model CCLM during MOSAiC, //Meteorology//, 2, 257-275, [[https://doi.org/10.3390/meteorology2020016]].

Kirbus, B. et al. (incl. **Crewell, S.**, **Ebell, K.**, **Lauer, M.**, **Rückert, J.**, **Walbröl A.**), 2023: Surface impacts and associated mechanisms of a moisture intrusion into the Arctic observed in mid-April 2020 during MOSAiC, //Frontiers in Earth Science//, //Sec. Atmospheric Science//, 11, [[https://doi.org/10.3389/feart.2023.1147848]].

Kiszler, T., **K. Ebell**, and **V. Schemann**, 2023: A performance baseline for the representation of clouds and humidity in cloud-resolving ICON-LEM simulations in the Arctic, //Journal of Advances in Modeling Earth Systems//, 15, e2022MS003299, [[https://doi.org/10.1029/2022MS003299]].

Klingebiel, M., A. Ehrlich, E. Ruiz-Donoso, **N. Risse**, **I. Schirmacher**, E. Jäkel, M. Schäfer, K. Wolf, **M. Mech**, M. Moser, C. Voigt, and M. Wendisch, 2023: Variability and properties of liquid-dominated clouds over the ice-free and sea-ice-covered Arctic Ocean, //Atmospheric Chemistry and Physics//, 23, 15289–15304, [[https://doi.org/10.5194/acp-23-15289-2023]].

**Lauer, M.**, A. Rinke, I. Gorodetskaya, M. Sprenger, **M. Mech**, **S. Crewell**, 2023: Influence of atmospheric rivers and associated weather systems on precipitation in the Arctic, // Atmospheric Chemistry and Physics//, 23, 8705–8726, [[https://doi.org/10.5194/acp-23-8705-2023]].

Maherndl, N., Maahn, M., Tridon, F., Leinonen, J., **Ori, D.** Kneifel, S. 2023: A riming-dependent parameterization of scattering by snowflakes using the self-similar Rayleigh–Gans approximation, //Quarterly Journal of the Royal Meteorological Society//, 1–20. [[https://doi.org/10.1002/qj.4573]].

Moser, M., C. Voigt, T. Jurkat-Witschas, V. Hahn, G. Mioche, O. Jourdan, R. Dupuy, C. Gourbeyre, A. Schwarzenboeck, J. Lucke, Y. Boose, **M. Mech**, S. Borrmann, A. Ehrlich, A. Herber, C. Lüpkes, and M. Wendisch, 2023: Microphysical and thermodynamic phase analyses of Arctic low-level clouds measured above the sea ice and the open ocean in spring and summer, //Atmospheric Chemistry and Physics//, 23, 7257–7280, [[https://doi.org/10.5194/acp-23-7257-2023]].

Pasquier, J. T., J. Henneberger, A. Korolev, F. Ramelli, J. Wieder, A. Lauber, G. Li, R. O. David, T. Carlsen, **R. Gierens**, M. Maturilli, and U. Lohmann, 2023: Understanding the history of complex ice crystal habits deduced from a holographic imager, //Geophysical Research Letters//, 50, e2022GL100247, [[https://doi.org/10.1029/2022GL100247]].

Reyers, M., S. Fiedler, P. Ludwig, **C. Böhm**, V. Wennrich, and Y. Shao, 2023: On the importance of moisture conveyor belts from the tropical East Pacific for wetter conditions in the Atacama Desert during the Mid-Pliocene, //Climate of the Past//, 19, 517–532, [[https://doi.org/10.5194/cp-19-517-2023]].

**Schirmacher, I**, P. Kollias, K. Lamer, **M. Mech**, L. Pfitzenmaier, M. Wendisch, and **S. Crewell**, 2023: Assessing Arctic low-level clouds and precipitation from above – a radar perspective, //Atmospheric Measurement Techniques//, 16(17), 4081 - 4100, [[https://doi.org/10.5194/amt-16-4081-2023]].

Sun X., W. Amelung, E. Klumpp, J. Walk, R. Mörchen, **C. Böhm**, G. Moradi, S. M. May, F. Tamburini, Y. Wang, R. Bol, 2023: Fog controls biological cycling of soil P in Coastal Cordillera of the Atacama. //Global Change Biology//, 30(1), e17068, https://doi.org/10.1111/gcb.17068

**Vicencio, J.**, **C. Böhm**, J.H. Schween, U. Löhnert, and **S. Crewell**, 2023: A comparative study of the atmospheric water vapor in the Atacama and Namib Desert, //Global and Planetary Change//, 104320, [[https://doi.org/10.1016/j.gloplacha.2023.104320]].

Vinjamuri, K. S., M. Vountas, L. Lelli, M. Stenger, M. D. Shupe, **K. Ebell**, and J. P. Burrows, 2023: Validation of the Cloud_CCI cloud products in the Arctic, //Atmos. Meas. Tech.//, 16, 2903–2918, [[https://doi.org/10.5194/amt-16-2903-2023]].

Wendisch, M., et al. (incl. **S. Crewell**, **V. Schemann**, **K. Ebell**, **R. Gierens**, **L.-L. Kliesch**, **M. Lauer**, **M. Mech**), 2023: Atmospheric and Surface Processes, and Feedback Mechanisms Determining Arctic Amplification: A Review of First Results and Prospects of the (AC)³ Project, //Bulletin of the American Meteorological Society//, 104(1), E208-E242, [[https://doi.org/10.1175/BAMS-D-21-0218.1]].

Wennrich, V., **C. Böhm**, D. Brill, R. Carballeira, D. Hoffmeister, A. Jaeschke, F. Kerber, A. Maldonado, S. M. May, L. Olivares, S. Opitz, J. Rethemeyer, M. Reyers, B. Ritter, J. H. Schween, F. Sevinç, J. Steiner, K. Walber-Hellmann, M. Melles, 2023: Late Pleistocene to modern precipitation changes at the Paranal clay pan, central Atacama Desert. //Global and Planetary Change//, 233, 104349, https://doi.org/10.1016/j.gloplacha.2023.104349

==== 2022 ====

**Acquistapace C.**, A.N. Meroni, G. Labbri, D. Lange, F. Späth, S. Abbas, and H. Bellenger, 2022: Fast atmospheric response to an SST mesoscale cold patch in the north-western subtropical Atlantic, //Journal of Geophysical Research - Atmosphere//, 127, e2022JD036799, [[https://doi.org/10.1029/2022JD036799]]


**Acquistapace, C.**, **N. Risse**, **J. H. Schween**, **R. Gierens**, **S. Crewell**, A. Garcia-Benadi, R. Coulter, G. Labbri, and A. Myagkov, 2022: EUREC4A's Maria S. Merian ship-based cloud and micro rain radar observations of clouds and precipitation, //Earth System Science Data//, Special Issue: Elucidating the role of clouds–circulation coupling in climate: datasets from the 2020 (EUREC4A) field campaign, Earth System Science Data, 14, 33–55,[[https://essd.copernicus.org/articles/14/33/2022]]

Arenas-Diaz, F., B. Fuentes, M. Reyers, S. Fiedler, **C. Böhm**, E. Campos, Y. Shao,  R. Bol, 2022: Dust and aerosols in the Atacama Desert, //Earth-Science Reviews//, 226, 103925, [[https://doi.org/10.1016/j.earscirev.2022.103925]]

Braun D., **K. Ebell**, **V. Schemann**, L. Pelchmann, **S. Crewell**, R. Borgo, T. von Landesberger, 2022: Color Coding of Large Value Ranges Applied to Meteorological Data, //IEEE Visualization and Visual Analytics (VIS)//, Oklahoma City, OK, USA, 2022, pp. 125-129, [[https://doi.org/10.1109/VIS54862.2022.00034]]

Bresson, H., A. Rinke, **M. Mech**, D. Reinert, **V. Schemann**, **K. Ebell**, M. Maturilli, C. Viceto, I. Gorodetskaya, and **S. Crewell**, 2022: Case study of a moisture intrusion over the Arctic with the ICON model: resolution dependence of its representation, //Atmospheric Chemistry and Physics//, 22, 173–196, [[https://doi.org/10.5194/acp-22-173-2022]]


Chellini, G., **R. Gierens**, and S. Kneifel, 2022: Ice Aggregation in Low-Level Mixed-Phase Clouds at a High Arctic Site: Enhanced by Dendritic Growth and Absent Close to the Melting Level, //Journal of Geophysical Research: Atmospheres//, 127, e2022JD036860, [[https://doi.org/10.1029/2022JD036860]]


Geerts, B., et al. (incl. **S. Crewell**, **K. Ebell**), 2022: The COMBLE campaign: a study of marine boundary-layer clouds in Arctic cold-air outbreaks, //Bulletin of the American Meteorological Society//, 103, 5, E1371-E1389 [[https://doi.org/10.1175/BAMS-D-21-0044.1]]

Jia, H., J. Quaas, E. Gryspeerdt, **C. Böhm**, O. Sourdeval, 2022: Addressing the difficulties in quantifying the Twomey effect for marine warm clouds from multi-sensor satellite observations and reanalysis, //Atmos. Chem. Phys.//, 22, 7353–7372, [[https://doi.org/10.5194/acp-22-7353-2022]] 

King, F., G. Duffy, L. Milani, C. G. Fletcher, C. Pettersen and **K. Ebell**, 2022: DeepPrecip: a deep neural network for precipitation retrievals, // Atmos. Meas. Tech.//, 15, 6035–6050, https://doi.org/10.5194/amt-15-6035-2022 

Kneifel, S., B. Pospichal, L. von Terzi, T. Zinner, M. Puh, M. Hagen, B. Mayer, U. Löhnert and **S. Crewell**, 2022: Multi-year cloud and precipitation statistics observed with remote sensors at the high-altitude Environmental Research Station Schneefernerhaus in the German Alps, //Meteorologische Zeitschrift//, 31 (1), 69-86, [[https://doi.org/10.1127/metz/2021/1099]]

von Lerber, A., **M. Mech**, A. Rinke, D. Zhang, **M. Lauer**, **A. Radovan**, I. Gorodetskaya, and **S. Crewell**, 2022: Evaluating seasonal and regional distribution of snowfall in regional climate model simulations in the Arctic, //Atmospheric Chemistry Physics//, 22, 7287-7317,  [[https://doi.org/10.5194/acp-22-7287-2022]] 


**Mech, M.,** A. Ehrlich, A. Herber, C. Luepkes, M. Wendisch, S. Becker, Y. Boose, D. Chechin, **S. Crewell**, R. Dupuy, C. Gourbeyre, J. Hartmann, E. Jaekel, O. Jourdan, **L.-L. Kliesch**, M. Klingebiel, **B.S. Kulla**, G. Mioche, M. Moser, **N. Risse**, E. Ruiz-Donoso, M. Schaefer, J. Stapf, and C. Voigt, 2022: MOSAiC-ACA and AFLUX - Arctic airborne campaigns characterizing the exit area of MOSAiC, //Scientific Data//, 9, 790, [[https://doi.org/10.1038/s41597-022-01900-7]].

Myagkov, A. and **D. Ori**, 2022: Analytic characterization of random errors in spectral dual-polarized cloud radar observations, //Atmospheric Measurement Techniques//, 15, 1333–1354, [[https://doi.org/10.5194/amt-15-1333-2022]]


Pasquier, J. T., R. O. David, G. Freitas, **R. Gierens**, Y. Gramlich, S. Haslett, G. Li, B. Schäfer, K. Siegel, J. Wieder, K. Adachi, F. Belosi, T. Carlsen, S. Decesari, **K. Ebell**, S. Gilardoni, M. Gysel-Beer, J. Henneberger, J. Inoue, Z.A. Kanji, M. Koike, Y. Kondo, R. Krejci, U. Lohmann, M. Maturilli, M. Mazzolla, R. Modini, C. Mohr, G. Motos, A. Nenes, A. Nicosia, S. Ohata, M. Paglione, S. Park, R.E. Pileci, F. Ramelli, M. Rinaldi, C. Ritter, K. Sato, T. Storelvmo, Y. Tobo, R. Traversi, A. Viola, and P. Zieger, 2022: The Ny-Ålesund Aerosol Cloud Experiment (NASCENT): Overview and First Results, //Bulletin of the American Meteorological Society//, 103(11), E2533-E2558. [[https://doi.org/10.1175/BAMS-D-21-0034.1]] 

Pasquier, J. T., J. Henneberger, F. Ramelli, A. Lauber, R. O. David, J. Wieder, T. Carlsen, **R. Gierens**, M. Maturilli, and U. Lohmann, 2022: Conditions favorable for secondary ice production in Arctic mixed-phase clouds, //Atmospheric Chemistry and Physics//, 22, 15579-15601. [[https://doi.org/10.5194/acp-22-15579-2022]]

Shupe et al. (incl. **S. Crewell**, **K. Ebell**, **M. Mech**), 2022: Overview of the MOSAiC Expedition—Atmosphere. //Elementa: Science of the Anthropocene//, 10(1), [[https://doi.org/10.1525/elementa.2021.00060]]

Viceto, C., I. V. Gorodetskaya, A. Rinke, M. Maturilli, A. Rocha, and **S. Crewell**, 2022: Atmospheric rivers and associated precipitation patterns during the ACLOUD and PASCAL campaigns near Svalbard (May–June 2017): case studies using observations, reanalyses, and a regional climate model, //Atmospheric Chemistry and Physics//, 22, 441–463, [[https://doi.org/10.5194/acp-22-441-2022]]

von Terzi, L., Dias Neto, J., **Ori, D.**, Myagkov, A., and Kneifel, S., 2022: Ice microphysical processes in the dendritic growth layer: a statistical analysis combining multi-frequency and polarimetric Doppler cloud radar observations, //Atmospheric Chemistry and Physics//, 22, 11795–11821, [[https://doi.org/10.5194/acp-22-11795-2022]]

**Walbroel, A.**, **S. Crewell**, R. Engelmann, E. Orlandi, H. Griesche, M. Radenz, J. Hofer, D. Althausen, M. Maturilli, and **K. Ebell**,2022: Atmospheric temperature, water vapour and liquid water path from two microwave radiometers during MOSAiC. //Scientific Data// 9, 534, [[https://doi.org/10.1038/s41597-022-01504-1]].

==== 2021 ====

Bock, O., P. Bosser, C. Flamant, E. Doerflinger, F. Janssen, R. Fages, S.Bony and **S.Schnitt**, 2021: IWV observations in the Caribbean Arc from a network of ground-based GNSS receivers during EUREC4A, Earth System Science Data, [[https://doi.org/10.5194/essd-13-2407-2021]].

**Böhm, C.**, J. H. Schween, M. Reyers, B. Maier, U. Löhnert, **S. Crewell**, 2021: Towards a climatology of fog frequency in the Atacama Desert via multi-spectral satellite data and machine learning techniques, //Journal of Applied Meteorology and Climatology//, [[https://doi.org/10.1175/JAMC-D-20-0208.1]] 

**Böhm, C.**, M. Reyers, L. Knarr, **S. Crewell**, 2021: The role of moisture conveyor belts for precipitation in the Atacama Desert, //Geophysical Research Letters//, (48) 24, [[http://dx.doi.org/10.1029/2021GL094372]]
    
**Crewell, C.**, **K. Ebell, P. Konjari, M. Mech, T. Nomokonova, A. Radovan, D. Strack**, A. M. Triana Gomez, S. Noel, R. Scarlat, G. Spreen, M. Maturilli, A. Rinke, I. Gorodetskaya, C. Viceto, T. August, and M. Schröder, 2021: A systematic assessment of water vapor products in the Arctic: from instantaneous measurements to monthly means, //Atmospheric Measurement Techniques// (14) 7, 4829-4856, [[https://doi.org/10.5194/amt-14-4829-2021]] 

**Frank, C.**, S. Fiedler, **S. Crewell**, 2021: Balancing potential of natural variability and extremes in photovoltaic and wind energy production for European countries, //Renewable Energy//, 163,  674-684, [[https://doi.org/10.1016/j.renene.2020.07.103]]

**Jentzsch, K.**, A. Schulz, N. Pirk, T. Foken, **S. Crewell**, J. Boike, 2021: High levels of CO2 exchange during synoptic-scale events introduce large uncertainty into the Arctic carbon budget, Geophysical Research Letters, 18(9), [[https://doi.org/10.1029/2020GL092256]]

Karlsson, L., R. Krejci, M. Koike, **K. Ebell**, and P. Zieger, 2021: A long-term study of cloud residuals from low-level Arctic clouds, //Atmos. Chem. Phys.//, 21, 8933–8959, [[https://doi.org/10.5194/acp-21-8933-2021]]

Karrer, M., Seifert, A., **Ori, D.**, and Kneifel, S., 2021: Improving the representation of aggregation in a two-moment microphysical scheme with statistics of multi-frequency Doppler radar observations, Atmospheric Chemistry Physics, 21, 17133–17166, [[https://doi.org/10.5194/acp-21-1713]]

Konow, H., F. Ewald, G. George, **M. Jacob**, M. Klingebiel, T. Kölling, A. E. Luebke, T. Mieslinger, V. Pörtge, J. Radtke, M. Schäfer, H. Schulz, R. Vogel, M. Wirth, S. Bony, **S. Crewell**, A. Ehrlich, L. Forster, A. Giez, F. Gödde, S. Groß, M. Gutleben, M. Hagen, L. Hirsch, F. Jansen, T. Lang, B. Mayer, **M. Mech**, M. Prange, **S. Schnitt**, J. Vial, **A. Walbröl**, M. Wendisch, K. Wolf, T. Zinner, M. Zöger, F. Ament, and B. Stevens, 2021: EUREC4A’s HALO, //Earth System Science Data//,13 , 5545–5563, [[https://doi.org/10.5194/essd-13-5545-2021]]

Mróz, K., Battaglia, A., Kneifel, S., von Terzi, L., Karrer, M., and **Ori, D.**, 2021: Linking rain into ice microphysics across the melting layer in stratiform rain: a closure study, Atmospheric Measurement Techniques, 14, 511–529, [[https://doi.org/10.5194/amt-14-511-2021]]

**Ori, D.**, von Terzi, L., Karrer, M., and Kneifel, S., 2021: snowScatt 1.0: consistent model of microphysical and scattering properties of rimed and unrimed snowflakes based on the self-similar Rayleigh–Gans approximation, Geoscientific Model Development, 14, 1511–1531, [[https://doi.org/10.5194/gmd-14-1511-2021]]

Reyers, M., **C. Böhm**,  L. Knarr Y. Shao, and **S. Crewell**,2021: Synoptic-to-regional scale analysis of rainfall in the Atacama Desert (18°S-26°S) using a long-term simulation with WRF, //Monthly Weather Review//, 148 (8), 1-51, [[https://doi.org/10.1175/MWR-D-20-0038.1]]

**Schoger, S. Y.**, D. Moisseev, A. von Lerber, **S. Crewell**, and **K. Ebell**, 2021: Snowfall rate retrieval for K- and W-band radar measurements designed in Hyytiälä, Finland, and tested at Ny-Ålesund, Svalbard, //Journal of Applied Meteorology and Climatology//, 60(3), 273-289, [[https://doi.org/10.1175/JAMC-D-20-0095.1]]

Stephan, C., **C. Acquistapace**, **T. Böck**, **S. Schnitt**, et al., 2021: Ship- and island-based atmospheric soundings from the 2020 EUREC4A field campaign, //Earth System Science Data//, 13, 491–514, [[https://doi.org/10.5194/essd-13-491-2021]]

Stevens, B, et al. including **C. Acquistapace**, **S. Crewell**, **M. Jacob**, **M. Mech**, **S. Schnitt**, 2021: EUREC4A, Earth System Science Data, 13 (8), 4067–4119, [[https://doi.org/10.5194/essd-13-4067-2021]]