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publications:reviewed [2019/10/11 23:20]
jan [submitted]
publications:reviewed [2020/02/21 11:31] (current)
bernhard
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 ==== submitted ==== ==== submitted ====
  
 +Achtert P., E. O'​Connor,​ I. M. Brooks, G. Sotiropoulou,​ M. Shupe, **B. Pospichal**,​ B. J. Brooks, and M. Tjernström,​ Properties of Arctic liquid and mixed phase clouds from ship-borne Cloudnet observations during ACSE 2014, // Atmos. Chem. Phys.// [[https://​doi.org/​10.5194/​acp-2020-56]], ​ submitted 20.01.2020
  
 +**Böhm, C.**, M. Reyers, **J. Schween, S. Crewell**, How well can we describe the water vapor variability in the Atacama desert over the last 100 years?, G//lobal and Planetary Change//, submitted 31.5.2019
  
- +CadedduM.P., VP. Ghateand **MMech**: Ground-based Observations of Cloud and Drizzle Liquid Water Path in Stratocumulus Clouds. ​//Atm. Meas. Tech.// [[https://​doi.org/10.5194/amt-2019-346]] in review, 2019.
-**BöhmC.**MReyers, **J. Schween, SCrewell**, How well can we describe the water vapor variability ​in the Atacama desert over the last 100 years?, G//lobal and Planetary Change//, submitted 31.5.2019+
  
 **Costa-Surós,​ M.**, O. Sourdeval, **C. Acquistapace**,​ H. Baars, C. C. Henken, C. Genz, J. Hesemann, C. Jimenez, M. König, J. Kretzschmar,​ N. Madenach, C. I. Meyer, R. Schrödner, P. Seifert, F. Senf, M. Brueck, G.Cioni, J. F. Engels, K. Fieg, K. Gorges, R. Heinze, P. K. Siligam, **Costa-Surós,​ M.**, O. Sourdeval, **C. Acquistapace**,​ H. Baars, C. C. Henken, C. Genz, J. Hesemann, C. Jimenez, M. König, J. Kretzschmar,​ N. Madenach, C. I. Meyer, R. Schrödner, P. Seifert, F. Senf, M. Brueck, G.Cioni, J. F. Engels, K. Fieg, K. Gorges, R. Heinze, P. K. Siligam,
-U. Burkhardt, **S. Crewell**, C. Hoose, A. Seifert, I. Tegen, and J. Quaas: Detection and attribution of aerosol-cloud interactions in large-domain large-eddy simulations with ICON, submitted to //​Atmospheric Chemistry and Physics // September 2019+U. Burkhardt, **S. Crewell**, C. Hoose, A. Seifert, I. Tegen, and J. Quaas: Detection and attribution of aerosol-cloud interactions in large-domain large-eddy simulations with ICON, //​Atmospheric Chemistry and Physics//, [[https://​doi.org/​10.5194/​acp-2019-850]],​ submitted 20 September 2019
  
 +**Gierens, R.**, S. Kneifel, M. D. Shupe, **K. Ebell**, M. Maturilli, **U. Löhnert**: Low-level mixed-phase clouds in a complex Arctic environment,//​ Atmos. Chem. Phys. Discuss.//, https://​doi.org/​10.5194/​acp-2019-610,​ in review, 2019. 
  
-**EbellK., TNomokonova**, MMaturilliCRitter: Radiative effect of clouds at Ny-ÅlesundSvalbardas inferred from ground-based remote sensing observations, submitted ​to //J. Appl. Meteorol. Climatol.//2 April 2019+**JacobM.**, PKolliasFAmentV. Schemannand **S. Crewell**, Multi-layer Cloud Conditions in Trade Wind Shallow Cumulus – Confronting Models with Airborne Observations,​ Geoscientific Model Development, submitted ​13 January2020
  
-EhrlichA., Wendisch, M., Lüpkes, C., Buschmann, M., Bozem, H., Chechin, D., Clemen, H.-C., Dupuy, R., Eppers, O., Hartmann, J., Herber, A., Jäkel, E., Järvinen, E., Jourdan, O., Kästner, U., **Kliesch, L.-L**.Köllner, F., **Mech, M.**, Mertes, S., Neuber, R., Ruiz-Donoso,​ E., Schnaiter, M., Schneider, J., Stapf, J., and Zanatta, M.: A comprehensive ​in situ and remote sensing data set from the Arctic ​CLoud Observations Using airborne measurements during polar Day (ACLOUD) campaignEarth Syst. Sci. Data Discuss., [[https://doi.org/10.5194/essd-2019-96]], submitted ​14.6.2019.+KarlssonL., RKrejci, M. Koike, **KEbell**, PZiegerThe annual cycle of aerosol activation ​in Arctic ​low-level clouds, //Nature Geoscience//, submitted ​21 October ​2019 
  
 +Maahn, M., D. D. Turner, **U. Löhnert**, D. J. Posselt, **K. Ebell**, G. G. Mace, and J. M. Comstock, What Every Atmospheric Scientist and Meteorologist Should Know About Inverse Retrievals, //Bulletin of the American Meteorological Society//, submitted 31 January 2020
  
 +**Nomokonova,​ T., K. Ebell, U. Löhnert**, M. Maturilli, and C. Ritter: The influence of anomalous atmospheric conditions at Ny-Ålesund on clouds and their radiative effect, //​Atmospheric Chemistry and Physics Discussions//,​ [[https://​doi.org/​10.5194/​acp-2019-985]],​1-34,​ submitted 25 October 2019, in review \\
  
-**GierensR.**S. KneifelMD. Shupe, **KEbell**, M. Maturilli, **ULöhnert**: Low-level mixed-phase clouds ​in a complex Arctic environmentAtmos. Chem. Phys. Discuss., https://doi.org/10.5194/acp-2019-610in review, 2019. +ReyersM.**S. Crewell**LKnarr, **ULöhnert**, **CBöhm**, Y. ShaoSynoptic-to-regional scale analysis of rainfall ​in the Atacama Desert (18°S-26°S) using long-term simulation with WRF, //Monthly Weather Review//, submitted 6 Februar 2020
  
-**MarkeT., ULöhnertVSchemann, and SCrewell** 2019“Land surface in-duced water vapor patterns”, //Atmospheric Chemistry and Physics//, [[https://​doi.org/10.5194/acp-2019-322]]+RostoskyP., GSpreenSGerland, M. Huntemann, and **MMech**: Modeling the microwave emission of snow on Arctic sea ice for estimating the uncertainty of satellite retrievals, //Journal of Geophysical Research Oceans//, submitted 7.7.2019.
  
-Reyers, M., **C. Böhm, ​S. Crewell, ​ULöhnert**YShao: Weather Types over the Southeast Pacific and their Impact on the Moisture Supply to the Atacama Desert//Global and Planetary Change//, submitted 29.4.2019 +Ruiz-Donoso,​ E., A. Ehrlich, M. Schäfer, E. Jäkel, Vera Schemann, **S. Crewell, ​MMechB.S. KullaL.-LKliesch,** R. Neuberand MWendischSmall-scale structure ​of thermodynamic phase in Arctic ​mixed-phase clouds ​observed by airborne remote sensing during a cold air outbreak and a warm air advection event//​Atmospheric Measurement Technology,// [[https://​doi.org/​10.5194/​acp-2019-960]]submitted 18. October ​2019.
- +
-SchemannV. and **EbellK.**Simulation ​of mixed-phase clouds ​with the ICON-LEM in the complex Arctic environment around Ny-ÅlesundAtmos. Chem. Phys. Discuss., https://​doi.org/​10.5194/​acp-2019-599, in review, 2019. +
  
 **Schnitt, S.**, **U. Löhnert**, R. Preusker: Combining Differential Absorption Radar and Microwave Radiometer for Water Vapor Profiling in the Cloudy Trade-Wind Environment,​ //Journal of Oceanic and Atmospheric Technology//,​ submitted 27.06.2019 **Schnitt, S.**, **U. Löhnert**, R. Preusker: Combining Differential Absorption Radar and Microwave Radiometer for Water Vapor Profiling in the Cloudy Trade-Wind Environment,​ //Journal of Oceanic and Atmospheric Technology//,​ submitted 27.06.2019
- 
-**Schween, J**., D. Hoffmeister,​ **U. Löhnert**: Filling the Observational Gap in the Atacama Desert with a new Network of Climate Stations, //Global and Planetary Change//, submitted 31.5.2019, accepted 13.9.2019 
- 
-Stevens, B., **C. Acquistapace**,​ **M. Costa-Surós**,​ **S. Crewell**, **M. Jacob**, **U. Löhnert**, **S. Schnitt**, et al. : Large-eddy and Storm Resolving Models for Climate Prediction - The Added Value for Clouds and Precipitation,​ //Journal of the Meteorological Society of Japan//, submitted 22.07.2019 
  
 **Toporov, M., U. Löhnert**: Synergy of Satellite- and Ground-Based Observations for Continuous Monitoring of Atmospheric Stability, Liquid Water Path and Integrated Water Vapor, Journal of Applied Meteorology and Climatology,​ submitted 03.07.2019 **Toporov, M., U. Löhnert**: Synergy of Satellite- and Ground-Based Observations for Continuous Monitoring of Atmospheric Stability, Liquid Water Path and Integrated Water Vapor, Journal of Applied Meteorology and Climatology,​ submitted 03.07.2019
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 ==== accepted ==== ==== accepted ====
  
-**FrankC., BPospichal**SWahlJ. D. Keller, A. Hense**SCrewell**: The added value of high resolution regional reanalyses for wind power applicationssubmitted to //Renewable Energy //accepted 29September 2019 +EhrlichA., Wendisch, M., Lüpkes, C., Buschmann, M., Bozem, H., Chechin, ​D., Clemen, H.-C., Dupuy, R., Eppers, O., Hartmann, J., Herber, A., Jäkel, E., JärvinenE., Jourdan, O., Kästner, U., **Kliesch, L.-L**., Köllner, F., **Mech, M.**, Mertes, S., Neuber, R., Ruiz-Donoso, E., Schnaiter, M., Schneider, J., Stapf, J., and Zanatta, M.: A comprehensive ​in situ and remote sensing data set from the Arctic CLoud Observations Using airborne measurements during polar Day (ACLOUD) campaignEarth Syst. Sci. Data Discuss., [[https://doi.org/10.5194/essd-2019-96]]accepted 30.10.2019.
- +
-NeherI., TBuchmann, **SCrewell**, **BPospichal**, S. Meilinger: Impact of atmospheric aerosols on solar energy production ​Dust outbreak ​in West Africa, //Meteorologische Zeitschrift//, accept 19 July 2019.+
  
 Jaeschke, A., **C. Böhm**, F. Merklinger, S. Bernasconi, M. Reyers, S. Kusch, J. Rethemeyer, 2019: Variation in δ15N of fog-dependent Tillandsia ecosystems reflect water availability across climate gradients in the hyperarid Atacama Desert, //Global and Planetary Change//, accepted 5 September 2019, 103029, [[https://​doi.org/​10.1016/​j.gloplacha.2019.103029]] Jaeschke, A., **C. Böhm**, F. Merklinger, S. Bernasconi, M. Reyers, S. Kusch, J. Rethemeyer, 2019: Variation in δ15N of fog-dependent Tillandsia ecosystems reflect water availability across climate gradients in the hyperarid Atacama Desert, //Global and Planetary Change//, accepted 5 September 2019, 103029, [[https://​doi.org/​10.1016/​j.gloplacha.2019.103029]]
  
 +Stevens, B., **C. Acquistapace**,​ **M. Costa-Surós**,​ **S. Crewell**, **M. Jacob**, **U. Löhnert**, **S. Schnitt**, et al. : Large-eddy and Storm Resolving Models for Climate Prediction - The Added Value for Clouds and Precipitation,​ //Journal of the Meteorological Society of Japan//, accepted 31.12.2019
  
 +Wilson, A. M., W. Chapman, A. Payne, A. M. Ramos, **C. Boehm**, D. Campos, J. Cordeira, R. Garreaud, I. V. Gorodetskaya,​ J.J. Rutz, C. Viceto, F.M. Ralph: Training the Next Generation of Researchers in the Science and Application of Atmospheric Rivers, //Bulletin of the American Meteorological Society//, accepted 25 November 2019
 +
 +==== 2020 ====
 +
 +**Ebell, K., T. Nomokonova**,​ M. Maturilli, C. Ritter, 2020: Radiative effect of clouds at Ny-Ålesund,​ Svalbard, as inferred from ground-based remote sensing observations,​ //J. Appl. Meteorol. Climatol.//,​ 59, 3-22, https://​doi.org/​10.1175/​JAMC-D-19-0080.1
 +
 +**Frank, C. W., B. Pospichal**,​ S. Wahl, J. D. Keller, A. Hense, **S. Crewell**, 2020: The added value of high resolution regional reanalyses for wind power applications,​ //Renewable Energy //, 148, 1094-1109 [[https://​doi.org/​10.1016/​j.renene.2019.09.138]],​ published online 3 Oct 2019
 +
 +**Marke, T., Löhnert, U.**, Schemann, V., **Schween, J. H., and Crewell, S.**: Detection of land-surface-induced atmospheric water vapor patterns, //Atmos. Chem. Phys.//, 20, 1723–1736,​ https://​doi.org/​10.5194/​acp-20-1723-2020,​ 2020. 
 +
 +**Schween, J. H.**., D. Hoffmeister,​ **U. Löhnert**: Filling the Observational Gap in the Atacama Desert with a new Network of Climate Stations, //Global and Planetary Change//, Volume 184, January 2020, 103034, DOI:​[[https://​doi.org/​10.1016/​j.gloplacha.2019.103034|10.1016/​j.gloplacha.2019.103034]],​ published online Oct 2019.
 +
 +Schemann, V. and **K. Ebell**: Simulation of mixed-phase clouds with the ICON large-eddy model in the complex Arctic environment around Ny-Ålesund,​ //Atmos. Chem. Phys.//, 20, 475–485, [[https://​doi.org/​10.5194/​acp-20-475-2020]]
  
 ==== 2019 ==== ==== 2019 ====
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 **Böhm, C.**, O. Sourdeval, J. Mülmenstädt,​ J. Quaas, and **S. Crewell**, 2019: Cloud base height retrieval from multi-angle satellite data, //​Atmospheric Measurement Techniques//,​ 12, 1841-1860, [[https://​doi.org/​10.5194/​amt-12-1841-2019]] **Böhm, C.**, O. Sourdeval, J. Mülmenstädt,​ J. Quaas, and **S. Crewell**, 2019: Cloud base height retrieval from multi-angle satellite data, //​Atmospheric Measurement Techniques//,​ 12, 1841-1860, [[https://​doi.org/​10.5194/​amt-12-1841-2019]]
 +
  
 Illingworth,​ A.J., D. Cimini, A. Haefele, M. Haeffelin, M. Hervo, S. Kotthaus, **U. Löhnert**, P. Martinet, I. Mattis, E.J. O’Connor, and R. Potthast, 2019: How Can Existing Ground-Based Profiling Instruments Improve European Weather Forecasts?. //Bull. Amer. Meteor. Soc.//, 100, 605–619, [[https://​doi.org/​10.1175/​BAMS-D-17-0231.1]] Illingworth,​ A.J., D. Cimini, A. Haefele, M. Haeffelin, M. Hervo, S. Kotthaus, **U. Löhnert**, P. Martinet, I. Mattis, E.J. O’Connor, and R. Potthast, 2019: How Can Existing Ground-Based Profiling Instruments Improve European Weather Forecasts?. //Bull. Amer. Meteor. Soc.//, 100, 605–619, [[https://​doi.org/​10.1175/​BAMS-D-17-0231.1]]
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 **Mech, M.**, **L.-L. Kliesch**, A. Anhäuser, T. Rose, P. Kollias and **S. Crewell**, 2019: Microwave Radar/​radiometer for Arctic Clouds MiRAC: first insights from the ACLOUD campaign, ​ **Mech, M.**, **L.-L. Kliesch**, A. Anhäuser, T. Rose, P. Kollias and **S. Crewell**, 2019: Microwave Radar/​radiometer for Arctic Clouds MiRAC: first insights from the ACLOUD campaign, ​
  //​Atmos. Meas. Tech.//, 12, 5019–5037,​ [[https://​doi.org/​10.5194/​amt-12-5019-2019]]. ​  //​Atmos. Meas. Tech.//, 12, 5019–5037,​ [[https://​doi.org/​10.5194/​amt-12-5019-2019]]. ​
 +
 +Neher, I., T. Buchmann, **S. Crewell**, **B. Pospichal**,​ S. Meilinger: Impact of atmospheric aerosols on solar energy production - Dust outbreak in West Africa, //​Meteorologische Zeitschrift//​ Vol. 28 No. 4 (2019), p. 305 - 321, [[https://​doi.org/​10.1127/​metz/​2019/​0969|DOI:​ 10.1127/​metz/​2019/​0969]].
  
 **Nomokonova,​ T.**, **K. Ebell**, **U. Löhnert**, M. Maturilli, C. Ritter, E. O'​Connor,​ 2019: Statistics on clouds and their relation to thermodynamic conditions at Ny-Ålesund using ground-based sensor synergy, //Atmos. Chem. Phys.//, 19, 4105-4126, [[https://​doi.org/​10.5194/​acp-19-4105-2019]] **Nomokonova,​ T.**, **K. Ebell**, **U. Löhnert**, M. Maturilli, C. Ritter, E. O'​Connor,​ 2019: Statistics on clouds and their relation to thermodynamic conditions at Ny-Ålesund using ground-based sensor synergy, //Atmos. Chem. Phys.//, 19, 4105-4126, [[https://​doi.org/​10.5194/​acp-19-4105-2019]]
  
 **Radovan A.**, **S. Crewell**, E.M. Knudsen and A. Rinke, 2019: Environmental conditions for polar low formation and development over the Nordic Seas: study of January cases based on the Arctic System Reanalysis, //Tellus A: Dynamic Meteorology & Oceanography//,​ 71, 1-16,​[[https://​doi.org/​10.1080/​16000870.2019.1618131]] ​ **Radovan A.**, **S. Crewell**, E.M. Knudsen and A. Rinke, 2019: Environmental conditions for polar low formation and development over the Nordic Seas: study of January cases based on the Arctic System Reanalysis, //Tellus A: Dynamic Meteorology & Oceanography//,​ 71, 1-16,​[[https://​doi.org/​10.1080/​16000870.2019.1618131]] ​
 +
 +**Pfitzenmaier L.**, A. Battaglia, **P. Kollias**, 2019: The Impact of the Radar-Sampling Volume on Multiwavelength Spaceborne Radar Measurements Using Airborne Radar Observations //Remote Sensing//​[[https://​www.mdpi.com/​2072-4292/​11/​19/​2263]]
  
 Rinke A., B. Segger, **S. Crewell**, M. Maturilli, T. Naakka, T. Nygard, T. Vihma, F. Alshawaf, G. Dick, J. Wickert and J. Kellert, 2019: Trends of vertically integrated water vapor over the Arctic during 1979-2016: Consistent moistening all over? //Journal of Climate//, [[https://​doi.org/​10.1175/​JCLI-D-19-0092.1]] Rinke A., B. Segger, **S. Crewell**, M. Maturilli, T. Naakka, T. Nygard, T. Vihma, F. Alshawaf, G. Dick, J. Wickert and J. Kellert, 2019: Trends of vertically integrated water vapor over the Arctic during 1979-2016: Consistent moistening all over? //Journal of Climate//, [[https://​doi.org/​10.1175/​JCLI-D-19-0092.1]]
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 Germany, //Meteorol. Z.//, 2, 165-177, [[https://​doi.org/​10.1127/​metz/​2019/​0936]] Germany, //Meteorol. Z.//, 2, 165-177, [[https://​doi.org/​10.1127/​metz/​2019/​0936]]
  
-Stevens, B., F. Ament, S. Bony, **S. Crewell**, S. Groß, L. Hirsch, B. Mayer, M. Wendisch, M. Wirth, S. Bakan, H.-M. Brück, A. Ehrlich, F. Ewald, D. Farrell, M. Forde, F. Gödde, H. Grob, M. Hagen, A. Hansen, **M. Jacob**, ​e. Jäckel, F. Jansen, C. Klepp, M. Klingebiel, H. Konow, **M. Mech**, G. Peters, M. Rapp, A. Wing, K. Wolf, 2019: A High-Altitude Long-Range Aircraft Configured as a Cloud Observatory:​ The NARVAL Expedition, // Bulletin of the American Meteorological Society//, 100 (5), 1061–1077,​ [[https://​doi.org/​10.1175/​BAMS-D-18-0198.1]]+Stevens, B., F. Ament, S. Bony, **S. Crewell**, S. Groß, L. Hirsch, B. Mayer, M. Wendisch, M. Wirth, S. Bakan, H.-M. Brück, A. Ehrlich, F. Ewald, D. Farrell, M. Forde, F. Gödde, H. Grob, M. Hagen, A. Hansen, **M. Jacob**, ​E. Jäckel, F. Jansen, C. Klepp, M. Klingebiel, H. Konow, **M. Mech**, G. Peters, M. Rapp, A. Wing, K. Wolf, 2019: A High-Altitude Long-Range Aircraft Configured as a Cloud Observatory:​ The NARVAL Expedition, // Bulletin of the American Meteorological Society//, 100 (5), 1061–1077,​ [[https://​doi.org/​10.1175/​BAMS-D-18-0198.1]]
  
 Wendisch, M., A. Macke, A. Ehrlich, C. Lüpkes, **M. Mech**, D. Chechin, K. Dethloff, C. Barientos, H. Bozem, M. Brückner, H.-C. Clemen, **S. Crewell**, T. Donth, R. Dupuy, C. Dusny, **K. Ebell**, U. Egerer, R. Engelmann, C. Engler, O. Eppers, M. Gehrmann, X. Gong, M. Gottschalk, C. Gourbeyre, H. Griesche, J. Hartmann, M. Hartmann, B. Heinold, A. Herber, H. Herrmann, G. Heygster, P. Hoor, S. Jafariserajehlou,​ E. Jäkel, E. Järvinen, O. Jourdan, U. Kästner, S. Kecorius, E. M. Knudsen, F. Köllner, J. Kretzschmar,​ L. Lelli, D. Leroy, M. Maturilli, L. Mei, S. Mertes, G. Mioche, R. Neuber, M. Nicolaus, **T. Nomokonova**,​ J. Notholt, M. Palm, M. van Pinxteren, J. Quaas, P. Richter, E. Ruiz-Donoso,​ M. Schäfer, K. Schmieder, M. Schnaiter, J. Schneider, A. Schwarzenböck,​ P. Seifert, M. D. Shupe, H. Siebert, G. Spreen, J. Stapf, F. Stratmann, T. Vogl, A. Welti, H. Wex, A. Wiedensohler,​ M. Zanatta, and S. Zeppenfeld, 2019: The Arctic Cloud Puzzle: Using ACLOUD/​PASCAL Multi-Platform Observations to Unravel the Role of Clouds and Aerosol Particles in Arctic Amplification. Bull. Amer. Meteor. Soc., 100 (5), 841-871, [[https://​doi:​ 10.1175/​BAMS-D-18-0072.1]] Wendisch, M., A. Macke, A. Ehrlich, C. Lüpkes, **M. Mech**, D. Chechin, K. Dethloff, C. Barientos, H. Bozem, M. Brückner, H.-C. Clemen, **S. Crewell**, T. Donth, R. Dupuy, C. Dusny, **K. Ebell**, U. Egerer, R. Engelmann, C. Engler, O. Eppers, M. Gehrmann, X. Gong, M. Gottschalk, C. Gourbeyre, H. Griesche, J. Hartmann, M. Hartmann, B. Heinold, A. Herber, H. Herrmann, G. Heygster, P. Hoor, S. Jafariserajehlou,​ E. Jäkel, E. Järvinen, O. Jourdan, U. Kästner, S. Kecorius, E. M. Knudsen, F. Köllner, J. Kretzschmar,​ L. Lelli, D. Leroy, M. Maturilli, L. Mei, S. Mertes, G. Mioche, R. Neuber, M. Nicolaus, **T. Nomokonova**,​ J. Notholt, M. Palm, M. van Pinxteren, J. Quaas, P. Richter, E. Ruiz-Donoso,​ M. Schäfer, K. Schmieder, M. Schnaiter, J. Schneider, A. Schwarzenböck,​ P. Seifert, M. D. Shupe, H. Siebert, G. Spreen, J. Stapf, F. Stratmann, T. Vogl, A. Welti, H. Wex, A. Wiedensohler,​ M. Zanatta, and S. Zeppenfeld, 2019: The Arctic Cloud Puzzle: Using ACLOUD/​PASCAL Multi-Platform Observations to Unravel the Role of Clouds and Aerosol Particles in Arctic Amplification. Bull. Amer. Meteor. Soc., 100 (5), 841-871, [[https://​doi:​ 10.1175/​BAMS-D-18-0072.1]]
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 He, S., **E.M. Knudsen**, D.W.J. Thompson, and T. Furevik, 2018: Evidence for predictive skill due to Arctic summertime sea-ice extent anomalies, // Geophys. Res. Lett.//, 45, 9114--9122, [[https://​doi.org/​10.1029/​2018GL078281]]. He, S., **E.M. Knudsen**, D.W.J. Thompson, and T. Furevik, 2018: Evidence for predictive skill due to Arctic summertime sea-ice extent anomalies, // Geophys. Res. Lett.//, 45, 9114--9122, [[https://​doi.org/​10.1029/​2018GL078281]].
  
-**Knudsen, E.M**., B. Heinold, S. Dahlke, H. Bozem, **S. Crewell**, G. Heygster, D. Kunkel, M. Maturilli, **M. Mech**, A. Rinke, H. Schmithuesen,​ A. Ehrlich, A. Macke, C. Luepkes, and M. Wendisch, 2018: Synoptic development ​during the ACLOUD/​PASCAL field campaign near Svalbard in spring ​2017, //​Atmospheric Physics and Chemistry//,​18,​ 17995-18022,​ [[https://​doi.org/​10.5194/​acp-2018-494]].+**Knudsen, E.M**., B. Heinold, S. Dahlke, H. Bozem, **S. Crewell**, I. V. Gorodetskaya, G. Heygster, D. Kunkel, M. Maturilli, **M. Mech**, C. Viceto, A. Rinke, H. Schmithuesen,​ A. Ehrlich, A. Macke, C. Luepkes, and M. Wendisch, 2018: Meteorological conditions ​during the ACLOUD/​PASCAL field campaign near Svalbard in early summer ​2017, //​Atmospheric Physics and Chemistry//,​18,​ 17995-18022,​ [[https://​doi.org/​10.5194/​acp-18-17995-2018]].
  
 **Küchler, N., S. Kneifel, P. Kollias and U. Löhnert**, 2018: Revisiting liquid water content retrievals in warm stratified clouds: The modified Frisch. //​Geophysical Research Letters//, 45, 1–8. [[https://​doi.org/​10.1029/​2018GL079845]]. **Küchler, N., S. Kneifel, P. Kollias and U. Löhnert**, 2018: Revisiting liquid water content retrievals in warm stratified clouds: The modified Frisch. //​Geophysical Research Letters//, 45, 1–8. [[https://​doi.org/​10.1029/​2018GL079845]].
publications/reviewed.1570828812.txt.gz · Last modified: 2019/10/11 23:20 by jan