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publications:reviewed_e [2022/01/11 12:19] janpublications:reviewed_e [2024/01/29 10:43] – [submitted] tboeck
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 ==== submitted ==== ==== submitted ====
 +**Böck, T., Pospichal, B., and Löhnert, U.**: Measurement uncertainties of scanning microwave radiometers and their influence on temperature profiling, EGUsphere, https://amt.copernicus.org/articles/17/219/2024/amt-17-219-2024.pdf, 2024.
  
-KneifelS., SCrewell, **U. Löhnert, BPospichal**Lvon TerziMHagenB. Mayer, T. Zinner, M. PuhLong-term cloud and precipitation statistics observed with remote sensors at the high-altitude Environmental Research Station Schneefernerhaus in the German Alps, //Meteorologische Zeitschrift//, submitted June 2021+HoheneggerCet al., (incl. **U. Löhnert, T.BöckTNomokonovaJSteinheuer**)FESSTVaL: the Field Experiment on Submesoscale Spatio-Temporal Variability in Lindenberg, //Bulletin of the American Meteorological Society//, submitted on June 12, 2023
  
-Wendisch, M., MBrückner, S. Crewell, AEhrlich, J. Notholt, C. Lüpkes, A. Macke,J. P. Burrows, A. Rinke, J. Quaas, M. Maturilli, V. Schemann, M. D. Shupe, C.Barrientos-Velasco, K. Bärfuss, A.-M. Blechschmidt, K. Block, I. Bougoudis, H. Bozem,C. Böckmann, A. Bracher, H. Bresson, L. Bretschneider, M. Buschmann, D. G.Chechin, J. Chylik, S. Dahlke, H. Deneke, K. Dethloff, T. Donth, W. Dorn, R.Dupuy, K. Ebell, U. Egerer, R. Engelmann, O. Eppers, R. Gerdes, R. Gierens, I. V.Gorodetskaya, M. Gottschalk, H. Griesche, V. M. Gryanik, D. Handorf, B.Harm-Altstädter, J. Hartmann, M. Hartmann, B. Heinold, A. Herber, H. Herrmann, G.Heygster, I. Höschel, Z. Hofmann, J. Hölemann, A. Hünerbein, S. Jafariserajehlou, E.Jäkel, C. Jacobi, M. Janout, F. Jansen, O. Jourdan, Z. Jurányi, H. Kalesse-Los, T.Kanzow, R. Käthner, L. L. Kliesch, E. M. Knudsen, T. Kovács, W. Körtke, D. Krampe,J. Kretzschmar, D. Kreyling, B. Kulla, D. Kunkel, A. Lampert, M. Lauer, L. Lelli, A.von Lerber, O. Linke, S. N. Losa, M. Losch, M. Maahn, M. Mech, L. Mei, S.Mertes, E. Metzner, D. Mewes, J. Michaelis, G. Mioche, M. Moser, K. Nakoudi, R.Neggers, R. Neuber, **TNomokonova**, JOelker, I. Papakonstantinou-Presvelou, F.Pätzold, V. Pefanis, C. Pohl, M. van Pinxteren, A. Radovan, M. Rhein, M. Rex, A.Richter, C. Ritter, P. Rostosky, V. V. Rozanov, E. Ruiz Donoso, P. Saavedra-Garfias, M.Salzmann, J. Schacht, M. Schäfer, J. Schneider, N. Schnierstein, P. Seifert, S. Seo, H.Siebert, M. A. Soppa, G. Spreen, I. S. Stachlewska, J. Stapf, F. Stratmann, I. Tegen, C.VicetoCVoigtMVountas, M. Walter, B. Wehner, H. Wex, S. Willmes, M.Zanatta, and S. Zeppenfeld, 2021: 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//, submitted 21 December 2021+Hu., G S. LDance, A. Fowler, D. Simonin, J. Waller, T. Auligne, S. Healy, D. Hotta, **ULöhnert**, TMiyoshi, N. C. PriveOStillerXWangand M. Weissmannsubmitted to //Quarterly Journal of the Royal Meteorological Society//, https://doi.org/10.48550/arXiv.2309.16433
  
 +Schnitt, S., A. Foth, H. Kalesse-Los, M. Mech, C. Acquistapace, F. Jansen, **U. Löhnert, B. Pospichal**, J. Röttenbacher, S. Crewell, und B. Stevens: Ground- and ship-based microwave radiometer measurements during EUREC4A, //Earth Systems Science Data Discussion//, submitted on 11 April, 2023
  
-==== accepted ====+Vicencio, J., C. Böhm, **J.H. Schween, U. Löhnert**, and S. Crewell: A comparative study of the atmospheric water vapor in the Atacama and Namib Desert. //Journal of Climate (AMS)//, submitted on 8 April, 2023 
 + 
 + 
 +==== 2023 ==== 
 +Eingrüber, N., Korres, W., **Löhnert, U.**, and Schneider, K.: Investigation of the ENVI-met model sensitivity to different wind direction forcing data in a heterogeneous urban environment, Adv. Sci. Res., 20, 65–71, https://doi.org/10.5194/asr-20-65-2023, 2023. 
 + 
 +Griewank, P.J., M. Weissmann, T. Necker, **T. Nomokonova**,** U. Löhnert**: Ensemble-based estimates of the impact of potential observations. //Q J R Meteorol Soc. Accepted Author Manuscript.//, 2023, [[https://doi.org/10.1002/qj.4464]] 
 + 
 +Wendisch et al. (incl. **U. Löhnert, T. Nomokonova**): 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//, 2023, [[https://doi.org/10.1175/BAMS-D-21-0218.1]]
  
 ==== 2022 ==== ==== 2022 ====
  
-Acquistapace, C., R. Coulter, S. Crewell, A. Garcia-Benadi, **R. Gierens**, G. Labbri, A. Myagkov, N. Risse, and **J. H. Schween**:  +Acquistapace, C., R. Coulter, S. Crewell, A. Garcia-Benadi, R. Gierens, G. Labbri, A. Myagkov, N. Risse, and **J. H. Schween**:  
-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 Syst. Sci. Data, 14, 33–55, 2022, [[https://doi.org/10.5194/essd-14-33-2022 | DOI: 10.5194/essd-14-33-2022 ]]+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 Syst. Sci. Data//, 14, 33–55, 2022, [[https://doi.org/10.5194/essd-14-33-2022]] 
 + 
 + 
 +**Burgos-Cuevas A.**, Magaldi-Hermosillo A., Adams D.K., Grutter de la Mora M., García-Franco J.L., Ruiz-Angulo A. , 2022: Boundary layer height characteristics in Mexico City from two remote sensing techniques, // Boundary-Layer Meteorology//, 2022 [[ https://doi.org/10.1007/s10546-022-00759-w]]  
 + 
 +**Burgos-Cuevas A.**, Ruiz-Angulo A., Ramos-Musalem K., Palacios-Morales C, Gacrcia-Molina C., 2022: Experimental downslope gravity currents over a synthetic topography , // Atmosfera//, 2022 https://doi.org/10.20937/ATM.53156.  
 + 
 +Martinet, P., V. Unger, F. Burnet, J. Georgis, M. Hervo, T. Huet, **U. Löhnert**, E. Miller, E. Orlandi, J. Price, M. Schröder and G. Thomas: A dataset of temperature, humidity, and liquid water path retrievals from a network of ground-based microwave radiometers dedicated to fog investigation. //Bull. of Atmos. Sci.& Technol. 3, 6//, 2022 [[https://doi.org/10.1007/s42865-022-00049-w]] 
 + 
 +**Nomokonova, T.**, Griewank, P.J., **Löhnert, U.**, Miyoshi, T., Necker, T. & Weissmann: Estimating the benefit of Doppler wind lidars for short-term low-level wind ensemble forecasts. //Quarterly Journal of the Royal Meteorological Society, 1– 19//, 2022, [[https://doi.org/10.1002/qj.4402]] 
 + 
 +**Schween, J. H.**, C. del Rio, J.-L. García, P. Osses, **S. Westbrook**, and **U. Löhnert**: Life Cycle of Stratocumulus Clouds over one Year at the Coast of the Atacama Desert, // Atmos. Chem. Phys. // 22, 12241–12267, 2022, [[https://doi.org/10.5194/acp-22-12241-2022 |]]. 
 + 
 +**Steinheuer, J.**, Detring, C., Beyrich, F., **Löhnert, U.**, Friederichs, P., and Fiedler, S.A new scanning scheme and flexible retrieval for mean winds and gusts from Doppler lidar measurements, //Atmos. Meas. Tech.//, 15, 3243–3260, [[https://doi.org/10.5194/amt-15-3243-2022]], 2022. 
  
  
 ==== 2021 ==== ==== 2021 ====
 +Beekmans, C. **J. Schween**, M. Lennefer, C. Simmer, 2021: Comparison of Cloud Motion Vector Profiles Derived from Ground-Based Hemispheric Stereocameras to Wind-Lidar Observations. // Meteorologische Zeitschrift //, [[https://dx.doi.org/10.1127/metz/2021/1069|10.1127/metz/2021/1069]]
 +
 +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]]
 +
 +Crewell, S., 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 Discussions//, [[https://doi.org/10.5194/amt-14-4829-2021]]
  
 +García, J.L., F. Lobos-Roco, **J.H. Schween**, C. del Río, P. Osses,  R. Vives, Ma. Pezoa, A. Siegmund, C. Latorre, F. Alfaro, M.A. Koch, **U. Löhnert**, 2021: Climate and coastal low-cloud dynamic in the hyperarid Atacama fog Desert and the geographic distribution of Tillandsia landbeckii (Bromeliaceae) dune ecosystems. //Plant Systematics and Evolution (Springer Nature)//, 307, 57, [[https://dx.doi.org/10.1007/s00606-021-01775-y]].
  
-BöhmC., **JHSchween**, M. Reyers, B. Maier**ULöhnert**SCrewellTowards 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]]+KneifelS., S. Crewell, **ULöhnert**, **BPospichal**, L. von Terzi, M. Hagen, B. MayerTZinnerMPuh, 2021Long-term cloud and precipitation statistics observed with remote sensors at the high-altitude Environmental Research Station Schneefernerhaus in the German Alps, //Meteorologische Zeitschrift//[[https://doi.org/10.1127/metz/2021/1099]]
  
-CrewellS., K. Ebell, P. Konjari, MMech, **T. Nomokonova**, A. Radovan, D. Strack, A. M. Triana Gomez, S. NoelRScarlat, G. Spreen, M. Maturilli, A. Rinke, I. Gorodetskaya, C. Viceto, T. August, and M. Schröder: A systematic assessment of water vapor products in the Arctic: from instantaneous measurements to monthly means, //Atmospheric Measurement Techniques Discussions//, [[https://doi.org/10.5194/amt-2020-491]]+StephanC., CAcquistapace, **T. Böck**, S. Schnittet 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]]
  
-Turner, D. D. and **U. Löhnert**: Ground-based temperature and humidity profiling: combining active and passive remote sensors, Atmos. Meas. Tech., 14, 3033–3048, https://doi.org/10.5194/amt-14-3033-2021, 2021. +Turner, D. D. and **U. Löhnert**, 2021: Ground-based temperature and humidity profiling: combining active and passive remote sensors, //Atmos. Meas. Tech.//, 14, 3033–3048, https://doi.org/10.5194/amt-14-3033-2021. 
  
-Christoph Beekmans, **Jan Schween**, Martin Lennefer, Clemens Simmer: Comparison of Cloud Motion Vector Profiles Derived from Ground-Based Hemispheric Stereocameras to Wind-Lidar Observations. // Meteorologische Zeitschrift //, 2021, DOI:[[https://dx.doi.org/10.1127/metz/2021/1069|10.1127/metz/2021/1069]] 
  
-Juan-Luis García, Felipe Lobos-Roco, **Jan H. Schween**, Camilo del Río, Pablo Osses,  Raimundo Vives, Mariana Pezoa, Alexander Siegmund, Claudio Latorre, Fernando Alfaro, Marcus A. Koch, **Ulrich Loehnert** : Climate and coastal low-cloud dynamic in the hyperarid Atacama fog Desert and the geographic distribution of Tillandsia landbeckii (Bromeliaceae) dune ecosystems. // [[https://www.springer.com/journal/606 | Plant Systematics and Evolution (PSE, Springer Nature)]]//, 2021, 307, 57, DOI:[[https://dx.doi.org/10.1007/s00606-021-01775-y | 10.1007/s00606-021-01775-y]]. 
  
publications/reviewed_e.txt · Last modified: 2024/01/29 10:58 by tboeck