DKRZ Project

958: Weddell Sea Ice

Principal investigator: Günther Heinemann

Universität Trier, Umweltmeteorologie (Community project)

Report 1/2016 to 12/2016
Report 1/2017 to 12/2017
Report 1/2018 to 12/2018
Report 1/2019 to 12/2019
Report 1/2020 to 12/2020
Report 1/2021 to 12/2021
Report 1/2022 to 12/2022
Report 1/2023 to 12/2023
Final report

Publications

DOI: 10.5194/gmd-13-1809-2020, Zentek, R., Heinemann, G., 2020: Verification of the regional atmospheric model CCLM v5.0 with conventional data and Lidar measurements in Antarctica. Geosci. Model Dev. 13, 1809–1825
DOI: 10.3390/rs11131539, Heinemann, G., Glaw, L., Willmes, S., 2019: A satellite-based climatology of wind-induced surface temperature anomalies for the Antarctic. Remote Sens. 11, 1539, 17pp
DOI: 10.3390/atmos12121635, Heinemann, G., Zentek, R., 2021: A model-based climatology of low-level jets in the Weddell Sea region of the Antarctic. Atmosphere 12, 1635; doi: 10.3390/atmos12121635.
DOI: 10.5194/os-19-1791-2023, Štulić, L., Timmermann, R., Paul, S., Zentek, R., Heinemann, G., Kanzow, T., 2023: Southern Weddell Sea surface freshwater flux modulated by icescape and atmospheric forcing. Ocean Sci., 19, 1791–1808
DOI: 10.5194/egusphere-2024-2873, Teske, V., Timmermann, R., Nissen, C., Zentek, R., Semmler, T., Heinemann, G., 2024: Regime shift caused by accelerated density reorganization on the Weddell Sea continental shelf with high-resolution atmospheric forcing. EGUsphere [preprint]
DOI: 10.5194/amt-11-5781-2018, Zentek, R., Kohnemann, S., Heinemann, G., 2018: Analysis of the performance of a ship-borne scanning wind lidar in the Arctic and Antarctic, Atmos. Meas. Tech., 11, 5781–5795
Zentek, R., 2023: Regional climate simulations in the Weddell Sea region (Antarctic): Verifications and evaluation of low-level jets. Dissertation University of Trier, 98pp. https://ubt.opus.hbz-nrw.de/frontdoor/index/index/docId/2055
DOI: 10.3390/atmos12121635, Heinemann, G., Zentek, R., 2021: A model-based climatology of low-level jets in the Weddell Sea region of the Antarctic. Atmosphere 12, 1635; doi: 10.3390/atmos12121635.
DOI: 10.5194/gmd-13-1809-2020, Zentek, R., Heinemann, G., 2020: Verification of the regional atmospheric model CCLM v5.0 with conventional data and Lidar measurements in Antarctica. Geosci. Model Dev. 13, 1809–1825
DOI: doi:10.3390/rs11131539, Heinemann, G., Glaw, L., Willmes, S., 2019: A satellite-based climatology of wind-induced surface temperature anomalies for the Antarctic. Remote Sens. 11, 1539, 17pp.
DOI: doi: 10.5194/gmd-2019-141, Zentek, R., Heinemann, G., 2019: Verification of the regional atmospheric model CCLM v5.0 with conventional data and Lidar measurements in Antarctica. Geoscientific Model Development Discussion.
Hellmer, H. H., M. Rhein, G. Heinemann, J. Abalichin, W. Abouchami, O. Baars, U. Cubasch, K. Dethloff, L. Ebner, E. Fahrbach, M. Frank, G. Gollan, R. Greatbatch, J. Grieger, V. Gryanik, M. Gryschka, J. Hauck, M. Hoppema, O. Huhn, T. Kanzow, B. P. Koch, G. König-Langlo, U. Langematz, G. C. Leckebusch, C. Lüpkes, S. Paul, A. Rinke, M. Rutgers van der Loeff, B. Rost, M. Schröder, G. Seckmeyer, T. Stichel, V. Strass, R. Timmermann, S. Trimborn, U. Ulbrich, C. Venchiarutti, U. Wacker, S. Willmes, D. Wolf-Gladrow, 2016: Meteorology and oceanography of the Atlantic sector of the Southern Ocean - a review of German achievements from the last decade. Ocean Dynamics 66, 1379 – 1414. doi: 10.1007/s10236-016-0988-1.