474: Laptev-See

Principal investigator: Günther Heinemann

Universität Trier, Umweltmeteorologie (Community project)

Project abstract

Report 1/2008 to 12/2008
Report 1/2009 to 12/2009
Report 1/2010 to 12/2010
Report 1/2011 to 12/2011
Report 1/2012 to 12/2012
Report 1/2013 to 12/2013
Report 1/2015 to 12/2015
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
Report 1/2024 to 12/2024

Publications

• DOI: 10.1525/elementa.2023.00064, Heinemann, G., Schefczyk, L., Zentek, R., 2024: A model-based study of the dynamics of Arctic low-level jet events for the MOSAiC drift. Elem. Sci. Anth. 12: 1.
• DOI: 10.3390/meteorology2020016, Heinemann, G., Schefczyk, L., Zentek, R., Brooks, I., Dahlke, S., Walbröl, A., 2023: Evaluation of vertical profiles and atmospheric boundary layer structure using the regional climate model CCLM during MOSAiC. Meteorology 2, 257–275
• DOI: 10.5194/tc-17-3291-2023, Willmes, S., Heinemann, G., Schnaase, F., 2023: Patterns of wintertime Arctic sea ice leads and their relation to winds and ocean currents. The Cryosphere 17, 3291–3308
• DOI: 10.3390/atmos13060957, Heinemann, G., Drüe, C., Makshtas, A., 2022: A three-years climatology of the wind field structure at Cape Baranova (Severnaya Zemlya, Siberia) from SODAR observations and high-resolution regional climate model simulations during YOPP. Atmosphere 13, 957, doi: 10.3390/atmos13060957.
• DOI: 10.1525/elementa.2022.00033, Heinemann, G., Schefczyk, L., Willmes, S., Shupe, M., 2022: Evaluation of simulations of near-surface variables using the regional climate model CCLM for the MOSAiC winter period. Elem. Sci. Anth., 10 (1). DOI: 10.1525/elementa.2022.00033.
• DOI: 10.33265/polar.v40.3622, Kohnemann, S., Heinemann, G., 2021: A Climatology of wintertime low-level jets in Nares Strait. Polar Research, 40, 3622, doi: 10.33265/polar.v40.3622.
• DOI: 10.1029/2020JD033904, Inoue, J., Sato, K., Rinke, A., Cassano, J., Fettweis, X., Heinemann, G., Matthes, H., Orr, A., Phillips, T., Seefeldt, M., Solomon, A., Webster, S., 2020: Evaluation of clouds and radiation processes in regional climate models with observations over the ice-free Arctic ocean. J. Geophys. Res. 126, e2020JD033904, doi: 10.1029/2020JD033904.
• DOI: 10.3390/atmos12020174, Heinemann, G., Willmes, S., Schefczyk, L., Makshtas, A., Kustov V., Makhotina, I., 2021: Observations and simulations of meteorological conditions over Arctic thick sea ice in late winter during the Transarktika 2019 expedition. Atmosphere 12(2), 174, doi: 10.3390/atmos12020174.
• DOI: doi:10.3390/atmos11060571, Heinemann, G., 2020: Assessment of regional climate model simulations of the katabatic boundary layer structure over Greenland. Atmosphere 11, 571
• DOI: doi.org/10.1029/2019JD031783, Sedlar, J., Tjernström, M., Rinke, A., Orr, A., Cassano, J., Fettweis, X., Heinemann, G., Seefeldt, M., Solomon, A., Matthes, H., Phillips, T., Webster, S., 2020: Confronting Arctic troposphere, clouds, and surface energy budget representations in regional climate models with observations. J. Geophys. Res. 124
• DOI: 10.1088/1755-1315/231/1/012003, Akperov, M., Rinke, A., Mokhov, I., Matthes, H., Semenov, V., Adakudlu, M., Cassano, J., Christensen, J., Dembitskaya, M., Dethloff, K., Fettweis, X., Glisan, J., Gutjahr, O., Heinemann, G., Koenigk, T., Koldunov, N., Laprise, R., Mottram, R., Nikiéma, O., Parfenova, M., Scinocca, J., Sein, D., Sobolowski, S., Winger, K., Zhang, W., 2019: Trends of intense cyclone activity in the Arctic from reanalyses data and regional climate models (Arctic CORDEX). IOP Conference Series: Earth and Environmental Science 231, 1-10
• Gutjahr, O., Heinemann, G., 2018: A model-based comparison of extreme winds in the Arctic and around Greenland. International Journal of Climatology, DOI: 10.1002/joc.5729, published online 10 August 2018.
• Akperov, M., Rinke, A., Mokhov, I., Matthes, H., Semenov, V., Adakudlu, M., Cassano, J., Christensen, J., Dembitskaya, M., Dethloff, K., Fettweis, X., Glisan, J., Gutjahr, O., Heinemann, G., Koenigk, T., Koldunov, N., Laprise, R., Mottram, R., Nikiéma, O., Scinocca, J., Sein, D., Sobolowski, S., Winger, K., Zhang, W., 2018: Cyclone activity in the Arctic from an ensemble of regional climate models (Arctic CORDEX). J. Geophys. Res. Atmospheres 123, 2537-2554, DOI: 10.1002/2017JD027703.
• Gutjahr, O., Heinemann, G., Preußer, A., Willmes, S., Drüe, C., 2016: Quantification of ice production in Laptev Sea polynyas and its sensitivity to thin-ice parameterizations in a regional climate model. The Cryosphere 10, 2999-3019, doi:10.5194/tc-10-2999-2016. Janout, M., Hölemann, J., Timokhov, L., Gutjahr, O., Heinemann, G., 2017: Circulation in Vilkitsky Trough in the eastern Arctic Ocean: Crossroads between Siberian river water, Atlantic water and polynya-formed dense water. J. Geophys. Res. Oceans 122, doi:10.1002/2017JC013159. Kohnemann, S., Heinemann, Bromwich, D., Gutjahr, O., 2017: Extreme Warming in the Kara Sea and Barents Sea during the winter period 2000 to 2016. J. of Climate 30, 8913-8927, doi.org/10.1175/JCLI-D-16-0693.
• Gutjahr, O., Heinemann, G., Preußer, A., Willmes, S., Drüe, C., 2016: Quantification of ice production in Laptev Sea polynyas and its sensitivity to thin-ice parameterizations in a regional climate model. The Cryosphere Discuss., doi: 10.5194/tc-2016-83.
• Bauer, M., D. Schröder, G. Heinemann, S. Willmes, L. Ebner, 2013: Quantifying polynya ice production in the Laptev Sea with the COSMO model. Polar Research 32, 20922, http://dx.doi.org/10.3402/polar.v32i0.20922
• Ebner, L., D. Schröder and G. Heinemann, 2011: Impact of Laptev Sea flaw polynyas on the atmospheric boundary layer and ice production using idealized mesoscale simulations. Polar Research 30, 7210.
• Schröder, D., G. Heinemann, and S. Willmes, 2011: Implementation of a thermodynamic sea ice module in the NWP model COSMO and its impact on simulations for the Laptev Sea area in the Siberian Arctic. Polar Research 30, 6334.