2019

Heinemann, G., Claud, C., Spengler, T., 2019: ‘Polar low workshop’. Bull. Am. Meteorol. Soc. 100, ES89-92, doi:10.1175/BAMS-D-18-0103.1.

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, doi:10.1088/1755-1315/231/1/012003.

Klosterhalfen, A., Graf, A., Brüggemann, N., Drüe, C., Esser, O., González-Dugo, M. P., Heinemann, G., Jacobs, C. M. J., Mauder, M., Moene, A. F., Ney, P., Pütz, T., Rebmann, C., Ramos Rodríguez, M., Scanlon, T. M., Schmidt, M., Steinbrecher, R., Thomas, C. K., Valler, V., Zeeman, M. J., and Vereecken, H., 2019: Source partitioning of H2O and CO2 fluxes based on high-frequency eddy covariance data: a comparison between study sites. Biogeosciences 16, 1111–1132, doi: 10.5194/bg-16-1111-2019.

Ney, P., Graf, A., Bogena, H., Diekkrüger, B., Drüe, C., Esser, O., Heinemann, G., Klosterhalfen, A.,  Pick, K., Pütz, T., Schmidt, M., Valler, V., Vereecken, H., 2019: CO2 fluxes before and after partial deforestation of a Central European spruce forest. Agric. For. Meteorol. 274, 61-74, doi: 10.1016/j.agrformet.2019.04.009.

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/rs11131539.

Preußer, A., Ohshima, K., Iwamoto. K., Willmes, S., Heinemann, G., 2019: Retrieval of winter­time sea-ice production in Arctic polynyas using thermal infrared and passive microwave remote sensing data. J. Geophys. Res. 124, 5503-5528, doi: 10.1029/2019JC014976.

Akperov, M., Rinke, A., Mokhov, I., Semenov, V., Parfenova, M., Matthes, H., Adakudlu, M., Boberg, F., Christensen, J., Dembitskaya, M., Dethloff, K., Fettweis, X., Gutjahr, O., Heinemann, G., Koenigk, T., Koldunov, N., Laprise, R., Mottram, R., Nikiéma, O., Sein, D., Sobolowski, S., Winger, K., Zhang, W., 2019: Future projections of cyclone activity in the Arctic for the 21st century from regional climate models (Arctic-CORDEX). Global and Planetary Change 182, 103005, 14pp, doi: 10.1016/j.gloplacha.2019.103005.

Reiser, F., Willmes, S., Hausmann, U., Heinemann, G., 2019: Predominant sea-ice fracture zones around Antarctica and their relation to bathymetric features. Geophysical Research Letters 46, 12117-12124, doi: 10.1029/2019GL084624.

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.

Feldmeier, S., Schefczyk, L., Hochkirch, A., Lötters, S., Pfeifer, M., Heinemann, G., Veith, M., 2018: Climate vs weather extremes: Temporal predictor resolution matters for future rather than current regional species distribution models. Diversity and Distributions 24, 1047-1060, DOI: 10.1111/ddi.12746.

Gutjahr, O., Heinemann, G., 2018: A model-based comparison of extreme winds in the Arctic and around Greenland. International Journal of Climatology 38, 5272-5292, DOI: 10.1002/joc.5729.

Heinemann, G., 2018: An aircraft-based study of strong gap flows in Nares Strait, Greenland. Mon. Wea. Rev. 146, 3589-3604, doi:10.1175/MWR-D-18-0178.1. Plain language summary and photos from the field campaign: goo.gl/NDmPDg.

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, doi: 10.5194/amt-11-5781-2018.

2017

Schefczyk, L., Heinemann, G., 2017: Climate change impact on Thunderstorms: Analysis of thunderstorm indices using high resolution COSMO-CLM simulations. Meteorol. Zeitschrift 26, DOI 10.1127/metz/2017/0749.

Spengler, T., Claud, C., Heinemann, G., 2017: Summary for the 13th Polar Low Workshop. Bull. Am. Meteorol. Soc. 98, ES139-ES142, DOI: dx.doi.org/10.1175/BAMS-D-16-0207.1.

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, G., 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-16-0693.1.

Reiter, P., Gutjahr, O., Schefczyk, L., Heinemann, G., Casper, M., 2017: Does applying quantile mapping to sub-samples improve the bias correction results for daily precipitation?. International Journal of Climatology 38, 1623-1633, DOI: 10.1002/joc.5283.

2016

Reiter, P., Gutjahr, O., Schefczyk, L., Heinemann, G., Casper, M., 2016: Bias correction of ENSEMBLES precipitation data with focus on the effect of the length of the calibration period. Meteorol. Zeitschrift 25, 85-96, DOI 10.1127/metz/2015/0714.

Willmes, S., Heinemann, G., 2016: Sea-ice wintertime lead frequencies and regional characteristics in the Arctic, 2003–2015. Remote Sens. 8, 0004. doi:10.3390/rs8010004.

Zentek, R., Heinemann, G., Sachs, E., 2016: Climatology of wind, kinetic energy and temperature spectra using a high-resolution climate model for mid-Europe. J. of Climate 29, 963-974, doi: 10.1175/JCLI-D-15-0540.1.

Gutjahr, O., Schefczyk, L., Reiter, P., Heinemann, G., 2016: Impact of the horizontal resolution on the simulation of extremes. Meteorol. Zeitschrift 25, 543 – 562, doi: 10.1127/metz/2016/0638.

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.

Preußer, A., Heinemann, G., Willmes, S., Paul, S., 2016: Circumpolar polynya regions and ice production in the Arctic: Results from MODIS thermal infrared imagery for 2002/2003 to 2014/2015 with a regional focus on the Laptev Sea. The Cryosphere 10, 3021-3042. doi:10.5194/tc-10-3021-2016.

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.

Feldmeier, S., Schefczyk, L., Wagner, N., Heinemann, G., Veith, M., Lötters, S., 2016: Exploring the Distribution of the Spreading Lethal Salamander Chytrid Fungus in its Invasive Range in Europe - a Macroecological Approach, PONE-D-16-34916R1, PLoS ONE 11(10): e0165682, 17pp. doi:10.1371/journal.pone.0165682.

2015

Paul, S., Willmes, S., Hoppmann, M., Hunkeler, P., Heinemann, G., Nicolaus, M., 2015: The impact of early summer snow properties on Antarctic landfast sea-ice X-band backscatter. Annals of Glaciology 56(59), 263-273. doi: 10.3189/2015AoG69A715.

Hoppmann, M., Nicolaus, M., Paul, S., Hunkeler, P., Heinemann, G., Willmes, S., Timmermann, R., Boebel, O., Schmidt, T., Kühnel, M., König-Langlo, G., Gerdes, R., 2015: Ice platelets below Weddell Sea land-fast sea ice. Annals of Glaciology 56(59), 175-190. doi: 10.3189/2015AoG69A678, epic.awi.de/37245.

Haid, V., Timmermann, R., Ebner, L., Heinemann, G., 2015: Atmospheric forcing of coastal polynyas in the southwestern Weddell Sea. Antarctic Science 27, 388-402. doi:10.1017/S0954102014000893.

Zakharova, E., Fleury, S., Guerreiro, K., Willmes, S., Rémy, F., Kouraev, A., Heinemann, G., 2015: Sea Ice leads detection using SARAL/AltiKa altimeter. Marine Geodesy 38, 522–533, doi:     10.1080/01490419.2015.1019655.

Paul, S., Willmes, S., Gutjahr, O., Preußer, A., Heinemann, G., 2015: Spatial Feature Reconstruction of cloud-covered areas in daily MODIS composites. Remote Sens. 7, 5042-5056, doi:10.3390/rs70505042.

Preußer, A., Willmes, S., Heinemann, G., Paul, S., 2015: Thin-ice dynamics and ice production in the Storfjorden polynya for winter seasons 2002/2003–2013/2014 using MODIS thermal infrared imagery, The Cryosphere 9, 1063-1073, doi:10.5194/tc-9-1063-2015.

Paul, S., Willmes, S., Heinemann, G., 2015: Long-term coastal-polynya dynamics in the Southern Weddell Sea from MODIS thermal-infrared imagery. The Cryosphere 9, 2027-2041. doi:10.5194/tc-9-2027-2015.

Preußer, A., Heinemann, G., Willmes, S., Paul, S., 2015: Multi-decadal variability of polynya characteristics and ice production in the North Water Polynya by means of passive microwave and thermal infrared satellite imagery. Remote Sens. 7, 15844–15867. doi:10.3390/rs71215807.

2014

Graf, A., Bogena, H., Hardelauf, H., Pütz, T., Drüe, C., Heinemann, G., Vereecken, H., 2014: Spatiotemporal relations between water budget components and soil water content patterns of a forested tributary catchment. Water Resources Research 50, 4837–4857, doi: 10.1002/2013WR014516.

Ebner, L., Heinemann, G., Haid, V., Timmermann, R., 2014: Katabatic winds and polynya dynamics at Coats Land, Antarctica. Antarctic Science 26, 309-326, doi: 10.1017/S0954102013000679.

Buchholz, S., Krein, A., Junk J., and G. Heinemann, 2014: Size-segregated atmospheric particle mass concentration in urban areas in Luxembourg. Water, Air, and Soil Pollution, 225, doi: 10.1007/s11270-014-1891-3

Tölle, M. H., O. Gutjahr, G. Busch, and J. C. Thiele (2014): Increasing bioenergy production on arable land: Does the regional and local climate respond? Germany as a case study, J. Geophys. Res. Atmos., 119, 2711–2724, doi:10.1002/2013JD020877.

Willmes, S., Nicolaus, M. and Haas, C. (2014): The microwave emissivity variability of snow covered first-year sea ice from late winter to early summer: a model study. The Cryosphere, 8, 891-904, doi:10.5194/tc-8-891-2014.

2013

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.

Jardon, F., F. Vivier , P. Bouruet-Aubertot , A. Lourenco , Y. Cuypers , S. Willmes, 2013: Ice Production in Storfjorden (Svalbard) estimated from a model based on AMSR-E bservations: impact on water mass properties. Journal of Geophysical Research, doi: 10.1002/2013JC009322 (in press).

Ebner, L., G. Heinemann, V. Haid and R. Timmermann, 2013. Katabatic winds and polynya dynamics at Coats Land, Antarctica. Antarctic Science, FirstView , 1-18, DOI: 10.1017/S0954102013000679

Buchholz, S., Krein, A., Junk, J., Heinemann, G., Hoffmann, L., 2013: Simulation of urban-scale air pollution patterns in Luxembourg: Contributing sources and emission scenarios. Env. Modeling and Assessment 18, Issue 3, pp 271-283, DOI 10.1007/s10666-012-9351-1.

Heinemann, G., Häb, K., 2013: Erfassung des Mikroklimas an der Trierer Konstantinbasilika. In: „Weltkulturerbe Konstantinbasilika Trier“, ICOMOS „Hefte des Deutschen Nationalkomitees“ 55,  München, Schriften des Hornemann Instituts, Hildesheim, ISBN 978-3-930388-80-6.

Drüe, C., Heinemann, G., 2013: A review and practical guide to in-flight calibration for aircraft turbulence sensors. J. Atmos. Oceanic Technol., doi: 10.1175/JTECH-D-12-00103.1.

Graf, A., Bogena, H., Hardelauf, H.,  Pütz, T.,  Drüe, C., Heinemann, G., Vereecken, H., 2013: Spatiotemporal relations between water budget components and soil water content patterns of a forested tributary catchment. Water Resources Research, in review.

Adams, S., S. Willmes, D. Schröder, G. Heinemann, M. Bauer, T. Krumpen, 2012: Improvement and sensitivity analysis of thermal thin-ice retrievals. IEEE Transactions on Geoscience and Remote Sensing 99, doi 10.1109/TGRS.2012.2219539.

Heinemann, G., Saetra, Ø., 2013: A Workshop on Polar Lows. Bull. Am. Meteorol. Soc. 94, ES123–ES126, doi: http://dx.doi.org/10.1175/BAMS-D-12-00190.1

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, 0, DOI: 10.3402/polar.v32i0.20922.

Hollands, T., V. Haid, W. Dierking, R. Timmermann and L. Ebner, 2013. Sea ice motion and open water area at the Ronne Polynia, Antarctica: Synthetic aperture radar observations versus model results. Journal of Geophysical Research: Oceans, 118, 1940–1954, DOI: 10.1002/jgrc.20158

Gutjahr, O., Heinemann, G. 2013: Comparing precipitation bias correction methods for high-resolution regional climate simulations using COSMO-CLM - Effects on extreme values and climate change signal. Theor. Appl. Climatol. 114, 511-529, DOI 10.1007/s00704-013-0834-z. Theor. Appl. Climatol, DOI: 10.1007/s00704-013-0834-z.

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, 0, DOI: 10.3402/polar.v32i0.20922.

Gutjahr, O., Heinemann, G. 2013: Comparing precipitation bias correction methods for high-resolution regional climate simulations using COSMO-CLM. Theor. Appl. Climatol, DOI: 10.1007/s00704-013-0834-z.

Casper, M.C., G. Grigoryan, O. Gronz, O. Gutjahr, G. Heinemann, R. Ley, and A. Rock, 2012: Analysis of projected hydrological behavior of catchments based on signature indices. Hydrol. Earth Syst. Sci., 16, 409-421, 2012. doi:10.5194/hess-16-409-2012

Krumpen T., Hoelemann J., S. Willmes, M. A. Morales Maqueda, T. Busche, I. A. Dmitrenko, R. Gerdes, C. Haas, G. Heinemann, S. Hendricks,  H. Kassens, L. Rabenstein, D. Schröder, 2011: Sea ice production and water mass modification in the eastern Laptev Sea. Journal of Geophysical Research 116, C05014, 17pp, doi:10.1029/2010JC006545.

Willmes, S., S. Adams, D. Schröder, G. Heinemann, (2011): Daily ice production and polynya area in the Laptev Sea region during 1979-2009. http://doi.pangaea.de/10.1594/PANGAEA.793229.

Willmes, S.; S. Adams, D. Schroeder and G. Heinemann, 2011: Spatiotemporal variability of sea-ice coverage, polynya dynamics and ice production in the Laptev Sea between 1979 and 2008. Polar Research 30, 5971, doi: 10.3402/polar.v30i0.5971.

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 2011, 30, 7210, DOI: 10.3402/polar.v30i0.7210

Adams, S., Willmes, S., Heinemann, G., Rozman, P., Timmermann, R., and Schröder, D., 2011: Evaluation of simulated sea-ice concentrations from sea ice-ocean models using satellite data and polynya classification methods. Polar Research, 30, 7124, doi: 10.3402/polar.v30i0.7124

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, DOI: 10.3402/polar.v30i0.6334. 

Lüpkes, C., T. Vihma, G. Birnbaum, S. Dierer, T. Garbrecht, V.M. Gryanik, M. Gryschka, J. Hartmann, G. Heinemann,  L. Kaleschke, S. Raasch, H. Sarvijärvi, K.H. Schlünzen, U. Wacker, 2011: Mesoscale modelling of the Arctic atmospheric boundary layer and its interaction with sea ice. In: ARCTIC Climate Change – The ACSYS Decade and Beyond (Ed. P. Lemke and H.-W. Jacobi), Atmospheric and Oceanographic Sciences Library 43, Springer, 459pp.

Dmitrenko, I.A., S.A. Kirillov, L. B. Tremblay, D. Bauch, J. A., Hölemann, T. Krumpen, H. Kassens, C. Wegner, G. Heinemann, and D. Schröder, 2010:  The Arctic Ocean Atlantic water layer impacts the Siberian shelf hydrography, J. Geophys. Res. 115, doi: 10.1029/2009JC006020, C08010, 1-17.

Dmitrenko, I.A., C. Wegner, H. Kassens, S.A. Kirillov, T. Krumpen, G. Heinemann, A. Helbig, D. Schröder, J.A. Hölemann, T. Klagge, K.P.Tyshko, and T. Busche, 2010: Observations of supercooling and frazil ice formation in the Laptev Sea coastal polynya. J. of Geophys. Res. 115, doi:10.1029/2009JC005798, 1-9.

Knote, C., Heinemann, G., Rockel, B., 2010: Changes in weather extremes: Assessment of return values using high resolution climate simulations at convection-resolving scale. Meteorol. Zeitschrift N.F. 19, 11-23 

Willmes, S., T. Krumpen, S. Adams, L. Rabenstein, C. Haas, S. Hendricks, G. Heinemann and J. Hoelemann, 2010: Cross-Validation of polynya monitoring methods from multi-sensor satellite and airborne data: A case study for the Laptev Sea. Canadian Journal of Remote Sensing 36(1), 196–210.

Buchholz, S., Junk, J., Krein, A., Hoffmann, L. and G. Heinemann, 2010: Air pollution characteristics associated with synoptic weather patterns and atmospheric conditions in northwest continental Europe. Atmospheric Environment 44, 5183-5190.

Adams, S., Spang, R., Preusse, P., Heinemann, G, 2009.: The benefit of limb cloud imaging for infrared limb sounding of tropospheric trace gases, Atmos. Meas. Tech., 2, 287-298.

Heinemann, G., 2008: The polar regions: a natural laboratory for boundary layer meteorology - a review.  Meteorol. Zeitschrift N.F. 17, 589-601.

Gerstner, E.-M., Heinemann, G., 2008: Real-time areal precipitation determination from radar by means of statistical objective analysis. Journal of Hydrology 352, 296-308, DOI: 10.1016/j.jhydrol.2008.01.016.

Drüe, C., Heinemann, G., 2007: Characteristics of intermittent turbulence in the upper stable boundary layer over Greenland. Boundary-Layer Meteorology 124 DOI: 10.1007/s10546-007-9175-8, 361-381.

Heinemann, G., Kerschgens, M., 2006: Area-averaged surface energy fluxes using high-resolution non-hydrostatic simulations and comparisons with measurements for the LITFASS-2003 experiment. Boundary-Layer Meteorology DOI: 10.1007/s10546-006-9107-z.

Mengelkamp, H.-T., F. Beyrich, G. Heinemann, F. Ament, J. Bange, F. Berger, J. Bösenberg, T. Foken, B. Hennemuth, C. Heret, S. Huneke, K.-P. Johnsen, M. Kerschgens, W. Kohsiek, J.-P. Leps, C. Liebethal, H. Lohse, M. Mauder, W. Meijninger, S. Raasch, C. Simmer, T. Spieß, A. Tittebrand, J. Uhlenbrock, P. Zittel, 2006: Evaporation over a heterogeneous land surface: The EVA_GRIPS project. Bull. Am. Meteorol. Soc. 87, 775–786.

Hebbinghaus, H., Heinemann, G., 2006: LM simulations of the Greenland boundary layer, comparison with local measurements and SNOWPACK simulations of drifting snow. Cold regions science and technology 46, 36-51.

Heinemann, G., 2006: Polar lows and mesoscale weather systems. In: B. Riffenburgh (Ed.), Encyclopedia of the Antarctic Vol 2, Routledge, Taylor & Francis Books, Inc., New York, 1146pp.

Maurer, B., Heinemann, G., 2006: Validation of the ‘Lokalmodell‘ over heterogeneous land surfaces using aircraft-based measurements of the REEEFA experiment.  Meteor. Atmosph. Phys. 91, DOI: 10.1007/s00703-004-0105-8, 107-128.

Heinemann, G., 2006: On the consideration of mesoscale transports in climate modelling. Theor. Appl. Climatol. 83, 35-50, DOI 10.1007/s00704-005-0159-7.

Drüe, C., Heinemann, G., 2005: Accuracy assessment of sea-ice concentrations from MODIS using in-situ measurements. Remote Sensing of Environment 95, doi:10.1016/j.rse.2004.12.004, 139-149.

Heinemann, G., Kerschgens, M., 2005: Comparison of methods for area-averaging surface energy fluxes over heterogeneous land surfaces using high-resolution non-hydrostatic simulations.  International Journal of Climatology 25, DOI: 10.1002/joc.1123: 379-403.

Drüe, C., Heinemann, G., 2004: High-resolution maps of sea-ice concentration from MODIS satellite data.Geophysical Research Letters 31, L20403, DOI:10.1029/2004GL020808: 1-5.

Claud, C., Heinemann, G., Raustein E., Mcmurdie, L., 2004: Polar low 'Le Cygne': Satellite observations and numerical simulations. Quarterly Journal of the Royal Meteorological Society 130: 1075-1102.

Heinemann, G., 2004:Local similarity properties of the continuously turbulent stable boundary layer over Greenland. Boundary-Layer Meteorology 112: 283-305.

Claud, C., Heinemann, G., Raustein E., Mcmurdie, L., 2004: Polar low 'Le Cygne': Satellite observations and numerical simulations. Quart. J. Roy. Meteorol. Soc. 130, 1075-1102.

Heinemann, G., 2003: Forcing and feedback mechanisms between the katabatic wind and sea ice in the coastal areas of polar ice sheets.Global Atmosphere-Ocean System 9: 169-201.

Heinemann, G., Klein, T., 2003: Simulations of topographically forced mesocyclones in the Weddell Sea and the Ross Sea region of Antarctica. Mon. Wea. Rev. 131, 302-316.

Grønas, S., Raustein, E. and G. Heinemann, 2003: Numerical simulations. In: E. Rasmussen, J. Turner (Eds.), Polar Lows: Mesoscale weather systems in polar regions. Cambridge University Press, 624pp.

Heinemann, G., Reudenbach, C., 2003: Handling of scale problems in physical process models: Precipitation dynamics. In: Neugebauer, H. J.; Simmer, C. (Eds.), Dynamics of Multiscale Earth Systems. Lecture Notes in Earth Sciences 97, Springer-Verlag Berlin/Heidelberg, ISBN 3-540-41796-6, 358 pp.

Heinemann, G., Falk, U., 2002: Surface winds and energy fluxes near the Greenland ice margin under conditions of katabatic winds. Polarforschung 71: 15-31.

Heinemann, G., Klein, T., 2002: Modelling and observations of the katabatic flow dynamics over Greenland.Tellus Series A: Dynamic Meteorology and Oceanography 54A: 542-554.

Heinemann, G., 2002:  Aircraft-based measurements of turbulence structures in the katabatic flow over Greenland.Boundary-Layer Meteorology 103: 49-81.

Drüe, C., Heinemann, G., 2002: Turbulence structures over the marginal ice zone under flow parallel to the ice edge: Measurements and parameterizations. Boundary-Layer Meteorology 102: 83-116.

Klein, T., Heinemann, G., 2002: Interaction of katabatic winds and mesocyclones at the eastern coast of Greenland.Meteorological Applications 9: 407-422.

Drüe, C., Heinemann, G., 2001: Airborne investigation of Arctic boundary layer fronts over the marginal ice zone of the Davis Strait. Boundary Layer Meteorol.101, 261-292.

Klein, T., Heinemann, G., Bromwich, D.H., Cassano, J.J., and K.M. Hines, 2001: Mesoscale
Modeling of Katabatic Winds Over Greenland and Comparisons with AWS and Aircraft Data.
Meteor. Atmosph. Phys. 78, 115-132.

Klein, T., Heinemann, G., Gross, P., 2001: Simulation of the katabatic flow near the Greenland ice margin using a high-resolution nonhydrostatic model. Meteorol. Zeitschrift N.F. 10, 331-339.

Bromwich, D.H., Cassano, J.J., Klein, T., Heinemann, G., Hines, K.M., Steffen, K., Box, J.E., 2001: Mesoscale Modeling of Katabatic Winds Over Greenland with Polar MM5. Mon. Wea. Rev. 129, 2290-2309.

Klein, T., Heinemann, G., 2001: On the forcing mechanisms of mesocyclones in the eastern Weddell Sea region: Process studies using a mesoscale numerical model. Meteorol. Zeitschrift N.F. 10, 113-122.

Reudenbach, C., Heinemann, G., Heuel, E., Bendix, J., Winiger, M., 2001: Investigation of
summertime convective rainfall in Western Europe based on a synergy of remote sensing data and numerical models. Meteor. Atmosph. Phys. 76, 23-41.

Braun, P., Maurer, B., Müller, G., Gross, P., Heinemann, G., Simmer, 2001: An integrated approach for the determination of regional evapotranspiration using mesoscale modelling, remote sensing and boundary layer measurements. Meteor. Atmosph. Phys. 76, 83-105.

Heinemann, G., 2000: On the streakiness of katabatic wind signatures on high-resolution AVHRR satellite images: Results from the aircraft-based experiment KABEG. Polarforschung 66, 19-30.

Braun, P., Maurer, B. and Heinemann, G., 2000: Scaling transpiration in apple orchards -
meteorological versus plant based physiological measurements. Acta Horticulturae 537, 45-51.

Heinemann, G., 1999: The KABEG’97 field experiment: An aircraft-based study of the katabatic wind dynamics over the Greenlandic ice sheet. Boundary Layer Meteorol. 93, 75-116.

Lieder, M., Heinemann, G., 1999: A summertime Antarctic mesocyclone event over the Southern Pacific during FROST SOP3: A meso-scale analysis using AVHRR, SSM/I, ERS and numerical model data. Weather and Forecasting, 14, 893-908.

Heinemann, G., 1998: A meso-scale model-based study of the dynamics of a wintertime polar low in the Weddell Sea region of the Antarctic during WWSP86. J. of Geophys. Res., 103, 5983-6000.

Drüen, B., Heinemann, G., 1998: Rain rate estimation from a synergetic use of SSM/I, AVHRR and meso-scale numerical model data. Meteor. Atmosph. Phys., 66, 65-85.

Heinemann, G., Claud, C., 1997: Report of a workshop on "Theoretical and observational studies of polar lows" of the EUROPEAN GEOPHYSICAL SOCIETY POLAR LOWS WORKING GROUP. Bull. Am. Meteorol. Soc., 78, 2643-2658.

Heinemann, G., 1997: Idealized simulations of the Antarctic katabatic wind system with a threedimensional meso-scale model. J. of Geophys. Res., 102, 13825-13834.

Turner, J., Bromwich, D., Colwell, S., Dixon, S., Gibson, T., Hart, T., Heinemann, G., Hutchinson, H., Jacka, K., Leonard, S., Lieder, M., Marsh, L., Pendlebury, S., Phillpot, H., Pook, M., Simmonds, I., 1996: The Antarctic First Regional Observing Study of the Troposphere (FROST) Project. Bull. Am. Meteorol. Soc. 77, 2007-2032.

Heinemann, G., 1996: On the development of wintertime meso-scale cyclones near the sea ice front in the Arctic and Antarctic. Global Atmosphere-Ocean System 4, 89-123.

Engels, R., Heinemann, G., 1996: Three-dimensional structures of summertime Antarctic meso-scale cyclones: Part II: Numerical simulations with a limited area model. Global Atmosphere-Ocean System 4, 181-208.

Heinemann, G., 1996: Three-dimensional structures of summertime Antarctic meso-scale cyclones: Part I: Observational studies with aircraft, satellite and conventional data. Global Atmosphere-Ocean System 4, 149-180.

Heinemann, G., 1996: A wintertime polar low over the eastern Weddell Sea (Antarctica): A study with AVHRR, TOVS, SSM/I and conventional data. Meteor. Atmosph. Phys. 58, 83-102.

Köpken, C., Heinemann, G., Chedin, A., Claud, C., Scott, N., 1995: Assessment of TOVS Retrievals Obtained with the 3I Algorithm for the Antarctic. J. of Geophys. Res. 100, 5143-5158.

Heinemann, G., 1995: Polare Mesozyklonen. Habilitation, Bonner Met. Abhandlungen 45 (ISSN 0006-7156), Dümmler Verlag Bonn, 156pp.

Heinemann, G., Noël, S., Chedin, A., Scott, N.A., Claud, C., 1995: Sensitivity studies of TOVS
retrievals with 3I and ITPP retrieval algorithms: Application to the resolution of meso-scale
phenomena in the Antarctic. Meteor. Atmosph. Phys. 55, 87-100.

Heinemann, G., 1995: TOVS retrievals obtained with the 3I-algorithm: A study of a meso-scale cyclone over the Barents Sea. Tellus 47A, 324-330.

Heinemann, G., Rose, L., 1990: Surface energy balance, parameterizations of boundary layer heights and the application of resistance laws near an Antarctic ice shelf front. Boundary Layer Meteorol. 51, 123-158.

Heinemann, G., 1990: Meso-scale vortices in the Weddell Sea region. Mon. Wea. Rev. 118, 779-793.

Heinemann, G., 1989: Über die Rauhigkeitslänge zo der Schneeoberfläche des Filchner-Ronne-Schelfeises. Polarforschung 59, 17-24.

Heinemann, G., 1988: Zur Parametrisierung von Strahlungsflüssen in der Antarktis mit Hilfe von synoptischen Beobachtungen. Meteorol. Rdsch. 41, 86-89.

Heinemann, G., 1988: On the structure and energy budget of the boundary layer in the vicinity of the Filchner/Ronne Ice Shelf front (Antarctica). Beitr. Phys. Atmosph. 61, 244-258.

Heinemann, G., 1987: Grenzschicht-Strukturen und -Haushalte im Bereich der Filchner-Schelfeiskante (Antarktis). Dissertation, Meteorol. Institut der Universität Bonn, 145pp.

Heinemann, G., 1986: Lee-vortices in the Antarctic. Beitr. Phys. Atmosph. 59, 599-602.

*Halbsguth, G., Kerschgens, M.J., Kraus, H., Meindl, G., Schaller, E., 1984: Energy fluxes in an alpine valley. Arch. Met. Geoph. Biocl. 33, 11-20.

[* Heinemann, geb. Halbsguth]