Below you will find all publications by CliSAP researchers since the start of CliSAP-1. You can also search according to the following genres:

In order to view publications of particular authors, please refer to their personal profiles in our staff database.

What types of publication are added to the list?

Publications added to the website have to be related to and/or financed by CliSAP.

This includes:

  • Peer reviewed paper
  • Books / book chapters
  • Reports
  • Conference proceedings (only if a poster / abstract was submitted)
  • Working paper
  • Master or doctoral theses (referee jobs do not appear on the personal page)

How to add publications to a list?

Please send an email with the complete reference information, including title, authors, year, journal, and Digital Object Identifier (DOI) to both the Library for Earth System Science and the CliSAP/CEN research coordination.

Library: (contact person: Alexandra Nebert, Carola Kauhs, Max Planck Institute for Meteorology)
Research coordination:

How to acknowledge CliSAP?

Please, follow that form for any CliSAP publications:

  • Experiment/work was supported through the Cluster of Excellence 'CliSAP' (EXC177), Universität Hamburg, funded through the German Science Foundation (DFG).
  • Please note: KlimaCampus is not used any more.

All CliSAP Publications

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  • Haas, A., Heim, B., Zubrzycki, S., Elger, K., Schäfer-Neth, C., Morgenstern, A., & Fedorova, I. (2016). Assembly of the CarboPerm WebGIS for the Laptev Sea Region, Arctic Siberia - data visualisation as a WebGIS service. Polarforschung, 85, 135-141. doi:10.2312/polfor.2016.010.
  • Braßler, M., v.d. Berk, I., & Holdschlag, A. (2017). Sustainable Futures: Studierende erstellen Open Educational Resources (OER) zum Thema Nachhaltigkeit. In K. Mayrberger (Ed.), HOOU Content Projekte der Vorprojektphase 2015/16 der Hamburg Open Online University. (pp. 50-53). Hamburg: Universität Hamburg.
  • Zubrzycki, S., Kutzbach, L., & Pfeiffer, E.-M. (2012). Böden im Permafrost der Arktis als Kohlenstoffsenke und Kohlenstoffquelle. Polarforschung, 81, 33-46.
  • Olschofsky, K., Mues, V., & Köhl, M. (2016). Operational assessment of aboveground tree volume and biomass by terrestrial laser scanning. Computers and Electronics in Agriculture, 127, 699-707. doi:
  • Kaveckis, G., Daneke, C., Bechtel, B., & Oßenbrügge, J. (2013). Conceptual framework for future urban social vulnerability assessment. Poster presented at GI-Forum/AGIT, International Conference in Salzburg, Austria, 2013.
  • Krismer, T., Giorgetta, M. A., Fast, I., & von Storch, J. S. (2015). The influence of the spectral truncation on the simulation of waves in the tropical stratosphere. Journal of the Atmospheric Sciences, 72, 3819-3828. doi:10.1175/JAS-D-14-0240.1.
  • Nehrir, A. R., Kiemle, C., Lebsock, M. D., Kirchengast, G., Bühler, S. A., Loehnert, U., Liu, C.-L., Hargrave, P. C., Barrera-Verdejo, M., & Winker, D. M. (2017). Emerging technologies and synergies for airborne and space-based measurements of water vapor profiles. Surveys in Geophysics, 38, 1445-1482. doi:10.1007/s10712-017-9448-9.
  • Alwardt, C. (2015). Entwicklung eines aggregierten Modellsystems zur szenariobasierten Simulation der Wasserhaushalte von Flusseinzugsgebieten, unter Berücksichtigung klimatischer und sozioökonomischer Einflüsse. PhD Thesis, Universität Hamburg, Hamburg.
  • Liu, X. (2015). Impact of Consistency between the Climate Model and its Initial Conditions on Decadal Climate Prediction. PhD Thesis, Universität Hamburg, Hamburg.
  • Dorendorf, J. (2014). Urbanization and the Terrestrial Carbon Cycle: Pools, Processes and Implications for Ecosystem Services in the City of Hamburg. PhD Thesis, Universität Hamburg, Hamburg.
  • Klepper, G., Dovern, J., Rickels, W., Barben, D., Goeschl, T., Harnisch, S., Heyen, D., Janich, N., Maas, A., Matzner, N., Scheffran, J., & Uther, S. (2016). Herausforderung Climate Engineering – Bewertung neuer Optionen für den Klimaschutz. Kieler Beiträge zur Wirtschaftspolitik, 8.
  • Scheffran, J.(2015). The Climate-Nuclear Nexus: Exploring the linkages between climate change and nuclear threats. World Future Council.
  • Kunreuther, H., Gupta, S., Bosetti, V., Cooke, R., Dutt, V., Ha-Duong, M., Held, H., Llanes-Regueiro, J., Patt, A., Shittu, E., & Weber, E. (2014). Integrated Risk and Uncertainty Assessment of Climate Change Response Policies. In O. Edenhofer, & al (Eds.), Climate Change 2014: Mitigation of Climate Change: Working Group III Contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (pp. 151-206). Cambridge: Cambridge University Press.
  • Metag, J., Schäfer, M., Füchslin, T., Barsuhn, T., & Kleinen-von Königslöw, K. (2016). Perceptions of Climate Change Imagery: Evoked Salience and Self-Efficacy in Germany, Switzerland, and Austria. Science Communication, 38, 197-227. doi:10.1177/1075547016635181.
  • Karger, D. N., Conrad, O., Böhner, J., Kawohl, T., Kreft, H., Soria-Auza, R. W., Zimmermann, N., Linder, H. P., & Kessler, M. (in preparation). Climatologies at high resolution for the earth's land surface areas.
  • Ching, J., Mills, G., Bechtel, B., See, L., Feddema, J., Wang, X., Ren, C., Brousse, O., Martilli, A., Neophytou, M., Mouzourides, P., Stewart, I., Hanna, A., Ng, E., Foley, M., Alexander, P., Aliaga, D., Niyogi, D., Shreevastava, A., Bhalachandran, P., Masson, V., Hidalgo, J., Fung, J., Andrade, M., Baklanov, A., Dai, W., Milcinski, G., Demuzere, M., Brunsell, N., Pesaresi, M., Miao, S., Mu, Q., Chen, F., & Theeuwes, N. (2018). WUDAPT: An urban weather, climate, and environmental modeling infrastructure for the anthropocene. Bulletin of the American Meteorological Society, 99, 1907-1928. doi:10.1175/BAMS-D-16-0236.1.
  • von Storch, J. S., Eden, C., Fast, I., Haak, H., Hernández-Deckers, D., Maier-Reimer, E., Marotzke, J., & Stammer, D. (2012). An estimate of Lorenz energy cycle for the world ocean based on the 1/10º STORM/NCEP simulation. Journal of Physical Oceanography, 42, 2185-2205. doi:10.1175/JPO-D-12-079.1.
  • Frisius, T., Fraedrich, K., Zhu, X., & Wang, W. (2009). A spectral barotropic model of the wind-driven world ocean. Ocean Modelling, 30, 310-322. doi:10.1016/j.ocemod.2009.07.008.
  • Broehan, D., & Kaleschke, L. (2014). A nine-year climatology of arctic sea ice lead orientation and frequency from AMSR-E. Remote Sensing, 6, 1451-1475. doi:10.3390/rs6021451.
  • Bhend, J., & von Storch, H. (2009). Is greenhouse gas forcing a plausible explanation for the observed warming in the Baltic Sea catchment area? Boreal Environmental Research, 14, 81-88.