Publikationen:

Núñez-Riboni, I., Taylor, M., Kempf, A., Püts, M., Mathis, M., 2019. Spatially resolved past and projected changes of the suitable thermal habitat of North Sea cod (Gadus morhua) under climate change. ICES Journal of Marine Science, fsz132, 15 pp, doi:10.1093/icesjms/fsz132  link

Kotova, L., Jacob, D., Leissner, J., Mathis, M., Mikolajewicz, U., 2019. Climate Information for the Preservation of Cultural Heritage: Needs and Challenges. In: Moropoulou, A., Korres, M., Georgopoulos, A., Spyrakos, C., Mouzakis, C. (eds), Transdisciplinary Multispectral Modeling and Cooperation for the Preservation of Cultural Heritage. Communications in Computer and Information Science 961, 353-359, Springer, Cham, doi:10.1007/978-3-030-12957-6_25  link

Mathis, M., Elizalde, A., Mikolajewicz, U., 2019. The future regime of Atlantic nutrient supply to the Northwest European Shelf. Journal of Marine Systems 189, 98-115, doi:10.1016/j.marsys.2018.10.002  link

Hátún, H., Ólafsson, J., Azetsu-Scott, K., Somavilla, R., Rey, F., Johnson, C., Mathis, M., Mikolajewicz, U., Coupel, P., Tremblay, J. E., Hartman, S., Pacariz, S., Salter, I., 2017. The subpolar gyre regulates silicate concentrations in the North Atlantic. Scientific Reports 7 (1), 14576, doi:10.1038/s41598-017-14837-4  link

Pätsch, J., Burchard, H., Dieterich, C., Gräwe, U., Gröger, M., Mathis, M., Kapitza, H., Bersch, M., Moll, A., Pohlmann, T., Su, J., Ho-Hagemann, H. T. M., Schulz, A., Elizalde, A., Eden, C., 2017. An evaluation of the North Sea circulation in global and regional models relevant for ecosystem simulations. Ocean Modelling, doi:10.1016/j.ocemod.2017.06.005  link

Mathis, M., Elizalde, A., Mikolajewicz, U., 2017. Which complexity of regional climate system models is essential for downscaling anthropogenic climate change in the Northwest European Shelf? Climate Dynamics 50, 2637-2659, doi:10.1007/s00382-017-3761-3  link

Schrum, C., Lowe, J., Meier, H. E. M., Grabemann, I., Holt, J., Mathis, M., Pohlmann, T., Skogen, M. D., Sterl, A., Wakelin, S., 2016. Projected Change - North Sea. In: Quante, M., Colijn, F. (Eds.), North Sea Region Climate Change Assessment. Springer Berlin - Heidelberg, pp. 175-217, doi:10.1007/978-3-319-39745-0_6  link

Weinert, M., Mathis, M., Kröncke, I., Neumann, H., Pohlmann, T., Reiss, H., 2016. Modelling climate change effects on benthos: Distributional shifts in the North Sea from 2001 to 2099. Estuarine, Coastal and Shelf Science 175, 157-168, doi:10.1016/j.ecss.2016.03.024  link

Mathis, M., Elizalde, A., Mikolajewicz, U., Pohlmann, T., 2015. Variability patterns of the general circulation and sea water temperature in the North Sea. Progress in Oceanography 135, 91-112, doi:10.1016/j.pocean.2015.04.009  link

O'Driscoll, K., Mayer, B., Su, J., Mathis, M., 2014. The effects of global climate change on the cycling and processes of persistent organic pollutants (POPs) in the North Sea. Ocean Science 10, 397-409, doi:10.5194/os-10-397-2014  link

Su, J., Sein, D.V., Mathis, M., Mayer, B., O'Driscoll, K., Chen, X., Mikolajewicz, U., Pohlmann, T., 2014. Assessment of a zoomed global model for the North Sea by comparison with a conventional nested regional model. Tellus A, 66, 23927, doi:10.3402/tellusa.v66.23927  link

Chen, X., O'Driscoll, K., Mayer, B., Su, J., Mathis, M., Pohlmann, T. The role of surface and advective heat fluxes in the variability of North Sea temperature. Journal of Marine Systems (in revision).

Mathis, M., Pohlmann, T., 2014. Projection of physical conditions in the North Sea for the 21st century. Climate Research 61, 1-17, doi:10.3354/cr01232  link

Mathis, M., Mayer, B., Pohlmann, T., 2013. An uncoupled dynamical downscaling for the North Sea: Method and evaluation. Ocean Modelling 72, 153-166, doi:10.1016/j.ocemod.2013.09.004  link

Mathis, M., 2013. Projected Forecast of Hydrodynamic Conditions in the North Sea for the 21st Century. PhD Thesis, University of Hamburg, Germany, 178 pp  link

Alheit, J., Pohlmann, T., Casini, M., Greve, W., Hinrichs, R., Mathis, M., O'Driscoll, K., Vorberg, R., Wagner, C., 2012. Climate variability drives anchovies and sardines into the North and Baltic Seas. Progress in Oceanography 96 (1), 128-139, doi:10.1016/j.pocean.2011.11.015  link