Publikationen - Mitarbeiter: Zak, D

20. Qi, J., Weigt, Sophia., Wang, M., Rezanezhad, F., Quinton, W., Zak, D., Ahmad, S., Wang, L., Zhao, Y., Lennartz, B., Liu, H.: Peat Type and Climate Zone Control the Hydraulic Functions of Peat along a Bulk Density Gradient. In: Geoderma. 2025, S. 1 - 10.
19. Wang, Miaorun; Liu, Haojie; Rezanezhad, Fereidoun; Zak, Dominik; Lennartz, Bernd: The influence of microtopography on soil carbon accumulation and nutrient release from a rewetted coastal peatland. In: Geoderma. 2023, Nr. 438, S. 116637 - 116637.
18. Zak, D., Maagaard, A. L., Liu, H.: Restoring riparian peatlands for inland waters: a European perspective. In: Thomas Mehner and Klement Tockner: Encyclopedia of Inland Waters. , 2022. - ISBN ISBN 978-0-12-822041-2, S. 276 - 287.
17. Liu, H., Rezanezhad, F., Zak, D., Li, X., Lennartz, B.: Freeze-Thaw Cycles Alter Soil Hydro-physical Properties and Dissolved Organic Carbon Release from Peat. In: Frontiers in Environmental Science. 2022.
16. Kreyling, J., Tanneberger, F., Jansen, F., Van der Linden, S., Aggenbach, C., Blüml, V., Couwenberg, J., Emsens, W.-J., Joosten, H.,..., Wrage-Mönning, Wolejko, L. N., Zak, D. Jurasinski, G.: Rewetting does not return drained fen peatlands to their old selves. In: Nature Communications. 2021.
15. Kreyling, J., Tanneberger, F., ...Wrage-Mönnig, N., Wolejko, L., Zak, D., Jurasinski, D.: Rewetting does not return drained fen peatlands to their old selves. In: Nature Communications. 2021, Nr. 12, S. 1 - 8.
14. Zak, D., Hupfer, M., Cabezas, A., Jurasinski, G., Audet, J., Kleeberg, A., McInnes, R., Kristiansen, S., Petersen, R., Liu, H., & others: Sulphate in freshwater ecosystems: A review of sources, biogeochemical cycles, ecotoxicological effects and bioremediation.. In: Earth-Science Reviews. 212 2021.
13. Zak, Dominik; Hupfer, Michael; Cabezas, Alvaro;Jurasinski,Gerald;Audet, Joachim;Kleeberg, Andreas;McInnes,Robert;Kristiansen, Søren Munch; Petersen, Rasmus Jes; Liu, Haojie; Goldhammer,Tobias.: Sulphate in freshwater ecosystems: A review of sources, biogeochemical cycles, ecotoxicological effects and bioremediation. In: Earth-Science Reviews. 2021, Nr. 212, S. 1 - 23.
12. Wang, H., Weil, M., Zak, D., Muench, D., Guenther, A., Jurasinski, G., & Urich, T.: Temporal and spatial dynamics of peat microbiomes in drained and rewetted soils of three temperate peatlands.. In: bioRxiv.. 2020.
11. Huth, V., Günther, A., Bartel, A., Hofer, B., Jacobs, O., Jantz, N.,..., Zak, D., Jurasinski, G.: Topsoil removal reduced in-situ methane emissions in a temperate rewetted bog grassland by a hundredfold. In: Science of The Total Environment. 721 2020.
10. Wang, Miaorun; Liu, Haojie; Zak, Dominik; Lennartz, Bernd;: Effect of Anisotropy on Solute Transport in Degraded Fen Peat Soils. In: Hydrological Processes. 2020, Nr. 34, S. 2128 - 2138.
9. Zak, D., Roth, C., Unger, V., (...), Freeman, C., Jurasinski, G.: Unraveling the Importance of Polyphenols for Microbial Carbon Mineralization in Rewetted Riparian Peatlands. In: Frontiers in Environmental Science. 2019.
8. Environmental Research Letters. , 2019.
7. Zak, D., Goldhammer, T., Cabezas, A., Gelbrecht, J., Gurke, R., Wagner, C., Reuter, H., Augustin, J. Klimkowska, A., McInnes, R.: Top soil removal reduces water pollution from phosphorus and dissolved organic matter and lowers methane emissions from rewetted peatlands. In: Journal of Applied Ecology. 55 2018, S. 311 - 320.
6. Huth, V., Hoffmann, M., Bereswill, S. , Popova, Y. , Zak, D. and Augustin, J.: The climate warming effect of a fen peat meadow with fluctuating water table is reduced by young alder trees. In: Mires and Peat. 21 2018, Nr. 4, S. 1 - 18.
5. Graeber, D., Rosenstand Poulsen, J., Heinz, M., Rasmussen, J.J. Zak, D., Gücker, B., Kronvang, B., Kamjunke, N.: Going with the flow: Planktonic processing of dissolved organic carbon in streams. In: Science of the Total Environment. 625 2018, S. 519 - 530.
4. Emsens, W.-J., Aggenbach, C.J.S., Smolders, A.J.P., Zak, D.and van Diggelen, R.: Restoration of endangered fen communities: the ambiguity of iron–phosphorus binding and phosphorus limitation. In: Journal of Applied Ecology, 54. 2017, S. 1755 - 1764.
3. Zak, D., Goldhammer, T., Cabezas, A., Gelbrecht, J., Gurke, R., Wagner, C., Reuter, H., Augustin, J., Klimkowska, A., McInnes, R.: Top soil removal reduces water pollution from phosphorus and dissolved organic matter and lowers methane emissions from rewetted peatlands. In: J Appl Ecol.. 55 2017, S. 311 - 320.
2. Westphalen, M.A., Lischeid, G., Meier-Uhlherr, R. und Zak, D.: Abschätzung der Phosphorbelastung des Vorfluters eines degradierten Quellmoores in NO-Brandenburg : Evaluation of stream pollution due to increased phosphorus release from a degraded spring mire in NE Brandenburg. In: TELMA. 47 2017, S. 25 - 44.
1. Zak, D.; Gelbrecht, J.; Zerbe, S.; Shatwell, T.; Barth, M.; Cabezas, A.; Steffenhagen, P.: How helophytes influence the phosphorus cycle in degraded inundated peat soils - Implications for fen restoration. In: Ecological Engineering. 2013, S. 1 - 9.