Jun.-Prof. Dr. Philipp Porada

• Beer, B.; Zimov, N.; Olofsson, J.; Porada, P.; Zimov, S. (2020) Protection of Permafrost Soils from Thawing by Increasing Herbivore Density. Scientific Reports, 10, 4170. https://doi.org/10.1038/s41598-020-60938-y
• Mendieta-Leiva, G.; Porada, P.; Bader, M.Y. (2020) Interactions of Epiphytes with Precipitation Partitioning. In: Van Stan, II J.; Gutmann, E.; Friesen, J. (eds) Precipitation Partitioning by Vegetation, 133-146, Springer Nature Switzerland. https://doi.org/10.1007/978-3-030-29702-2
• Allen, S.T.; Doug, P.; …, Porada, P.; …, Van Stan, II J. (2020) Key Questions on the Evaporation and Transport of Intercepted Precipitation. In: Van Stan, II J.; Gutmann, E.; Friesen, J. (eds) Precipitation Partitioning by Vegetation, 269-280, Springer Nature Switzerland. https://doi.org/10.1007/978-3-030-29702-2
• Hargis H, Gotsch S G, Porada P, Moore G W, Ferguson B, Van Stan II, J T (2019) Arboreal Epiphytes in the Soil-Atmosphere Interface: How Often Are the Biggest “Buckets” in the Canopy Empty? Geosciences 9, 342
• Porada P, Tamm A, Raggio J, Cheng Y, Kleidon A, Pöschl U and Weber B (2019) Global NO and HONO emissions of biological soil crusts estimated by a process-based non-vascular vegetation model. Biogeosciences 16, 2003-2031
• Beer C, Porada P, Ekici A, Brakebusch M (2018) Effects of short-term variability of meteorological variables on soil temperature in permafrost regions. The Cryosphere 12, 741-757
• Manzoni S, Čapek P, Porada P, Thurner M, Winterdahl M, Beer C, Brüchert V, Frouz J, Herrmann A M, Lindahl B D, Lyon S.W, Šantrůčková H, Vico G, and Way D (2018) Reviews and syntheses: Carbon use efficiency from organisms to ecosystems – definitions, theories, and empirical evidence. Biogeosciences 15, 5929-5949
• Porada P, Van Stan II J, Kleidon A (2018) Significant contribution of non-vascular vegetation to global rainfall interception. Nature Geoscience, doi: 10.1038/s41561-018-0176-7
• Chadburn S E, Krinner G, Porada P, Bartsch A, Beer C, Belelli Marchesini L, Boike J, Ekici A, Elberling B, Friborg T, Hugelius G, Johansson M, Kuhry P, Kutzbach L, Langer M, Lund M, Parmentier F J W, Peng S, Van Huissteden K, Wang T, Westermann S, Zhu D, Burke E J (2017) Carbon stocks and fluxes in the high latitudes: using site-level data to evaluate Earth system models. Biogeosciences 14, 5143-5169
• Porada P, Pöschl U, Kleidon A, Beer C, Weber B (2017) Estimating global nitrous oxide emissions by lichens and bryophytes with a process-based productivity model. Biogeosciences 14, 1593-1602
• Porada P, Ekici A, Beer C (2016) Effects of bryophyte and lichen cover on permafrost soil temperature at large scale The Cryosphere 10, 2291-2315
• Lenton T M, Dahl T W, Daines S J, Mills B J W, Ozaki K, Saltzman M R, Porada P (2016) Earliest land plants created modern levels of atmospheric oxygen Proc. Natl. Acad. Sci. U.S.A. 113 (35), 9704-9709
• Porada P, Lenton T M, Pohl A, Weber B, Mander L, Donnadieu Y, Beer C, Pöschl U, Kleidon A (2016) High potential for weathering and climate effects of non-vascular vegetation in the Late Ordovician Nature Communications 7, 12113
• Buendia C, Arens S, Hickler T, Higgins S, Porada P, Kleidon A (2014) On the potential vegetation feedbacks that enhance phosphorus availability–insights from a process-based model linking geological and ecological time scales Biogeosciences 11, 3661-3683
• Porada P, Weber B, Elbert W, Pöschl U, Kleidon A (2014) Estimating Impacts of Lichens and Bryophytes on Global Biogeochemical Cycles of Nitrogen and Phosphorus and on Chemical Weathering Global Biogeochemical Cycles 28
• Kleidon A, Renner M, Porada P (2014) Estimates of the climatological land surface energy and water balance derived from maximum convective power Hydrol. Earth Syst. Sci. 18, 2201-2218
• Porada P (2013) Process-based modelling of lichens and bryophytes and their role in global biogeochemical cycles. PhD Thesis, Johannes Gutenberg-Universität, Mainz.
• Porada P, Weber B, Elbert W, Pöschl U, Kleidon A (2013) Estimating global carbon uptake by Lichens and Bryophytes with a process-based model. Biogeosciences 10, 6989-7033
• Porada P, Kleidon A, Schymanski S J (2011) Entropy production of soil hydrological processes and its maximisation. Earth Syst. Dynam. 2, 179-190
• Porada P, Arens S, Buendia C, Gans F, Schymanski S J, Kleidon A (2010) A simple global land surface model for biogeochemical studies, Technical Reports–Max-Planck-Institute for Biogeochemistry 18

• Effects of nutrient limitation on non-vascular vegetation under climate change
• The role of early plants for palaeoclimate dynamics

beide gefördert durch die DFG, German Research Foundation - 408092731

University of Hamburg

• Process-based modeling of vegetation dynamics, Seminar, M.Sc. Biology, Winter semester 2019/2020
• Biota in the climate system (1 lesson), Lecture and Seminar, M.Sc. Biology, Winter semester 2019/2020

University of Potsdam

• Modelling of vegetation in the Earth system, Seminar, M.Sc. Ecology, Evolution and Nature conservation & M.Sc. Geoecology, Winter semester 2018/2019
• Scientific nature conservation, Seminar, M.Sc. Ecology, Evolution and Nature conservation, Winter semester 2018/2019
• Geodynamics, Climate and Biodiversity - Processes and Interactions (1 lesson), Lecture and Seminar, M.Sc. Geosciences, Winter semester 2018/2019
• 4. Dryland ecology (1 lesson), Lecture, M.Sc. Ecology, Evolution and Nature conservation & M.Sc. Geoecology, Winter semester 2018/2019