Publikationen zum Arendsee in Fachzeitschriften

LaBrie, R., Hupfer, M., Lau, M.P. (2023): Anaerobic duration predicts biogeochemical consequences of oxygen depletion in lakes. Limnology and Oceanography Letters: 1-9.
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Scholtysik, G., Goldhammer, T., Arz, H.W., Moros, M., Littke, R., Hupfer, M. (2022): Geochemical focusing and burial of sedimentary iron, manganese, and phosphorus during lake eutrophication. Limnology & Oceanography: 67, 4: 68-783.
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Boehrer, B., Jordan, S., Leng, P., Waldemer, C., Hupfer, M., Schultze, M. (2021): Gas Pressure Dynamics in Small and Mid-Size Lakes. Water 13(13), 182.
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Dong, F., Mi, C., Hupfer, M., Lindenschmidt, K.-E., Peng, W., Liu, X., Rinke, K. (2019): Assessing vertical diffusion in a stratified lake using a three dimensional hydrodynamic model. Hydrological Processes.;1–13.
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Hupfer, M., Kleeberg, A., Lewandowski, J. (2019): Internal pools and fluxes of phosphorus in dimictic lake Arendsee, Northeastern Germany. In: Internal phosphorus loading in lakes : causes, case studies, and management / ed. by Steinman, A. D., Spears, B.M. - Plantation : J. Ross Publ., 169-185
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Theuerkauf, M., Engelbrecht, E., Dräger, N., Hupfer, M., Mrotzek, A., Prager, A., Scharnweber, T.
(2019): Using annual resolution analysis to synchronize Varve and tree-ring records.- Quaternary
2(3), 23
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Shatwell, T., Thiery, W., Kirillin, G. (2019): Future projections of temperature and mixing regime of European temperate lakes.- Hydrol. Earth Syst. Sci. 23: 1533–1551 link

Meinikmann K., Hupfer M., Nützmann G., Lewandowski J.(2018): Grundwasser als Quelle der Phosphor-Belastung des Arendsee.- HW 62. 2018, H.4 link

Kreling, J., Bravidor, J, Engelhardt, C., Hupfer. M., Koschorreck, M., Lorke, A.  (2017): The importance of physical transport and oxygen consumption for the development of a metalimnetic oxygen minimum in a lake.- Limnol. & Oceanogr. 62: 348-363. Doi.org/10.1002/lno.10430 link

Hupfer, M., Reitzel. K., Kleeberg, A., Lewandowski, J. (2016): Long-term efficiency of lake restoration by chemical phosphorus precipitation: Scenario analysis with a phosphorus balance model.- Water Research 97: 153-161. Doi.org/10.1016/j.watre.2015.06.052 link

Pöschke, F., J. Lewandowski, C. Engelhardt, K. Preuß, M. Oczipka, T. Ruhtz, and G. Kirillin (2015), Upwelling of deep water during thermal stratification onset—A major mechanism of vertical transport in small temperate lakes in spring?, Water Resour. Res., 51, 9612–9627, doi:10.1002/2015WR017579 link


Rothe, M., Kleeberg, A., Grüneberg, B., Friese, K., Pérez-Mayo, M., Hupfer, M. (2015) Sedimentary Sulphur: Iron Ratio Indicates Vivianite Occurrence: A Study from Two Contrasting Freshwater Systems. PLoS ONE 10(11): e0143737. doi:10.1371/journal.pone.0143737 link

Meinikmann, K., Hupfer, M., Lewandowski, J. (2015): Phosphorus in groundwater discharge – a potential source of lake eutrophication. Journal of Hydrology 524: 214-226. link
 

Bernhardt, J., Kirillin, G., Hupfer, M. (2014): Periodic convection within littoral lake sediments on the background of seiche-driven oxygen fluctuations. Limnology & Oceanography: Fluids & Environment 4: 17-33. link
 

Engelhardt, C. Kirillin, G. (2014): Criteria for the onset and breakup of summer lake stratification based on routine temperature measurements.  Fundam. Appl. Limnol. Vol. 184/3 (2014), 183–194. link
 

Bernhardt,J., Kirillin, G. (2013): Seasonal pattern of rotation-affected internal seiches in a small temperate lake. Limnology and Oceanography 58 (4): 1344-1360. link
 

Lewandowski, J., Meinikmann, K. Ruhtz, T. Pöschke, F. Kirillin, G. (2013): Localization of lacustrine groundwater discharge (LGD) by airborne measurement of thermal infrared radiation. Remote sensing of environment 138: 119-125. link
 

Meinikmann, K., Lewandowski, J., Nützmann, G. (2013): Lacustrine groundwater discharge: combined determination of volumes and spatial pattern. Journal of Hydrology 502: 202-211. link