Publikace

Qiu C., Zhu D., Ciais P., Guenet B., Krinner G., Peng S., Aurela M., Bernhofer C., Brümmer C., Bret-Harte S., Chu H., Chen J., Desai A.R., Dušek J., Euskirchen E.S., Fortuniak K., Flanagan L.B., Friborg T., Grygoruk M., Gogo S., Grünwald T., Hansen B.U., Holl D., Humphreys E., Hurkuck M., Kiely G., Klatt J., Kutzbach L., Largeron C., Laggoun-Défarge F., Lund M., Lafleur P.M., Li X., Mammarella I., Merbold L., Nilsson M.B., Olejnik J., Ottosson-Löfvenius M., Oechel W., Parmentier F.-J.W., Peichl M., Pirk N., Peltola O., Pawlak W., Rasse D., Rinne J., Shaver G., Schmid H.P., Sottocornola M., Steinbrecher R., Sachs T., Urbaniak M., Zona D., Ziemblinska K. 2018. ORCHIDEE-PEAT (revision 4596), a model for northern peatland CO2, water, and energy fluxes on daily to annual scales. Geoscientific Model Development 11: 497–519. https://doi.org/10.5194/gmd-11-497-2018.

Dušek J., Hudecová Š., Stellner S. 2017. Extreme precipitation and long-term precipitation changes in a Central European sedge-grass marsh in the context of flood occurrence. Hydrological Sciences Journal 62: 1796–1808.

Stehlík M., Dušek J., Kiseľák J. 2016. Missing chaos in global climate change data interpreting? Ecological Complexity 25: 53–59.

Harmáčková Z.V., Vačkář D. 2015. Modelling regulating ecosystem services trade-offs across landscape scenarios in Třeboňsko Wetlands Biosphere Reserve, Czech Republic. Ecological Modelling 295: 207–215.

Dušek J. Stellner S., Komárek A. 2013. Long-term air temperature changes in a Central European sedge-grass marsh. Ecohydrology 6: 182–190. DOI:10.1002/eco.1256

Dušek J., Čížková H., Stellner S., Czerný R., Květ J. 2012. Fluctuating water table affects gross ecosystem production and gross radiation use efficiency in a sedge-grass marsh. Hydrobiologia, 692: 57–66. DOI:0.1007/s10750-012-0998-z

Káplová M., Edwards K.R., Květ J. 2011. The effect of nutrient level on plant structure and production in a wet grassland: a field study. Plant Ecology 212: 809–819.

Kovářová M., Pokorný J. 2010. Comparison of long-term monitoring of temperature and precipitation between wetland and other ecosystems. Ecohydrology 3: 445–456.

Dušek J., Čížková H., Czerný R., Taufarová K., Šmídová M., Janouš D. 2009. Influence of summer flood on the net ecosystem exchange of CO2 in a temperate sedge-grass marsh. Agric. For. Meteorol. 149: 1524–1530.

Prach K. 2008. Vegetation changes in a wet meadow complex during the past half-century. Folia Geobotanica 43: 119–130.

Kovářová M. 2004. Global climatic changes in Třeboň Basin Biosphere Reserve. Czech statistical association, Robust 2004: 17–224 (in Czech).

Květ J., Jeník J., Soukupová L. (eds) 2002. Freshwater wetlands and their sustainable future. A case study of the Třeboň Basin Biosphere Reserve, Czech Republic. CRC Press, Boca Raton, pp. 243–254.

Prach K. 1993. Vegetational changes in a wet meadow complex, South-Bohemia, Czech Republic. Folia Geobotanica & Phytotaxonomica, 28: 1–13.

Přibáň K., Jeník J., Ondok J. P., Popela P. 1992. Analysis and modeling of wetland microclimate. The case study Třeboň Biosphere Reserve. – Studie ČSAV 2/92: 168 pp. Academia, Praha.

Soukupová L. 1988. Short life-cycles in two wetland sedges. Aquat. Bot. 30: 49–62.

Jeník J., Květ J. (eds) 1983. Ecological study of inundated ecosystems near Třeboň, South Bohemia, Czechoslovakia. Studie ČSAV 4/83: 147 pp. Academia, Praha.

Holubičková B. 1959. Příspěvek ke studiu rašeliništní vegetace. I. Mokré louky u Třeboně (A contribution to the study of moorland vegetation. I. Mokré louky near Třeboň). Sborník Vysoké školy zemědělské v Praze, 245–258.