. 1997.
2000.
Cell-specific extracellular phosphatase activity of dinoflagellate populations in acidified mountain lakes. JOURNAL OF PHYCOLOGY 46: 635-644.
. 2010. CARD-FISH and prey tracer techniques reveal the role of overlooked flagellate groups as major bacterivores in freshwater hypertrophic shallow lakes. Environmental Microbiology , doi:10.1111/1462-2920.15846
. 2021. 
Biomass reallocation within freshwater bacterioplankton induced by manipulating phosphorus availability and grazing. Aquatic Microbial Ecology 49: 223–232.
. 2007. Biological recovery of the Bohemian Forest lakes from acidification. Biologia 61: S453-S465.
. 2006. Bacterial and phytoplankton responses to nutrient and pH changes during short term in situ experiments in two acidified lakes. Algological Studies 115: 79 - 99.
. 2005. Are bacteria the major producers of extracellular glycolytic enzymes in aquatic environments?. International Review of Hydrobiology 89: 102–117.
. 2004. The ability of Tetrahymena utriculariae (Ciliophora, Oligohymenophorea) to colonize traps of different species of aquatic carnivorous Utricularia. Journal of Eukaryotic Microbiology 67: 608–611.
. 2020. 4-methylumbelliferyl-beta-N-acetylglucosaminide hydrolysis by a high-affinity enzyme, a putative marker of protozoan bacterivory. Applied and Environmental Microbiology 59: 3091–3101.
. 1993.