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Water

Department of Ecosystem Biology

Wanted: Postdoc candidate in Quantitative Freshwater Biology for a Junior Group Leader position

Our group, in close cooperation with the Institute of Hydrobiology, BC CAS, studies freshwater lentic ecosystems (e.g. glacial lakes in the Bohemia Forest, manmade reservoirs and fishponds), partly also streams and other interesting freshwaters, ensures specialized undergradute education in Hydrobiology (limnology) in both bachelor and master programs and guarrants the doctoral study programme in Hydrobiology/Limnology

Our research is focused on biotic interactions between aquatic organisms and their interactions with abiotic fcktors, both at a holistic level of entire ecosystem or catchment and under controlled experimental lab (cultivation experiments) or open-air conditions (mesocosms). We provide integration into multidisciplinary teams and joint projects of our Department and the Institute of Hydrobiology that enable training of various approaches and methods, such as current chemical analyses, traditional taxonomy and ecophysiology, molecular analyses, including microbial metagenomics and metatranscriptomics, and ecological modelling.


Our recent projects has been focused, e.g., on problems of eutrophication or acidification of freshwaters in relation to soil processes in the catchment, the role of bacteria and phytoplankton in organic matter and nutrient cycling, on interaction between microorganisms and aquatic macrophytes, or top-down effects of both invertebrate and fish predation on zooplankton structure, population dynamics and ecology of fish in reservoirs and post-mining lakes.

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Soil

Department of Ecosystem Biology

Our group studies carbon, nitrogen and phosphorus biogeochemical cycles in connection with the composition and functioning of soil microbial communities and their relations with plants. We study these interactions in various types of ecosystems such as temperate forests, wetlands (peatlands, swamp forests) and grasslands, but also in more exotic ones such as tundra or taiga. We are mainly interested in learning how natural disturbances and human impacts change the functioning of these ecosystems such as the rates of processes involved in carbon and nutrient transformations and their losses from the system, species and functional diversity of soil microbial community and plant-soil relations.

A major part of our research is in the Bohemian Forest National Park in the south of Czech Republic. We carry on long-term monitoring of the development and restoration of the forest ecosystems (namely soils) in conditions of changing climate and declining acid atmospheric deposition, which caused significant acidification and nitrogen saturation of the soils. The weakened forests are disturbed by bark-beetle outbreaks and wind storms, which further affect the biogeochemial cycles of carbon and nutrients and namely their leaching to surface waters.  Our research is focused on how different forest renovation managements versus natural forestrestoration affect the functioning of the system and its potential for forest renewal. 

In different types of peatlands in the Bohemian Forest, we study the effects of drainage and restoration on carbon stocks, peat quality and the functioning of soil microbial communities namely in connection with greenhouse gas emissions. We also study the effect of vegetation composition on the quality of soluble organic matter, the diversity and functioning of the soil microbial communities and nutrient transformation. 

In alpine meadows in the High Tatras (Slovakia), we study the effects of climate change, namely the increase in temperature, on microbially driven carbon and nutrient transformations in soil, nutrient leaching and the composition of the soil microbial community.  

In addition, members of our group investigate plant-soil interactions in wet grasslands focusing on how plant allocation patterns and rhizosphere functions change across various environmental gradients and how these may be related to particular plant functional traits.

Other projects focused on describing the biogeochemical cycling of carbon, nitrogen and phosphorus in soils from northern tundra, in peatlands in Finland, in permafrost soils in Siberia (Russia), in wetlands in Belize and alpine meadows in several mountain ranges over Europe.

Our work consists of laboratory analyses and incubations of soil and plant samples taken in the field from real ecosystems or mesocosms, but also from field measurements of gas emissions. We combine traditional methods for determining the concentrations of carbon and nutrients in samples (extractions, spectroscopy, analyzers of soluble and solid C and N forms, resin bags), molecular methods for the assessment of microbial community composition and functioning (DNA and RNA extraction, qPCR, sequencing), and methods to measure microbial activity (enzymatic activity, microbial processes, gas production). For more detailed information about nutrient transformations in soils we use isotope labeling (13C and 15N) in the field and in lab experiments. The obtained data are used for interpretations or they further serve as a source for statistical modeling.

We have long-term collaborations with the Biological Centre of the Czech Academy of Sciences, namely with the Institute of Soil Biology and the Hydrobiological Institute, with the Institute of Forest Ecosystem Research (IFER) and with foreign universities in Helsinki, Vienna, Hannover and Uppsala. Such collaborations enable our students to attend research fellowships abroad.

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Populations

Department of Ecosystem biology

We deal with selected aspects of population dynamics in both aquatic and terrestrial ecosystems. Our emphasis is on mechanistic understanding of individual-level processes that give rise to population-level phenomena.


Aquatic ecosystams: from individuals to communities

Wanted: Postdoc candidate in Quantitative Freshwater Biology for a Junior Group Leader position

We focus on two main topics: fish population dynamics in riverine reservoirs, including the impact of anthropogenic disturbances and management (team of J. Kubečka), and life histories, population dynamics and community assembly of aquatic invertebrates in small fishless water bodies (team of D. Boukal). We link fieldwork with laboratory experiments, advanced statistical analyses and mathematical models. Our current emphasis is on the consequences of expected climate change, such as rising temperatures and changes in habitat eutrophication and structure, on trophic interactions and on consequences of phenotypic plasticity for life histories and trophic interactions in aquatic insects.


Examples of topics for undergraduate and PhD theses: 

  • Surveys of aquatic insect communities with conservation applications (fieldwork)
  • Assembly of aquatic invertebrate communities in reclaimed sandpits (fieldwork, lab experiments)
  • Predator-prey interactions: role of functional traits and environmental conditions (experiments, meta-analyses)
  • Modelling of population and community dynamics in aquatic ecosystems (simulation models)
  • Behaviour of anglers and fish population dynamics (data analyses, modelling)

Population dynamics a symbiotic interactions of plants

The group lead by Jana Jersáková deals with the impact of biotic and abiotic environmental factors on plant population dynamics from seed bank survival to identification of critical life stages to dispersal. The main abiotic factors covered by our research include weather conditions (temperature, precipitation), soil characteristics, management options (mowing vs. pasture); we also study the impacts of herbivory, surrounding vegetation and presence of symbiotic organisms (pollinators, mycorrhizal fungi). We strive to apply our results to conservation of engandered plant species. Our additional research covers interactions of plants and other organisms: we study the impact of pollinators on floral signals, resource allocation and reproductive strategies in plants, and the role of mycorrhizal fungi in habitat selection in mycoheterotrophic and mixotrophic plants.

Examples of topics for undergraduate and PhD theses: 

  • Impact of habitat fragmentation on plant-pollinator interactions
  • The role of visual signals in the evolution of floral mimicry
  • Ecology of rare plants species
  • Restoration of orchid populations in cultural landscape
  • Importance of endosymbiotic fungi in the mycorrhiza of orchids

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Landscape

Katedra biologie ekosystémů

Landscape is a complex and hierarchic system of interconnected ecosystems that are being developing over the time. The ecosystems are of both natural, semi-natural and man-made or man-influenced characters. Nowadays, in the period of likely climate changes and extensive land use demands, Environmental Protection and Landscape Heritage Restoration gain their importance for landscape services maintenance.


Our research group is oriented on the following landscape phenomenon and processes:

1. Impacts of ecologic disturbation on forest ecosystems

2. Effects of land use and landscape structure changes on biodiversity

3. Habitat modelling (relationship of environmental conditions and faunistic/floristics constitution)

4. Importance of green infrastructure for biodiversity in the urban areas


Additionally, our interest lays down in the effect of anthropogenic factors on landscape, for example:

5. Socio-economic conditions (legislature, ownership status, etc.) and decision mechanisms of stakeholders in the land use

6. Future land use scenario modelling

7. Landscape politics 



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