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2. Extremely shallow spawning of perch (Perca fluviatilis L.) : the roles of sheltered bays, dense semi-terrestrial vegetation and low visibility in deeper water

Author

Čech M., Peterka J., Říha M., Vejřík L., Jůza T., Kratochvíl M., Draštík V., Muška M., Znachor P., and Kubečka J.

Subjects
Římov Reservoir, Chabařovice Lake, SCUBA diving, Reed canarygrass Phalaris arudinacea, Goat willow Salix caprea, egg strands, Aquaculture. Fisheries. Angling, SH1-691
Abstract

The roles of wind protected bays, presence of littoral vegetation and light attenuation in the water column on spawning site selection and depth of egg strands deposition by perch Perca fluviatilis was studied in Římov Reservoir, Czech Republic, in the years 2007 and 2011 using boat observation and SCUBA divers. The data were compared with results from Chabařovice Lake, Czech Republic, where similar monitoring took place in 2007–2010 and 2012. In shallow water of Římov Reservoir, the density of egg strands was significantly higher in grass bays compared to both rocky bays and the main reservoir body. Most egg strands were deposited in water less than 0.5 m deep on reed canarygrass Phalaris arudinacea. In year when the littoral vegetation was absent perch were forced to spawn significantly deeper on various types of woody structures. In Římov Reservoir, which is less vulnerable to wind, 91.1% of egg strands were spawned in water ≤3 m deep. In contrast, in the wind exposed Chabařovice Lake, even in the presence of littoral vegetation, 90.5% of egg strands were found at depths greater than 3 m. In Chabařovice Lake, the light penetrated to three times greater depth compared to Římov Reservoir and, similarly, the depth limit to which 95% of egg strands were spawned was three times greater in this lake compared to Římov Reservoir. This study is the first contribution showing the role of water transparency in controlling the depth distribution of perch egg strands in lakes and reservoirs.

Published
2012
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15. Uptake of phosphorus by epilithon in three oligo- to mesotrophic post-mining lakes

Author

Čapková K, Říha M, Konopáčová E, Znachor P, Čapek P, Pouzar M, Řeháková K, and Nedoma J

Subjects
Chemistry, Environmental chemistry, Phosphorus, chemistry.chemical_element
Abstract

Epilithon contributes to phosphorus (P) cycling in lakes, but its P uptake traits have been rarely studied. We measured the chemical composition of epilithon and its inorganic P uptake kinetics using isotope 33P in three deep oligo- to mesotrophic post-mining lakes in April, July, and October 2019. Over the sampling period, epilithon biomass doubled, while the P content in biomass dropped to 60% of the April values. High epilithic C:P molar ratios (677 on average) suggested strong P deficiency in all investigated lakes. Regarding the kinetic parameters of phosphorus uptake, maximum uptake velocity (Vmax, seasonal range 0.9–101 mg P g OM–1 h–1) decreased by an order of magnitude from April to October, while half-saturation constant (KS, 1.6–103 mg P L–1) did not show any consistent temporal trend. We found a general decrease in the specific P uptake affinity (0.1–2.2 L g OM–1 h–1) and the estimated in-situ P uptake (0.04–2.3 µg P g OM–1 h–1) of epilithon over the season, which might have resulted from changes in epilithon community composition, a decreasing ratio of living biomass to extracellular polymers and detritus, rapid internal recycling, and/or thickening of the epilithic biofilm. Additionally, we observed a phenomenon of reversible abiotic P adsorption on epilithon.

Published
2021
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18. Global freshwater distribution of Telonemiaprotists

Author

Boukheloua, Roudaina, Mukherjee, Indranil, Park, Hongjae, Šimek, Karel, Kasalický, Vojtěch, Ngochera, Maxon, Grossart, Hans-Peter, Picazo-Mozo, Antonio, Camacho, Antonio, Cabello-Yeves, Pedro J, Rodriguez-Valera, Francisco, Callieri, Cristiana, Andrei, Adrian-Stefan, Pernthaler, Jakob, Posch, Thomas, Alfreider, Albin, Sommaruga, Ruben, Hahn, Martin W, Sonntag, Bettina, López-García, Purificación, Moreira, David, Jardillier, Ludwig, Lepère, Cécile, Biderre-Petit, Corinne, Bednarska, Anna, Ślusarczyk, Mirosław, Tóth, Viktor R, Banciu, Horia L, Kormas, Konstantinos, Orlić, Sandi, Šantić, Danijela, Muyzer, Gerard, Herlemann, Daniel P R, Tammert, Helen, Bertilsson, Stefan, Langenheder, Silke, Zechmeister, Thomas, Salmaso, Nico, Storelli, Nicola, Capelli, Camilla, Lepori, Fabio, Lanta, Vojtěch, Vieira, Helena Henriques, Kostanjšek, Fran, Kabeláčová, Kateřina, Chiriac, Maria-Cecilia, Haber, Markus, Shabarova, Tanja, Fernandes, Clafy, Rychtecký, Pavel, Znachor, Petr, Szőke-Nagy, Tiberiu, Layoun, Paul, Wong, Hon Lun, Kavagutti, Vinicius Silva, Bulzu, Paul-Adrian, Salcher, Michaela M, Piwosz, Kasia, and Ghai, Rohit

Abstract

Telonemiaare one of the oldest identified marine protists that for most part of their history have been recognized as a distinct incertae sedislineage. Today, their evolutionary proximity to the SAR supergroup (Stramenopiles, Alveolates, and Rhizaria) is firmly established. However, their ecological distribution and importance as a natural predatory flagellate, especially in freshwater food webs, still remain unclear. To unravel the distribution and diversity of the phylum Telonemiain freshwater habitats, we examined over a thousand freshwater metagenomes from all over the world. In addition, to directly quantify absolute abundances, we analyzed 407 samples from 97 lakes and reservoirs using Catalyzed Reporter Deposition-Fluorescence in situHybridization (CARD-FISH). We recovered Telonemia18S rRNA gene sequences from hundreds of metagenomic samples from a wide variety of habitats, indicating a global distribution of this phylum. However, even after this extensive sampling, our phylogenetic analysis did not reveal any new major clades, suggesting current molecular surveys are near to capturing the full diversity within this group. We observed excellent concordance between CARD-FISH analyses and estimates of abundances from metagenomes. Both approaches suggest that Telonemiaare largely absent from shallow lakes and prefer to inhabit the colder hypolimnion of lakes and reservoirs in the Northern Hemisphere, where they frequently bloom, reaching 10%–20% of the total heterotrophic flagellate population, making them important predatory flagellates in the freshwater food web.

Published
2024
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19. Isolation of a widespread giant virus implicated in cryptophyte bloom collapse

Author

Vieira, Helena H, Bulzu, Paul-Adrian, Kasalický, Vojtěch, Haber, Markus, Znachor, Petr, Piwosz, Kasia, and Ghai, Rohit

Abstract

Photosynthetic cryptophytes are ubiquitous protists that are major participants in the freshwater phytoplankton bloom at the onset of spring. Mortality due to change in environmental conditions and grazing have been recognized as key factors contributing to bloom collapse. In contrast, the role of viral outbreaks as factors terminating phytoplankton blooms remains unknown from freshwaters. Here, we isolated and characterized a cryptophyte virus contributing to the annual collapse of a natural cryptophyte spring bloom population. This viral isolate is also representative for a clade of abundant giant viruses (phylum Nucleocytoviricota) found in freshwaters all over the world.

Published
2024
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20. Unveiling Distribution Patterns of Freshwater Phytoplankton by a Next Generation Sequencing Based Approach

Author

Eiler, Alexander, Drakare, S., Bertilsson, Stefan, Pernthaler, J., Peura, S., Rofner, Carina, Simek, K., Yang, Yang, Znachor, P., Lindström, Eva S., Eiler, Alexander, Drakare, S., Bertilsson, Stefan, Pernthaler, J., Peura, S., Rofner, Carina, Simek, K., Yang, Yang, Znachor, P., and Lindström, Eva S.

Abstract

The recognition and discrimination of phytoplankton species is one of the foundations of freshwater biodiversity research and environmental monitoring. This step is frequently a bottleneck in the analytical chain from sampling to data analysis and subsequent environmental status evaluation. Here we present phytoplankton diversity data from 49 lakes including three seasonal surveys assessed by next generation sequencing (NGS) of 16S ribosomal RNA chloroplast and cyanobacterial gene amplicons and also compare part of these datasets with identification based on morphology. Direct comparison of NGS to microscopic data from three time-series showed that NGS was able to capture the seasonality in phytoplankton succession as observed by microscopy. Still, the PCR-based approach was only semi-quantitative, and detailed NGS and microscopy taxa lists had only low taxonomic correspondence. This is probably due to, both, methodological constraints and current discrepancies in taxonomic frameworks. Discrepancies included Euglenophyta and Heterokonta that were scarce in the NGS but frequently detected by microscopy and Cyanobacteria that were in general more abundant and classified with high resolution by NGS. A deep-branching taxonomically unclassified cluster was frequently detected by NGS but could not be linked to any group identified by microscopy. NGS derived phytoplankton composition differed significantly among lakes with different trophic status, showing that our approach can resolve phytoplankton communities at a level relevant for ecosystem management. The high reproducibility and potential for standardization and parallelization makes our NGS approach an excellent candidate for simultaneous monitoring of prokaryotic and eukaryotic phytoplankton in inland waters.

Published
2013
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27. A finely tuned symphony of factors modulates the microbial food web of a freshwater reservoir in spring

Author

SŠimek, Karel, Nedoma, Jirří, Znachor, Petr, Kasalický, Vojteěch, Jezbera, Jan, Hornňák, Karel, and Sed'a, Jaromír

Abstract

We employed high frequency sampling to determine the major factors modulating microbial food‐web composition and dynamics through the spring phytoplankton bloom and clear‐water phases in a freshwater reservoir. We examined effects of a changing trophic structure of the planktonic community cascading from the level of zooplankton, through phytoplankton composition and exudation rates to the level of growth responses and losses to grazers of phylogenetically narrow bacterial lineages. Specific probes for fluorescence in situ hybridization (FISH) revealed important short‐lived peaks of genus‐like (Fluviiciolasp. and Limnohabitansspp.) or even taxonomically narrower populations of Betaproteobacteriaand Flavobacteria(such as FlavB and Flav2 lineages). Protozoan grazing on bacterioplankton was studied by using fluorescently labeled bacteria and by direct analyses of FISH‐probe—targeted bacterial phylotypes in flagellate food vacuoles. Evaluations of selective bacterivory, growth responses, and cell biovolumes of various bacterial groups during the spring bloom indicated that certain bacterial groups such as Limnohabitanscan contribute to carbon flow to the grazer food chain up to 10‐fold more than similarly abundant small cells from the Ac1 lineage of Actinobacteria. During the clear‐water phase, filter‐feeding cladocera had dominant effects on bacterioplankton abundance and community dynamics, likely through direct grazing on larger bacteria along with altering major substrate pools (via e.g., the herbivores' sloppy feeding on algae). Fine‐temporal resolution data revealed several environmental scenarios, in which the interplay of distinct top‐down and bottom‐up factors resulted in a competitive advantage of particular bacterial lineages.

Published
2014
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28. Floating large-volume mesocosms as a simple, lowcost experimental design suitable for the variety of lakes and reservoirs

Author

šorf, Michal, Brandl, Zdenek, Znachor, Petr, and Vašek, Mojmír

Abstract

Mesocosms represent a helpful tool enabling in situ experiments within the pelagic zone of lakes and reservoirs. Experimental studies using mesocosms are widely used in shallow lakes. Here, we describe an improved method suitable for deep freshwater ecosystems. We use a metal supporting framework carrying four polyethylene bags (circular cross-section, diameter 1.5 m, length 9.5 m). The mesocosm dimensions allow us to test hypotheses covering whole pelagic assemblages including the entire food chain up to fish as the top consumers. The floating construction is light, reusable and inexpensive. The suggested mesocosm design maintains conditions close to those occurring in the adjacent lake water and thus effectively simulates the pelagic environment for various experimental studies.

Published
2013
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29. A polyphasic approach to assess the cyanobacterial diversity of summer samples from Czech reservoirs

Author

Boutte, Christophe, Komárková, Jarka, Grubisic, Stana, Znachor, Petr, Bataille, Arnaud, Zapomelová, Eliška, Gullukaya, Arzu, Jezberová, Jitka, and Wilmotte, Annick

Abstract

We used a polyphasic approach combining data from microscopic assessment of fresh biomass and from clone libraries and DGGE fingerprints based on 16S rRNA gene sequences to investigate the cyanobacterial diversity of Czech reservoirs during the summer in 2001 and 2002. A total of 15 genera was identified using the microscopic analysis in 38 samples analysed. They were Anabaena, Anabaenopsis, Aphanizomenon, Aphanocapsa, Aphanothece, Coelomoron, Limnothrix, Merismopedia, Microcystis, Planktolyngbya, Planktothrix, Pseudanabaena, Romeria, Snowella and Woronichinia. We recovered 113 DGGE band sequences from the same samples. In addition, 128 partial 16S rRNA sequences were obtained from two clone libraries of reservoirs Pilská and Orlík. The phylogenetic comparison with the currently available rRNA sequences in databases showed that our sequences belonged to 7 cyanobacterial clusters: Anabaena/Aphanizomenon, Limnothrix, Microcystis, Snowella, Synechococcus, Planktothrix, Woronichinia and a plastid related to Chrysochromulina polylepis (Prymnesiophyceae). Identification of the major populations by the microscopic enumeration and the molecular results were generally congruent (for 32 samples out of 38). Anabaena/Aphanizomenon, Microcystis and Woronichinia were the major genera in the Czech reservoirs during summer, and were present in most of the samples. This study showed some discrepancies between the genera retrieved by the traditional method and the molecular analyses. Differences concerned the presence of minor populations belonging to the genera Aphanothece, Merismopedia, Pseudanabaena, Romeria, Snowella and Synechococcus. These differences can be explained by biases specific to each method (competitive amplification, difficulty to obtain sequences from DGGE bands, problems of microscopic observation of the small-sized genera).

Published
2005
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30. Bacterial and phytoplankton responses to nutrient and pH changes during short term in situ experiments in two acidified lakes

Author

Znachor, Petr, Vrba, Jaroslav, Nedoma, Jirí, and Kopácek, Jirí

Abstract

In June and August 1999 bottle experiments examining the effects of phosphorus (P), dissolved inorganic carbon (DIC) enrichment, and pH manipulation (base addition) were conducted in two strongly acidified lakes (Certovo and Plešné) located in the Bohemian Forest (Central Europe). Dinoflagellates and Chrysophytes (only in August) were present in each of the lakes. Chlorophytes and filamentous cyanobacteria were particularly dominant in Plešné Lake. A low concentration of dissolved reactive P (~1 µg l-1) combined with high acid phosphatase activity (2-8 µmol l-1 h-1) and short P turnover time (~2 min) indicated severe P limitation of phytoplankton growth in both of the lakes. After P addition, phytoplankton remained P limited as a consequence of low P availability due to its rapid incorporation into bacterial biomass. With pH treatment primary production was significantly reduced (by ~70%) as a consequence of the hydrogen ion shock effect. Phytoplankton biomass was reduced (by ~20%) as well, as the likely result of P precipitation with aluminium. The experimental DIC addition had no apparent effect on any of the parameters investigated. The experimental treatment did not favor photosynthetic activity of any examined phytoplankton species since there was a simultaneous decrease or increase in photosynthetic activity of all the species studied.

Published
2005
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31. Cell specific primary production of autotrophic and mixotrophic phytoplankton in acidified lakes of the Bohemian Forest

Author

Znachor, Petr and Nedoma, Jirí

Abstract

Grain density autoradiography was used to study primary production of individual species or genera in two acidified lakes in the Bohemian Forest (Central Europe). Chrysophytes and dinoflagellates were present in both lakes during the studied season, green algae and filamentous cyanobacteria were observed especially in Plešné Lake. In Certovo Lake, the primary production of Dinobryon pediforme was on average 0.56 µg l-1 h-1 C (38 % of total primary production - PT) at the surface layer and 0.20 µg l-1 h-1 C (25 % of PT) at the metalimnetic depth. Peridinium umbonatum accounted for 27 % of PT(0.65 µg l-1 h-1 C) and 31 % of PT (0.22 µg l-1 h-1 C) at each depth, respectively. In Plešné Lake, Monoraphidium cf. dybowskii comprised an almost identical portion of PT at both layers (63 % of PT). Peridinium accounted for 5-29 % and 1-14 % of PT at each depth. Significant seasonal differences in photosynthetic activity coefficients (PAC; the cell-carbon specific rate of C assimilation) were found as well as differences in PAC between individual species, between the same species in different lakes and in different layers of each lake. The PAC of the mixotrophic bacterivorous Dinobryon was equal or even higher than that of autotrophic species, indicating that it uses ingested bacteria as a source of phosphorus rather than of carbon.

Published
2004
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33. Characteristics, Main Impacts, and Stewardship of Natural and Artificial Freshwater Environments: Consequences for Biodiversity Conservation

Author

Rossano Bolpagni, Martina Čtvrtlíková, Alex Borrini, Stefano Segadelli, Marco Cantonati, Zlatko Levkov, Núria Cid, Lawrence E. Stevens, Jani Heino, Diana M. P. Galassi, Petr Znachor, Eren Turak, Michal Hájek, Catherine M. Pringle, Abdullah A. Saber, John S. Richardson, Paul B. Hamilton, Barbara Fiasca, Sandra Poikane, Mattia Di Cicco, Jan Kubečka, Ian Hawes, Luigi Naselli-Flores, Museo delle Scienze, Drexel University, JRC Institute for the Protection and Security of the Citizen [Ispra] (IPSC), European Commission - Joint Research Centre [Ispra] (JRC), Department of Infectious Diseases [Athens, GA, USA] (Odum School of Ecology), University of Georgia [USA]-College of Veterinary Medicine [Athens, GA, USA], Museum Northern Arizona Springs Stewardship Inst, ‎ NSW Dept Planning Ind & Environm, School of Biological, Earth and Environmental Sciences [Sydney] (BEES), University of New South Wales [Sydney] (UNSW), Finnish Environment Institute (SYKE), University of British Columbia (UBC), University of Parma = Università degli studi di Parma [Parme, Italie], Riverly (Riverly), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Czech Academy of Sciences [Prague] (CAS), University of L'Aquila [Italy] (UNIVAQ), Masaryk University [Brno] (MUNI), University of Waikato [Hamilton], Ss. Cyril and Methodius University in Skopje, Université de Palerme (Univ. Palerme), Université de palerme, Université Ain Shams, Canadian Museum of Nature (CANADA), Servizio Osservatorio Suoli e Bonifiche (ARPAV), ARPAV, AQUALIFE LIFE12 BIO/IT/000231, ERDF/ESF project CZ.02.1.01/0.0/0.0/16_025/0007417, GX19-28491X, Cantonati M., Poikane S., Pringle C.M., Stevens L.E., Turak E., Heino J., Richardson J.S., Bolpagni R., Borrini A., Cid N., Ctvrtlikova M., Galassi D.M.P., Hajek M., Hawes I., Levkov Z., Naselli Flores L., Saber A.A., Di Cicco M., Fiasca B., Hamilton P.B., Kubecka J., Segadelli S., and Znachor P.

Subjects
0106 biological sciences, lcsh:Hydraulic engineering, vaikutukset, Geography, Planning and Development, Biodiversity, habitat, Wetland, habitaatti, 01 natural sciences, Biochemistry, Freshwater ecosystem, Least-impaired habitat relict, ekosysteemit, lcsh:Water supply for domestic and industrial purposes, elinympäristö, freshwater, Water Science and Technology, biodiversity, geography.geographical_feature_category, Ecology, conservation, 6. Clean water, foundation species, Overexploitation, Habitat, [SDE]Environmental Sciences, impact, luonnonsuojelu, Settore BIO/07 - Ecologia, Conservation, Ecosystem, Foundation species, Freshwater, Impact, Least-impaired habitat relicts, Stewardship, Aquatic Science, 010603 evolutionary biology, hoito, stewardship, lcsh:TC1-978, 14. Life underwater, ecosystem, geography, lcsh:TD201-500, Foundation specie, 010604 marine biology & hydrobiology, least-impaired habitat relicts, 15. Life on land, luonnon monimuotoisuus, biodiversiteetti, Habitat destruction, 13. Climate action, Threatened species, Settore BIO/03 - Botanica Ambientale E Applicata, Environmental science, makea vesi
Abstract

International audience; In this overview (introductory article to a special issue including 14 papers), we consider all main types of natural and artificial inland freshwater habitas (fwh). For each type, we identify the main biodiversity patterns and ecological features, human impacts on the system and environmental issues, and discuss ways to use this information to improve stewardship. Examples of selected key biodiversity/ecological features (habitat type): narrow endemics, sensitive (groundwater and GDEs); crenobionts, LIHRes (springs); unidirectional flow, nutrient spiraling (streams); naturally turbid, floodplains, large-bodied species (large rivers); depth-variation in benthic communities (lakes); endemism and diversity (ancient lakes); threatened, sensitive species (oxbow lakes, SWE); diverse, reduced littoral (reservoirs); cold-adapted species (Boreal and Arctic fwh); endemism, depauperate (Antarctic fwh); flood pulse, intermittent wetlands, biggest river basins (tropical fwh); variable hydrologic regime—periods of drying, flash floods (arid-climate fwh). Selected impacts: eutrophication and other pollution, hydrologic modifications, overexploitation, habitat destruction, invasive species, salinization. Climate change is a threat multiplier, and it is important to quantify resistance, resilience, and recovery to assess the strategic role of the different types of freshwater ecosystems and their value for biodiversity conservation. Effective conservation solutions are dependent on an understanding of connectivity between different freshwater ecosystems (including related terrestrial, coastal and marine systems).

Published
2020
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34. Aquatic quillworts, Isoëtes echinospora and I. lacustris under acidic stress-A review from a temperate refuge.

Author

Čtvrtlíková M, Kopáček J, Nedoma J, Znachor P, Hekera P, and Vrba J

Abstract

Quillworts ( Isoëtes ) represent highly specialized flora of softwater lakes, that is, freshwater ecosystems potentially sensitive to acidification. In this paper, we combine a review of previous studies and our new results to address unrecognized reproduction strategies of quillworts to overcome long-term environmental stresses. These strategies play an important role in the plant's ability to overcome atmospheric acidification of freshwaters, protecting the plants until their environment can recover. Environmental drivers of recovery of Isoëtes echinospora and I. lacustris were studied in two acidified lakes in the Bohemian Forest (Central Europe). Both populations survived more than 50 years of severe acidification, although they failed to recruit new sporelings. Their survival depended entirely on the resistance of long-living adult plants because the quillworts do not grow clonally. During the past two decades, a renewal of I. echinospora population inhabiting Plešné Lake has been observed, while no such renewal of I. lacustris, dwelling in Černé Lake, was evident, despite similar changes in water composition occurring in both lakes undergoing advanced recovery from acidification. Our in vitro experiments revealed that the threshold acidity and toxic aluminium concentrations for sporeling survival and recruitment success differed between I. echinospora (pH ≤ 4.0 and ≥300 μg L -1 Al at pH 5) and I. lacustris (pH ≤ 5.0 and ≥100 μg L -1 Al at pH 5). The higher sensitivity of I. lacustris to both stressors likely stems from its year-long germination period and underlines the risk of exposure to chronic or episodic acidification in recovering lakes. By contrast, the shorter germination period of I. echinospora (2-3 months) enables its faster and deeper rooting, protecting this quillwort from periodic acidification during the next snowmelt. Our study brings novel insights into widely discussed environmental issues related to the long-term degradation of softwater lakes, which represent important hotspots of pan-European biodiversity and conservation efforts., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2023
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35. Low Specific Phosphorus Uptake Affinity of Epilithon in Three Oligo- to Mesotrophic Post-mining Lakes.

Author

Konopáčová E, Nedoma J, Čapková K, Čapek P, Znachor P, Pouzar M, Říha M, and Řeháková K

Abstract

Epilithon contributes to phosphorus (P) cycling in lakes, but its P uptake traits have been rarely studied. We measured the chemical composition of epilithon and its inorganic P uptake kinetics using isotope 33 P in three deep oligo- to mesotrophic post-mining lakes in April, July, and October 2019. Over the sampling period, epilithon biomass doubled, while the P content in biomass dropped to 60% of the April values, and the seasonal changes in P content expressed per epilithon area were only marginal and statistically not significant. High epilithic C:P molar ratios (677 on average) suggested strong P deficiency in all investigated lakes. Regarding the kinetic parameters of phosphorus uptake, maximum uptake velocity ( V , seasonal range 1.9-129 mg P g OM max , seasonal range 1.9-129 mg P g OM -1 h -1 , seasonal range 3.9-135 mg P L K ) did not show any consistent temporal trend. Values of epilithic specific P uptake affinity ( S , seasonal range 3.9-135 mg P L -1 ) did not show any consistent temporal trend. Values of epilithic specific P uptake affinity ( SPUA E ), which showed an opposite trend. Considering our results, we suggest a possible mechanism underlying a stable coexistence of planktonic and epilithic microorganisms, with plankton prospering mostly in summer and autumn and epilithon in winter and spring season. Additionally, a phenomenon of reversible abiotic P adsorption on epilithon was observed.-1 h -1 ) decreased from spring to autumn and were two to four orders of magnitude lower than the corresponding values for seston ( SPUA sest ), which showed an opposite trend. Considering our results, we suggest a possible mechanism underlying a stable coexistence of planktonic and epilithic microorganisms, with plankton prospering mostly in summer and autumn and epilithon in winter and spring season. Additionally, a phenomenon of reversible abiotic P adsorption on epilithon was observed., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Konopáčová, Nedoma, Čapková, Čapek, Znachor, Pouzar, Říha and Řeháková.)

Published
2021
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36. Stable isotope evidence from archived fish scales indicates carbon cycle changes over the four-decade history of the Římov Reservoir (Czechia).

Author

Vašek M, Souza AT, Říha M, Kubečka J, Znachor P, and Hejzlar J

Subjects
Animals, Carbon, Carbon Cycle, Carbon Isotopes analysis, Czech Republic, Humans, Isotopes, Nitrogen Isotopes analysis, Ecosystem, Environmental Monitoring
Abstract

Using archived fish scale samples together with long-term monitoring data, this study investigates the potential of fish scales to record historical changes in the aquatic environment. We analysed stable carbon (δ 13 C) and nitrogen (δ 15 N) isotopes in the scales of two planktivorous cyprinid species collected from the meso-eutrophic Římov Reservoir, Czechia, over its entire four-decade history (1979-2016). The δ 13 C of the fish scales varied greatly throughout the reservoir history. The lowest δ 13 C values were observed immediately after the reservoir was filled in 1979, indicating that fish production at that time was likely partially supported by 13 C-depleted CO 2 released from the inundated soil. During the 1980s, due to the high levels of phytoplankton production stimulated by high phosphorus inputs from the catchment, the δ 13 C values substantially increased. However, since 1990, the δ 13 C values have generally decreased, reflecting a gradual reduction in reservoir primary production caused by the decreasing input of phosphorus and increasing input of dissolved organic carbon from the catchment. The δ 13 C of fish scales was also used to reconstruct the CO 2 concentration of the surface water. The reconstructed CO 2 varied significantly during the four-decade history, but it was always below the air-equilibrium concentration, suggesting that the surface water of the reservoir has consistently absorbed atmospheric carbon. The fish-scale δ 15 N values remained relatively stable, while slightly increasing within three years after impoundment, likely because the nitrogen supply was high throughout the studied period. Our study contributes to the growing body of literature demonstrating that stable isotope analysis of archived biological samples is a promising approach for understanding historical trends in the biogeochemistry of aquatic environments. In particular, our results highlight the potential of δ 13 C in archived fish scales in reconstructing carbon cycle changes and evaluating human impacts on aquatic ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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38. Light and Primary Production Shape Bacterial Activity and Community Composition of Aerobic Anoxygenic Phototrophic Bacteria in a Microcosm Experiment.

Author

Piwosz K, Vrdoljak A, Frenken T, González-Olalla JM, Šantić D, McKay RM, Spilling K, Guttman L, Znachor P, Mujakić I, Fecskeová LK, Zoccarato L, Hanusová M, Pessina A, Reich T, Grossart HP, and Koblížek M

Subjects
Bacteria, Aerobic growth & development, Bacterial Physiological Phenomena, Fresh Water microbiology, Light, Photosynthesis, Seawater microbiology, Bacteria, Aerobic metabolism, Ecosystem, Microbiota, Phototrophic Processes
Abstract

Phytoplankton is a key component of aquatic microbial communities, and metabolic coupling between phytoplankton and bacteria determines the fate of dissolved organic carbon (DOC). Yet, the impact of primary production on bacterial activity and community composition remains largely unknown, as, for example, in the case of aerobic anoxygenic phototrophic (AAP) bacteria that utilize both phytoplankton-derived DOC and light as energy sources. Here, we studied how reduction of primary production in a natural freshwater community affects the bacterial community composition and its activity, focusing primarily on AAP bacteria. The bacterial respiration rate was the lowest when photosynthesis was reduced by direct inhibition of photosystem II and the highest in ambient light condition with no photosynthesis inhibition, suggesting that it was limited by carbon availability. However, bacterial assimilation rates of leucine and glucose were unaffected, indicating that increased bacterial growth efficiency (e.g., due to photoheterotrophy) can help to maintain overall bacterial production when low primary production limits DOC availability. Bacterial community composition was tightly linked to light intensity, mainly due to the increased relative abundance of light-dependent AAP bacteria. This notion shows that changes in bacterial community composition are not necessarily reflected by changes in bacterial production or growth and vice versa. Moreover, we demonstrated for the first time that light can directly affect bacterial community composition, a topic which has been neglected in studies of phytoplankton-bacteria interactions. IMPORTANCE Metabolic coupling between phytoplankton and bacteria determines the fate of dissolved organic carbon in aquatic environments, and yet how changes in the rate of primary production affect the bacterial activity and community composition remains understudied. Here, we experimentally limited the rate of primary production either by lowering light intensity or by adding a photosynthesis inhibitor. The induced decrease had a greater influence on bacterial respiration than on bacterial production and growth rate, especially at an optimal light intensity. This suggests that changes in primary production drive bacterial activity, but the effect on carbon flow may be mitigated by increased bacterial growth efficiencies, especially of light-dependent AAP bacteria. Bacterial activities were independent of changes in bacterial community composition, which were driven by light availability and AAP bacteria. This direct effect of light on composition of bacterial communities has not been documented previously., (Copyright © 2020 Piwosz et al.)

Published
2020
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39. Changing environmental conditions underpin long-term patterns of phytoplankton in a freshwater reservoir.

Author

Znachor P, Nedoma J, Hejzlar J, Seďa J, Komárková J, Kolář V, Mrkvička T, and Boukal DS

Subjects
Animals, Czech Republic, Fresh Water, Humans, Seasons, Zooplankton, Ecosystem, Phytoplankton
Abstract

Environmental changes can exert strong pressure on freshwater biota and lead to unwanted alterations of local communities and deterioration of ecosystem services. Disentangling the links between environmental and community changes is, therefore, essential to understand and predict the impact of human activities on freshwater ecosystems. This is particularly relevant for man-made freshwater reservoirs that represent a nexus between anthropogenic, environmental, and biotic effects. Reservoir food webs depend strongly on phytoplankton dynamics, which are affected by abiotic conditions, nutrient availability and grazing pressure by zooplankton. We studied the effects of relevant environmental drivers (hydrochemistry, hydrodynamics and zooplankton) on the composition, diversity and community stability of main morpho-functional phytoplankton groups over 32 years in the Římov Reservoir (Czech Republic). Environmental conditions in the reservoir are characterised by three distinct periods (1983-89, 1990-99, and 2000-14) defined by shifts and breakpoints in temporal trends in reservoir hydrochemistry and hydraulic conditions, and we examined if and how phytoplankton responded to these abrupt changes. We found significant differences in phytoplankton composition among the three periods. Phytoplankton underwent a substantial compositional shift towards a dominance of pennate diatoms. Time-lag analysis of dissimilarity in phytoplankton composition revealed higher and stochastic annual variations until 1999, followed by a lower variability and divergence in phytoplankton composition in subsequent years. Changes in overall phytoplankton assemblage and most abundant morpho-functional phytoplankton groups were driven mainly by hydrochemical (total nitrogen) and hydrodynamic variables (inflow rate, surface level and mixing depth) and less by zooplankton dynamics. These results suggest that phytoplankton are driven primarily by nutrient input and water regime, both of which can be appropriately managed to support valuable ecosystem services provided by phytoplankton in freshwater reservoirs., Competing Interests: Declaration of competing interest The authors declare they have no conflict of interest., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2020
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40. Multiple long-term trends and trend reversals dominate environmental conditions in a man-made freshwater reservoir.

Author

Znachor P, Nedoma J, Hejzlar J, Seďa J, Kopáček J, Boukal D, and Mrkvička T

Abstract

Man-made reservoirs are common across the world and provide a wide range of ecological services. Environmental conditions in riverine reservoirs are affected by the changing climate, catchment-wide processes and manipulations with the water level, and water abstraction from the reservoir. Long-term trends of environmental conditions in reservoirs thus reflect a wider range of drivers in comparison to lakes, which makes the understanding of reservoir dynamics more challenging. We analysed a 32-year time series of 36 environmental variables characterising weather, land use in the catchment, reservoir hydrochemistry, hydrology and light availability in the small, canyon-shaped Římov Reservoir in the Czech Republic to detect underlying trends, trend reversals and regime shifts. To do so, we fitted linear and piecewise linear regression and a regime shift model to the time series of mean annual values of each variable and to principal components produced by Principal Component Analysis. Models were weighted and ranked using Akaike information criterion and the model selection approach. Most environmental variables exhibited temporal changes that included time-varying trends and trend reversals. For instance, dissolved organic carbon showed a linear increasing trend while nitrate concentration or conductivity exemplified trend reversal. All trend reversals and cessations of temporal trends in reservoir hydrochemistry (except total phosphorus concentrations) occurred in the late 1980s and during 1990s as a consequence of dramatic socioeconomic changes. After a series of heavy rains in the late 1990s, an administrative decision to increase the flood-retention volume of the reservoir resulted in a significant regime shift in reservoir hydraulic conditions in 1999. Our analyses also highlight the utility of the model selection framework, based on relatively simple extensions of linear regression, to describe temporal trends in reservoir characteristics. This approach can provide a solid basis for a better understanding of processes in freshwater reservoirs., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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41. The Limnohabitans Genus Harbors Generalistic and Opportunistic Subtypes: Evidence from Spatiotemporal Succession in a Canyon-Shaped Reservoir.

Author

Jezberová J, Jezbera J, Znachor P, Nedoma J, Kasalický V, and Šimek K

Subjects
Comamonadaceae classification, Comamonadaceae genetics, Cryptophyta growth & development, Cyanobacteria growth & development, Czech Republic, Ecosystem, Eutrophication, Phytoplankton growth & development, Seasons, Comamonadaceae isolation & purification, Fresh Water microbiology
Abstract

We studied the diversity of Limnohabitans using reverse line blot hybridization with Limnohabitans lineage-specific probes in the freshwater canyon-shaped Římov reservoir (Czech Republic). To examine the succession of distinct lineages, we performed (i) a study of an intensive spring sampling program at the lacustrine part of the Římov reservoir (from ice melt through a phytoplankton peak to the clear-water phase), and (ii) a seasonal study (April to November) when the occurrence of distinct Limnohabitans lineages was related to the inherent longitudinal heterogeneity of the reservoir. Significant spatiotemporal changes in the compositions of distinct Limnohabitans lineages allowed for the identification of "generalists" that were always present throughout the whole season as well as "specialists" that appeared in the reservoir only for limited periods of time or irregularly. Our results indicate that some phytoplankton groups, such as cryptophytes or cyanobacteria, and zooplankton composition were the major factors modulating the distribution and dynamics of distinct Limnohabitans lineages. The highest Limnohabitans diversity was observed during the spring algal bloom, whereas the lowest was during the summer cyanobacterial bloom. The microdiversity also markedly increased upstream in the reservoir, being highest at the inflow, and thus likely reflecting strong influences of the watershed. IMPORTANCE The genus Limnohabitans is a typical freshwater bacterioplankton and is believed to play a significant role in inland freshwater habitats. This work is unique in detecting and tracing different closely related lineages of this bacterial genus in its natural conditions using the semiquantitative reverse line blot hybridization method and in discovering the factors influencing the microdiversity, subtype alternations, and seasonality., (Copyright © 2017 American Society for Microbiology.)

Published
2017
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42. Distribution and ecological preferences of the freshwater lineage LimA (genus Limnohabitans) revealed by a new double hybridization approach.

Author

Shabarova T, Kasalický V, Šimek K, Nedoma J, Znachor P, Posch T, Pernthaler J, and Salcher MM

Subjects
Comamonadaceae classification, Comamonadaceae genetics, Ecology, In Situ Hybridization, Fluorescence, Lakes analysis, RNA, Ribosomal, 16S genetics, Seasons, Comamonadaceae isolation & purification, Lakes microbiology
Abstract

The ecological relevance and factors shaping dynamics of Limnohabitans sp. have been largely studied by fluorescence in situ hybridization with a 16S rRNA probe targeting the R-BT group (lineages LimBCDE), but not lineage LimA. Consequently, ecology and distribution of LimA remained unknown. We developed a double hybridization strategy using a novel 23S rRNA probe specifically targeting LimA and LimE that in combination with the existing R-BT probe can discriminate LimA populations. This technique was applied for more than 1000 samples from 46 freshwater sites including long-term data sets from oligo-mesotrophic Lake Zurich, CH and meso-eutrophic Římov reservoir, CZ. LimA was ubiquitously distributed and highly abundant. Observed ecological preferences of LimA in Lake Zurich were in general similar to already reported for Limnohabitans with highest numbers in surface waters during growing seasons. Three times higher densities of LimA were detected in Římov reservoir, where they were significantly more abundant at the riverine zone especially after flood events that introduced fresh terrestrial DOM (dissolved organic matter). Moreover, statistical analyses of biological and physicochemical parameters obtained from small dynamic water bodies confirmed a correspondence between LimA and allochthonous DOM, in opposite to R-BT that was more related to algal primary production., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2017
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43. Unveiling distribution patterns of freshwater phytoplankton by a next generation sequencing based approach.

Author

Eiler A, Drakare S, Bertilsson S, Pernthaler J, Peura S, Rofner C, Simek K, Yang Y, Znachor P, and Lindström ES

Subjects
Food Chain, Phytoplankton classification, RNA, Ribosomal, 16S genetics, Time Factors, Fresh Water, High-Throughput Nucleotide Sequencing, Phytoplankton genetics, Sequence Analysis, RNA
Abstract

The recognition and discrimination of phytoplankton species is one of the foundations of freshwater biodiversity research and environmental monitoring. This step is frequently a bottleneck in the analytical chain from sampling to data analysis and subsequent environmental status evaluation. Here we present phytoplankton diversity data from 49 lakes including three seasonal surveys assessed by next generation sequencing (NGS) of 16S ribosomal RNA chloroplast and cyanobacterial gene amplicons and also compare part of these datasets with identification based on morphology. Direct comparison of NGS to microscopic data from three time-series showed that NGS was able to capture the seasonality in phytoplankton succession as observed by microscopy. Still, the PCR-based approach was only semi-quantitative, and detailed NGS and microscopy taxa lists had only low taxonomic correspondence. This is probably due to, both, methodological constraints and current discrepancies in taxonomic frameworks. Discrepancies included Euglenophyta and Heterokonta that were scarce in the NGS but frequently detected by microscopy and Cyanobacteria that were in general more abundant and classified with high resolution by NGS. A deep-branching taxonomically unclassified cluster was frequently detected by NGS but could not be linked to any group identified by microscopy. NGS derived phytoplankton composition differed significantly among lakes with different trophic status, showing that our approach can resolve phytoplankton communities at a level relevant for ecosystem management. The high reproducibility and potential for standardization and parallelization makes our NGS approach an excellent candidate for simultaneous monitoring of prokaryotic and eukaryotic phytoplankton in inland waters.

Published
2013
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44. APPLICATION OF THE PDMPO TECHNIQUE IN STUDYING SILICA DEPOSITION IN NATURAL POPULATIONS OF FRAGILARIA CROTONENSIS (BACILLARIOPHYCEAE) AT DIFFERENT DEPTHS IN A EUTROPHIC RESERVOIR(1).

Author

Znachor P and Nedoma J

Abstract

At weekly intervals from July to October 2006, we measured silica deposition in the summer diatom assemblage at various depths in the eutrophic Římov Reservoir (Czech Republic) using PDMPO, the 2-(4-pyridyl)-5{[4-(2-dimethylaminoethyl-aminocarbamoyl)-methoxy]phenyl}oxazole labeling technique. Fluorescence microscopy coupled with image analysis allows quantifying silicon (Si) deposition over time and a simple distinction between cells that are actively depositing Si and those that are not. Diatom assemblage was exclusively dominated by Fragilaria crotonensis Kitton, which formed pronounced subsurface maxima (2-6.5 m). Concentrations of the main nutrients (Si and phosphorus, P) were low over the whole season; however, at depth, the nutrient availability was higher than at the surface. Fragilaria silica deposition rates were eight times higher at the surface than at depth. Half the population was involved in silica deposition at the surface, while only 20% active cells were doing so at depth. At the surface, silica deposition was limited by P deficiency; the effect of dissolved Si (DSi) was not statistically significant. Silica deposition at depth was significantly constrained by low light availability despite the 1% average light attenuation at depth, which is supposed sufficient for photosynthesis. This study represents the first attempt to employ the PDMPO technique coupled with quantitative image analysis of PDMPO fluorescence in freshwater ecology. On the basis of our results, PDMPO probe appears to be an appropriate proxy for the study of resource limitation in natural diatom populations., (© 2008 Phycological Society of America.)

Published
2008
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45. Summer changes in cyanobacterial bloom composition and microcystin concentration in eutrophic Czech reservoirs.

Author

Znachor P, Jurczak T, Komárková J, Jezberová J, Mankiewicz J, Kastovská K, and Zapomelová E

Subjects
Biomass, Czech Republic, Fresh Water chemistry, Microcystins, Population Dynamics, Seasons, Water Supply, Cyanobacteria growth & development, Environmental Monitoring, Eutrophication, Fresh Water microbiology, Peptides, Cyclic metabolism, Water Microbiology
Abstract

In mid-July and August 2003 and 2004, 18 reservoirs in the Czech Republic were sampled for phytoplankton species composition and concentration of intracellular microcystins (MCs). As a consequence of high nutrient loading, most of the reservoirs experienced cyanobacterial blooms of various intensities, with the prevalence of cyanobacteria increasing markedly in August, along with a conspicuous shift in species composition toward dominance of Microcystis spp. Microcystins were detected in 90% of the samples, and their amount also increased considerably in August, reflecting the cyanobacterial biomass. In Microcystis-dominated samples, a significantly higher amount of MCs (p < 0.001) occurred than in samples in which other taxa prevailed. Microcystins were positively correlated with chlorophyll a and cyanobacterial biovolume (p < 0.05, R2 = 0.61 and 0.66, respectively), with the strongest correlation found for Microcystis spp. biovolume (p < 0.001, R2 = 0.87). This taxon was the most important producer of MCs in Czech reservoirs. The main structural variants of MCs were MC-LR, MC-RR, and MC-YR. This study's data also indicate that the relative share of MC variants (MC-LR and MC-RR) varies considerably with time, most likely as a consequence of different species and strain compositions during the summer. This study clearly demonstrates a high prevalence of MC-producing cyanobacteria in Czech reservoirs. Therefore, regular monitoring of these reservoirs is highly desirable in an effort to minimize potential health risks to the human population., (Copyright 2006 Wiley Periodicals, Inc.)

Published
2006
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