Your search keyword '"Schagerl, Michael"' showing total 178 results

151. Taxonomic, ecological, and geographic scope of this book

Author

Škaloud, Pavel, Rindi, Fabio, Boedeker, Christian, Leliaert, Frederik, Büdel, Burkhard, Series editor, Pascher, Adolf, Founded by, Gärtner, Georg, Series editor, Krienitz, Lothar, Series editor, Schagerl, Michael, Series editor, Škaloud, Pavel, Rindi, Fabio, Boedeker, Christian, and Leliaert, Frederik

Published

2018

152. General Key

Author

Thüs, Holger, Schultz, Matthias, Pascher, A., editor, Büdel, Burkhard, editor, Gärtner, Georg, editor, Krienitz, Lothar, editor, Preisig, Hans-Rudolf, editor, Schagerl, Michael, editor, Thüs, Holger, and Schultz, Matthias

Published

2009

153. Keys to the Species and Species Profiles (in alphabetic order)

Author

Thüs, Holger, Schultz, Matthias, Pascher, A., editor, Büdel, Burkhard, editor, Gärtner, Georg, editor, Krienitz, Lothar, editor, Preisig, Hans-Rudolf, editor, Schagerl, Michael, editor, Thüs, Holger, and Schultz, Matthias

Published

2009

154. Glossary

Author

Thüs, Holger, Schultz, Matthias, Pascher, A., editor, Büdel, Burkhard, editor, Gärtner, Georg, editor, Krienitz, Lothar, editor, Preisig, Hans-Rudolf, editor, Schagerl, Michael, editor, Thüs, Holger, and Schultz, Matthias

Published

2009

155. Introduction

Author

Thüs, Holger, Schultz, Matthias, Pascher, A., editor, Büdel, Burkhard, editor, Gärtner, Georg, editor, Krienitz, Lothar, editor, Preisig, Hans-Rudolf, editor, Schagerl, Michael, editor, Thüs, Holger, and Schultz, Matthias

Published

2009

156. First Limnological Characterization of Crater Lake Billy Mitchell (Bougainville Island, Papua New Guinea)1.

Author

Schabetsberger, Robert, Sichrowsky, Ursula, Scheck, Alexander, Schagerl, Michael, Mähnert, Barbara, Sonntag, Bettina, and Pall, Karin

Subjects

*THERMOCLINES (Oceanography), *PHOSPHORUS in water, *PHYTOPLANKTON, *CRATER lakes

Abstract

In this study we present a first limnological characterization of Lake Billy Mitchell [1,013 m above sea level (a.s.l.), 88.3 m depth, 3 km2 surface area] in central Bougainville Island, Papua New Guinea. Physicochemical depth profiles indicated mixis of the entire water body with oxygen saturation reaching 55% in the deepest layers. A shallow thermocline was eroded at night, indicating atelomixis. , Cl−, and Na+, Ca2+, Mg2+ were the dominant anions and cations, respectively, leading to a conductivity of around 1,230 µS cm−1. The pH was close to neutral throughout the water column, and no accumulation of CO2 was observed at greater depths. With a total phosphorus concentration of around 25 µg liter-1 the lake can be considered as meso- to eutrophic. The phytoplankton community consisted of 18 taxa. The dinophyte Peridiniopsis cf. penardii and the filamentous green alga Planctonema lauterbornii dominated in the uppermost layer and reached a total biovolume around 16 mm3 liter-1. Six macrophyte taxa were found (three Spermatophyta/three Bryophyta), with the water chestnut Eleocharis dulcis covering the shoreline and Ceratophyllum demersum spreading to at least 3 m depth. Seven ciliate species were detected (<5 individuals ml-1) with bacterivorous scuticociliates and the prostomatid Coleps hirtus hirtus dominating the assemblage. The micrometazoan plankton community comprised the rotifer Anuraeopsis fissa, the copepod Mesocyclops cf. affinis, and a cladoceran species within the Ceriodaphnia cornuta group all concentrating in the upper water column. The only fish species found in the lake was the eel Anguilla megastoma, whereas in the effluent river this species occurred together with Anguilla marmorata. [ABSTRACT FROM AUTHOR]

Published

2017

157. Spatial variability and diversity of phytobenthos and metaphyton

Author

Černá, Kateřina, Neustupa, Jiří, Schagerl, Michael, and Poulíčková, Aloisie

Abstract

Spatial variability and ecology of phytobenthic algal assemblages in peat bogs Abstract The thesis concerns two main issues: spatial distribution of microalgal assemblages in the environment of temperate peat bogs, and determination of morphological plasticity of selected desmid species (Euastrum binale, Staurastrum hirsutum) under different pH-levels using geometric morphometrics. The principal aims can be summarized as follows: (1) to evaluate seasonal and spatial patterns of the distribution of algal assemblages in a temperate lowland peat bog; (2) to describe the small-scale spatial patterns of the distribution of algal assemblages in two different microhabitats of a raised bog; (3) to investigate the range of morphological plasticity of selected desmid species under different pH-levels; (4) to evaluate species diversity and disparity of desmids in peat bogs using methods of geometric morphometrics and their relation to environmental conditions. The spatial pattern of the distribution of algal assemblages was studied along a linear transect in the homogenous environment of a lowland peat bog within one year on different spatial scales (10cm, 1m, 10m). The seasonal dynamics were exhibited by an increase in diversity, and a decrease in dominance from May to October, with significant differences in species...

Published

2010

158. Recent advances in sustainable hydrogen production from microalgae: Mechanisms, challenges, and future perspectives.

Author

Jiao H, Tsigkou K, Elsamahy T, Pispas K, Sun J, Manthos G, Schagerl M, Sventzouri E, Al-Tohamy R, Kornaros M, and Ali SS

Subjects

Biofuels, Bioreactors, Fermentation, Hydrogen, Fossil Fuels, Biomass, Microalgae

Abstract

The depletion of fossil fuel reserves has resulted from their application in the industrial and energy sectors. As a result, substantial efforts have been dedicated to fostering the shift from fossil fuels to renewable energy sources via technological advancements in industrial processes. Microalgae can be used to produce biofuels such as biodiesel, hydrogen, and bioethanol. Microalgae are particularly suitable for hydrogen production due to their rapid growth rate, ability to thrive in diverse habitats, ability to resolve conflicts between fuel and food production, and capacity to capture and utilize atmospheric carbon dioxide. Therefore, microalgae-based biohydrogen production has attracted significant attention as a clean and sustainable fuel to achieve carbon neutrality and sustainability in nature. To this end, the review paper emphasizes recent information related to microalgae-based biohydrogen production, mechanisms of sustainable hydrogen production, factors affecting biohydrogen production by microalgae, bioreactor design and hydrogen production, advanced strategies to improve efficiency of biohydrogen production by microalgae, along with bottlenecks and perspectives to overcome the challenges. This review aims to collate advances and new knowledge emerged in recent years for microalgae-based biohydrogen production and promote the adoption of biohydrogen as an alternative to conventional hydrocarbon biofuels, thereby expediting the carbon neutrality target that is most advantageous to the environment., Competing Interests: Declaration of Competing Interest 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 © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

159. Short-term impacts of a large cultural event on the microbial pollution status of a pre-alpine river.

Author

Leopold M, Krlovic N, Schagerl M, Schelker J, and Kirschner AKT

Subjects

Humans, Escherichia coli, Feces, Water Quality, Rivers, Fresh Water

Abstract

Rivers are impacted by microbial faecal pollution from various sources. We report on a short-term faecal pollution event at the pre-alpine Austrian river Traisen caused by the large cultural event FM4 Frequency music festival, with around 200,000 visitors over 4 days. We observed a massive increase of the faecal indicator bacteria (FIB) intestinal enterococci during the event, while Escherichia coli concentrations were only slightly elevated. This increase poses a significant potential health threat to visitors and people recreating downstream of the festival area. A plausible explanation for the uncoupling of the two FIBs may have been a differential persistence caused by a combination of factors including water temperature, solar radiation, and the excessive presence of personal care products (PCPs) in the river water. However, a potential impact of PCPs on FIB assay performance cannot be ruled out. Our observations are relevant for other intensively used bathing sites; detailed investigations on persistence and assay performance of the FIB in response to different ingredients of PCPs are highly recommended. We conclude that for future festivals at this river or other festivals taking place under similar settings, a more effective management is necessary to reduce deterioration in water quality and minimise health risks.

Published

2023

160. Drivers of microbial food-web structure along productivity gradients.

Author

Burian A, Gruber-Dorninger M, Schweichart J, Yasindi A, Bulling M, Jirsa F, Winter C, Muia AW, and Schagerl M

Subjects

Ecosystem, Chlorophyll A, Prokaryotic Cells, Food Chain, Chlorophyll, Lakes chemistry, Viruses, Microbiota

Abstract

Ratios between viruses, heterotrophic prokaryotes and chlorophyll a are key indicators of microbial food structure and both virus-prokaryote and prokaryote-chlorophyll ratios have been proposed to decrease with system productivity. However, the mechanisms underlying these responses are still insufficiently resolved and their consistency across aquatic ecosystem types requires critical evaluation. We assessed microbial community ratios in highly productive African soda-lakes and used our data from naturally hypereutrophic systems which are largely underrepresented in literature, to complement earlier across-system meta-analyses. In contrast to marine and freshwater systems, prokaryote-chlorophyll ratios in African soda-lakes did not decrease along productivity gradients. High-resolution time series from two soda-lakes indicated that this lack of response could be driven by a weakened top-down control of heterotrophic prokaryotes. Our analysis of virus-prokaryote relationships, revealed a reduction of virus-prokaryote ratios by high suspended particle concentrations in soda-lakes. This effect, likely driven by the adsorption of free-living viruses, was also found in three out of four additionally analysed marine datasets. However, the decrease of virus-prokaryote ratios previously reported in highly productive marine systems, was neither detectable in soda-lakes nor freshwaters. Hence, our study demonstrates that system-specific analyses can reveal the diversity of mechanisms that structure microbial food-webs and shape their response to productivity increases.

Published

2023

161. Decolorization of reactive azo dye using novel halotolerant yeast consortium HYC and proposed degradation pathway.

Author

Al-Tohamy R, Ali SS, Xie R, Schagerl M, Khalil MA, and Sun J

Subjects

Gas Chromatography-Mass Spectrometry, Chromatography, High Pressure Liquid, Biodegradation, Environmental, Coloring Agents chemistry, Azo Compounds metabolism, Wastewater

Abstract

The presence of high salinity levels in textile wastewater poses a significant obstacle to the process of decolorizing azo dyes. The present study involved the construction of a yeast consortium HYC, which is halotolerant and was recently isolated from wood-feeding termites. The consortium HYC was mainly comprised of Sterigmatomyces halophilus SSA-1575 and Meyerozyma guilliermondii SSA-1547. The developed consortium demonstrated a decolourization efficiency of 96.1% when exposed to a concentration of 50 mg/l of Reactive Black 5 (RB5). The HYC consortium significantly decolorized RB5 up to concentrations of 400 mg/l and in the presence of NaCl up to 50 g/l. The effects of physicochemical factors and the degradation pathway were systematically investigated. The optimal pH, salinity, temperature, and initial dye concentration were 7.0, 3%, 35 °C and 50 mg/l, respectively. The co-carbon source was found to be essential, and the addition of glucose resulted in a 93% decolorization of 50 mg/l RB5. The enzymatic activity of various oxido-reductases was assessed, revealing that NADH-DCIP reductase and azo reductase exhibited greater activity in comparison to other enzymes. UV-Visible (UV-vis) spectrophotometry, Fourier-transform infrared spectroscopy (FTIR), high-performance liquid chromatography (HPLC), and gas chromatography-mass spectrometry (GC-MS) were utilized to identify the metabolites generated during the degradation of RB5. Subsequently, a metabolic pathway was proposed. The confirmation of degradation was established through alterations in the functional groups and modifications in molecular weight. The findings indicate that this halotolerant yeast consortium exhibits promising potential of degrading dye compounds. The results of this study offer significant theoretical basis and crucial perspectives for the implementation of halotolerant yeast consortia in the bioremediation of textile and hypersaline wastewater. This approach is particularly noteworthy as it does not produce aromatic amines., 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 © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

162. Author Correction: The change in metabolic activity of a large benthic foraminifera as a function of light supply.

Author

Lintner M, Lintner B, Schagerl M, Wanek W, and Heinz P

Published

2023

163. The change in metabolic activity of a large benthic foraminifera as a function of light supply.

Author

Lintner M, Lintner B, Schagerl M, Wanek W, and Heinz P

Subjects

Photosynthesis, Isotopes metabolism, Foraminifera metabolism

Abstract

We studied metabolic activity of the symbiont-bearing large benthic foraminifer Heterostegina depressa under different light conditions. Besides the overall photosynthetic performance of the photosymbionts estimated by means of variable fluorescence, the isotope uptake ( 13 C and 15 N) of the specimens (= holobionts) was measured. Heterostegina depressa was either incubated in darkness over a period of 15 days or exposed to an 16:8 h light:dark cycle mimicking natural light conditions. We found photosynthetic performance to be highly related to light supply. The photosymbionts, however, survived prolonged darkness and could be reactivated after 15 days of darkness. The same pattern was found in the isotope uptake of the holobionts. Based on these results, we propose that 13 C-carbonate and 15 N-nitrate assimilation is mainly controlled by the photosymbionts, whereas 15 N-ammonium and 13 C-glucose utilization is regulated by both, the symbiont and the host cells., (© 2023. The Author(s).)

Published

2023

164. Microalgae-mediated wastewater treatment for biofuels production: A comprehensive review.

Author

Ali SS, El-Sheekh M, Manni A, Ruiz HA, Elsamahy T, Sun J, and Schagerl M

Subjects

Biofuels, Biomass, Carbon, Fossil Fuels, Wastewater, Microalgae, Petroleum, Water Purification

Abstract

The growing world population, rapid industrialization, and intensive agriculture have increased environmental impacts such as wastewater discharge and global warming. These threats coupled the deficiency of fossil fuel and the rise in crude oil prices globally cause serious social, environmental and economic problems. Microalgae strains can withstand the harsh environments of modern industrial and municipal wastes. The shift toward a circular bio-economy that relies on resource diversification has also prompted the reorganization of traditional wastewater treatment (WWT) processes into a low-carbon, integrated biorefinery model that can accommodate multiple waste streams. Therefore, microalgae-based WWT is now a serious competitor to conventional WWT since the major bottlenecks of nutrient assimilation and high microalgae population have been partially mitigated. This review paper aims to collate advances and new knowledge emerged in recent years for microalgae-based WWT and related biofuel technologies., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2022 Elsevier GmbH. All rights reserved.)

Published

2022

165. Microalgae-based wastewater treatment: Mechanisms, challenges, recent advances, and future prospects.

Author

Abdelfattah A, Ali SS, Ramadan H, El-Aswar EI, Eltawab R, Ho SH, Elsamahy T, Li S, El-Sheekh MM, Schagerl M, Kornaros M, and Sun J

Abstract

The rapid expansion of both the global economy and the human population has led to a shortage of water resources suitable for direct human consumption. As a result, water remediation will inexorably become the primary focus on a global scale. Microalgae can be grown in various types of wastewaters (WW). They have a high potential to remove contaminants from the effluents of industries and urban areas. This review focuses on recent advances on WW remediation through microalgae cultivation. Attention has already been paid to microalgae-based wastewater treatment (WWT) due to its low energy requirements, the strong ability of microalgae to thrive under diverse environmental conditions, and the potential to transform WW nutrients into high-value compounds. It turned out that microalgae-based WWT is an economical and sustainable solution. Moreover, different types of toxins are removed by microalgae through biosorption, bioaccumulation, and biodegradation processes. Examples are toxins from agricultural runoffs and textile and pharmaceutical industrial effluents. Microalgae have the potential to mitigate carbon dioxide and make use of the micronutrients that are present in the effluents. This review paper highlights the application of microalgae in WW remediation and the remediation of diverse types of pollutants commonly present in WW through different mechanisms, simultaneous resource recovery, and efficient microalgae-based co-culturing systems along with bottlenecks and prospects., 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., (© 2022 The Authors.)

Published

2022

166. How to Verify Non-Presence-The Challenge of Axenic Algae Cultivation.

Author

Pokorny L, Hausmann B, Pjevac P, and Schagerl M

Subjects

Agar, RNA, Ribosomal, 16S genetics

Abstract

Many phycological applications require the growth and maintenance of pure algae cultures. In some research areas, such as biochemistry and physiology, axenic growth is essential to avoid misinterpretations caused by contaminants. Nonetheless, axenicity-defined as the state of only a single strain being present, free of any other organism-needs to be verified. We compare the available methods to assess axenicity. We first purified unialgal Limnospira fusiformis cultures with an established series of axenicity treatments, and by including two additional treatment steps. The presumable axenic cultures were then tested for their axenic state by applying conventional tests on LB (lysogeny broth) agar-plates, 16S rRNA gene amplicon sequencing, flow-cytometry and epifluorescence microscopy. Only the plate tests indicated axenic conditions. We found a linear relationship between total cell counts of contaminants achieved by flow cytometry and epifluorescence microscopy, with flow cytometry counts being consistently higher. In addition, 16S rRNA gene amplicon sequencing demonstrated its superiority by not only being an efficient tool for axenicity testing, but also for identification of persistent contaminants. Although classic plate tests are still commonly used to verify axenicity, we found the LB-agar-plate technique to be inappropriate. Cultivation-independent methods are highly recommended to test for axenic conditions. A combination of flow-cytometry and 16S rRNA gene amplicon sequencing complement each other and will yield the most reliable result.

Published

2022

167. Estimating Biomass and Vitality of Microalgae for Monitoring Cultures: A Roadmap for Reliable Measurements.

Author

Schagerl M, Siedler R, Konopáčová E, and Ali SS

Subjects

Biomass, Chlorophyll, Fluorescence, Photosystem II Protein Complex, Microalgae

Abstract

Estimating algal biomass is a prerequisite for monitoring growth of microalgae. Especially for large-scale production sites, the measurements must be robust, reliable, fast and easy to obtain. We compare the relevant parameters, discuss potential hurdles and provide recommendations to tackle these issues. The focus is on optical density and in vivo autofluorescence of chlorophyll, which have proven to be ideal candidates for monitoring purposes. Beyond biomass, cell vitality is also crucial for maintaining cultures. While maximizing biomass yield is often the primary consideration, some applications require adverse growth conditions for the synthesis of high-quality compounds. The non-invasive technique of pulse-amplified modulated (PAM) fluorescence measurements provides an ideal tool and is increasingly being employed due to ever more affordable devices. We compared three devices and studied the robustness of the dark fluorescence yield of photosystem II (Fv/Fm) at various cell densities. Although the so-called inner filter effects influence the fluorescence signal, the resulting Fv/Fm remain stable and robust over a wide range of cell densities due to mutual effects.

Published

2022

168. Photosynthetic performance of symbiont-bearing foraminifera Heterostegina depressa affected by sunscreens.

Author

Lintner M, Schagerl M, Lintner B, Nagy M, and Heinz P

Subjects

Foraminifera metabolism, Photosynthesis drug effects, Sunscreening Agents pharmacology

Abstract

Foraminifera are abundant unicellular organisms that play an important role in marine element cycles. A large benthic foraminifer obligatory bearing photosymbionts is Heterostegina depressa. We studied potential impacts of sunscreens available on the market on the activity of photosymbionts on H. depressa by means of pulse-amplitude modulated (PAM) fluorescence microscopy. We included four different sunscreens, with two of them sold as "conventional" and two more stated as "eco-friendly". Further, the impact of pure Ensulizole (phenylbenzimidazole sulfonic acid) was tested, which is a common agent of sunscreens. Foraminifera were incubated at varying concentrations (10, 50 and 200 mgL -1 ) of different sunscreens and the pure Ensulizole for 14 days. The photosynthetic performance was measured after 1,3, 7 and 14 days. Pure Ensulizole had a strong negative impact on the photobionts, which was reflected by a significant reduction of the areal fluorescence signal. "Eco-friendly" sunscreens affected the health of foraminifera more severely compared to "conventional" ones. We assume that metal nanoparticles like titanium dioxide or zinc oxide of "eco-friendly" sunscreens are causing this impact, because these substances were already classified as toxic for several microorganisms., (© 2022. The Author(s).)

Published

2022

169. Confocal microscopy reveals alterations of thylakoids in Limnospira fusiformis during prophage induction.

Author

Zekri MA, Schagerl M, Schweichhart J, and Lang I

Subjects

Microscopy, Confocal, Virus Activation, Cyanobacteria, Thylakoids

Abstract

The alkaliphilic cyanobacterium Limnospira fusiformis is an integral part in food webs of tropical soda lakes. Recently, sudden breakdowns of Limnospira sp. blooms in their natural environment have been linked to cyanophage infections. We studied ultrastructural details and prophage components in the laboratory by means of confocal laser scanning microscopy (CLSM) and transmission electron microscopy (TEM). For a comparison at the subcellular level, we included transmission electron microscopy (TEM) material of infected cells collected during a field survey. Compared to TEM, CLSM has the advantage to rapidly providing results for whole, intact cells. Moreover, many cells can be studied at once. We chemically induced lysogenic cyanophages by means of mitomycin C (MMC) treatments and studied the ultrastructural alterations of host cells. In parallel, the number of cyanophages was obtained by flow cytometry. After treatment of the culture with MMC, flow cytometry showed a strong increase in viral counts, i.e., prophage induction. CLSM reflected the re-organization of L. fusiformis with remarkable alterations of thylakoid arrangements after prophage induction. Our study provides a first step towards 3D visualization of ultrastructure of cyanobacteria and showed the high potential of CLSM to investigate viral-mediated modifications in these groups., (© 2021. The Author(s).)

Published

2021

170. High Anthropogenic Organic Matter Inputs during a Festival Increase River Heterotrophy and Refractory Carbon Load.

Author

Harjung A, Attermeyer K, Aigner V, Krlovic N, Steniczka G, Švecová H, Schagerl M, and Schelker J

Subjects

Austria, Ecosystem, Heterotrophic Processes, Holidays, Carbon analysis, Rivers

Abstract

Streams and rivers metabolize dissolved organic matter (DOM). Although most DOM compounds originate from natural sources, recreational use of rivers increasingly introduces chemically distinct anthropogenic DOM. So far, the ecological impact of this DOM source is not well understood. Here, we show that a large music festival held adjacent to the Traisen River in Austria increased the river's dissolved organic carbon (DOC) concentration from 1.6 to 2.1 mg L -1 and stream ecosystem respiration from -3.2 to -4.5 mg L -1 . The DOC increase was not detected by sensors continuously logging absorbance spectra, thereby challenging their applicability for monitoring. However, the fluorescence intensity doubled during the festival. Using parallel factor analysis, we were able to assign the increase in fluorescence intensity to the chemically stable UV-B filter phenylbenzimidazole sulfonic acid, indicating organic compounds in sunscreen and other personal care products as sources of elevated DOC. This observation was confirmed by liquid chromatography coupled with mass spectrometry. The elevated respiration is probably fueled by anthropogenic DOM contained in beer and/or urine. We conclude that intense recreational use of running waters transiently increases the anthropogenic DOM load into stream ecosystems and alters the fluvial metabolism. We further propose that chemically distinct, manmade DOM extends the natural range of DOM decomposition rates in fluvial ecosystems.

Published

2020

171. Outdoor cultivation of the green microalga Chlorella vulgaris under stress conditions as a feedstock for biofuel.

Author

El-Sheekh MM, Gheda SF, El-Sayed AEB, Abo Shady AM, El-Sheikh ME, and Schagerl M

Subjects

Biomass, Biotechnology instrumentation, Chlorella vulgaris metabolism, Culture Media chemistry, Microalgae metabolism, Biofuels analysis, Biotechnology methods, Chlorella vulgaris growth & development, Fatty Acids analysis, Microalgae growth & development

Abstract

The present work investigated the potential of the green alga Chlorella vulgaris to produce high-quality biofuel under culture stress conditions. The cultivation was carried out in a 1000 l open plate tank system, which provides biomass yields comparable to open pond systems, but with less area needed. Algal biomass and lipid content were measured repeatedly. We compared the two solvent systems n-hexane and hexane/isopropanol (HIP) for extraction efficiency of lipids and applied three different extraction methods Soxhlet, soaking, and soaking followed by Soxhlet (soak-Sox). The combination of the HIP solvent and the soak-Sox provided the highest lipid yield (15.8 ± 0.174). Volumetric biomass and lipid productivity were 0.201 g l -1  day -1 and 31.71 mg l -1  day -1 , respectively, whereas areal biomass and lipid productivity were 25.73 g m -2  day -1 and 4.066 g m -2  day -1 , respectively. The fatty acid profile by means of gas chromatography resulted in seven fatty acids from C 12 to C 18 . The most abundant fatty acid methyl esters (FAMES) were palmitic (C16:0), oleic (C18:1), and stearic (C18:0) acids. Lipid synthesis enhanced by optimizing the Kuhl growth medium with replacing nitrate by urea (50% N compared to the original recipe) increased salt content (10 g/l NaCl), ferrous sulfate (0.5 g/l), and sodium acetate addition (1 g/l). With regard to density, kinematic viscosity, gravity, pour point, flash point, and cetane number, the Chlorella-biodiesel comply with ASTM and EN standards thus pointing at the high potential of lipids synthesized by Chlorella as a feedstock for biodiesel production.

Published

2019

172. First Limnological Characterization of Crater Lake Billy Mitchell (Bougainville Island, Papua New Guinea) 1 .

Author

Schabetsberger R, Sichrowsky U, Scheck A, Schagerl M, Mähnert B, Sonntag B, and Pall K

Abstract

In this study we present a first limnological characterization of Lake Billy Mitchell [1,013 m above sea level (a.s.l.), 88.3 m depth, 3 km2 surface area] in central Bougainville Island, Papua New Guinea. Physicochemical depth profiles indicated mixis of the entire water body with oxygen saturation reaching 55% in the deepest layers. A shallow thermocline was eroded at night, indicating atelomixis. HCO 3 - , Cl - , SO 4 2 - and Na + , Ca 2+ , Mg 2+ were the dominant anions and cations, respectively, leading to a conductivity of around 1,230 μS cm -1 . The pH was close to neutral throughout the water column, and no accumulation of CO 2 was observed at greater depths. With a total phosphorus concentration of around 25 μg liter -1 the lake can be considered as meso-to eutrophic. The phytoplankton community consisted of 18 taxa. The dinophyte Peridiniopsis cf. penardii and the filamentous green alga Planctonema lauterbornii dominated in the uppermost layer and reached a total biovolume around 16 mm 3 liter -1 . Six macrophyte taxa were found (three Spermatophyta/three Bryophyta), with the water chestnut Eleocharis dulcis covering the shoreline and Ceratophyllum demersum spreading to at least 3 m depth. Seven ciliate species were detected (<5 individuals ml -1 ) with bacterivorous scuticociliates and the prostomatid Coleps hirtus hirtus dominating the assemblage. The micrometazoan plankton community comprised the rotifer Anuraeopsis fissa, the copepod Mesocyclops cf. affinis, and a cladoceran species with-in the Ceriodaphnia cornuta group all concentrating in the upper water column. The only fish species found in the lake was the eel Anguilla megastoma , whereas in the effluent river this species occurred together with Anguilla marmorata .

Published

2017

173. Benthic-pelagic coupling drives non-seasonal zooplankton blooms and restructures energy flows in shallow tropical lakes.

Author

Burian A, Schagerl M, Yasindi A, Singer G, Kaggwa MN, and Winder M

Abstract

Zooplankton blooms are a frequent phenomenon in tropical systems. However, drivers of bloom formation and the contribution of emerging resting eggs are largely unexplored. We investigated the dynamics and the triggers of rotifer blooms in African soda-lakes and assessed their impact on other trophic levels. A meta-analysis of rotifer peak densities including abundances of up to 6 × 10 5 individuals L -1 demonstrated that rotifer bloom formation was uncoupled from the food environment and the seasonality of climatic conditions. A time series with weekly sampling intervals from Lake Nakuru (Kenya) revealed that intrinsic growth factors (food quality and the physicochemical environment) significantly affected rotifer population fluctuations, but were of minor importance for bloom formation. Instead, rotifer bloom formation was linked to sediment resuspension, a prerequisite for hatching of resting-eggs. Population growth rates exceed pelagic birth rates and simulations of rotifer dynamics confirmed the quantitative importance of rotifer emergence from the sediment egg-bank and signifying a decoupling of bloom formation from pelagic reproduction. Rotifer blooms led to a top-down control of small-sized algae and facilitated a switch to more grazing-resistant, filamentous cyanobacteria. This shift in phytoplankton composition cascaded up the food chain and triggered the return of filter-feeding flamingos. Calculations of consequent changes in the lake's energy budget and export of aquatic primary production to terrestrial ecosystems demonstrated the large potential impact of nonseasonal disturbances on the functioning of shallow tropical lakes.

Published

2016

174. Phytoplankton patterns along a series of small man-made reservoirs in Kenya.

Author

Straubinger-Gansberger N, Kaggwa MN, and Schagerl M

Subjects

Animals, Climate, Cyanobacteria classification, Cyanobacteria growth & development, Ecosystem, Kenya, Phytoplankton classification, Ponds chemistry, Seasons, Zooplankton classification, Zooplankton growth & development, Environmental Monitoring, Fresh Water chemistry, Phytoplankton growth & development

Abstract

We studied nine small man-made reservoirs located in different climate regions of Kenya to get an insight into the relationship between phytoplankton community structure and its environment. The investigated ponds form three groups of three reservoirs each found in the rural areas of Machakos district, Mount Kenya region, and Lake Victoria area with varied climatic characteristics. The ponds were sampled in monthly intervals between May 2007 and June 2008 for physicochemical variables including water chemistry, phytoplankton community composition, zooplankton abundance, and bacterial numbers. All ponds were classified as hypertrophic. Seasonal changes were reflected in the phytoplankton pattern, as all ponds showed a community shift after the short dry season in February. Due to high nutrient loads and increased turbidity, Cyanobacteria, which were initially thought to be predominating in all investigated water bodies, were found to play only a minor role except for the Bomet reservoir in Lake Victoria region. Instead, Chloro- and Streptophyta, Dinophyta, and Euglenophyta were abundant in the pelagial. A principal component analysis explained around 85 % of the data variance with four principal components (PCs) interpreted as "location", "ions", "zooplankton", and "particulate matter". A clear separation of ponds with and without cattle access based on algal species community data was found indicating the need for a sustainable use and regular monitoring program as the local population is largely dependent on these sensitive small-scale ecosystems.

Published

2014

175. Species-specific separation of lake plankton reveals divergent food assimilation patterns in rotifers.

Author

Burian A, Kainz MJ, Schagerl M, and Yasindi A

Abstract

1. The analysis of functional groups with a resolution to the individual species level is a basic requirement to better understand complex interactions in aquatic food webs. Species-specific stable isotope analyses are currently applied to analyse the trophic role of large zooplankton or fish species, but technical constraints complicate their application to smaller-sized plankton. 2. We investigated rotifer food assimilation during a short-term microzooplankton bloom in the East African soda lake Nakuru by developing a method for species-specific sampling of rotifers. 3. The two dominant rotifers, Brachionus plicatilis and Brachionus dimidiatus , were separated to single-species samples (purity >95%) and significantly differed in their isotopic values (4.1‰ in δ 13 C and 1.5‰ in δ 15 N). Bayesian mixing models indicated that isotopic differences were caused by different assimilation of filamentous cyanobacteria and particles <2 μm and underlined the importance of species-specific sampling of smaller plankton compartments. 4. A main difference was that the filamentous cyanobacterium Arthrospira fusiformis , which frequently forms blooms in African soda lakes, was an important food source for the larger-sized B. plicatilis (48%), whereas it was hardly ingested by B. dimidiatus . Overall, A . fusiformis was, relative to its biomass, assimilated to small extents, demonstrating a high grazing resistance of this species. 5. In combination with high population densities, these results demonstrate a strong potential of rotifer blooms to shape phytoplankton communities and are the first in situ demonstration of a quantitatively important direct trophic link between rotifers and filamentous cyanobacteria.

Published

2014

176. Major and trace element geochemistry of Lake Bogoria and Lake Nakuru, Kenya, during extreme draught.

Author

Jirsa F, Gruber M, Stojanovic A, Omondi SO, Mader D, Körner W, and Schagerl M

Abstract

The physico-chemical properties of water samples from the two athalassic endorheic lakes Bogoria and Nakuru in Kenya were analysed. Surface water samples were taken between July 2008 and October 2009 in weekly intervals from each lake. The following parameters were determined: pH, salinity, electric conductivity, dissolved organic carbon (DOC), the major cations (FAAS and ICP-OES) and the major anions (IC), as well as certain trace elements (ICP-OES). Samples of superficial sediments were taken in October 2009 and examined using Instrumental Neutron Activation Analysis (INAA) for their major and trace element content including rare earth elements (REE). Both lakes are highly alkaline with a dominance of Na > K > Si > Ca in cations and HCO 3  > CO 3  > Cl > F > SO 4 in anions. Both lakes also exhibited high concentrations of Mo, As and fluoride. Due to an extreme draught from March to October 2009, the water level of Lake Nakuru dropped significantly. This created drastic evapoconcentration, with the total salinity rising from about 20‰ up to 63‰. Most parameters (DOC, Na, K, Ca, F, Mo and As) increased with falling water levels. A clear change in the quality of DOC was observed, followed by an almost complete depletion of dissolved Fe from the water phase. In Lake Bogoria the evapoconcentration effects were less pronounced (total salinity changed from about 40‰ to 48‰). The distributions of REE in the superficial sediments of Lake Nakuru and Lake Bogoria are presented here for the first time. The results show a high abundance of the REE and a very distinct Eu depletion of Eu/Eu* = 0.33-0.45.

Published

2013

177. Hidden genetic diversity in the green alga Spirogyra (Zygnematophyceae, Streptophyta).

Author

Chen C, Barfuss MH, Pröschold T, and Schagerl M

Subjects

DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Molecular Sequence Data, Nucleic Acid Conformation, Genetic Variation, Phylogeny, Spirogyra classification, Spirogyra genetics

Abstract

Background: The unbranched filamentous green alga Spirogyra (Streptophyta, Zygnemataceae) is easily recognizable based on its vegetative morphology, which shows one to several spiral chloroplasts. This simple structure falsely points to a low genetic diversity: Spirogyra is commonly excluded from phylogenetic analyses because the genus is known as a long-branch taxon caused by a high evolutionary rate., Results: We focused on this genetic diversity and sequenced 130 Spirogyra small subunit nuclear ribosomal DNA (SSU rDNA) strands of different origin. The resulting SSU rDNA sequences were used for phylogenetic analyses using complex evolutionary models (posterior probability, maximum likelihood, neighbor joining, and maximum parsimony methods). The sequences were between 1672 and 1779 nucleotides long. Sequence comparisons revealed 53 individual clones, but our results still support monophyly of the genus. Our data set did not contain a single slow-evolving taxon that would have been placed on a shorter branch compared to the remaining sequences. Out of 130 accessions analyzed, 72 showed a secondary loss of the 1506 group I intron, which formed a long-branched group within the genus. The phylogenetic relationship to the genus Spirotaenia was not resolved satisfactorily. The genetic distance within the genus Spirogyra exceeded the distances measured within any other genus of the remaining Zygnemataceae included in this study., Conclusion: Overall, we define eight distinct clades of Spirogyra, one of them including the genus Sirogonium. A large number of non-homoplasious synapomorphies (NHS; 114 NHS in total) was found for Spirogyra (41 NHS) and for each clade (totaling 73 NHS). This emphasizes the high genetic diversity of this genus and the distance to the remaining Zygnematophyceae.

Published

2012

178. The use of urban clay-pit ponds for human recreation: assessment of impacts on water quality and phytoplankton assemblages.

Author

Schagerl M, Bloch I, Angeler DG, and Fesl C

Subjects

Austria, Clay, Environmental Monitoring methods, Humans, Aluminum Silicates, Phytoplankton growth & development, Recreation, Urban Population, Water chemistry, Water standards

Abstract

Artificially created ponds in urban areas may be important biodiversity refugia and may provide recreational services for populations. In order to obtain information on the seasonal development of the environmental conditions, water quality was determined in ten clay-pit ponds situated in the Austrian capital, Vienna. These ponds show high electrical conductivity (up to 3,000 microS cm( - 1)), indicating elevated levels of salinity, which can be attributed to the geological setting of the underground. Furthermore, the ponds experience a gradient from low to high human pressure resulting from recreational activities (swimming, fishing, urbanisation of the pond boundaries). Results obtained from multivariate statistics methods suggest that ponds were mainly structured by salinity and by algal biomass, which can be attributed to resource supply related with eutrophication. According to their water chemistry, the ponds were classified as meso- to hypereutrophic. Stoichiometric N/P ratios suggest that phytoplankton productivity in hypereutrophic ponds is nitrogen limited, whilst algae in ponds with lower trophic levels experience growth imitation by phosphorus depletion. We eventually related environmental conditions to algal species occurrences and developed a model for algal assemblages indicating the particular trophic state at different seasons.

Published

2010