16 results on '"Cirés, Samuel"'
Search Results
2. Influence of the aqueous matrix on the degradation of cyanotoxins by CWPO: A study on the Iberian Peninsula freshwaters.
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Ortiz, David, Munoz, Macarena, Cirés, Samuel, Arribas Mediero, José L., Crisostomo, Maria C., Forero Ortiz, Andrea C., M. de Pedro, Zahara, Rogalla, Frank, Quesada, Antonio, and Casas, Jose A.
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CYANOBACTERIAL toxins ,WATER treatment plants ,CYANOBACTERIAL blooms ,MICROCYSTIS ,DEIONIZATION of water ,ENVIRONMENTAL risk ,PRECIPITATION scavenging - Abstract
The increasing occurrence of toxic cyanobacterial blooms worldwide represents a critical health and environmental risk. Catalytic wet peroxide oxidation (CWPO) has emerged as an efficient and environmentally friendly technology for the removal of cyanotoxins in water. Nevertheless, its effectiveness has just been demonstrated in deionized water or simple synthetic aqueous matrices. In this work, the effect of the different components of the aqueous matrix on the CWPO of cyanotoxins was deeply evaluated considering the widespread properties of the Iberian Peninsula freshwaters. The presence of Cl
- , HCO 3- and SO 42- ions reduced the oxidation rate of cylindrospermopsin (CYN) up to 70–80% at the highest concentrations tested (2000, 250 and 500 mg L−1 for Cl- , HCO 3- and SO 42- , respectively) due to their hydroxyl radical scavenging capacity. The presence of natural organic matter (NOM) resulted in a similar outcome (oxidation rate reduction up to 90% at the highest concentration tested, 20 mg L−1 ), but in this case due to the consumption of hydroxyl radicals in competition with CYN oxidation. The presence of NO 3- and H 2 PO 4- did not show any significant effect on CYN oxidation. Similarly, the presence of cyanobacteria (Chrysosporum ovalisporum , 50 µg chlorophyll-a L−1 ) did not appreciably affect the CYN oxidation rate. These results were consistent with those obtained by evaluating the impact of real aqueous matrices from drinking water treatment plants (DWTPs) located in Castilla y León and Extremadura regions (Spain) on CWPO performance. This knowledge is key to the implementation of the technology for the treatment of surface waters affected by toxic cyanobacterial blooms. [Display omitted] [ABSTRACT FROM AUTHOR]- Published
- 2023
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3. A review of the phylogeny, ecology and toxin production of bloom-forming Aphanizomenon spp. and related species within the Nostocales (cyanobacteria).
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Cirés, Samuel and Ballot, Andreas
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MOLECULAR phylogeny , *CYANOBACTERIA biotechnology , *NOSTOCALES , *APHANIZOMENON , *ALGAL blooms - Abstract
The traditional genus Aphanizomenon comprises a group of filamentous nitrogen-fixing cyanobacteria of which several memebers are able to develop blooms and to produce toxic metabolites (cyanotoxins), including hepatotoxins (microcystins), neurotoxins (anatoxins and saxitoxins) and cytotoxins (cylindrospermopsin). This genus, representing geographically widespread and extensively studied cyanobacteria, is in fact heterogeneous and composed of at least five phylogenetically distant groups ( Aphanizomenon , Anabaena / Aphanizomenon like cluster A, Cuspidothrix , Sphaerospermopsis and Chrysosporum ) whose taxonomy is still under revision. This review provides a thorough insight into the phylogeny, ecology, biogeography and toxicogenomics (cyr, sxt, and ana genes) of the five best documented “ Aphanizomenon ” species with special relevance for water risk assessment: Aphanizomenon flos-aquae , Aphanizomenon gracile , Cuspidothrix issatschenkoi , Sphaerospermopsis aphanizomenoides and Chrysosporum ovalisporum . Aph. flos-aquae , Aph. gracile and C. issatschenkoi have been reported from temperate areas only whereas S. aphanizomenoides shows the widest distribution from the tropics to temperate areas. Ch. ovalisporum is found in tropical, subtropical and Mediterranean areas. While all five species show moderate growth rates (0.1–0.4 day −1 ) within a wide range of temperatures (15–30 °C), Aph. gracile and A. flos-aquae can grow from around (or below) 10 °C, whereas Ch. ovalisporum and S. aphanizomenoides are much better competitors at high temperatures over 30 °C or even close to 35 °C. A. gracile has been confirmed as the producer of saxitoxins and cylindrospermopsin, C. issatschenkoi of anatoxins and saxitoxins and Ch. ovalisporum of cylindrospermopsin. The suspected cylindrospermopsin or anatoxin-a production of A. flos-aquae or microcystin production of S. aphanizomenoides is still uncertain. This review includes a critical discussion on the the reliability of toxicity reports and on the invasive potential of “ Aphanizomenon ” species in a climate change scenario, together with derived knowledge gaps and research needs. As a whole, this work is intended to represent a key reference for scientists and water managers involved in the major challenges of identifying, preventing and mitigating toxic Aphanizomenon blooms. [ABSTRACT FROM AUTHOR]
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- 2016
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4. First report of microcystin-producing Fischerella sp. (Stigonematales, Cyanobacteria) in tropical Australia.
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Cirés, Samuel, Alvarez-Roa, Carlos, Wood, Susanna A., Puddick, Jonathan, Loza, Virginia, and Heimann, Kirsten
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MICROCYSTINS , *STIGONEMATALES , *HEPATOTOXICOLOGY , *CYANOBACTERIAL toxins , *BACTERIA phylogeny - Abstract
A polyphasic study of four Stigonematales cyanobacteria from tropical Australia (Queensland) revealed production of the hepatotoxins microcystins (MC-LR, MC-LA, MC-LF, MC-FR and demethyl-MC-LR) by Fischerella sp. NQAIF311 isolated from a seasonal creek. Total microcystin content reached 43 μg g −1 dry weight. Phylogeny demonstrated high sequence similarities for 16S rRNA (99%), mcyE (97%) and mcyD (95%) genes with microcystin-producing Fischerella sp. CENA161 from Brazil. This is the first report of a cyanotoxin-producing Stigonematal in Australia. [ABSTRACT FROM AUTHOR]
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- 2014
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5. Multi-scale strategies for the monitoring of freshwater cyanobacteria: Reducing the sources of uncertainty
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Agha, Ramsy, Cirés, Samuel, Wörmer, Lars, Domínguez, José Antonio, and Quesada, Antonio
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FRESHWATER bacteria , *CYANOBACTERIAL blooms , *BIOTIC communities , *SPATIO-temporal variation , *NUCLEAR power plants , *MICROCYSTIS , *MICROCYSTINS , *MATRIX-assisted laser desorption-ionization - Abstract
Abstract: Cyanobacterial blooms are a frequent phenomenon in eutrophic freshwaters worldwide and are considered potential hazards to ecosystems and human health. Monitoring strategies based on conventional sampling often fail to cover the marked spatial and temporal variations in cyanobacterial distribution and fluctuating toxin concentrations inherent to cyanobacterial blooms. To deal with these problems, we employed a multi-scale approach for the study of a massive Microcystis bloom in Tajo River (Spain) utilizing 1) remote sensing techniques, 2) conventional water sampling and 3) analysis of chemotypical subpopulations. Tajo River at the study area is influenced by high temperatures waters diverted upstream from a nuclear power plant, the presence of a dam downstream and a high nutrient load, which provide optimal conditions for massive cyanobacterial proliferation. MERIS imagery revealed high Chl-a concentrations that rarely fell below 20 μg L−1 and moderate spatiotemporal variations throughout the study period (March–November 2009). Although the phytoplanktonic community was generally dominated by Microcystis, sampling points highly differed in cyanobacterial abundance and community composition. Microcystin (MC) concentrations were highly heterogeneous, varying up to 3 orders of magnitude among sampling points, exceeding in some cases WHO guideline values for drinking and also for recreational waters. The analysis of single colonies by MALDI-TOF MS revealed differences in the proportion of MC-producing colonies among points. The proportion of toxic colonies showed a highly significant linear correlation with total MC: biovolume ratio (r 2 = 0.9; p < 0.001), evidencing that the variability in toxin concentrations can be efficiently addressed by simple analysis of subpopulations. We propose implementing a multi-scale monitoring strategy that allows covering the spatiotemporal heterogeneities in both cyanobacterial distribution (remote sensing) and MC concentrations (subpopulation analysis) and thereby reduce the main sources of uncertainty in the assessment of the risks associated to bloom events. [Copyright &y& Elsevier]
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- 2012
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6. Cylindrospermopsin production and release by the potentially invasive cyanobacterium Aphanizomenon ovalisporum under temperature and light gradients
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Cirés, Samuel, Wörmer, Lars, Timón, Jesus, Wiedner, Claudia, and Quesada, Antonio
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CYANOBACTERIA , *APHANIZOMENON , *TEMPERATURE , *BACTERIAL toxins , *FIRE assay , *CHLOROPHYLL , *BODIES of water - Abstract
Abstract: The growth rates, production and release of the potent cytotoxin cylindrospermopsin (CYN) were studied in batch and semi-continuous cultures of Aphanizomenon ovalisporum (Cyanobacteria; Nostocaceae) strains UAM 289 and UAM 290 from Spain, over a gradient of temperatures (10–40°C) and irradiances (15–340μEm−2 s−1). This species grew in temperatures ranging from 15°C to 35°C as well as under all irradiances assayed. The growth rates ranged from 0.08d−1 to 0.35d−1, and the maximum growth was recorded above 30°C and at 60μEm−2 s−1. CYN was produced under all conditions where net growth occurred. Total CYN reached up to 6.4μgmg−1 dry weight, 2.4μgmm−3 biovolume, 190.6fgcell−1 and 0.5μgμg−1 chlorophyll a. Although CYN concentrations varied only 1.9-fold within the 15–30°C range, a drastic 25-fold decrease was observed at 35°C. The irradiance induced up to 4-fold variations, with maximum total CYN measured at 60μEm−2 s−1. An elevated extracellular CYN share ranging from 20% to 35% was observed during the exponential growth phase in most experiments, with extreme temperatures (15 and 35°C) being related to the highest release (63% and 58%, respectively) and without remarkable influence of irradiance. Growth did not have a direct influence on either CYN production or release throughout the entire range of experimental conditions. Our study demonstrates a strong and stable production and release of CYN by A. ovalisporum along field-realistic gradients of temperature and light, thus becoming a predictive tool useful for the management of water bodies potentially affected by this ecologically plastic cyanobacterium. [Copyright &y& Elsevier]
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- 2011
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7. First detection of cyanobacterial PSP (paralytic shellfish poisoning) toxins in Spanish freshwaters
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Wörmer, Lars, Cirés, Samuel, Agha, Ramsy, Verdugo, María, de Hoyos, Caridad, and Quesada, Antonio
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CYANOBACTERIAL toxins , *PARALYTIC shellfish poisoning , *FRESHWATER ecology , *BODIES of water , *MARINE plankton , *APHANIZOMENON , *MASS spectrometry , *SAXITOXIN - Abstract
Abstract: Presence of the paralytic shellfish toxins (PSTs) saxitoxin, neosaxitoxin, decarbamoyl saxitoxin and gonyautoxin-5 was analyzed by mass spectrometry in 41 Spanish freshwaters and 13 strains of potential PST-producing planktonic cyanobacteria. Toxins were detected in five waterbodies, but were absent from the isolated strains. PST containing samples belonged to the same geographical region (South Western Spain) and were most likely related to the presence of the genus Aphanizomenon. [Copyright &y& Elsevier]
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- 2011
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8. Importance of natural sedimentation in the fate of microcystins
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Wörmer, Lars, Cirés, Samuel, and Quesada, Antonio
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SEDIMENTATION & deposition , *MICROCYSTINS , *CYANOBACTERIAL toxins , *MICROCYSTIS , *FRESH water , *WATER temperature , *INTEGRITY - Abstract
Abstract: Sedimentation processes of microcystins (MCs), cyanobacterial toxins, were studied in three reservoirs located in Central Spain in which the cyanobacterial community was dominated by the genus Microcystis. MCs were detected in the sediment traps deployed in all reservoirs. In Santillana reservoir, MCs were identified in sediment traps even though they could not be found in the pelagial samples. In the other reservoirs studied, sedimentation rates for MC-containing particles during the bloom period ranged from 0.43 to 2.53mgm−2 d−1. Interestingly, this very high sedimentation of toxic biomass is not exclusively related to decaying blooms or autumnal sedimentation due to a drop in water temperature. Instead, it seems that MC-containing colonies may be settling constantly during the bloom period and we were able to estimate that during such a Microcystis dominated bloom, around 4.5% of pelagial MCs may be involved in sedimentation. Further, these settling colonies seem to maintain good cell integrity and MCs seem not to be excreted massively. A certain loss of toxin content along the vertical settling may be attributed to minor losses due to cell lysis or to variations in MC cell quota explained by reduced production or internal consumption. Our results for the first time establish specific settling rates for MC-containing particles in freshwaters and definitely identify sedimentation as a major destination for these toxins. These data may contribute to improve managing strategies concerning risks associated with MCs. [ABSTRACT FROM AUTHOR]
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- 2011
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9. Cylindrospermopsin is not degraded by co-occurring natural bacterial communities during a 40-day study
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Wormer, Lars, Cirés, Samuel, Carrasco, David, and Quesada, Antonio
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BACTERIA , *BIODEGRADATION , *TOXINS , *BODIES of water , *FORMIC acid - Abstract
Abstract: Biodegradation of cylindrospermopsin produced by Aphanizomenon ovalisporum UAM 290 was studied. In the 40-day degradation experiment conducted, bacterial communities from two waterbodies with and without previous exposure to the toxin were used. Further, and in order to study the potential effect of other organic substrates on the degradation of cylindrospermopsin, three different sources of cylindrospermopsin were used: toxic extracts obtained by methanolic extraction and by ultrasonication in water with 5% formic acid and 0.9% NaCl and toxin naturally present in the spent media of an Aphanizomenon ovalisporum culture. Despite active growth of the bacterial population and consumption of DOC in presence of the toxic extracts, no degradation of cylindrospermopsin could be observed during the 40-day period. Considering that cylindrospermopsin is abundant in the extracellular fraction and that photodegradation in the field seems to be limited, a lack of efficient biodegradation as observed in our study could be of greatest importance and further explain the accumulation of this toxin in the dissolved fraction of the waterbodies investigated. [Copyright &y& Elsevier]
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- 2008
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10. Overview of toxic cyanobacteria and cyanotoxins in Ibero-American freshwaters: Challenges for risk management and opportunities for removal by advanced technologies.
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Munoz, Macarena, Cirés, Samuel, de Pedro, Zahara M., Colina, José Ángel, Velásquez-Figueroa, Yineth, Carmona-Jiménez, Javier, Caro-Borrero, Angela, Salazar, Anthony, Santa María Fuster, Mónica-Cecilia, Contreras, David, Perona, Elvira, Quesada, Antonio, and Casas, Jose A.
- Abstract
The increasing occurrence of cyanobacterial blooms worldwide represents an important threat for both the environment and public health. In this context, the development of risk analysis and management tools as well as sustainable and cost-effective treatment processes is essential. The research project TALGENTOX, funded by the Ibero-American Science and Technology Program for Development (CYTED-2019), aims to address this ambitious challenge in countries with different environmental and social conditions within the Ibero-American context. It is based on a multidisciplinary approach that combines ecology, water management and technology fields, and includes research groups from Chile, Colombia, Mexico, Peru and Spain. In this review, the occurrence of toxic cyanobacteria and cyanotoxins in freshwaters from these countries are summarized. The presence of cyanotoxins has been confirmed in all countries but the information is still scarce and further monitoring is required. In this regard, remote sensing or metagenomics are good alternatives at reasonable cost. The risk management of freshwaters from those countries considering the most frequent uses (consumption and recreation) has been also evaluated. Only Spain and Peru include cyanotoxins in its drinking water legislation (only MC-LR) and thus, there is a need for regulatory improvements. The development of preventive strategies like diminishing nutrient loads to aquatic systems is also required. In the same line, corrective measures are urgently needed especially in drinking waters. Advanced Oxidation Processes (AOPs) have the potential to play a major role in this scenario as they are effective for the elimination of most cyanotoxins classes. The research on the field of AOPs is herein summarized considering the cost-effectiveness, environmental character and technical applicability of such technologies. Fenton-based processes and photocatalysis using solar irradiation or LED light represent very promising alternatives given their high cost-efficiency. Further research should focus on developing stable long-term operation systems, addressing their scale-up. Unlabelled Image • Freshwater cyanobacteria and cyanotoxins occurrence in five Iberoamerican countries. • Risk assessment and decision-making systems in Ibero-America are reviewed. • AOPs offer a good removal efficiency for most classes of cyanotoxins. • Heterogeneous Fenton with magnetic iron minerals represents a promising low-cost alternative. • Photo-assisted processes using solar or LED light are also suitable cost-effective candidates. [ABSTRACT FROM AUTHOR]
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- 2021
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11. Ecotoxicity assessment of microcystins from freshwater samples using a bioluminescent cyanobacterial bioassay.
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González-Pleiter, Miguel, Cirés, Samuel, Wörmer, Lars, Agha, Ramsy, Pulido-Reyes, Gerardo, Martín-Betancor, Keila, Rico, Andreu, Leganés, Francisco, Quesada, Antonio, and Fernández-Piñas, Francisca
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MICROCYSTINS , *BIOLOGICAL assay , *BIOLUMINESCENCE , *ANABAENA , *TOXICITY testing , *FRESH water - Abstract
The hepatotoxic cyanotoxins microcystins (MCs) are emerging contaminants naturally produced by cyanobacteria. Yet their ecological role remains unsolved, previous research suggests that MCs have allelopathic effects on competing photosynthetic microorganisms, even eliciting toxic effects on other freshwater cyanobacteria. In this context, the bioluminescent recombinant cyanobacterium Anabaena sp. PCC7120 CPB4337 (hereinafter Anabaena) was exposed to extracts of MCs. These were obtained from eight natural samples from freshwater reservoirs that contained MCs with a concentration range of 0.04–11.9 μg MCs L−1. MCs extracts included the three most common MCs variants (MC-LR, MC-RR, MC-YR) in different proportions (MC-LR: 100–0%; MC-RR: 100–0%; MC-YR: 14.2–0%). The Anabaena bioassay based on bioluminescence inhibition has been successfully used to test the toxicity of many emerging contaminants (e.g., pharmaceuticals) but never for cyanotoxins prior to this study. Exposure of Anabaena to MCs extracts induced a decrease in its bioluminescence with effective concentration decreasing bioluminescence by 50% ranging from 0.4 to 50.5 μg MC L−1 in the different samples. Bioluminescence responses suggested an interaction between MCs variants which was analyzed via the Additive Index method (AI), indicating an antagonistic effect (AI < 0) of MC-LR and MC-RR present in the samples. Additionally, MC extracts exposure triggered an increase of intracellular free Ca2+ in Anabaena. In short, this study supports the use of the Anabaena bioassay as a sensitive tool to assess the presence of MCs at environmentally relevant concentrations and opens interesting avenues regarding the interactions between MCs variants and the possible implication of Ca2+ in the mode of action of MCs towards cyanobacteria. • Bioluminescence of a recombinant cyanobacterium decreased after exposure to microcystins. • Anabaena CPB4337 bioassay is sensitive to environmental concentrations of microcystins. • Intracellular free Ca2+ increased in the cyanobacterium exposed to microcystins. • Additive index suggests antagonistic effects between microcystin variants MC-LR and MC-RR. [ABSTRACT FROM AUTHOR]
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- 2020
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12. Effects of harmful cyanobacteria on the freshwater pathogenic free-living amoeba Acanthamoeba castellanii
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Urrutia-Cordero, Pablo, Agha, Ramsy, Cirés, Samuel, Lezcano, María Ángeles, Sánchez-Contreras, María, Waara, Karl-Otto, Utkilen, Hans, and Quesada, Antonio
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CYANOBACTERIA , *PATHOGENIC bacteria , *WATER pollution , *ACANTHAMOEBA castellanii , *POPULATION dynamics , *PUBLIC health , *MICROCYSTINS , *CONFOCAL microscopy - Abstract
Abstract: Grazing is a major regulating factor in cyanobacterial population dynamics and, subsequently, considerable effort has been spent on investigating the effects of cyanotoxins on major metazoan grazers. However, protozoan grazers such as free-living amoebae can also feed efficiently on cyanobacteria, while simultaneously posing a major threat for public health as parasites of humans and potential reservoirs of opportunistic pathogens. In this study, we conducted several experiments in which the freshwater amoeba Acanthamoeba castellanii was exposed to pure microcystin-LR (MC-LR) and six cyanobacterial strains, three MC-producing strains (MC-LR, MC-RR, MC-YR, MC-WR, [Dha7] MC-RR) and three strains containing other oligopeptides such as anabaenopeptins and cyanopeptolins. Although the exposure to high concentrations of pure MC-LR yielded no effects on amoeba, all MC-producing strains inflicted high mortality rates on amoeba populations, suggesting that toxic effects must be mediated through the ingestion of toxic cells. Interestingly, an anabaenopeptin-producing strain caused the greatest inhibition of amoeba growth, indicating that toxic bioactive compounds other than MCs are of great importance for amoebae grazers. Confocal scanning microscopy revealed different alterations in amoeba cytoskeleton integrity and as such, the observed declines in amoeba densities could have indeed been caused via a cascade of cellular events primarily triggered by oligopeptides with protein-phosphatase inhibition capabilities such as MCs or anabaenopeptins. Moreover, inducible-defense mechanisms such as the egestion of toxic, MC-producing cyanobacterial cells and the increase of resting stages (encystation) in amoebae co-cultivated with all cyanobacterial strains were observed in our experiments. Consequently, cyanobacterial strains showed different susceptibilities to amoeba grazing which were possibly influenced by the potentiality of their toxic secondary metabolites. Hence, this study shows the importance of cyanobacterial toxicity against amoeba grazing and, that cyanobacteria may contain a wide range of chemical compounds capable of negatively affect free-living, herbivorous amoebae. Moreover, this is of high importance for understanding the interactions and population dynamics of such organisms in aquatic ecosystems. [Copyright &y& Elsevier]
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- 2013
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13. Degradation of widespread cyanotoxins with high impact in drinking water (microcystins, cylindrospermopsin, anatoxin-a and saxitoxin) by CWPO.
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Munoz, Macarena, Nieto-Sandoval, Julia, Cirés, Samuel, de Pedro, Zahara M., Quesada, Antonio, and Casas, Jose A.
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SHELLFISH , *DRINKING water , *CYANOBACTERIAL toxins - Abstract
The occurrence of harmful cyanobacterial blooms has unabated increased over the last few decades, posing a significant risk for public health. In this work, we investigate the feasibility of catalytic wet peroxide oxidation (CWPO) promoted by modified natural magnetite (Fe 3 O 4 -R400/H 2 O 2), as an inexpensive, simple-operation and environmentally-friendly process for the removal of the cyanotoxins that show the major impact on drinking water: microcystins (MC-LR and MC-RR), cylindrospermopsin (CYN), anatoxin- a (ATX) and saxitoxin (STX). The performance of the system was evaluated under ambient conditions and circumneutral pH (pH 0 = 5) using relevant cyanotoxin concentrations (100–500 μg L−1). The nature of the cyanotoxins determined their reactivity towards CWPO, which decreased in the following order: MC-RR > CYN > MC-LR ≫ ATX > STX. In this sense, microcystins and CYN were completely removed in short reaction times (1–1.5 h) with a low catalyst concentration (0.2 g L−1) and the stoichiometric amount of H 2 O 2 (2–2.6 mg L−1), while only 60–80% conversion was achieved with ATX and STX in 5 h. In these cases, an intensification of the operating conditions (1 g L−1 catalyst and up to 30 mg H 2 O 2 L−1) was required to remove both toxins in 1 h. The impact of the main components of freshwaters i.e. natural organic matter (NOM) and several inorganic ions (HCO 3 −, HPO 4 2-, SO 4 2-) on the performance of the process was also investigated. Although the former led to a partial inhibition of the reaction due to HO· scavenging and catalyst coating, the latter did not show any remarkably effect, and the versatility of the process was finally confirmed in a real surface water. To further demonstrate the effectiveness of the catalytic system, the toxicity of both the initial cyanotoxins and the resulting CWPO effluents was measured with the brine shrimp Artemia salina. Remarkably, all CWPO effluents were non-toxic at the end of the treatment. Image 1 • The catalytic system Fe 3 O 4 -R400/H 2 O 2 is effective for the removal of cyanotoxins. • The reactivity of cyanotoxins decreased in the order: MC-RR > CYN > MC-LR ≫ ATX > STX. • The versatility of the process was demonstrated in different water matrices. • Oxidation effluents were non-toxic to the brine shrimp Artemia salina. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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14. Unmasking the identity of toxigenic cyanobacteria driving a multi-toxin bloom by high-throughput sequencing of cyanotoxins genes and 16S rRNA metabarcoding.
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Casero, María Cristina, Velázquez, David, Medina-Cobo, Miguel, Quesada, Antonio, and Cirés, Samuel
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Abstract Cyanobacterial harmful algal blooms (CyanoHABs) are complex communities that include coexisting toxic and non-toxic strains only distinguishable by genetic methods. This study shows a water-management oriented use of next generation sequencing (NGS) to specifically pinpoint toxigenic cyanobacteria within a bloom simultaneously containing three of the most widespread cyanotoxins (the hepatotoxins microcystins, MCs; and the neurotoxins anatoxin- a , ATX, and saxitoxins, STXs). The 2013 summer bloom in Rosarito reservoir (Spain) comprised 33 cyanobacterial OTUs based on 16S rRNA metabarcoding, 7 of which accounted for as much as 96.6% of the community. Cyanotoxins and their respective biosynthesis genes were concurrently present throughout the entire bloom event including: MCs and mcyE gene; ATX and anaF gene; and STXs and sxtI gene. NGS applied to amplicons of cyanotoxin-biosynthesis genes unveiled 6 toxigenic OTUs, comprising 3 involved in MCs production (Planktothrix agardhii and 2 Microcystis spp.), 2 in ATX production (Cuspidothrix issatschenkoi and Phormidium/Tychonema spp.) and 1 in STXs production (Aphanizomenon gracile). These toxigenic taxa were also present in 16S rRNA OTUs list and their relative abundance was positively correlated with the respective toxin concentrations. Our results point at MC-producing P. agardhii and ATX-producing C. issatschenkoi as the main contributors to the moderate toxin concentrations observed, and suggest that their distribution in Southern Europe is broader than previously thought. Our findings also stress the need for monitoring low-abundance cyanobacteria (<1% relative abundance) in cyanotoxicity studies, and provide novel data on the presence of picocyanobacteria and potentially ATX-producing benthic taxa (e.g., Phormidium) in deep thermally-stratified water bodies. This study showcases a straightforward use of amplicon metagenomics of cyanotoxin biosynthesis genes in a multi-toxin bloom thus illustrating the broad applicability of NGS for water management in risk-oriented monitoring of CyanoHABs. Graphical abstract Unlabelled Image Highlights • Next-generation sequencing applied to risk-oriented monitoring of cyanotoxic blooms • Combined metagenomics of 16S rRNA and cyanotoxin-biosynthesis genes • Microcystins, anatoxin- a and saxitoxins simultaneously present in a single bloom • Six toxigenic OTUs: three with mcyE gene, two with anaF gene, one with sxtI gene • Toxigenic Planktothrix agardhii and Cuspidothrix issatschenkoi in Southern Europe [ABSTRACT FROM AUTHOR]
- Published
- 2019
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15. Characterization of saxitoxin production and release and phylogeny of sxt genes in paralytic shellfish poisoning toxin-producing Aphanizomenon gracile.
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Casero, María Cristina, Ballot, Andreas, Agha, Ramsy, Quesada, Antonio, and Cirés, Samuel
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SAXITOXIN , *ALGAE , *PHYLOGENY , *PARALYTIC shellfish poisoning , *APHANIZOMENON , *FRESHWATER microbiology , *NEUROTOXIC agents , *BACTERIAL cultures - Abstract
The freshwater cyanobacterium Aphanizomenon gracile is one of the most widely distributed producers of the potent neurotoxins saxitoxin (STX) and its derivatives (paralytic shellfish poisoning toxins, PSP toxins). However, the phylogeny of STX biosynthesis genes and the regulation of STX production and release remain poorly studied in the genus Aphanizomenon. In this study, two A. gracile strains from Spanish freshwaters were grown in semi-continuous cultures under three temperatures (15, 20 and 28 °C) and their STX production and release were determined by Enzyme-Linked ImmunoSorbent Assay (ELISA). STX production was stable along the temperature range, with 1.4-2.3-fold shifts in biomass-standardized STX contents, and maxima of 0.22 µg equivalent STX mg-1 dry weight 15.3 fg equiv STX cell-1 and 15.1 µg equiv STX mg-1 Chl a. The extracellular fraction was remarkably high (13.6-35.3%), not clearly affected by temperature but with nitrate-depleted medium (BG110) inducing a 2-fold increase in extracellular content. STX production and release were not directly related to growth rates. The 16S rRNA phylogenetic analyses in sixteen A. gracile strains from Spanish and German freshwaters showed that PSP-producing A. gracile grouped within a monospecific and highly supported cluster, together with PSP-producing Aphanizomenon sp. NH-5 and clearly separated from a monospecific Aphanizomenon flos-aquae cluster. The sixteen A. gracile strains formed also monospecific and highly supported clusters for PSP-biosynthesis genes (sxtG, sxtI, sxtH and sxtX) together with Aphanizomenon sp. NH-5. This study evidences an elevated extracellular proportion of STX in A. gracile with importance for risk assessment, and supports the identification of Aphanizomenon sp. NH-5 as A. gracile. [ABSTRACT FROM AUTHOR]
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- 2014
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16. Biomass pre-treatments of the N2-fixing cyanobacterium Tolypothrix for co-production of methane.
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Velu, Chinnathambi, Karthikeyan, Obulisamy Parthiba, Brinkman, Diane L., Cirés, Samuel, and Heimann, Kirsten
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BIOMASS , *BIOGAS production , *METHANE , *FREEZE-thaw cycles , *ANAEROBIC digestion , *CYANOBACTERIAL toxins , *METHANE as fuel - Abstract
Tolypothrix , a self-flocculating, fast growing, CO 2 and nitrogen-fixing cyanobacterium, can be cultivated in nutrient-poor ash dam waters of coal-fired power stations, converting CO 2 emissions into organic biomass. Therefore, the biomass of Tolypothrix sp. is a promising source for bio-fertiliser production, providing micro- and macronutrients. Energy requirements for production could potentially be offset via anaerobic digestion (AD) of the produced biomass, which may further improve the efficiency of the resulting biofertilizer. The aim of this study was to evaluate the effectiveness of pre-treatment conditions and subsequent methane (CH 4) production of Tolypothrix under out-door cultivation conditions. Pre-treatments on biogas and methane production for Tolypothrix sp. biomass investigated were: (1) thermal at 95 °C for 10 h, (2) hydrothermal by autoclave at 121 °C at 1013.25 hPa for 20 min, using a standard moisture-heat procedure, (3) microwave at an output power of 900 W and an exposure time of 3 min, (4) sonication at an output power of 10 W for 3.5 h at 10 min intervals with 20 s breaks and (5) freeze-thaw cycles at −80 °C for 24 h followed by thawing at room temperature. Thermal, hydrothermal and sonication pre-treatments supported high solubilization of organic compounds up to 24.40 g L−1. However, higher specific CH 4 production of 0.012 and 0.01 L CH 4 g−1 volatile solids added. was achieved for thermal and sonic pre-treatments, respectively. High N - and low C -content of the Tolypothrix biomass affected CH 4 recovery, while pre-treatment accelerated production of volatile acids (15.90 g L−1) and ammonia- N -accumulation (1.41 g L−1), leading to poor CH 4 yields. Calculated theoretical CH 4 yields based on the elemental composition of the biomass were ~55% higher than actual yields. This highlights the complexity of interactions during AD which are not adequately represented by elemental composition. [Display omitted] • Pretreatment can improve biogas production especially for algae and cyanobacteria. • Sonication showed highest solubilization of organic compounds with a COD of 15.02 g L−1. • Thermal hydrolysis is optimal for Tolypothrix biomass giving high CH 4 yields (126.27 mL g−1 VS removed). • CH 4 yields were high despite low C/N 9.31, high VFA 9.57 g L−1 and ammonium-N 1.08 g L−1 contents. • AD system physico-chemical characteristics foiled investigated prediction accuracy. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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