Estudos sobre a adsorção do corante reativo preto 5 de solução aquosa  usando zeólita de  cinzas de carvão / Studies on the adsorption of reactive black 5 dye of aqueous solution using zeolite of the coal ashes

Patricia Cunico Ferreira

27 April 2011

Nesta dissertação foi estudada a zeólita sintetizada a partir de cinzas leves de carvão como um potencial adsorvente para a remoção de corante reativo preto 5 (RP5). Ensaios cinéticos e de equilíbrio foram realizados visando obter-se as melhores condições para a adsorção deste corante, e verificou-se a influência dos seguintes parâmetros: efeito do tempo de contato, concentração inicial do corante, dose do adsorvente, pH da solução aquosa, adição dos sais NaCl e Na2SO4 e temperatura. O tempo de equilíbrio foi alcançado após 420 min. Os dados de adsorção foram ajustados melhor ao modelo cinético de pseudo-segunda-ordem. Para o sistema corante/adsorvente foi aplicado o modelo de isoterma de adsorção de Langmuir, apresentando capacidade de adsorção máxima de 0,685 mg g-1. Os dados experimentais mostraram uma alta porcentagem de remoção de 47,7 a 88,1% de RP5 sobre a zeólita. A alta porcentagem indicou que o material zeolítico apresenta potencial para ser usado como adsorvente na remoção de corantes azo reativo de indústrias têxteis. Os parâmetros termodinâmicos foram avaliados e demonstraram que o processo de adsorção do RP5 sobre a zeólita é espontâneo e exotérmico. Os experimentos adicionando os sais foram realizados para uma melhor simulação das condições reais do efluente. Os resultados mostraram que o equilíbrio de adsorção do RP5 sobre a zeólita na presença de sais foram alcançados em um tempo menor e que quanto maior a concentração dos sais na solução, maior a capacidade de adsorção. O resultado obtido na avaliação da toxicidade pelo microcrustáceo Daphnia similis, o tratamento de adsorção com zeólita se mostrou extremamente favorável5 reduzindo a carga tóxica e cor do efluente aquoso. / In this dissertation was studied the zeolite synthesized from coal fly ash as a potential adsorbent for the removal of reactive Black 5 dye (RP5). Equilibrium and kinetic experiments were conducted to obtain the best conditions for the adsorption of this dye, and observed the influence of the following parameters: effect of contact time, initial dye concentration, adsorbent dose, pH of the aqueous solution, addition of NaCl and Na2SO4 and temperature. The equilibrium time was reached after 420 min. The adsorption data were fitted better by a pseudo-second-order. For the dye / adsorbent system was applied to the model of Langmuir adsorption isotherm, with maximum adsorption capacity of 0.685 mg g-1. The experimental data showed a high percentage of removal from 47.7 to 88.1% of RP5 on the zeolite. The high percentage indicates that the zeolitic material has a potential to be used as adsorbent in the removal of azo dye reactive textile industries. The thermodynamic parameters were evaluated and showed that the adsorption process of RP5 on the zeolite is spontaneous and exothermic. The experiments were performed by adding salts to better simulate actual conditions in the effluent. The results showed that the adsorption equilibrium of reactive black 5 on the zeolite in the presence of salts were achieved in a shorter time and that the higher the concentration of salts in solution, the higher the adsorption capacity. The result obtained in the evaluation of toxicity by microcrustacean Daphnia similis treatment with zeolit adsorption was extremely favorable, reducing the toxic load of waste water and color.

cinza leve de carvão

corante

Daphnia similis

reativo preto 5

zeólita

Daphina similis

dye

fly ash

reactive black 5

zeolit

Interakce mezi mikrosporidiálními parazity a hostitelskou perloočkou Daphnia pulex v jednoduchém prostředí lesní tůně / Interactions between microsporidial parasites and the host cladoceran Daphnia pulex in a simple environment of a forest pond

Krylová, Pavla

January 2017

Among the most common endoparasites who infected small crustacean Daphnia pulex include microsporidia. These intracellular parasites appear to look like a simple single- celled organisms, but their cell structure and lifecycle prove the opposite. Microsporidia are species-specific. Although they infected most organisms of the animal kingdom, they are not yet sufficiently understood. This theses is inderectly followed up to the studies of waterflea Daphnia longispina and microsporidia Berwaldia schaefernai from the dam reservoirs The aim was to analyze closer microsporidian infection on host Daphnia pulex in a forest pool with simple enviroment, which included monitoring time dynamics of Daphnia population and identification infection caused by microsporidia Berwaldia singularis and yet unknown microsporidia labor-marked "HVH". Laboratory work included determination of zooplankton and parasites, calculation of prevalence, laboratory experiments with transmission of microsporidian infection between healthy and infected flea culture or by isolated spores. Genetic analysis of aquatic invertebrates from the forest pool, especially larvae of mite and mosquitos, helped make closer microsporidian life cycle and hypothesis about secondary hosts, for the presence of pathogen DNA using specific DNA...

Particle Size, Surface Charge and Concentration Dependent Ecotoxicity of Three Organo-Coated Silver Nanoparticles: Comparison Between General Linear Model-Predicted and Observed Toxicity

Silva, Thilini, Pokhrel, Lok R., Dubey, Brajesh, Tolaymat, Thabet M., Maier, Kurt J., Liu, Xuefeng

15 January 2014

Mechanism underlying nanotoxicity has remained elusive. Hence, efforts to understand whether nanoparticle properties might explain its toxicity are ongoing. Considering three different types of organo-coated silver nanoparticles (AgNPs): citrate-coated AgNP, polyvinylpyrrolidone-coated AgNP, and branched polyethyleneimine-coated AgNP, with different surface charge scenarios and core particle sizes, herein we systematically evaluate the potential role of particle size and surface charge on the toxicity of the three types of AgNPs against two model organisms, Escherichia coli and Daphnia magna. We find particle size, surface charge, and concentration dependent toxicity of all the three types of AgNPs against both the test organisms. Notably, Ag+ (as added AgNO3) toxicity is greater than each type of AgNPs tested and the toxicity follows the trend: AgNO3>BPEI-AgNP>Citrate-AgNP>PVP-AgNP. Modeling particle properties using the general linear model (GLM), a significant interaction effect of primary particle size and surface charge emerges that can explain empirically-derived acute toxicity with great precision. The model explains 99.9% variation of toxicity in E. coli and 99.8% variation of toxicity in D. magna, revealing satisfactory predictability of the regression models developed to predict the toxicity of the three organo-coated AgNPs. We anticipate that the use of GLM to satisfactorily predict the toxicity based on nanoparticle physico-chemical characteristics could contribute to our understanding of nanotoxicology and underscores the need to consider potential interactions among nanoparticle properties to explaining nanotoxicity.

Daphnia magna

Escherichia coli

general linear model

nanoparticle characteristics

nanotoxicology

organo-coated silver nanoparticles

Environmental Health

Biostatistics and Epidemiology

Rearing Temperature and Fatty Acid Supplementation Jointly Affect Lipid Fluorescence Polarization and Heat Tolerance in Daphnia

Martin-Creuzburg, D., Coggins, B. L., Ebert, D., Yampolsky, L. Y.

01 July 2019

The homeoviscous adaptation hypothesis states that the relative abundance of polyunsaturated fatty acids (PUFAs) in membrane phospholipids of ectothermic organisms decreases with increasing temperatures to maintainvital membrane properties. We reared Daphnia magna at 15°, 20°, and 25°C and increasing dietary concentrations of the long-chain PUFA eicosapentaenoic acid (EPA) to test the hypothesis that the well-documented increase in heat tolerance of high-temperature-reared Daphnia is due to a reduction in body PUFA concentrations. Heat tolerance was assessed by measuring the time to immobility at a lethally high temperature (Timm at 37°C), and whole body lipid fluorescence polarization (FP) was used as an estimate of membrane fluidity. At all rearing temperatures, EPA supplementation resulted in an increase in the relative abundance of EPA in body tissues, but only at 15° and 25°C did this result in a decrease in heat tolerance, and only at 20°C was this associated with an increase in membrane fluidity (i.e., decrease in FP). Overall, however, the degree of tissue fatty acid unsaturation correlated well with heat tolerance and FP. Our results support the homeoviscous adaptation hypothesis by showing that cold-reared Daphnia accumulate PUFAs within their body tissues and thus are more susceptible to heat than hot-reared Daphnia accumulating fewer PUFAs. However, our data also point out that further studies are required that elucidate the complex relationships between PUFA supply, membrane fluidity, and heat tolerance in ectotherms.

acclimation

Daphnia magna

eicosapentaenoic acid

fluorescence polarization

heat tolerance

membrane fluidity

polyunsaturated fatty acids

temperature

Biological Sciences

The Importance of Dissolved Organic Matter Source on the Survival and Growth of Juvenile Daphnia

Wilkins, Keiko W.

18 January 2020

No description available.

Freshwater Ecology

Limnology

Biology

Ecology

Browning

zooplankton

Dissolved Organic Matter

Daphnia

phytotoxicity

Amur honeysuckle

red maple

invasive species

Effects of Respiratory Perturbations on Aging and Healthspan in Daphnia magna

Ekwudo, Millicent Nkiruka

01 May 2021

Aging is a degenerative process characterized by a decline in physiological functions and cellular activities. Environmental and pharmacological interventions affecting longevity pathways have been extensively studied in model organisms. This study investigated the effect of chronic mild intermittent hypoxia (4 mg O2/L) or mild mitochondrial uncoupling with three doses of 0 (control), 0.1, 1, and 5 μM of 2,4-Dinitrophenol (DNP), on life history and gene expression in four clones of Daphnia magna. Interestingly, clones from intermittent ponds displayed better tolerance to hypoxia and DNP. Although neither treatments extended longevity, hypoxia increased fecundity and body size, and decreased food consumption and respiration rate. We uncovered 12 candidate genes that were differentially expressed in hypoxia-tolerant and sensitive clones in response to hypoxia. Unexpectedly, DNP increased fecundity and mitochondrial membrane potential without affecting food intake. This work opens up an opportunity for genomic determination of the potentially important phenotypes in a model organism.

Daphnia magna

Hypoxia

Healthspan

2

4-Dinitrophenol

Lifespan

RNA-Seq

Ecology and Evolutionary Biology

Genetics and Genomics

An Evaluation of Coating Material Dependent Toxicity of Silver Nanoparticles

Silva, Thilini Upekshika

01 December 2011

Silver nanoparticles (AgNPs) synthesized using numerous types of coating materials may exhibit different toxicity effects. The study evaluated coating material dependent toxicity by selecting 3 types of AgNP synthesis methods with different coating materials (citrate, polyvinyl pyrrolidone, and branched polyethyleneimine, coated AgNPs as citrate-AgNPs, PVP-AgNPs, and BPEI-AgNPs respectively). Two acute aquatic toxicity tests were performed; 48hr D. magna and MetPLATE E. coli toxicity tests. Significantly different toxicity effects were observed in D. magna test exhibiting lethal median concentrations (LC50) for citrate-AgNPs, PVP-AgNPs, and BPEI AgNPs respectively as, 2.7, 11.2, and 0.57μg/L. Median inhibitory concentrations (EC50) for MetPLATE tests were 1.27, 1.73, and 0.31mg/L respectively with significant different toxicity effects. Silver ion fractions were detected in the range of 2.4-19.2% in tested NP suspensions. Study suggests the toxicity effects are due to the cumulative action of ionic and nanoparticle fractions in the suspensions.

Median effective concentration

Silver nanoparticles

Median lethal concentration

E. coli

MetPLATE

Daphnia

Environmental Health

Life Sciences

Temperature and Polyunsaturated Fatty Acid’s Effect on Daphnia magna Reproduction

Albright, Mark

01 December 2018

Organisms adapt to their environments by adjusting their biochemistry and physiology; such adaptation is limited by resource availability and physiological constraints. The freshwater crustacean Daphnia magna inhabits a wide range of environments and must survive and reproduce within a range of temperatures. One limit to low-temperature adaptation is thought to be the availability of unsaturated fatty acids necessary to maintain proper fluidity of cellular membranes. D. magna maintained at 10 ºC on a diet poor in unsaturated fatty acids have been observed to produce clutches that fail to develop. However, this has not been observed on a diet rich in unsaturated fatty acids or at a higher temperature regardless of diet. Clonal variation is commonly seen in D. magna life history traits, including heat tolerance, and was also investigated. D. magna were kept at two temperatures and fed two algal diets that differ in unsaturated fatty acid content. To investigate the role of fatty acid composition on the reproductive success of D. magna, fatty acids were extracted from adults and eggs. Of the twenty-one clones studied, no clonal variation was seen in the ability to produce successful clutches at 10 °C on a diet poor in unsaturated fatty acids. Gas chromatography revealed significant differences in 20-carbon fatty acids and suggest a parent-offspring conflict over a limited resource.

Daphnia magna

Lipids

Polyunsaturated fatty acids

Reproduction

Temperature tolerance

Biochemistry

Genetics

Other Animal Sciences

Terrestrial and Aquatic Ecology

Intelligent High-Throughput Intervention Testing Platform in Daphnia

Cho, Yongmin, Jonas-Closs, Rachael A., Yampolsky, Lev Y., Kirschner, Marc W., Peshkin, Leonid

01 March 2022

We present a novel platform for testing the effects of interventions on the life- and healthspan of a short-lived freshwater organism with complex behavior and physiology-the planktonic crustacean Daphnia magna. Within this platform, dozens of complex behavioral features of both routine motion and response to stimuli are continuously quantified over large synchronized cohorts via an automated phenotyping pipeline. We build predictive machine-learning models calibrated using chronological age and extrapolate onto phenotypic age. We further apply the model to estimate the phenotypic age under pharmacological perturbation. Our platform provides a scalable framework for drug screening and characterization in both life-long and instant assays as illustrated using a long-term dose-response profile of metformin and a short-term assay of well-studied substances such as caffeine and alcohol.

daphnia magna (physiology)

intervention testing platform

long-term culture

machine learning

phenotypic age

phenotyping

animals

Biological Sciences

Combined Effects of Polycyclic Aromatic Hydrocarbons and Ultraviolet Light on Benthic and Pelagic Macroinvertebrates

Chapman, Abigail L.

05 1900

Crude oil commonly enters freshwater aquatic ecosystems as thin sheens forming on the water surface. Oil contains mixtures of toxic compounds called polycyclic aromatic hydrocarbons (PAHs), some of which are known to be photodynamic, increasing toxicity when combined with ultraviolet radiation. Benthic macroinvertebrate communities are commonly utilized as bioindicators, and as such rely on abundant data in literature concerning benthic macroinvertebrates' relative tolerances to a wide range of pollutants. A series of 10 plastic traps, half of which were filtered from UV radiation, were deployed in an urban pond for 27 days to determine colonization preferences of benthic macroinvertebrates to UV exposure. Results of this in situ experiment indicated that the majority of aquatic insects collected from traps inhabited the UV exposed treatment group, particularly the nonbiting midge, Chironomidae. A series of bioassays were then completed to investigate the sensitivities of a Chironomidae species to thin sheens of crude oil in the presence and absence of UV radiation. All bioassays were conducted using 10 day old Chironomus dilutus larvae cultured in the lab. The series of C. dilutus bioassays were all conducted under the same water quality parameters, temperatures, and oil sheen dosing methods, under a 16:8 photoperiod and exposed to 16 h UV per day. Five replicates (n = 20) were loaded into 350 mL glass crystallizing dishes and exposed to four treatments for 96 hours: no UV/with sheen, with UV/no sheen, both UV and oil sheen, and a control. Three assays with 175 mL water volume were completed, one with no sediment, one with silica sand, and one with fine sand. Sediment type had a significant effect on mortality (p < 0.0001), but significant effects of UV or PAHs were not found. Two more C. dilutus assays were completed with identical parameters as the latter two with sediment, except a decreased water volume of 90 mL was used to bring the sheen closer to sediment. There was a significant effect of PAHs on mortality (p = 0.0003), however, no clear trend showing PAHs driving mortality. Results showed no significant effects of UV, sediment type, or relationship between UV and PAHs. A final bioassay was completed to compare phototoxic effects of PAHs on pelagic organisms with benthic organisms. This bioassay used test species Daphnia magna, for a 48 h exposure period with five replicates (n = 10), 8 h UV exposure and 16:8 photoperiod. All individuals in the control group and UV only group exhibited 0% mortality, and with sheen/with UV treatment group resulted in 100% mortality following the 48 h exposure. The results of the D. magna exposure showed significant effects of PAHs (p < 0.0001), UV (p = 0.037), and photoinduced toxicity (p = 0.024), and were consistent with similar bioassays in the literature. This study suggests that C. dilutus are at low risk to photo-induced oil sheen toxicity.

PAH

Polycyclic Aromatic Hydrocarbons

UV

Radiation

Chironomidae

Insects

Aquatic

Toxicology

Chironomus

Daphnia

Thin Sheen

Oil

Ultraviolet

Biology, General