Global ETD Search

171	Quantificação de metais potencialmente tóxicos em mexilhão dourado (Limnoperna fortunei) por espectrometria de absorção atômica com fonte contínua e alta resolução empregando amostragem direta de sólidos / Silva, Ana Caroline Soncin January 2016 (has links) Orientador: Mirian Cristina dos Santos / Resumo: O mexilhão dourado (Limnoperna fortunei) tem provocado transtornos ambientais e econômicos nas localidades onde foi introduzido. Dessa forma, o uso do seu resíduo moído como reparador da defasagem de nutrientes e de acidez em solos agrícolas pode vir a ser uma boa aplicação para esse molusco bioinvasor. Entretanto, apesar dessa ação reparadora, é necessária uma averiguação prévia da ausência de elementos potencialmente tóxicos no resíduo. Neste contexto, o presente trabalho foi realizado com o intuito de quantificar, em amostras do Limnoperna fortunei, os elementos chumbo, cádmio, alumínio, ferro e manganês, os quais dependo de suas quantidades podem ser tóxicos aos vegetais e aos demais seres vivos ao longo da cadeia alimentar. Para quantificação desses analitos foi utilizada a Espectrometria de absorção atômica com fonte contínua e de alta resolução. Foram desenvolvidos e otimizados programas de aquecimento para a determinação dos elementos traço chumbo e cádmio, empregando amostragem direta de sólidos e atomização com forno de grafite. A determinação direta de chumbo só foi possível com a utilização da calibração com o material de referência certificado para tecido de mexilhão (Mussel Tissue – 2976), empregando 5 µL da mistura 0,1% (m/v) Pd (NO3)2 + 0,05% (m/v) Mg (NO3)2 em presença de 0,05% (m/v) de Triton X-100 como modificador químico. As temperaturas de pirólise e atomização foram 1000°C e 2200°C, respectivamente. O estudo de massa permitiu a utilização de massas de am... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The golden mussel (Limnoperna fortunei) has caused environmental and economic disruption in the locations where it was introduced. Thus, the use of their ground waste as repairer of the gap of nutrients and acidity in soils may prove to be a good application for this mollusk bio invader. However, despite of this remedial action, a prior test of the absence of potentially toxic elements in the residue is required. In this context, the present study was performed in order to quantify, in samples of the Limnoperna fortunei, the elements lead, cadmium, aluminum, iron and manganese, which depending on their quantities they can be toxic to plants and other living beings throughout the food chain. To quantify these analytes was used high-resolution continuum source atomic absorption spectrometry. Heating programs were developed and optimized for the determination of lead and cadmium trace elements, using direct solid and graphite furnace atomization. The direct determination of lead was only possible with the use of calibration with certified reference material for mussel tissue (Mussel Tissue - 2976), using 5 uL of the mixture 0.1% (m/v) Pd (NO3)2 + 0.05% (w/v) Mg (NO3)2 in the presence of 0.05% (w/v) Triton X-100 as a chemical modifier. The temperatures of pyrolysis and atomization were 1000 ° C and 2200 ° C respectively. The mass study allowed the use of samples of mass within the range of 0.150 to 0.850 mg. For cadmium it was only performed calibration with standard 12.5 g/L sol... (Complete abstract click electronic access below) / Mestre Mexilhão dourado HR-CS GF AAS HR-CS FAAS Amostragem direta de sólidos Toxicidade Golden mussel Direct Solid Samples Toxicity
172	Qualidade microbiológica da água de cultivo e de mexilhões Perna perna (Linnaeus, 1758) comercializados em Ubatuba, SP. / Microbiology quality of the cultivation water and mussels Perna perna (Linnaeus, 1758) marketed in Ubatuba, SP. Juliana Antunes Galvão 25 June 2004 (has links) O consumo de moluscos bivalves pode representar sérios riscos à saúde pública, pois refletem diretamente as condições do meio ambiente. Desta forma considera-se de extrema importância o consumo de mexilhões livres de contaminação. Esta pesquisa objetivou estudar a qualidade microbiológica das águas e mexilhões de três pontos de cultivo do município de Ubatuba, SP, a saber: Engenho da Almada, Barra Seca e Costão do Cedro em um período compreendido entre novembro de 2002 e março de 2003, totalizando 5 coletas mensais. Analisou-se na água: Bacillus cereus, Clostrídios Sulfito Redutores, Aeróbios Mesófilos, Staphylococcus aureus, Coliformes totais e fecais, Enterococos e Salmonella. Nos mexilhões foram analisados os mesmos microrganismos citados para água mais o Clostridium perfringens. Os resultados encontrados tanto para as análises de água como dos mexilhões foram satisfatórios, condizentes com a legislação brasileira em vigor, salvo a coleta do mês de março, do cultivo da Barra Seca, onde a média dos valores encontrados para coliformes fecais na água (5,7x101 NMP/100mL) foi superior ao recomendado pela legislação sendo detectado também neste mesmo cultivo e mês, presença de Salmonella em 25 g nas amostras de mexilhões. Mesmo que as contagens de S. aureus e B. cereus na carne estejam de acordo com a legislação em vigor, cuidados devem ser tomados quanto ao armazenamento e a forma de consumo. Averiguou-se a intensidade de interferências sazonais na contagem microbiana na água e constatou-se que a tábua de marés e o índice de insolação diária tiveram uma correlação negativa baixa, ao contrário do índice pluviométrico que apresentou correlação positiva alta. / The consumption of bivalve mollusks can represent serious risks to the public health, because they reflect the conditions of the environment directly. This way it is considered of extreme importance the consumption of mussels without contamination. This work aims of studing the water and mussels microbiology quality from three different seafood farms in Ubatuba, SP, to know: Engenho da Almada, Barra Seca and Costão do Cedro from November 2002 to March 2003, totaling five monthly. It was analyzed in the water: Bacillus cereus, Total Clostridia, Aerobic Mesophilic, Staphylococcus aureus, total and fecal coliforms, Enterococci and Salmonella. In the mussels the same microorganisms were analyzed mentioned for water more Clostridium perfringens. The results found in the water and in the mussels were satisfactory, suitable with the Brazilian legislation, except for the sample at Barra Secas beach, in March. The average of the values found at that place for fecal coliformes in the water was higher (5,7x101 MPN/100mL) than the recommended by the legislation. Even in this collection, it was also detected Salmonella in 25 g of mussels. Even if the counts of S. aureus and B. cereus in the mussesls are in agreement with the legislation in vigor cares they should be taken with relationship to the storage and the consumption form. The intensity of seasonal interferences was discovered in the microbial count in the water, in which was verified that the board of tides and the index of daily heatstroke had a low negative correlation unlike the index pluviometric it presented high positive correlation meio ambiente aquático mexilhão microbiologia da água -qualidade mitilicultura molusco bivalve aquatic environment bivalve mollusk microbiology of the water - quality mussel
173	A Lake Divided: Regional Shifts in Trophic Niche Structure of Lake Powell Fishes Corresponding to the Invasion of Quagga Mussels St Andre, Nathan Richard 01 December 2020 (has links) Introduced species can become invasive and cause catastrophic alterations to the system they invade. Both zebra mussels (Dreissena polymorpha) and quagga mussels (Dreissena bugensis) have caused significant ecosystem alterations wherever they have invaded. These Dreissena species have caused changes in water quality and biodiversity and have disrupted energy pathways which can have cascading effects on other trophic levels. Recently quagga mussels invaded Lake Powell, a reservoir located in the southwestern USA, creating the possibility of a trophic cascade that could alter energy flow in the reservoir and change the trophic niche structure of the fishes in the lake. However, due to Lake Powell’s large size, dynamic nature, and complex hydrological structure, the effects of quagga mussels on fish species is uncertain. To determine impacts of quagga mussels on Lake Powell fishes, we quantified trophic niches of five species of sport fish over three years (2017-2019) using stable isotopes of nitrogen, δ15N, and carbon, δ13C. We test the following hypothesis: quagga mussels will cause a shift in trophic niche in more pelagic fishes such that pelagic fishes decrease in trophic position and shift toward use of more littoral energy. In addition, we compare the trophic niche of these species with a previous study on the trophic niche of fish in Lake Powell prior to full colonization of the lake by quagga mussels (2014-2015). In general, fish in the southern region of the lake exhibited a trend of decreasing δ15N suggesting decreasing trophic position and an enrichment of δ13C indicating a littoral energy shift in some species. Fish in the northern region of the lake exhibited a slight increase in trophic position and a shift towards pelagic energy across the same time period. These shifts support the hypothesis with pelagic fish experiencing a trophic niche shift, in the direction predicted, but only in the southern region of Lake Powell. Additionally, this shift is not exclusive to pelagic fish, but happened in all five species. Sediment laden input from the Colorado River may offset the impact of quagga mussels in the northern region of the lake resulting in observed regional differences. quagga mussel Colorado River system Lake Powell stable isotopes trophic niche shift fisheries invasive species Life Sciences
174	Occurrence and Concentrations of Caffeine in Seawater from the Oregon Coast and Potential Effects on the Dominant Mussel, Mytilus californianus Rodriguez del Rey, Zoe 01 January 2010 (has links) Caffeine, a biologically active drug with many known molecular targets, is recognized as a contaminant of aquatic systems including marine systems. Although the concentrations of caffeine reported from aquatic systems are low (ng/L to μ/L), harmful ecological effects not detected by traditional toxicity tests could occur as a result of caffeine contamination. The goals of this thesis project were to: 1) quantify concentrations of caffeine occurring in the coastal ocean off of the Oregon Coast and to determine if higher levels were correlated with proximity to caffeine pollution sources; and 2) investigate the sub-lethal cellular toxicity of environmentally relevant concentrations of caffeine on Mytilus californianus, an intertidal mussel that is one of the dominant species of the Oregon Coast. Caffeine was analyzed at 14 locations in the coastal ocean off of the Oregon Coast. Sampling locations were stratified between populated areas identified as having sources of caffeine pollution and sites located in sparsely populated areas not in proximity to major caffeine pollution sources. Caffeine concentrations were also measured in the major water body discharging near sampling locations. Caffeine was detected in water from the coastal ocean off of the Oregon Coast at concentrations ranging from below the reporting limit to 44.7 ng/L. The occurrence and concentrations of caffeine in the coastal ocean did not correspond well with pollution threats from population density and point and non-point sources, but did correspond with a storm event occurrence. Caffeine concentrations in rivers and estuaries draining to the coast ranged from below the reporting limit to 152.2 ng/L. Hsp70, a molecular biomarker of cellular stress, was used to investigate the sub-lethal toxicity of environmentally relevant concentrations of caffeine to the mussel M. californianus. Hsp70 concentrations in the gill and mantle tissue of mussels exposed to 0.05, 0.2, and 0.5 μ/L of caffeine for 10, 20, and 30 days were compared to basal levels in control mussels. Hsp70 in the gill tissue of M. californianus had an initial attenuation of the stress protein followed by a significant albeit moderate up-regulation relative to controls in all but the 0.5 μ/L treatment. Hsp70 in the mantle tissue of mussels exposed to caffeine did not differ from control mussels. This Study confirms the presence of caffeine in Oregon's coastal ocean and provides laboratory evidence that environmentally relevant concentrations of caffeine can exert an effect on M. californianus gill tissue at the molecular-level.
175	Metal-specific high performance liquid chromatography detection approaches for the characterization of metallothionein-like proteins from freshwater mussels High, Kim. January 1997 (has links) No description available. Biochemical markers. Liquid chromatography. Cadmium -- Absorption and adsorption. Metallothionein.
176	Exploring Levels of Genetic Variation in the Freshwater Mussel Genus Villosa (Bivalvia Unionidae) at Different Spatial and Systematic Scales: Implications for Biogeography, Taxonomy, and Conservation Kuehnl, Kody F. 29 September 2009 (has links) No description available. Animals Biology Ecology Genetics Molecular Biology Zoology phylogeography phylogenetic systematics Unionidae freshwater mussel river aquatic Villosa biogeography zoogeography
177	THE EFFECTS OF WASTEWATER TREATMENT PLANT EFFLUENT ON THE GUT MICROBIOME OF AQUATIC AND RIPARIAN INVERTEBRATES IN THE GRAND RIVER, ON Millar, Elise January 2020 (has links) The composition of gut microbes affects host weight, immune function, and disease status, and is sensitive to diet, environment, and pharmaceutical exposure. The gut microbiome modulates the toxicity and bioavailability of chemical stressors, however the effects of chemicals on the gut microbiome of aquatic biota are largely unknown. The Waterloo and Kitchener wastewater treatment plants (WWTPs) release effluents containing antibiotics, pharmaceuticals, and other contaminants into the Grand River (ON) that may negatively affect the gut microbiome of downstream organisms. In this study done in Fall 2018, I collected freshwater mussels (Lasmigona costata), several species of insect larvae, and riparian spiders (Tetragnathidae) from sites upstream and downstream of these WWTPs. The gut microbiome was analyzed following the extraction, PCR amplification, and sequencing of bacterial DNA using the V3-V4 hypervariable regions of the 16S rRNA genetic barcode. Changes in the relative abundance of major gut microbiome phyla were observed in all targeted aquatic organisms downstream of WWTPs except Hydropsychidae. Shannon alpha diversity, a measure of bacterial abundance and evenness, differed significantly among sites for mussels (one-way ANOVA: F=7.894, p=0.001), spiders (F=4.788, p=0.01), Perlidae (F=3.1, p=0.0056), Hydropsychidae (F=3.674, p=0.0014), and Heptageniidae (F=2.715, p=0.0143), but not for Baetidae and Ephemerellidae. In sites downstream of the Waterloo WWTP, alpha diversity decreased in spiders, while in sites downstream of the Kitchener WWTP diversity decreased in mussels and Perlidae, while increasing for spiders. Bray-Curtis beta diversity, a measure of dissimilarity between bacterial communities, was significantly dissimilar among sites in all invertebrate taxa (Permanova: p<0.02). Upstream sites differed from downstream Waterloo sites in spiders, Perlidae, and Hydropsychidae (Adonis pairwise: p<0.05), while upstream mussels, spiders, Perlidae, and Hydropsychidae differed from downstream Kitchener sites (p<0.05). Additionally, effluent-derived bacteria were found in the microbiomes of aquatic invertebrates downstream of the WWTPs and not upstream. Taxa was also a significant driver of bacterial composition and diversity in invertebrates. These results indicate that the gut microbiome of downstream organisms differed from the bacterial composition observed in the same invertebrate taxa upstream of the WWTPs, potentially leading to altered host health. This adds to our understanding of how chemical stressors impact the gut microbiome of aquatic and riparian biota; however, future studies are needed to investigate linkages between the gut microbiome and health of these species. / Thesis / Master of Science (MSc) microbiome macroinvertebrates wastewater treatment spider gut microbiome mussel aquatic insects Grand River effluent wastewater treatment plant bacteria
178	A Holistic Approach to Taxonomic Evaluation of Two Closely Related Endangered Freshwater Mussel Species, the Oyster Mussel (Epioblasma capsaeformis) and Tan Riffleshell (Epioblasma florentina walkeri) (Bivalvia: Unionidae) Jones, Jess W. 01 April 2004 (has links) Primers for 10 polymorphic DNA microsatellite loci were developed and characterized for the endangered oyster mussel Epioblasma capsaeformis from the Clinch River, TN. Microsatellite loci also were amplified for individuals collected from the following additional populations or species: (1) E. capsaeformis from Duck River, TN; (2) E. florentina walkeri from Indian Creek, upper Clinch River, VA; (3) E. florentina walkeri from Big South Fork Cumberland River, TN; and (4) E. torulosa rangiana from Allegheny River, PA. Allelic diversity ranged from 9-20 alleles/locus, and averaged 13.6/locus for all 5 populations investigated. Average expected heterozygosity (HE) per locus ranged from 0.78-0.92, and averaged 0.86. A genetic characterization of extant populations of E. capsaeformis and E. florentina walkeri was conducted to assess taxonomic validity and to resolve conservation issues related to recovery planning. These mussel species exhibit pronounced phenotypic variation, and are difficult to characterize phylogenetically using DNA sequences. Monophyletic lineages, congruent with phenotypic variation among species, were obtained only after extensive analysis of combined mitochondrial (1378 bp of 16S, cytochrome-b, ND1) and nuclear (515 bp of ITS-1) DNA sequences. In contrast, analysis of variation at 10 hyper variable DNA microsatellite loci showed moderate to highly divergent populations based on FST values, which ranged from 0.12-0.39. Quantitative genetic variation was observed in fish host specificity, with transformation success of glochidia of E. capsaeformis significantly greater (p<0.05) on the greenside darter Etheostoma blennioides, and that of E. f. walkeri significantly greater (p<0.05) on the fantail darter E. flabellare. Lengths of glochidia differed significantly (p<0.001) between species, with sizes ranging from 241-272 μm. Underwater photographs of mantle-pads and micro-lures of female mussels documented fixed phenotypic variation between species. The texture and color of the mantle-pad of E. capsaeformis is smooth and bluish-white, while that of E. f. walkeri is pustuled and brown, with tan mottling. Based on extensive molecular, morphological, and life history data, a population of E. capsaeformis from the Duck River, TN is described and proposed as a separate species, and a population of E. f. walkeri from the upper Clinch River, VA is described and proposed as a separate subspecies. Genetic management guidelines were developed to assess taxonomic status, genetic variation of donor-recipient populations targeted for augmentation, and field and laboratory protocols to maximize genetically effective population size, minimize genetic changes in captive-reared progeny, and prevent the release of juvenile mussels into non-native drainages. A pragmatic approach to species recovery is advocated; one that incorporates the principles of conservation genetics into breeding programs, but prioritizes the immediate demographic needs of critically endangered mussel species. / Master of Science DNA Sequences DNA Microsatellites Morphology Genetic Variation Tan Riffleshell Oyster Mussel Unionidae Fish Host Specificity Phenotype Mussels
179	Flodpärlmusslans (Margaritifera margaritifera9 effekt på öringens (Salmo trutta) rörelser, habitatval och tillväxt / The effect of the freshwater pearl mussel (Margaritifera margaritifera) on movement, habitat choice, and growth of brown trout (Salmo trutta) Freitt, Jenny January 2016 (has links) Fiskar kan drabbas av många olika parasiter tillhörande ett brett spektrum av organismgrupper. Parasiter kan påverka värdens fysiologi, morfologi och beteende, vilket kan ha negativa effekter på värden. Den starkt hotade flodpärlmusslan (Margaritifera margaritifera) parasiterar under sitt tidiga liv som glochidielarver på fiskgälar, i Sverige främst på öringen (Salmo trutta). I tidigare studier har man sett såväl negativa som inga effekter av parasiteringen på värdfisken. Syftet med min studie var att undersöka effekten av musslans parasitering på öringens rörelse, habitatval och tillväxt i Älgån i Arvika kommun, Värmland. Resultaten visade att höginfekterad öring förflyttade sig längre sträckor och hade lägre tillväxt än låginfekterad öring. Det var ingen skillnad mellan hög- och låginfekterade öringars habitatval med avseende på djup, vattenhastighet eller substrat. Sammanfattningsvis kan höginfekterade öringar ha högre mortalitetsrisk än låginfekterade, lägre tillväxt och sämre konkurrensförmåga, vilket kan ha negativa konsekvenser för musslans rekryteringsframgång. / Fish are affected by various parasites, belonging to many different taxonomic groups. Parasites can affect the host’s physiology, morphology, and behaviour, which may have negative effects for the host. The critically endangered freshwater pearl mussel (Margaritifera margaritifera) lives parasitically as glochidia larvae on the gills of fish, and in Sweden this occurs mainly in the gills of brown trout (Salmo trutta). During their parasitic stage, which lasts for almost one year, the mussel grows up to four or five times their initial size. Previous studies have reported both negative and no effects of the parasite on the host fish. The aim of my study was to analyse the effect of the freshwater pearl mussel parasitation on the brown trout’s movement, habitat choice, and growth in the stream Älgån in Arvika municipalty, Värmland. The results show that highly infected brown trout moved greater distances and had lower growth than less infected trout. There was no difference in habitat choice in terms of depth, velocity, or substrate between high or low infected trout. In summary, highly infected trout may have high energy costs, low growth, and poor competitive ability, which can have negative consequences for the mussel’s recruitment. Freshwater pearl mussel brown trout parasitism glochidia larvae effect movement habitat choice growth rate Flodpärlmussla öring parasitism glochidielarver effekt rörelser habitatval tillväxt
180	The Invasion of the Zebra Mussel - Effects on Phytoplankton Community Structure and Ecosystem Function Naddafi, Rahmat January 2007 (has links) Biological invasion has become a major threat to economy, ecology, global biodiversity and ecosystem function of aquatic ecosystems. The main aim of the thesis was to study the effects of the zebra mussel (Dreissena polymorpha), a versatile invasive species, on phytoplankton dynamics and ecosystem function of lakes. In a first attempt, I compared the density of Dreissena and the physicochemical data of ecosystems that it invaded among North American and European lakes to identify important factors in its invasion success. Secondly, I investigated the impact of zebra mussels on phytoplankton community composition in a natural lake. Thirdly, I evaluated whether zebra mussel feeding behavior were affected by the presence of predatory waterborne cues. Finally, I examined the effect of Dreissena on seston stoichiometry. A Generalized Additive Model revealed that a joint effect of surface area, mean depth, total phosphorus and calcium concentrations can explain the variability in Dreissena density. Selective grazing by zebra mussels varied in relation to seasonal phytoplankton dynamics. Risk cues released by predators affected both feeding rate and prey selection of the mussels and had cascading indirect effects on phytoplankton biomass and community structure. I found that the flux in nutrients caused by differences in zebra mussel consumption lead to a variation in phytoplankton nutrient limitation. The flexibility of zebra mussel feeding behavior and variation in susceptibility among phytoplankton groups to mussel ingestion indicate that invading zebra mussels could alter phytoplankton community composition of lakes and have important ecosystem consequences. The results of this thesis contribute to the growing evidence that predators indirectly affect resource dynamics and food web structure through their non-lethal effects on consumers. The results suggested that zebra mussel can indirectly both reduce and increase the energy transfer efficiency from primary producers to upper trophic levels in the pelagic and benthic food webs, respectively. Invasive species Zebra mussel Invasion success Selective feeding Non-lethal effects of predator Seston stoichiometry Phytoplankton dynamics Trait-mediated indirect interaction Ecosystem function

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